- published: 24 Dec 2013
- views: 23182
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EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent
When we're born we usually inherit our father's surname but we also inherit a rather unique type of DNA from our mothers -- mitochondrial DNA. Aoife McLysaght explains how this special genetic link can be traced back to the origins of humans, and tells the story of the remarkable female scientist who figured out where our mitochondria came from in the first place.
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/
Download the study materials here-
http://shomusbiology.com/bio-materials.html
Remember Shomu’s Biology is created to spread the knowledge of life science and biology by sharing all this free biology lectures video and animation presented by Suman Bhattacharjee in YouTube. All these tutorials are brought to you for free. Please subscribe to our channel so that we can grow together. You can check for any of the following services from Shomu’s Biology-
Buy Shomu’s Biology lecture DVD set- www.shomusbiology.com/dvd-store
Shomu’s Biology assignment services – www.shomusbiology.com/assignment -help
Join Online coaching for CSIR NET exam – www.shomusbiology.com/net-coaching
We are social. Find us on different sites here-
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Thank you for watching
Mitochondrial DNA (mtDNA or mDNA[2]) is the DNA located in organelles called mitochondria, structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use, adenosine triphosphate (ATP). Most other DNA present in eukaryotic organisms is found in the cell nucleus.
Mitochondrial DNA can be regarded as the smallest chromosome coding for only 37 genes and containing only 16,569 base pairs. Human mitochondrial DNA was the first significant part of the human genome to be sequenced. In most species, including humans, mtDNA is inherited solely from the mother.[3]
The DNA sequence of mtDNA has been determined from a large number of organisms and individuals (including some organisms that are extinct), and the comparison of those DNA sequences represents a mainstay of phylogenetics, in that it allows biologists to elucidate the evolutionary relationships among species. It also permits an examination of the relatedness of populations, and so has become important in anthropology and field biology. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
- published: 25 Dec 2012
- views: 14403
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high-throughput sequencing is helping us realize the power of mitochondrial DNA heteroplasmy — ultimately leading to the solving of more crimes. Used to identify the remains of Tsar Nicholas Romanov II, you’ll see how MtDNA heteroplasmy can now be used to routinely, detect, resolve and report using NGS technology, benefitting the forensics community for years to come.
Subscribe to Illumina: http://bit.ly/IlluminaYouTube
Links:
Mitch Holland at Penn State, Eberly College of Science, Forensic Science –
http://forensics.psu.edu/research/dr.-mitchell-holland
Penn State University
www.psu.edu
For more info on applications in forensics –
http://www.illumina.com/areas-of-interest/forensic-genomics.html
For more info on applications in other areas
http://www.illumina.com/science/publications/publications-review.html
See all our Adventures in Genomics videos:
https://www.youtube.com/playlist?list=PLKRu7cmBQlah8wHBByBXEO0dNW-xNvvX_
http://www.Illumina.com
- published: 18 Feb 2016
- views: 9
Could maternally inherited DNA gather harmful mutations that only affect men?
Facebook: https://www.facebook.com/BiteSciZed
Twitter: https://twitter.com/AlexDainis
Check back every Monday for a new Bite Sci-zed chunk of science!
Sources:
http://ghr.nlm.nih.gov/chromosome/MT
http://ghr.nlm.nih.gov/handbook/basics/mtdna
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC350359/
http://www.sciencedaily.com/releases/2001/09/010907080527.htm
Mitochondria, Maternal Inheritance, and Male Aging:
http://www.cell.com/current-biology/abstract/S0960-9822%2812%2900809-3
Health conditions related to mitochondrial DNA mutations:
http://ghr.nlm.nih.gov/chromosome/MT
- published: 10 Dec 2012
- views: 16527
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern.
http://shomusbiology.weebly.com/
Download the study materials here-
http://shomusbiology.weebly.com/bio-materials.html
In most multicellular organisms, mtDNA is inherited from the mother (maternally inherited). Mechanisms for this include simple dilution (an egg contains 100,000 to 1,000,000 mtDNA molecules, whereas a sperm contains only 100 to 1000), degradation of sperm mtDNA in the fertilized egg, and, at least in a few organisms, failure of sperm mtDNA to enter the egg. Whatever the mechanism, this single parent (uniparental) pattern of mtDNA inheritance is found in most animals, most plants and in fungi as well.
Female inheritance
In sexual reproduction, mitochondria are normally inherited exclusively from the mother. The mitochondria in mammalian sperm are usually destroyed by the egg cell after fertilization. Also, most mitochondria are present at the base of the sperm's tail, which is used for propelling the sperm cells. Sometimes the tail is lost during fertilization. In 1999 it was reported that paternal sperm mitochondria (containing mtDNA) are marked with ubiquitin to select them for later destruction inside the embryo.[5] Some in vitro fertilization techniques, particularly injecting a sperm into an oocyte, may interfere with this.
The fact that mitochondrial DNA is maternally inherited enables researchers to trace maternal lineage far back in time. (Y-chromosomal DNA, paternally inherited, is used in an analogous way to trace the agnate lineage.) This is accomplished on human mitochondrial DNA by sequencing one or more of the hypervariable control regions (HVR1 or HVR2) of the mitochondrial DNA, as with a genealogical DNA test. HVR1 consists of about 440 base pairs. These 440 base pairs are then compared to the control regions of other individuals (either specific people or subjects in a database) to determine maternal lineage. Most often, the comparison is made to the revised Cambridge Reference Sequence. Vilà et al. have published studies tracing the matrilineal descent of domestic dogs to wolves.[6] The concept of the Mitochondrial Eve is based on the same type of analysis, attempting to discover the origin of humanity by tracking the lineage back in time.
Because mtDNA is not highly conserved and has a rapid mutation rate, it is useful for studying the evolutionary relationships - phylogeny - of organisms. Biologists can determine and then compare mtDNA sequences among different species and use the comparisons to build an evolutionary tree for the species examined.
Because mtDNA is transmitted from mother to child (both male and female), it can be a useful tool in genealogical research into a person's maternal line.
Male inheritance
Main article: Paternal mtDNA transmission
It has been reported that mitochondria can occasionally be inherited from the father in some species such as mussels.[7][8] Paternally inherited mitochondria have additionally been reported in some insects such as fruit flies,[9] honeybees,[10] and periodical cicadas.[11]
Evidence supports rare instances of male mitochondrial inheritance in some mammals as well. Specifically, documented occurrences exist for mice,[12][13] where the male-inherited mitochondria was subsequently rejected. It has also been found in sheep,[14] and in cloned cattle.[15] It has been found in a single case in a human male.[16]
While many of these cases involve cloned embryos or subsequent rejection of the paternal mitochondria, others document in vivo inheritance and persistence under lab conditions. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
- published: 25 Dec 2012
- views: 12117
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during human history. Find out more: http://www.britainsdna.com/dna/mitochondrial-dna
- published: 07 Mar 2014
- views: 1485
http://nuedutainment.webs.com/
Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the power centers of the cell. They are about the size of bacteria but may have different shapes depending on the cell type.
Mitochondria are membrane-bound organelles, and like the nucleus have a double membrane. The outer membrane is fairly smooth. But the inner membrane is highly convoluted, forming folds called cristae. The cristae greatly increase the inner membrane's surface area. It is on these cristae that food (sugar) is combined with oxygen to produce ATP - the primary energy source for the cell.
- published: 15 May 2011
- views: 5079
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their deleterious effects. Dr. de Grey opens his lecture by describing the structure of mitochondrial DNA (mtDNA) in humans. In particular, he explains that only thirteen protein-encoding mitochondrial genes actually reside in mitochondria. Throughout the course of human evolution, over a thousand other mitochondrial genes have migrated to the nuclear genome. Next, he explains the major theories developed between the 1970 and the present that aimed to explain the role of mtDNA mutations in aging. During his discussion of the most recent theoretical ground, Dr. de Grey explains his own contribution to the field: an alternative hypothesis to explain how clonal expansion of mutant mitochondria might occur. He then turns to therapeutic strategies and discusses the three main mechanisms by which scientists might intervene in mitochondrial aging. Dr. de Grey closes by describing the mechanism SRF finds most promising: inserting the thirteen protein-encoding mitochondrial genes into the nucleus modified in such a way that the corresponding RNA transcripts or protein-products can be imported into the mitochondria.
Visit www.sens.org/videos to view the rest of our course lecture videos.
- published: 11 Dec 2013
- views: 8891
Mitochondrial DNA (mtDNA or mDNA) is the DNA located in organelles called mitochondria, structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use, adenosine triphosphate (ATP). Most other DNA present in eukaryotic organisms is found in the cell nucleus.
Mitochondrial DNA can be regarded as the smallest chromosome, and was the first significant part of the human genome to be sequenced. In most species, including humans, mtDNA is inherited solely from the mother.
The DNA sequence of mtDNA has been determined from a large number of organisms and individuals (including some organisms that are extinct), and the comparison of those DNA sequences represents a mainstay of phylogenetics, in that it allows biologists to elucidate the evolutionary relationships among species. It also permits an examination of the relatedness of populations, and so has become important in anthropology and field biology.
Nuclear and mitochondrial DNA are thought to be of separate evolutionary origin, with the mtDNA being derived from the circular genomes of the bacteria that were engulfed by the early ancestors of today's eukaryotic cells. This theory is called the endosymbiotic theory. Each mitochondrion is estimated to contain 2-10 mtDNA copies. In the cells of extant organisms, the vast majority of the proteins present in the mitochondria (numbering approximately 1500 different types in mammals) are coded for by nuclear DNA, but the genes for some of them, if not most, are thought to have originally been of bacterial origin, having since been transferred to the eukaryotic nucleus during evolution.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Mitochondrial_DNA
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Aubrey David Nicholas Jasper de Grey (born 20 April 1963) is an English author and theoretician in the field of gerontology, and the Chief Science Officer of the SENS Foundation. He is editor-in-chief of the academic journal Rejuvenation Research, author of The Mitochondrial Free Radical Theory of Aging (1999) and co-author of Ending Aging (2007). He is perhaps best known for his view that human beings could, in theory, live to lifespans far in excess of that which any authenticated cases have lived to today.
De Grey's research focuses on whether regenerative medicine can thwart the aging process. He works on the development of what he calls "Strategies for Engineered Negligible Senescence" (SENS), a tissue-repair strategy intended to rejuvenate the human body and allow an indefinite lifespan. To this end, he has identified seven types of molecular and cellular damage caused by essential metabolic processes. SENS is a proposed panel of therapies designed to repair this damage.
De Grey is a fellow of the Gerontological Society of America, the American Aging Association, the Institute for Ethics and Emerging Technologies, and an advisor to the Singularity Institute for Artificial Intelligence. He has been interviewed in recent years in a number of news sources, including CBS 60 Minutes, the BBC, The New York Times, Fortune Magazine, The Washington Post, TED, Popular Science, The Colbert Report, Time, and the Skeptics' Guide to the Universe.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Aubrey_de_Grey
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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4:37Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNAChromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent When we're born we usually inherit our father's surname but we also inherit a rather unique type of DNA from our mothers -- mitochondrial DNA. Aoife McLysaght explains how this special genetic link can be traced back to the origins of humans, and tells the story of the remarkable female scientist who figured out where our mitochondria came from in the first place. -
1:04Mitochondrial DNA
Mitochondrial DNA -
7:58Mitochondrial DNA
Mitochondrial DNAMitochondrial DNA
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/ Download the study materials here- http://shomusbiology.com/bio-materials.html Remember Shomu’s Biology is created to spread the knowledge of life science and biology by sharing all this free biology lectures video and animation presented by Suman Bhattacharjee in YouTube. All these tutorials are brought to you for free. Please subscribe to our channel so that we can grow together. You can check for any of the following services from Shomu’s Biology- Buy Shomu’s Biology lecture DVD set- www.shomusbiology.com/dvd-store Shomu’s Biology assignment services – www.shomusbiology.com/assignment -help Join Online coaching for CSIR NET exam – www.shomusbiology.com/net-coaching We are social. Find us on different sites here- Our Website – www.shomusbiology.com Facebook page- https://www.facebook.com/ShomusBiology/ Twitter - https://twitter.com/shomusbiology SlideShare- www.slideshare.net/shomusbiology Google plus- https://plus.google.com/113648584982732129198 LinkedIn - https://www.linkedin.com/in/suman-bhattacharjee-2a051661 Youtube- https://www.youtube.com/user/TheFunsuman Thank you for watching Mitochondrial DNA (mtDNA or mDNA[2]) is the DNA located in organelles called mitochondria, structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use, adenosine triphosphate (ATP). Most other DNA present in eukaryotic organisms is found in the cell nucleus. Mitochondrial DNA can be regarded as the smallest chromosome coding for only 37 genes and containing only 16,569 base pairs. Human mitochondrial DNA was the first significant part of the human genome to be sequenced. In most species, including humans, mtDNA is inherited solely from the mother.[3] The DNA sequence of mtDNA has been determined from a large number of organisms and individuals (including some organisms that are extinct), and the comparison of those DNA sequences represents a mainstay of phylogenetics, in that it allows biologists to elucidate the evolutionary relationships among species. It also permits an examination of the relatedness of populations, and so has become important in anthropology and field biology. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia. Link- http://en.wikipedia.org/wiki/Main_Page -
0:43Mitochondrial DNA
Mitochondrial DNAMitochondrial DNA
mitochondrial DNA -
3:09Mitochondrial DNA
Mitochondrial DNAMitochondrial DNA
-
6:12The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
The Power of Mitochondrial DNA Heteroplasmy - Adventures in GenomicsThe Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high-throughput sequencing is helping us realize the power of mitochondrial DNA heteroplasmy — ultimately leading to the solving of more crimes. Used to identify the remains of Tsar Nicholas Romanov II, you’ll see how MtDNA heteroplasmy can now be used to routinely, detect, resolve and report using NGS technology, benefitting the forensics community for years to come. Subscribe to Illumina: http://bit.ly/IlluminaYouTube Links: Mitch Holland at Penn State, Eberly College of Science, Forensic Science – http://forensics.psu.edu/research/dr.-mitchell-holland Penn State University www.psu.edu For more info on applications in forensics – http://www.illumina.com/areas-of-interest/forensic-genomics.html For more info on applications in other areas http://www.illumina.com/science/publications/publications-review.html See all our Adventures in Genomics videos: https://www.youtube.com/playlist?list=PLKRu7cmBQlah8wHBByBXEO0dNW-xNvvX_ http://www.Illumina.com -
2:05What is Mitochondrial DNA?
What is Mitochondrial DNA? -
4:55Mitochondrial DNA: Bite Sci-zed
Mitochondrial DNA: Bite Sci-zedMitochondrial DNA: Bite Sci-zed
Could maternally inherited DNA gather harmful mutations that only affect men? Facebook: https://www.facebook.com/BiteSciZed Twitter: https://twitter.com/AlexDainis Check back every Monday for a new Bite Sci-zed chunk of science! Sources: http://ghr.nlm.nih.gov/chromosome/MT http://ghr.nlm.nih.gov/handbook/basics/mtdna http://www.ncbi.nlm.nih.gov/pmc/articles/PMC350359/ http://www.sciencedaily.com/releases/2001/09/010907080527.htm Mitochondria, Maternal Inheritance, and Male Aging: http://www.cell.com/current-biology/abstract/S0960-9822%2812%2900809-3 Health conditions related to mitochondrial DNA mutations: http://ghr.nlm.nih.gov/chromosome/MT -
5:43Mitochondrial DNA inheritance pattern
Mitochondrial DNA inheritance patternMitochondrial DNA inheritance pattern
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern. http://shomusbiology.weebly.com/ Download the study materials here- http://shomusbiology.weebly.com/bio-materials.html In most multicellular organisms, mtDNA is inherited from the mother (maternally inherited). Mechanisms for this include simple dilution (an egg contains 100,000 to 1,000,000 mtDNA molecules, whereas a sperm contains only 100 to 1000), degradation of sperm mtDNA in the fertilized egg, and, at least in a few organisms, failure of sperm mtDNA to enter the egg. Whatever the mechanism, this single parent (uniparental) pattern of mtDNA inheritance is found in most animals, most plants and in fungi as well. Female inheritance In sexual reproduction, mitochondria are normally inherited exclusively from the mother. The mitochondria in mammalian sperm are usually destroyed by the egg cell after fertilization. Also, most mitochondria are present at the base of the sperm's tail, which is used for propelling the sperm cells. Sometimes the tail is lost during fertilization. In 1999 it was reported that paternal sperm mitochondria (containing mtDNA) are marked with ubiquitin to select them for later destruction inside the embryo.[5] Some in vitro fertilization techniques, particularly injecting a sperm into an oocyte, may interfere with this. The fact that mitochondrial DNA is maternally inherited enables researchers to trace maternal lineage far back in time. (Y-chromosomal DNA, paternally inherited, is used in an analogous way to trace the agnate lineage.) This is accomplished on human mitochondrial DNA by sequencing one or more of the hypervariable control regions (HVR1 or HVR2) of the mitochondrial DNA, as with a genealogical DNA test. HVR1 consists of about 440 base pairs. These 440 base pairs are then compared to the control regions of other individuals (either specific people or subjects in a database) to determine maternal lineage. Most often, the comparison is made to the revised Cambridge Reference Sequence. Vilà et al. have published studies tracing the matrilineal descent of domestic dogs to wolves.[6] The concept of the Mitochondrial Eve is based on the same type of analysis, attempting to discover the origin of humanity by tracking the lineage back in time. Because mtDNA is not highly conserved and has a rapid mutation rate, it is useful for studying the evolutionary relationships - phylogeny - of organisms. Biologists can determine and then compare mtDNA sequences among different species and use the comparisons to build an evolutionary tree for the species examined. Because mtDNA is transmitted from mother to child (both male and female), it can be a useful tool in genealogical research into a person's maternal line. Male inheritance Main article: Paternal mtDNA transmission It has been reported that mitochondria can occasionally be inherited from the father in some species such as mussels.[7][8] Paternally inherited mitochondria have additionally been reported in some insects such as fruit flies,[9] honeybees,[10] and periodical cicadas.[11] Evidence supports rare instances of male mitochondrial inheritance in some mammals as well. Specifically, documented occurrences exist for mice,[12][13] where the male-inherited mitochondria was subsequently rejected. It has also been found in sheep,[14] and in cloned cattle.[15] It has been found in a single case in a human male.[16] While many of these cases involve cloned embryos or subsequent rejection of the paternal mitochondria, others document in vivo inheritance and persistence under lab conditions. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia. Link- http://en.wikipedia.org/wiki/Main_Page -
4:53Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNAGenetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during human history. Find out more: http://www.britainsdna.com/dna/mitochondrial-dna -
5:23MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCEMITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
http://nuedutainment.webs.com/ Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the power centers of the cell. They are about the size of bacteria but may have different shapes depending on the cell type. Mitochondria are membrane-bound organelles, and like the nucleus have a double membrane. The outer membrane is fairly smooth. But the inner membrane is highly convoluted, forming folds called cristae. The cristae greatly increase the inner membrane's surface area. It is on these cristae that food (sugar) is combined with oxygen to produce ATP - the primary energy source for the cell. -
50:20Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
Mitochondrial Mutations in Aging - Dr. Aubrey de GreyMitochondrial Mutations in Aging - Dr. Aubrey de Grey
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their deleterious effects. Dr. de Grey opens his lecture by describing the structure of mitochondrial DNA (mtDNA) in humans. In particular, he explains that only thirteen protein-encoding mitochondrial genes actually reside in mitochondria. Throughout the course of human evolution, over a thousand other mitochondrial genes have migrated to the nuclear genome. Next, he explains the major theories developed between the 1970 and the present that aimed to explain the role of mtDNA mutations in aging. During his discussion of the most recent theoretical ground, Dr. de Grey explains his own contribution to the field: an alternative hypothesis to explain how clonal expansion of mutant mitochondria might occur. He then turns to therapeutic strategies and discusses the three main mechanisms by which scientists might intervene in mitochondrial aging. Dr. de Grey closes by describing the mechanism SRF finds most promising: inserting the thirteen protein-encoding mitochondrial genes into the nucleus modified in such a way that the corresponding RNA transcripts or protein-products can be imported into the mitochondria. Visit www.sens.org/videos to view the rest of our course lecture videos. -
10:28Mitochondrial DNA & The Sumerians
Mitochondrial DNA & The SumeriansMitochondrial DNA & The Sumerians
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fairy secretive field of science and medicine today. The first civilization. The most important thing in understanding our true history and advancement. And we, in general, know almost absolutely no thing about them. Could there be something there that the few have decided we, the many, aren't worthy to know? Or would this knowledge simply level the playing field? My money is going on leveling the field. -
64:37Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
Air date: Wednesday, March 21, 2012, 3:00:00 PM Time displayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: The Greek myth of the giant Prometheus stealing fire from the Olympian gods and giving it to humans, and the gods' "Trojan horse" gift to Prometheus of the beautiful but incorrigibly curious Pandora neatly symbolizes the symbiotic origin of mitochondrial DNA (mtDNA) and its role in human health and pathology (including aging). I will review our relatively recent awareness of mtDNA and our even more recent discovery of its important role in human pathology. The first two pathogenic mutations in mtDNA were reported in 1988: 24 years later, over 200 point mutations and innumerable deletions have been associated with an extraordinary variety of human disorders, most of them multisystemic ("mitochondrial encephalomyopathies") but some tissue-specific (for example, mitochondrial myopathies). After a brief reminder of the unique rules of mitochondrial genetics, I will propose a genetic classification of the mitochondrial disorders and provide examples of different mtDNA-related diseases. As a myologist by training, I feel obliged to stress the importance of the muscle biopsy in our diagnostic approach to mitochondrial diseases. As mtDNA mutations are so common, it is important to recognize which are pathogenic and which are neutral polymorphisms. I will, therefore, review and provide examples of the "canonical" criteria of mtDNA pathogenicity, including heteroplasmy, single fiber PCR, and the cybrid technology. In 2000, I wrote a review titled "Mutations in mtDNA: are we scraping the bottom of the barrel?" (Brain Pathology 2000:10:431-441). I will proceed to show that we are far from scratching the bottom of the barrel. We are still debating the frequency of mtDNA-related disorders; novel mutations or novel clinical phenotypes are still being reported at a brisk pace; the role of homoplasmic pathogenic mutations is not yet fully understood; similarly, the modulating role of mtDNA haplotypes is still being described; and -- importantly -- the pathogenic mechanism of mtDNA mutations is not yet understood (in other words, we still do not understand why MELAS differs from MERRF when both syndromes are due to mutations in mtDNA tRNA genes). It has been aptly said that mtDNA is the slave of nuclear DNA (nDNA), in that, in the course of the millennia, mtDNA has lost most of its original autonomy and now depends heavily on nuclear DNA for its basic functions, including replication and maintenance. Thus, besides disorders (reviewed above) due to "primary" mtDNA mutations, there are many disorders due to mutations in nuclear genes controlling mtDNA replication (mtDNA depletion syndromes), mtDNA maintenance (multiple mtDNA deletions syndromes) or mtDNA translation. These "indirect hits" (defects of intergenomic communication) are transmitted as mendelian traits but have genetic features that overlap with mitochondrial genetics. Thanks to new generation mitoexome sequencing, the neat subdivision between mtDNA depletion and multiple mtDNA syndromes is crumbling, as mutations in the same genes (usually involved with the homeostasis of the mitochondrial nucleotide pool) can impair either mtDNA replication or maintenance (or both). In a provocative article, the late Anita Harding wondered whether normal aging wasn't the most common mitochondrial disease of them all. There is considerable evidence that this is true and largely due to spontaneous accumulations of mtDNA deletions in postmitotic tissues. Finally, although I don't have the time to review therapeutic strategies, I will consider a potentially preventive approach to mtDNA-related diseases, namely cytoplasmic transfer. Although successful in primates and 2in preliminary experiments with defective human oocytes, this therapeutic modality requires careful ethical screening. The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide. For more information, visit: The NIH Director's Wednesday Afternoon Lecture Series Author: Dr. Salvatore DiMauro, Columbia University Medical Center Runtime: 01:04:37 Permanent link: http://videocast.nih.gov/launch.asp?17182
- Adenylate kinase
- Agnate
- Alanine
- ALDH2
- Aldosterone synthase
- Alexandra of Denmark
- Anthropology
- Antisense RNA
- Arginine
- Asparagine
- Aspartic acid
- ATP synthase
- ATP synthase chain A
- Austria
- Bacteria
- Base pair
- Biochemistry
- Blastocyst
- BMC Biol.
- Bryan Sykes
- Cell nucleus
- Cell signaling
- Chloroplast DNA
- Chromosome
- Ciliate
- Circular DNA
- Citrate synthase
- Citric acid cycle
- Cloning vector
- Cnidaria
- Complementary DNA
- CORR Hypothesis
- Cosmid
- Creatine kinase
- Cucumis sativus
- Cysteine
- Cytochrome b
- Cytochrome c
- Cytochrome c oxidase
- Deoxynucleotides
- DNA
- DNA polymerase
- DNA repair
- Electron microscope
- Embryo
- Embryogenesis
- Endosymbiotic theory
- Eukaryotic
- Evolution
- Evolutionary
- Evolutionary tree
- Exercise intolerance
- Fosmid
- Frataxin
- Fumarase
- GDNA
- Genetic genealogy
- Glutamic acid
- Glutamine
- Glycine
- Glycol nucleic acid
- Gottfried Schatz
- Green alga
- Guide RNA
- Hans Tuppy
- Haplogroup
- Heteroplasmy
- Histidine
- Human
- Human genome
- In vitro
- In vivo
- Inner cell mass
- Isoleucine
- Jesse James
- Kynureninase
- Lambda phage
- Leucine
- Locked nucleic acid
- Lysine
- Magicicada
- Malate dehydrogenase
- Mammal
- Matrilineage
- Matrilineality
- Medical faculty
- Messenger RNA
- Metazoans
- Methionine
- MicroRNA
- Missing person
- Mitochondria
- Mitochondrial DNA
- Mitochondrial Eve
- Mitochondrial matrix
- Mitochondrion
- Molecule
- Monoamine oxidase
- Morpholino
- MT-ATP6
- MT-ATP8
- MT-CO1
- MT-CO2
- MT-CO3
- MT-CYB
- MT-ND1
- MT-ND2
- MT-ND3
- MT-ND4
- MT-ND4L
- MT-ND5
- MT-ND6
- MT-RNR1
- MT-RNR2
- MT-TA
- MT-TC
- MT-TD
- MT-TE
- MT-TF
- MT-TG
- MT-TH
- MT-TI
- MT-TK
- MT-TL1
- MT-TL2
- MT-TM
- MT-TN
- MT-TP
- MT-TQ
- MT-TR
- MT-TS1
- MT-TS2
- MT-TT
- MT-TW
- MT-TY
- Mussel
- Mutation rate
- NADH dehydrogenase
- Nature (journal)
- Non-coding RNA
- Nuclear DNA
- Nucleic acid
- Nucleobases
- Nucleosides
- Nucleotides
- Oocyte
- Organelles
- Pathogen
- Peptide nucleic acid
- Phagemid
- Phenylalanine
- Phylogenetics
- Phylogeny
- Piwi-interacting RNA
- Plasmid
- PMPCB
- POLG
- POLG2
- Precursor mRNA
- Proline
- Prostate biopsy
- PubMed Central
- PubMed Identifier
- Replication
- Respiratory chain
- Ribosomal RNA
- RNA
- RNA interference
- RRNA
- Science (journal)
- Serine
- Sexual reproduction
- Single origin theory
- Small hairpin RNA
- Small nuclear RNA
- Small nucleolar RNA
- Small temporal RNA
- Sperm
- Spermatozoon
- Steroidogenesis
- Subgenomic RNA
- Sutherland RNA
- Telomer
- Telomerase
- Template Alcohols
- Template AminoAcids
- Template Centrosome
- Template Eicosanoids
- Template Fatty acids
- Template Glycosides
- Template Lipids
- Template Metabolism
- Template Nucleus
- Tetrahymena
- Threonine
- Threose nucleic acid
- TIM TOM Complex
- Trans-acting siRNA
- Transfer RNA
- TRNA
- Trophectoderm
- Tryptophan
- Tyrosine
- Ubiquitin
- Uncoupling protein
- United States
- University of Vienna
- Urea cycle
- Valine
- Vienna
- Wellcome Trust
- Y chromosome
-
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent When we're born we usually inherit our father's surname but we also inherit a rather unique type of DNA from our mothers -- mitochondrial DNA. Aoife McLysaght explains how this special genetic link can be traced back to the origins of humans, and tells the story of the remarkable female scientist who figured out where our mitochondria came from in the first place. -
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Mitochondrial DNA
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/ Download the study materials here- http://shomusbiology.com/bio-materials.html Remember Shomu’s Biology is created to spread the knowledge of life science and biology by sharing all this free biology lectures video and animation presented by Suman Bhattacharjee in YouTube. All these tutorials are brought to you for free. Please subscribe to our channel so that we can grow together. You can check for any of the following services from Shomu’s Biology- Buy Shomu’s Biology lecture DVD set- www.shomusbiology.com/dvd-store Shomu’s Biology assignment services – www.shomusbiology.com/assignment -help Join Online coaching for CSIR NET exam – www.shomusbiology.com/net-coaching We are s... -
Mitochondrial DNA
mitochondrial DNA -
Mitochondrial DNA
-
The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high-throughput sequencing is helping us realize the power of mitochondrial DNA heteroplasmy — ultimately leading to the solving of more crimes. Used to identify the remains of Tsar Nicholas Romanov II, you’ll see how MtDNA heteroplasmy can now be used to routinely, detect, resolve and report using NGS technology, benefitting the forensics community for years to come. Subscribe to Illumina: http://bit.ly/IlluminaYouTube Links: Mitch Holland at Penn State, Eberly College of Science, Forensic Science – http://forensics.psu.edu/research/dr.-mitchell-holland Penn State University www.psu.edu For more info on applications in forensics –... -
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Mitochondrial DNA: Bite Sci-zed
Could maternally inherited DNA gather harmful mutations that only affect men? Facebook: https://www.facebook.com/BiteSciZed Twitter: https://twitter.com/AlexDainis Check back every Monday for a new Bite Sci-zed chunk of science! Sources: http://ghr.nlm.nih.gov/chromosome/MT http://ghr.nlm.nih.gov/handbook/basics/mtdna http://www.ncbi.nlm.nih.gov/pmc/articles/PMC350359/ http://www.sciencedaily.com/releases/2001/09/010907080527.htm Mitochondria, Maternal Inheritance, and Male Aging: http://www.cell.com/current-biology/abstract/S0960-9822%2812%2900809-3 Health conditions related to mitochondrial DNA mutations: http://ghr.nlm.nih.gov/chromosome/MT -
Mitochondrial DNA inheritance pattern
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern. http://shomusbiology.weebly.com/ Download the study materials here- http://shomusbiology.weebly.com/bio-materials.html In most multicellular organisms, mtDNA is inherited from the mother (maternally inherited). Mechanisms for this include simple dilution (an egg contains 100,000 to 1,000,000 mtDNA molecules, whereas a sperm contains only 100 to 1000), degradation of sperm mtDNA in the fertilized egg, and, at least in a few organisms, failure of sperm mtDNA to enter the egg. Whatever the mechanism, this single parent (uniparental) pattern of mtDNA inheritance is found in most animals, most plants and in fungi as well. Female inheritance In sexual reproduction, mitochondri... -
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during human history. Find out more: http://www.britainsdna.com/dna/mitochondrial-dna -
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
http://nuedutainment.webs.com/ Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the power centers of the cell. They are about the size of bacteria but may have different shapes depending on the cell type. Mitochondria are membrane-bound organelles, and like the nucleus have a double membrane. The outer membrane is fairly smooth. But the inner membrane is highly convoluted, forming folds called cristae. The cristae greatly increase the inner membrane's surface area. It is on these cristae that food (sugar) is combined with oxygen to produce ATP - the primary energy source for the cell. -
Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their deleterious effects. Dr. de Grey opens his lecture by describing the structure of mitochondrial DNA (mtDNA) in humans. In particular, he explains that only thirteen protein-encoding mitochondrial genes actually reside in mitochondria. Throughout the course of human evolution, over a thousand other mitochondrial genes have migrated to the nuclear genome. Next, he explains the major theories developed between the 1970 and the present that aimed to explain the role of mtDNA mutations in aging. During his discussion of the most recent theoretical ground, Dr. de Grey explains his own contribution to the field: an alternative hypothesis to ... -
Mitochondrial DNA & The Sumerians
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fairy secretive field of science and medicine today. The first civilization. The most important thing in understanding our true history and advancement. And we, in general, know almost absolutely no thing about them. Could there be something there that the few have decided we, the many, aren't worthy to know? Or would this knowledge simply level the playing field? My money is going on leveling the field. -
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
Air date: Wednesday, March 21, 2012, 3:00:00 PM Time displayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: The Greek myth of the giant Prometheus stealing fire from the Olympian gods and giving it to humans, and the gods' "Trojan horse" gift to Prometheus of the beautiful but incorrigibly curious Pandora neatly symbolizes the symbiotic origin of mitochondrial DNA (mtDNA) and its role in human health and pathology (including aging). I will review our relatively recent awareness of mtDNA and our even more recent discovery of its important role in human pathology. The first two pathogenic mutations in mtDNA were reported in 1988: 24 years later, over 200 point mutations and innumerable deletions have been associated with an extraor... -
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Mitochondrial DNA Anomalies and Nuclear Transplant
This video reviews some basic history and evolution pertaining to mitochondrial development and mitochondrial DNA structure compared to nuclear DNA. A brief review of mitochondrial inheritance is present as well as likely points of mitochondrial genetic mutation. Nuclear transplant, as a procedure, is reviewed and explained (on a basic level) and the implications of such genetic procedures are mentioned. -
Making a Baby With Three Parents
In hopes of preventing a host of serious diseases potentially passed on to a child by a mother with mitochondrial mutations, scientists are pursuing mitochondrial transfer or mitochondrial replacement therapy. Because it involves combining mitochondrial DNA from a healthy mother with nuclear DNA from two parents, the procedure is sometimes called "three-parent in vitro fertilization” — a term almost as controversial as the procedure itself. In this clip from the 2014 World Science Festival program "Designer Genes: Fashioning Our Biological Future" fertility specialists Paula Amato and Jamie Grifo discuss the science of the procedure. Watch the Full Program Here: https://youtu.be/jQD4pZrWX7o Original Program Date: May 30, 2014 Subscribe to our YouTube Channel for all the latest from WSF. ... -
The Terrifying Message within DNA!
Comparing mutation rates between human Mitochondrial DNA has yielded a terrifying hidden message. You'll have to have some brains to understand Dr. Purdom. -
THERE IS SOMTHING ABOUT Mitochondrial Eve
This video is about Mitochondrial Eve The idea that a African Woman, “Mitochondrial Eve", is the woman from whom all people on earth inherit their DNA Is proven to be a scientific fact. In the field of human genetics, the name Mitochondrial Eve refers to the matrilineal most recent common ancestor (MRCA) of all currently living anatomically modern humans, She is from Africa, & is estimated to have lived approximately 100,000–200,000 years ago. This is the most recent woman from whom all living humans today descend. The dating for "Eve" was a blow to the multiregional hypothesis and a boost to the theory of the origin and dispersion of modern humans from Africa. The biblical connotation was very clear from the start. 1 January 1987 in Nature, in which their findings clearly showed... -
AFRICAN ORIGINS: Tracing Mankind's Ancestors - The African Roots Of The Human Family Tree!
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com May 16, 2013 - SOUTH AFRICA - How would you feel knowing you are related to your boss, your neighbor, or better yet your partner? Don't worry, you may have to go back 1,000, 20,000 or maybe even 100,000 years to find a common ancestor, but generally speaking it is true. Advanced DNA testing combined with recently unearthed discoveries are bolstering the belief that if you look back far enough, all living human beings are the descendents of a small, innovative and ambitious set of people on the African continent. With the mapping of the human genome in 2003, combined with thousands of people around the world submitting their DNA for testing, there's now mounting physical proof we all started in Africa before migrating arou... -
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Mitochondrial DNA Defects Cause Deafness
A Yale study reveals the pathway by which mitochondrial DNA defects cause maternally-inherited deafness. The study may also open the way to learning more about age-related deafness. We interviewed Gerald Shadel, Ph.D., professor of genetics and pathology at Yale School of Medicine. The study appears in the journal Cell. -
Mitochondrial dna inheritance
Mitochondrial inheritance Mitochondria are the cellular organelles that are responsible for the production of energy. They are maternally inherited because they are supplied by the egg at fertilization. Mitochondria contain their own their own DNA, including 39 genes that are susceptible to mutations at a rate 10-20 times higher than nuclear DNA. In addition, there are a number of nuclear genes that are important for mitochondrial function. The inheritance pattern for mitochondrial disorders includes traditional Mendelian inheritance patterns (autosomal dominant, autosomal recessive, X-linked recessive), as well as mitochondrial inheritance patterns. In general, mitochondrial disorders involve multiple organ systems and can present at any age. Important concepts of mitochondrial inherita...
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
- Order: Reorder
- Duration: 4:37
- Updated: 24 Dec 2013
- views: 23182
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent
When we're born we usually inherit our father's surname but we also inherit a rather unique type of ...
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent
When we're born we usually inherit our father's surname but we also inherit a rather unique type of DNA from our mothers -- mitochondrial DNA. Aoife McLysaght explains how this special genetic link can be traced back to the origins of humans, and tells the story of the remarkable female scientist who figured out where our mitochondria came from in the first place.
wn.com/Chromosome (24) Mtdna Lynn Margulis And The Mitochondrial Dna
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent
When we're born we usually inherit our father's surname but we also inherit a rather unique type of DNA from our mothers -- mitochondrial DNA. Aoife McLysaght explains how this special genetic link can be traced back to the origins of humans, and tells the story of the remarkable female scientist who figured out where our mitochondria came from in the first place.
- published: 24 Dec 2013
- views: 23182
Mitochondrial DNA
- Order: Reorder
- Duration: 1:04
- Updated: 23 Aug 2010
- views: 32453
http://genetree.com This animated tutorial is the third in a series of five videos exploring molecular genealogy. In this video you will discover how mitochondr...
http://genetree.com This animated tutorial is the third in a series of five videos exploring molecular genealogy. In this video you will discover how mitochondrial DNA can be a rich source of information for deep ancestry, going back thousands of years.
wn.com/Mitochondrial Dna
Mitochondrial DNA
- Order: Reorder
- Duration: 7:58
- Updated: 25 Dec 2012
- views: 14403
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/
Download the study materials here-
http://shom...
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/
Download the study materials here-
http://shomusbiology.com/bio-materials.html
Remember Shomu’s Biology is created to spread the knowledge of life science and biology by sharing all this free biology lectures video and animation presented by Suman Bhattacharjee in YouTube. All these tutorials are brought to you for free. Please subscribe to our channel so that we can grow together. You can check for any of the following services from Shomu’s Biology-
Buy Shomu’s Biology lecture DVD set- www.shomusbiology.com/dvd-store
Shomu’s Biology assignment services – www.shomusbiology.com/assignment -help
Join Online coaching for CSIR NET exam – www.shomusbiology.com/net-coaching
We are social. Find us on different sites here-
Our Website – www.shomusbiology.com
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Thank you for watching
Mitochondrial DNA (mtDNA or mDNA[2]) is the DNA located in organelles called mitochondria, structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use, adenosine triphosphate (ATP). Most other DNA present in eukaryotic organisms is found in the cell nucleus.
Mitochondrial DNA can be regarded as the smallest chromosome coding for only 37 genes and containing only 16,569 base pairs. Human mitochondrial DNA was the first significant part of the human genome to be sequenced. In most species, including humans, mtDNA is inherited solely from the mother.[3]
The DNA sequence of mtDNA has been determined from a large number of organisms and individuals (including some organisms that are extinct), and the comparison of those DNA sequences represents a mainstay of phylogenetics, in that it allows biologists to elucidate the evolutionary relationships among species. It also permits an examination of the relatedness of populations, and so has become important in anthropology and field biology. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
wn.com/Mitochondrial Dna
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. http://shomusbiology.com/
Download the study materials here-
http://shomusbiology.com/bio-materials.html
Remember Shomu’s Biology is created to spread the knowledge of life science and biology by sharing all this free biology lectures video and animation presented by Suman Bhattacharjee in YouTube. All these tutorials are brought to you for free. Please subscribe to our channel so that we can grow together. You can check for any of the following services from Shomu’s Biology-
Buy Shomu’s Biology lecture DVD set- www.shomusbiology.com/dvd-store
Shomu’s Biology assignment services – www.shomusbiology.com/assignment -help
Join Online coaching for CSIR NET exam – www.shomusbiology.com/net-coaching
We are social. Find us on different sites here-
Our Website – www.shomusbiology.com
Facebook page- https://www.facebook.com/ShomusBiology/
Twitter - https://twitter.com/shomusbiology
SlideShare- www.slideshare.net/shomusbiology
Google plus- https://plus.google.com/113648584982732129198
LinkedIn - https://www.linkedin.com/in/suman-bhattacharjee-2a051661
Youtube- https://www.youtube.com/user/TheFunsuman
Thank you for watching
Mitochondrial DNA (mtDNA or mDNA[2]) is the DNA located in organelles called mitochondria, structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use, adenosine triphosphate (ATP). Most other DNA present in eukaryotic organisms is found in the cell nucleus.
Mitochondrial DNA can be regarded as the smallest chromosome coding for only 37 genes and containing only 16,569 base pairs. Human mitochondrial DNA was the first significant part of the human genome to be sequenced. In most species, including humans, mtDNA is inherited solely from the mother.[3]
The DNA sequence of mtDNA has been determined from a large number of organisms and individuals (including some organisms that are extinct), and the comparison of those DNA sequences represents a mainstay of phylogenetics, in that it allows biologists to elucidate the evolutionary relationships among species. It also permits an examination of the relatedness of populations, and so has become important in anthropology and field biology. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
- published: 25 Dec 2012
- views: 14403
Mitochondrial DNA
- Order: Reorder
- Duration: 0:43
- Updated: 21 Apr 2007
- views: 80645
mitochondrial DNA
mitochondrial DNA
wn.com/Mitochondrial Dna
Mitochondrial DNA
- Order: Reorder
- Duration: 3:09
- Updated: 26 Feb 2015
- views: 499
- published: 26 Feb 2015
- views: 499
The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
- Order: Reorder
- Duration: 6:12
- Updated: 18 Feb 2016
- views: 9
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high...
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high-throughput sequencing is helping us realize the power of mitochondrial DNA heteroplasmy — ultimately leading to the solving of more crimes. Used to identify the remains of Tsar Nicholas Romanov II, you’ll see how MtDNA heteroplasmy can now be used to routinely, detect, resolve and report using NGS technology, benefitting the forensics community for years to come.
Subscribe to Illumina: http://bit.ly/IlluminaYouTube
Links:
Mitch Holland at Penn State, Eberly College of Science, Forensic Science –
http://forensics.psu.edu/research/dr.-mitchell-holland
Penn State University
www.psu.edu
For more info on applications in forensics –
http://www.illumina.com/areas-of-interest/forensic-genomics.html
For more info on applications in other areas
http://www.illumina.com/science/publications/publications-review.html
See all our Adventures in Genomics videos:
https://www.youtube.com/playlist?list=PLKRu7cmBQlah8wHBByBXEO0dNW-xNvvX_
http://www.Illumina.com
wn.com/The Power Of Mitochondrial Dna Heteroplasmy Adventures In Genomics
In forensics, sometimes samples are so degraded that traditional DNA extractions and methods may not work. Jacques and Irene with Mitch Holland explain how high-throughput sequencing is helping us realize the power of mitochondrial DNA heteroplasmy — ultimately leading to the solving of more crimes. Used to identify the remains of Tsar Nicholas Romanov II, you’ll see how MtDNA heteroplasmy can now be used to routinely, detect, resolve and report using NGS technology, benefitting the forensics community for years to come.
Subscribe to Illumina: http://bit.ly/IlluminaYouTube
Links:
Mitch Holland at Penn State, Eberly College of Science, Forensic Science –
http://forensics.psu.edu/research/dr.-mitchell-holland
Penn State University
www.psu.edu
For more info on applications in forensics –
http://www.illumina.com/areas-of-interest/forensic-genomics.html
For more info on applications in other areas
http://www.illumina.com/science/publications/publications-review.html
See all our Adventures in Genomics videos:
https://www.youtube.com/playlist?list=PLKRu7cmBQlah8wHBByBXEO0dNW-xNvvX_
http://www.Illumina.com
- published: 18 Feb 2016
- views: 9
What is Mitochondrial DNA?
- Order: Reorder
- Duration: 2:05
- Updated: 12 Feb 2015
- views: 1022
A very brief introduction to mitochondrial DNA. If you have any questions, please ask in the comments!
For more information, please visit:
http://www.britains...
A very brief introduction to mitochondrial DNA. If you have any questions, please ask in the comments!
For more information, please visit:
http://www.britainsdna.com/
wn.com/What Is Mitochondrial Dna
Mitochondrial DNA: Bite Sci-zed
- Order: Reorder
- Duration: 4:55
- Updated: 10 Dec 2012
- views: 16527
Could maternally inherited DNA gather harmful mutations that only affect men?
Facebook: https://www.facebook.com/BiteSciZed
Twitter: https://twitter.com/AlexDai...
Could maternally inherited DNA gather harmful mutations that only affect men?
Facebook: https://www.facebook.com/BiteSciZed
Twitter: https://twitter.com/AlexDainis
Check back every Monday for a new Bite Sci-zed chunk of science!
Sources:
http://ghr.nlm.nih.gov/chromosome/MT
http://ghr.nlm.nih.gov/handbook/basics/mtdna
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC350359/
http://www.sciencedaily.com/releases/2001/09/010907080527.htm
Mitochondria, Maternal Inheritance, and Male Aging:
http://www.cell.com/current-biology/abstract/S0960-9822%2812%2900809-3
Health conditions related to mitochondrial DNA mutations:
http://ghr.nlm.nih.gov/chromosome/MT
wn.com/Mitochondrial Dna Bite Sci Zed
Could maternally inherited DNA gather harmful mutations that only affect men?
Facebook: https://www.facebook.com/BiteSciZed
Twitter: https://twitter.com/AlexDainis
Check back every Monday for a new Bite Sci-zed chunk of science!
Sources:
http://ghr.nlm.nih.gov/chromosome/MT
http://ghr.nlm.nih.gov/handbook/basics/mtdna
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC350359/
http://www.sciencedaily.com/releases/2001/09/010907080527.htm
Mitochondria, Maternal Inheritance, and Male Aging:
http://www.cell.com/current-biology/abstract/S0960-9822%2812%2900809-3
Health conditions related to mitochondrial DNA mutations:
http://ghr.nlm.nih.gov/chromosome/MT
- published: 10 Dec 2012
- views: 16527
Mitochondrial DNA inheritance pattern
- Order: Reorder
- Duration: 5:43
- Updated: 25 Dec 2012
- views: 12117
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern.
http://shomusbiology.weebly.com/
Downloa...
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern.
http://shomusbiology.weebly.com/
Download the study materials here-
http://shomusbiology.weebly.com/bio-materials.html
In most multicellular organisms, mtDNA is inherited from the mother (maternally inherited). Mechanisms for this include simple dilution (an egg contains 100,000 to 1,000,000 mtDNA molecules, whereas a sperm contains only 100 to 1000), degradation of sperm mtDNA in the fertilized egg, and, at least in a few organisms, failure of sperm mtDNA to enter the egg. Whatever the mechanism, this single parent (uniparental) pattern of mtDNA inheritance is found in most animals, most plants and in fungi as well.
Female inheritance
In sexual reproduction, mitochondria are normally inherited exclusively from the mother. The mitochondria in mammalian sperm are usually destroyed by the egg cell after fertilization. Also, most mitochondria are present at the base of the sperm's tail, which is used for propelling the sperm cells. Sometimes the tail is lost during fertilization. In 1999 it was reported that paternal sperm mitochondria (containing mtDNA) are marked with ubiquitin to select them for later destruction inside the embryo.[5] Some in vitro fertilization techniques, particularly injecting a sperm into an oocyte, may interfere with this.
The fact that mitochondrial DNA is maternally inherited enables researchers to trace maternal lineage far back in time. (Y-chromosomal DNA, paternally inherited, is used in an analogous way to trace the agnate lineage.) This is accomplished on human mitochondrial DNA by sequencing one or more of the hypervariable control regions (HVR1 or HVR2) of the mitochondrial DNA, as with a genealogical DNA test. HVR1 consists of about 440 base pairs. These 440 base pairs are then compared to the control regions of other individuals (either specific people or subjects in a database) to determine maternal lineage. Most often, the comparison is made to the revised Cambridge Reference Sequence. Vilà et al. have published studies tracing the matrilineal descent of domestic dogs to wolves.[6] The concept of the Mitochondrial Eve is based on the same type of analysis, attempting to discover the origin of humanity by tracking the lineage back in time.
Because mtDNA is not highly conserved and has a rapid mutation rate, it is useful for studying the evolutionary relationships - phylogeny - of organisms. Biologists can determine and then compare mtDNA sequences among different species and use the comparisons to build an evolutionary tree for the species examined.
Because mtDNA is transmitted from mother to child (both male and female), it can be a useful tool in genealogical research into a person's maternal line.
Male inheritance
Main article: Paternal mtDNA transmission
It has been reported that mitochondria can occasionally be inherited from the father in some species such as mussels.[7][8] Paternally inherited mitochondria have additionally been reported in some insects such as fruit flies,[9] honeybees,[10] and periodical cicadas.[11]
Evidence supports rare instances of male mitochondrial inheritance in some mammals as well. Specifically, documented occurrences exist for mice,[12][13] where the male-inherited mitochondria was subsequently rejected. It has also been found in sheep,[14] and in cloned cattle.[15] It has been found in a single case in a human male.[16]
While many of these cases involve cloned embryos or subsequent rejection of the paternal mitochondria, others document in vivo inheritance and persistence under lab conditions. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
wn.com/Mitochondrial Dna Inheritance Pattern
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or maternal inheritance pattern.
http://shomusbiology.weebly.com/
Download the study materials here-
http://shomusbiology.weebly.com/bio-materials.html
In most multicellular organisms, mtDNA is inherited from the mother (maternally inherited). Mechanisms for this include simple dilution (an egg contains 100,000 to 1,000,000 mtDNA molecules, whereas a sperm contains only 100 to 1000), degradation of sperm mtDNA in the fertilized egg, and, at least in a few organisms, failure of sperm mtDNA to enter the egg. Whatever the mechanism, this single parent (uniparental) pattern of mtDNA inheritance is found in most animals, most plants and in fungi as well.
Female inheritance
In sexual reproduction, mitochondria are normally inherited exclusively from the mother. The mitochondria in mammalian sperm are usually destroyed by the egg cell after fertilization. Also, most mitochondria are present at the base of the sperm's tail, which is used for propelling the sperm cells. Sometimes the tail is lost during fertilization. In 1999 it was reported that paternal sperm mitochondria (containing mtDNA) are marked with ubiquitin to select them for later destruction inside the embryo.[5] Some in vitro fertilization techniques, particularly injecting a sperm into an oocyte, may interfere with this.
The fact that mitochondrial DNA is maternally inherited enables researchers to trace maternal lineage far back in time. (Y-chromosomal DNA, paternally inherited, is used in an analogous way to trace the agnate lineage.) This is accomplished on human mitochondrial DNA by sequencing one or more of the hypervariable control regions (HVR1 or HVR2) of the mitochondrial DNA, as with a genealogical DNA test. HVR1 consists of about 440 base pairs. These 440 base pairs are then compared to the control regions of other individuals (either specific people or subjects in a database) to determine maternal lineage. Most often, the comparison is made to the revised Cambridge Reference Sequence. Vilà et al. have published studies tracing the matrilineal descent of domestic dogs to wolves.[6] The concept of the Mitochondrial Eve is based on the same type of analysis, attempting to discover the origin of humanity by tracking the lineage back in time.
Because mtDNA is not highly conserved and has a rapid mutation rate, it is useful for studying the evolutionary relationships - phylogeny - of organisms. Biologists can determine and then compare mtDNA sequences among different species and use the comparisons to build an evolutionary tree for the species examined.
Because mtDNA is transmitted from mother to child (both male and female), it can be a useful tool in genealogical research into a person's maternal line.
Male inheritance
Main article: Paternal mtDNA transmission
It has been reported that mitochondria can occasionally be inherited from the father in some species such as mussels.[7][8] Paternally inherited mitochondria have additionally been reported in some insects such as fruit flies,[9] honeybees,[10] and periodical cicadas.[11]
Evidence supports rare instances of male mitochondrial inheritance in some mammals as well. Specifically, documented occurrences exist for mice,[12][13] where the male-inherited mitochondria was subsequently rejected. It has also been found in sheep,[14] and in cloned cattle.[15] It has been found in a single case in a human male.[16]
While many of these cases involve cloned embryos or subsequent rejection of the paternal mitochondria, others document in vivo inheritance and persistence under lab conditions. Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- http://en.wikipedia.org/wiki/Main_Page
- published: 25 Dec 2012
- views: 12117
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
- Order: Reorder
- Duration: 4:53
- Updated: 07 Mar 2014
- views: 1485
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during hu...
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during human history. Find out more: http://www.britainsdna.com/dna/mitochondrial-dna
wn.com/Genetic Ancestry Testing Mitochondrial Dna Dr Jim Wilson Britainsdna
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson explains all this, and why it is that women moved around more during human history. Find out more: http://www.britainsdna.com/dna/mitochondrial-dna
- published: 07 Mar 2014
- views: 1485
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
- Order: Reorder
- Duration: 5:23
- Updated: 15 May 2011
- views: 5079
http://nuedutainment.webs.com/
Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the po...
http://nuedutainment.webs.com/
Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the power centers of the cell. They are about the size of bacteria but may have different shapes depending on the cell type.
Mitochondria are membrane-bound organelles, and like the nucleus have a double membrane. The outer membrane is fairly smooth. But the inner membrane is highly convoluted, forming folds called cristae. The cristae greatly increase the inner membrane's surface area. It is on these cristae that food (sugar) is combined with oxygen to produce ATP - the primary energy source for the cell.
wn.com/Mitochondrial Dna | She Be On That Science
http://nuedutainment.webs.com/
Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short, they are the power centers of the cell. They are about the size of bacteria but may have different shapes depending on the cell type.
Mitochondria are membrane-bound organelles, and like the nucleus have a double membrane. The outer membrane is fairly smooth. But the inner membrane is highly convoluted, forming folds called cristae. The cristae greatly increase the inner membrane's surface area. It is on these cristae that food (sugar) is combined with oxygen to produce ATP - the primary energy source for the cell.
- published: 15 May 2011
- views: 5079
Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
- Order: Reorder
- Duration: 50:20
- Updated: 11 Dec 2013
- views: 8891
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their de...
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their deleterious effects. Dr. de Grey opens his lecture by describing the structure of mitochondrial DNA (mtDNA) in humans. In particular, he explains that only thirteen protein-encoding mitochondrial genes actually reside in mitochondria. Throughout the course of human evolution, over a thousand other mitochondrial genes have migrated to the nuclear genome. Next, he explains the major theories developed between the 1970 and the present that aimed to explain the role of mtDNA mutations in aging. During his discussion of the most recent theoretical ground, Dr. de Grey explains his own contribution to the field: an alternative hypothesis to explain how clonal expansion of mutant mitochondria might occur. He then turns to therapeutic strategies and discusses the three main mechanisms by which scientists might intervene in mitochondrial aging. Dr. de Grey closes by describing the mechanism SRF finds most promising: inserting the thirteen protein-encoding mitochondrial genes into the nucleus modified in such a way that the corresponding RNA transcripts or protein-products can be imported into the mitochondria.
Visit www.sens.org/videos to view the rest of our course lecture videos.
wn.com/Mitochondrial Mutations In Aging Dr. Aubrey De Grey
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutations, their role in aging, and the SENS approach to combatting their deleterious effects. Dr. de Grey opens his lecture by describing the structure of mitochondrial DNA (mtDNA) in humans. In particular, he explains that only thirteen protein-encoding mitochondrial genes actually reside in mitochondria. Throughout the course of human evolution, over a thousand other mitochondrial genes have migrated to the nuclear genome. Next, he explains the major theories developed between the 1970 and the present that aimed to explain the role of mtDNA mutations in aging. During his discussion of the most recent theoretical ground, Dr. de Grey explains his own contribution to the field: an alternative hypothesis to explain how clonal expansion of mutant mitochondria might occur. He then turns to therapeutic strategies and discusses the three main mechanisms by which scientists might intervene in mitochondrial aging. Dr. de Grey closes by describing the mechanism SRF finds most promising: inserting the thirteen protein-encoding mitochondrial genes into the nucleus modified in such a way that the corresponding RNA transcripts or protein-products can be imported into the mitochondria.
Visit www.sens.org/videos to view the rest of our course lecture videos.
- published: 11 Dec 2013
- views: 8891
Mitochondrial DNA & The Sumerians
- Order: Reorder
- Duration: 10:28
- Updated: 23 Dec 2015
- views: 76
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fairy secretive field of science and medicine today.
The first civilizatio...
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fairy secretive field of science and medicine today.
The first civilization.
The most important thing in understanding our true history and advancement.
And we, in general, know almost absolutely no thing about them.
Could there be something there that the few have decided we, the many, aren't worthy to know?
Or would this knowledge simply level the playing field?
My money is going on leveling the field.
wn.com/Mitochondrial Dna The Sumerians
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fairy secretive field of science and medicine today.
The first civilization.
The most important thing in understanding our true history and advancement.
And we, in general, know almost absolutely no thing about them.
Could there be something there that the few have decided we, the many, aren't worthy to know?
Or would this knowledge simply level the playing field?
My money is going on leveling the field.
- published: 23 Dec 2015
- views: 76
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
- Order: Reorder
- Duration: 64:37
- Updated: 22 Mar 2012
- views: 17820
Air date: Wednesday, March 21, 2012, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Descript...
Air date: Wednesday, March 21, 2012, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: The Greek myth of the giant Prometheus stealing fire from the Olympian gods and giving it to humans, and the gods' "Trojan horse" gift to Prometheus of the beautiful but incorrigibly curious Pandora neatly symbolizes the symbiotic origin of mitochondrial DNA (mtDNA) and its role in human health and pathology (including aging).
I will review our relatively recent awareness of mtDNA and our even more recent discovery of its important role in human pathology. The first two pathogenic mutations in mtDNA were reported in 1988: 24 years later, over 200 point mutations and innumerable deletions have been associated with an extraordinary variety of human disorders, most of them multisystemic ("mitochondrial encephalomyopathies") but some tissue-specific (for example, mitochondrial myopathies). After a brief reminder of the unique rules of mitochondrial genetics, I will propose a genetic classification of the mitochondrial disorders and provide examples of different mtDNA-related diseases. As a myologist by training, I feel obliged to stress the importance of the muscle biopsy in our diagnostic approach to mitochondrial diseases. As mtDNA mutations are so common, it is important to recognize which are pathogenic and which are neutral polymorphisms. I will, therefore, review and provide examples of the "canonical" criteria of mtDNA pathogenicity, including heteroplasmy, single fiber PCR, and the cybrid technology.
In 2000, I wrote a review titled "Mutations in mtDNA: are we scraping the bottom of the barrel?" (Brain Pathology 2000:10:431-441). I will proceed to show that we are far from scratching the bottom of the barrel. We are still debating the frequency of mtDNA-related disorders; novel mutations or novel clinical phenotypes are still being reported at a brisk pace; the role of homoplasmic pathogenic mutations is not yet fully understood; similarly, the modulating role of mtDNA haplotypes is still being described; and -- importantly -- the pathogenic mechanism of mtDNA mutations is not yet understood (in other words, we still do not understand why MELAS differs from MERRF when both syndromes are due to mutations in mtDNA tRNA genes). It has been aptly said that mtDNA is the slave of nuclear DNA (nDNA), in that, in the course of the millennia, mtDNA has lost most of its original autonomy and now depends heavily on nuclear DNA for its basic functions, including replication and maintenance. Thus, besides disorders (reviewed above) due to "primary" mtDNA mutations, there are many disorders due to mutations in nuclear genes controlling mtDNA replication (mtDNA depletion syndromes), mtDNA maintenance (multiple mtDNA deletions syndromes) or mtDNA translation. These "indirect hits" (defects of intergenomic communication) are transmitted as mendelian traits but have genetic features that overlap with mitochondrial genetics. Thanks to new generation mitoexome sequencing, the neat subdivision between mtDNA depletion and multiple mtDNA syndromes is crumbling, as mutations in the same genes (usually involved with the homeostasis of the mitochondrial nucleotide pool) can impair either mtDNA replication or maintenance (or both).
In a provocative article, the late Anita Harding wondered whether normal aging wasn't the most common mitochondrial disease of them all. There is considerable evidence that this is true and largely due to spontaneous accumulations of mtDNA deletions in postmitotic tissues.
Finally, although I don't have the time to review therapeutic strategies, I will consider a potentially preventive approach to mtDNA-related diseases, namely cytoplasmic transfer. Although successful in primates and 2in preliminary experiments with defective human oocytes, this therapeutic modality requires careful ethical screening.
The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
For more information, visit:
The NIH Director's Wednesday Afternoon Lecture Series
Author: Dr. Salvatore DiMauro, Columbia University Medical Center
Runtime: 01:04:37
Permanent link: http://videocast.nih.gov/launch.asp?17182
wn.com/Mitochondrail Dna Prometheus' Gift Or Pandora's Box
Air date: Wednesday, March 21, 2012, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: The Greek myth of the giant Prometheus stealing fire from the Olympian gods and giving it to humans, and the gods' "Trojan horse" gift to Prometheus of the beautiful but incorrigibly curious Pandora neatly symbolizes the symbiotic origin of mitochondrial DNA (mtDNA) and its role in human health and pathology (including aging).
I will review our relatively recent awareness of mtDNA and our even more recent discovery of its important role in human pathology. The first two pathogenic mutations in mtDNA were reported in 1988: 24 years later, over 200 point mutations and innumerable deletions have been associated with an extraordinary variety of human disorders, most of them multisystemic ("mitochondrial encephalomyopathies") but some tissue-specific (for example, mitochondrial myopathies). After a brief reminder of the unique rules of mitochondrial genetics, I will propose a genetic classification of the mitochondrial disorders and provide examples of different mtDNA-related diseases. As a myologist by training, I feel obliged to stress the importance of the muscle biopsy in our diagnostic approach to mitochondrial diseases. As mtDNA mutations are so common, it is important to recognize which are pathogenic and which are neutral polymorphisms. I will, therefore, review and provide examples of the "canonical" criteria of mtDNA pathogenicity, including heteroplasmy, single fiber PCR, and the cybrid technology.
In 2000, I wrote a review titled "Mutations in mtDNA: are we scraping the bottom of the barrel?" (Brain Pathology 2000:10:431-441). I will proceed to show that we are far from scratching the bottom of the barrel. We are still debating the frequency of mtDNA-related disorders; novel mutations or novel clinical phenotypes are still being reported at a brisk pace; the role of homoplasmic pathogenic mutations is not yet fully understood; similarly, the modulating role of mtDNA haplotypes is still being described; and -- importantly -- the pathogenic mechanism of mtDNA mutations is not yet understood (in other words, we still do not understand why MELAS differs from MERRF when both syndromes are due to mutations in mtDNA tRNA genes). It has been aptly said that mtDNA is the slave of nuclear DNA (nDNA), in that, in the course of the millennia, mtDNA has lost most of its original autonomy and now depends heavily on nuclear DNA for its basic functions, including replication and maintenance. Thus, besides disorders (reviewed above) due to "primary" mtDNA mutations, there are many disorders due to mutations in nuclear genes controlling mtDNA replication (mtDNA depletion syndromes), mtDNA maintenance (multiple mtDNA deletions syndromes) or mtDNA translation. These "indirect hits" (defects of intergenomic communication) are transmitted as mendelian traits but have genetic features that overlap with mitochondrial genetics. Thanks to new generation mitoexome sequencing, the neat subdivision between mtDNA depletion and multiple mtDNA syndromes is crumbling, as mutations in the same genes (usually involved with the homeostasis of the mitochondrial nucleotide pool) can impair either mtDNA replication or maintenance (or both).
In a provocative article, the late Anita Harding wondered whether normal aging wasn't the most common mitochondrial disease of them all. There is considerable evidence that this is true and largely due to spontaneous accumulations of mtDNA deletions in postmitotic tissues.
Finally, although I don't have the time to review therapeutic strategies, I will consider a potentially preventive approach to mtDNA-related diseases, namely cytoplasmic transfer. Although successful in primates and 2in preliminary experiments with defective human oocytes, this therapeutic modality requires careful ethical screening.
The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
For more information, visit:
The NIH Director's Wednesday Afternoon Lecture Series
Author: Dr. Salvatore DiMauro, Columbia University Medical Center
Runtime: 01:04:37
Permanent link: http://videocast.nih.gov/launch.asp?17182
- published: 22 Mar 2012
- views: 17820
DR.JEWEL POOKRUM-MELANIN ENERGY AND MITOCHONDRIAL DNA
- Order: Reorder
- Duration: 10:31
- Updated: 22 Nov 2013
- views: 11139
DR.JEWEL POOKRUM TALKS ABOUT ELECTROMAGNETISM AND HOW THE EVIL PEOPLE WHO RUN THIS SYSTEM OF THE GOVERNMENT WANT'S TO DESTROY THE HUMANS ON EARTH AND POLLUTE TH...
DR.JEWEL POOKRUM TALKS ABOUT ELECTROMAGNETISM AND HOW THE EVIL PEOPLE WHO RUN THIS SYSTEM OF THE GOVERNMENT WANT'S TO DESTROY THE HUMANS ON EARTH AND POLLUTE THE PLANET MA'AT HOTEP
wn.com/Dr.Jewel Pookrum Melanin Energy And Mitochondrial Dna
Mitochondrial DNA Anomalies and Nuclear Transplant
- Order: Reorder
- Duration: 45:25
- Updated: 08 Dec 2013
- views: 633
This video reviews some basic history and evolution pertaining to mitochondrial development and mitochondrial DNA structure compared to nuclear DNA. A brief rev...
This video reviews some basic history and evolution pertaining to mitochondrial development and mitochondrial DNA structure compared to nuclear DNA. A brief review of mitochondrial inheritance is present as well as likely points of mitochondrial genetic mutation. Nuclear transplant, as a procedure, is reviewed and explained (on a basic level) and the implications of such genetic procedures are mentioned.
wn.com/Mitochondrial Dna Anomalies And Nuclear Transplant
This video reviews some basic history and evolution pertaining to mitochondrial development and mitochondrial DNA structure compared to nuclear DNA. A brief review of mitochondrial inheritance is present as well as likely points of mitochondrial genetic mutation. Nuclear transplant, as a procedure, is reviewed and explained (on a basic level) and the implications of such genetic procedures are mentioned.
- published: 08 Dec 2013
- views: 633
Making a Baby With Three Parents
- Order: Reorder
- Duration: 4:45
- Updated: 05 Feb 2015
- views: 9534
In hopes of preventing a host of serious diseases potentially passed on to a child by a mother with mitochondrial mutations, scientists are pursuing mitochondri...
In hopes of preventing a host of serious diseases potentially passed on to a child by a mother with mitochondrial mutations, scientists are pursuing mitochondrial transfer or mitochondrial replacement therapy. Because it involves combining mitochondrial DNA from a healthy mother with nuclear DNA from two parents, the procedure is sometimes called "three-parent in vitro fertilization” — a term almost as controversial as the procedure itself. In this clip from the 2014 World Science Festival program "Designer Genes: Fashioning Our Biological Future" fertility specialists Paula Amato and Jamie Grifo discuss the science of the procedure.
Watch the Full Program Here: https://youtu.be/jQD4pZrWX7o
Original Program Date: May 30, 2014
Subscribe to our YouTube Channel for all the latest from WSF.
Visit our Website: http://www.worldsciencefestival.com/
Like us on Facebook: https://www.facebook.com/worldsciencefestival
Follow us on twitter: https://twitter.com/WorldSciFest
wn.com/Making A Baby With Three Parents
In hopes of preventing a host of serious diseases potentially passed on to a child by a mother with mitochondrial mutations, scientists are pursuing mitochondrial transfer or mitochondrial replacement therapy. Because it involves combining mitochondrial DNA from a healthy mother with nuclear DNA from two parents, the procedure is sometimes called "three-parent in vitro fertilization” — a term almost as controversial as the procedure itself. In this clip from the 2014 World Science Festival program "Designer Genes: Fashioning Our Biological Future" fertility specialists Paula Amato and Jamie Grifo discuss the science of the procedure.
Watch the Full Program Here: https://youtu.be/jQD4pZrWX7o
Original Program Date: May 30, 2014
Subscribe to our YouTube Channel for all the latest from WSF.
Visit our Website: http://www.worldsciencefestival.com/
Like us on Facebook: https://www.facebook.com/worldsciencefestival
Follow us on twitter: https://twitter.com/WorldSciFest
- published: 05 Feb 2015
- views: 9534
The Terrifying Message within DNA!
- Order: Reorder
- Duration: 4:27
- Updated: 30 May 2012
- views: 100182
Comparing mutation rates between human Mitochondrial DNA has yielded a terrifying hidden message. You'll have to have some brains to understand Dr. Purdom.
Comparing mutation rates between human Mitochondrial DNA has yielded a terrifying hidden message. You'll have to have some brains to understand Dr. Purdom.
wn.com/The Terrifying Message Within Dna
Comparing mutation rates between human Mitochondrial DNA has yielded a terrifying hidden message. You'll have to have some brains to understand Dr. Purdom.
- published: 30 May 2012
- views: 100182
THERE IS SOMTHING ABOUT Mitochondrial Eve
- Order: Reorder
- Duration: 2:04
- Updated: 08 Nov 2014
- views: 2053
This video is about Mitochondrial Eve
The idea that a African Woman, “Mitochondrial Eve", is the woman from whom all people on earth inherit their DNA Is prove...
This video is about Mitochondrial Eve
The idea that a African Woman, “Mitochondrial Eve", is the woman from whom all people on earth inherit their DNA Is proven to be a scientific fact.
In the field of human genetics, the name Mitochondrial Eve refers to the matrilineal most recent common ancestor (MRCA) of all currently living anatomically modern humans,
She is from Africa, & is estimated to have lived approximately 100,000–200,000 years ago.
This is the most recent woman from whom all living humans today descend.
The dating for "Eve" was a blow to the multiregional hypothesis and a boost to the theory of the origin and dispersion of modern humans from Africa.
The biblical connotation was very clear from the start.
1 January 1987 in Nature, in which their findings clearly showed that all current human mtDNA originated from a single population from Africa.
mtDNA is generally passed un-mixed from mothers to children of both sexes, along the maternal line, or matrilineally.
The Human MRCA studies, confirm that All humans alive today share a surprisingly recent common African ancestor, This is true, even for people born on different continents.
wn.com/There Is Somthing About Mitochondrial Eve
This video is about Mitochondrial Eve
The idea that a African Woman, “Mitochondrial Eve", is the woman from whom all people on earth inherit their DNA Is proven to be a scientific fact.
In the field of human genetics, the name Mitochondrial Eve refers to the matrilineal most recent common ancestor (MRCA) of all currently living anatomically modern humans,
She is from Africa, & is estimated to have lived approximately 100,000–200,000 years ago.
This is the most recent woman from whom all living humans today descend.
The dating for "Eve" was a blow to the multiregional hypothesis and a boost to the theory of the origin and dispersion of modern humans from Africa.
The biblical connotation was very clear from the start.
1 January 1987 in Nature, in which their findings clearly showed that all current human mtDNA originated from a single population from Africa.
mtDNA is generally passed un-mixed from mothers to children of both sexes, along the maternal line, or matrilineally.
The Human MRCA studies, confirm that All humans alive today share a surprisingly recent common African ancestor, This is true, even for people born on different continents.
- published: 08 Nov 2014
- views: 2053
AFRICAN ORIGINS: Tracing Mankind's Ancestors - The African Roots Of The Human Family Tree!
- Order: Reorder
- Duration: 7:42
- Updated: 17 May 2013
- views: 112438
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com
May 16, 2013 - SOUTH AFRICA - How would you feel knowing you are related to your boss, your n...
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com
May 16, 2013 - SOUTH AFRICA - How would you feel knowing you are related to your boss, your neighbor, or better yet your partner? Don't worry, you may have to go back 1,000, 20,000 or maybe even 100,000 years to find a common ancestor, but generally speaking it is true.
Advanced DNA testing combined with recently unearthed discoveries are bolstering the belief that if you look back far enough, all living human beings are the descendents of a small, innovative and ambitious set of people on the African continent.
With the mapping of the human genome in 2003, combined with thousands of people around the world submitting their DNA for testing, there's now mounting physical proof we all started in Africa before migrating around the world.
Geneticists are able to identify certain genetic sequences or "markers" in each of us and cross-reference it with a number of ever-growing international databases. Where there's a match, there's likely a common ancestor and genetically speaking, all markers point to Africa.
People take comfort in having their DNA tested, says Dr. Himla Soodyall. "It gives them some sense of grounding, some homing and some essence of understanding who they are," she says. Soodyall is the founder and director of the Human Genetics laboratory in South Africa's National Health Laboratory Services. She says she dedicated her life to this field of study because it reveals a much more fascinating story than most people realize.
I recently sat down with Soodyall to have my own DNA tested and its accuracy was astounding.
She explained all of us carry our mother's DNA signature within our mitochondria, so it houses "markers" only from our mother's lineage. My maternal marker turned out to be "H" which can be traced to a woman living in the Dordogne region of France 20,000 years ago.
But this isn't reserved for my British mother and me -- 47% of all Europeans are descendants from this haplogroup, which itself is an offshoot of humans who migrated out of Africa and into Europe.
Similarly, on my Jamaican father's side I expected an African connection due to the trans-Atlantic slave trade, in which the Caribbean was involved. Soodyall isolated DNA housed in my Y-chromosome, which only males carry. It revealed an "E3a" genetic marker common in 96% of people from Central West Africa.
What's more amazing was the discovery that certain sequences of my DNA matched up perfectly with a man from Zanzibar, Tanzania, and another from the Democratic Republic of Congo, who also had their DNA tested recently.
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com
The mystery and history of the first peoples - The Indigenous, Original Moors. Balancing chaos through the order of the 42 Affirmations of the Ma'at, in the spiritualization of matter.
FAIR USE NOTICE: These pages/video may contain copyrighted (© ) material the use of which has not always been specifically authorized by the copyright owner. Such material is made available to advance understanding of ecological, POLITICAL, HUMAN RIGHTS, economic, DEMOCRACY, scientific, MORAL, ETHICAL, and SOCIAL JUSTICE ISSUES, etc. It is believed that this constitutes a 'fair use' of any such copyrighted material as provided for in section 107 of the US Copyright Law. In accordance with Title 17 U.S.C. Section 107, this material is distributed without profit to those who have expressed a prior general interest in receiving similar information for research and educational.
TAGS: Inside Africa, Africa, Mankind, Man, Ancestors, DNA, Human Family Tree, Genes, Human Origins, Zanzibar, Tanzania, Congo, Anthropology, Blombos Cave, Himba, Ethiopia, Kenya, Lucy, Twiggy, The Taung Child
wn.com/African Origins Tracing Mankind's Ancestors The African Roots Of The Human Family Tree
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com
May 16, 2013 - SOUTH AFRICA - How would you feel knowing you are related to your boss, your neighbor, or better yet your partner? Don't worry, you may have to go back 1,000, 20,000 or maybe even 100,000 years to find a common ancestor, but generally speaking it is true.
Advanced DNA testing combined with recently unearthed discoveries are bolstering the belief that if you look back far enough, all living human beings are the descendents of a small, innovative and ambitious set of people on the African continent.
With the mapping of the human genome in 2003, combined with thousands of people around the world submitting their DNA for testing, there's now mounting physical proof we all started in Africa before migrating around the world.
Geneticists are able to identify certain genetic sequences or "markers" in each of us and cross-reference it with a number of ever-growing international databases. Where there's a match, there's likely a common ancestor and genetically speaking, all markers point to Africa.
People take comfort in having their DNA tested, says Dr. Himla Soodyall. "It gives them some sense of grounding, some homing and some essence of understanding who they are," she says. Soodyall is the founder and director of the Human Genetics laboratory in South Africa's National Health Laboratory Services. She says she dedicated her life to this field of study because it reveals a much more fascinating story than most people realize.
I recently sat down with Soodyall to have my own DNA tested and its accuracy was astounding.
She explained all of us carry our mother's DNA signature within our mitochondria, so it houses "markers" only from our mother's lineage. My maternal marker turned out to be "H" which can be traced to a woman living in the Dordogne region of France 20,000 years ago.
But this isn't reserved for my British mother and me -- 47% of all Europeans are descendants from this haplogroup, which itself is an offshoot of humans who migrated out of Africa and into Europe.
Similarly, on my Jamaican father's side I expected an African connection due to the trans-Atlantic slave trade, in which the Caribbean was involved. Soodyall isolated DNA housed in my Y-chromosome, which only males carry. It revealed an "E3a" genetic marker common in 96% of people from Central West Africa.
What's more amazing was the discovery that certain sequences of my DNA matched up perfectly with a man from Zanzibar, Tanzania, and another from the Democratic Republic of Congo, who also had their DNA tested recently.
DARK MATTER PARADIGM | http://www.darkmatterparadigm.blogspot.com
The mystery and history of the first peoples - The Indigenous, Original Moors. Balancing chaos through the order of the 42 Affirmations of the Ma'at, in the spiritualization of matter.
FAIR USE NOTICE: These pages/video may contain copyrighted (© ) material the use of which has not always been specifically authorized by the copyright owner. Such material is made available to advance understanding of ecological, POLITICAL, HUMAN RIGHTS, economic, DEMOCRACY, scientific, MORAL, ETHICAL, and SOCIAL JUSTICE ISSUES, etc. It is believed that this constitutes a 'fair use' of any such copyrighted material as provided for in section 107 of the US Copyright Law. In accordance with Title 17 U.S.C. Section 107, this material is distributed without profit to those who have expressed a prior general interest in receiving similar information for research and educational.
TAGS: Inside Africa, Africa, Mankind, Man, Ancestors, DNA, Human Family Tree, Genes, Human Origins, Zanzibar, Tanzania, Congo, Anthropology, Blombos Cave, Himba, Ethiopia, Kenya, Lucy, Twiggy, The Taung Child
- published: 17 May 2013
- views: 112438
MITOCHONDRIAL DNA:POLITE'S THEORETICAL MADNESS DEBUNKED!
- Order: Reorder
- Duration: 29:25
- Updated: 30 Dec 2014
- views: 387
SCIENCE OF THE SCRIPTURES EP# 1...
PROVING MITOCHONDRIAL DNA IS THEORY AND HOW THE MAN'S DNA DETERMINES THE SEX OF THE CHILD....ALL THINGS ARE THRU THE LINEAGE...
SCIENCE OF THE SCRIPTURES EP# 1...
PROVING MITOCHONDRIAL DNA IS THEORY AND HOW THE MAN'S DNA DETERMINES THE SEX OF THE CHILD....ALL THINGS ARE THRU THE LINEAGE OF OURS FATHERS...NUMBERS 1:18
wn.com/Mitochondrial Dna Polite'S Theoretical Madness Debunked
Mitochondrial DNA Defects Cause Deafness
- Order: Reorder
- Duration: 4:14
- Updated: 17 Feb 2012
- views: 2641
A Yale study reveals the pathway by which mitochondrial DNA defects cause maternally-inherited deafness. The study may also open the way to learning more about ...
A Yale study reveals the pathway by which mitochondrial DNA defects cause maternally-inherited deafness. The study may also open the way to learning more about age-related deafness. We interviewed Gerald Shadel, Ph.D., professor of genetics and pathology at Yale School of Medicine. The study appears in the journal Cell.
wn.com/Mitochondrial Dna Defects Cause Deafness
A Yale study reveals the pathway by which mitochondrial DNA defects cause maternally-inherited deafness. The study may also open the way to learning more about age-related deafness. We interviewed Gerald Shadel, Ph.D., professor of genetics and pathology at Yale School of Medicine. The study appears in the journal Cell.
- published: 17 Feb 2012
- views: 2641
Mitochondrial dna inheritance
- Order: Reorder
- Duration: 4:16
- Updated: 07 Mar 2014
- views: 1422
Mitochondrial inheritance
Mitochondria are the cellular organelles that are responsible for the production of energy. They are maternally inherited because the...
Mitochondrial inheritance
Mitochondria are the cellular organelles that are responsible for the production of energy. They are maternally inherited because they are supplied by the egg at fertilization. Mitochondria contain their own their own DNA, including 39 genes that are susceptible to mutations at a rate 10-20 times higher than nuclear DNA. In addition, there are a number of nuclear genes that are important for mitochondrial function. The inheritance pattern for mitochondrial disorders includes traditional Mendelian inheritance patterns (autosomal dominant, autosomal recessive, X-linked recessive), as well as mitochondrial inheritance patterns. In general, mitochondrial disorders involve multiple organ systems and can present at any age.
Important concepts of mitochondrial inheritance:
Maternal inheritance
Males and females are equally affected
Disease phenotype is determined by:
Type of mutation
Prevalence of abnormal mitochondria
Heteroplasmy - There is a mixture of normal and mutant mitochondria within each cell.
Homoplasmy - The mitochondria within a cell are the same (all normal or all mutant).
Organ system that is affected
wn.com/Mitochondrial Dna Inheritance
Mitochondrial inheritance
Mitochondria are the cellular organelles that are responsible for the production of energy. They are maternally inherited because they are supplied by the egg at fertilization. Mitochondria contain their own their own DNA, including 39 genes that are susceptible to mutations at a rate 10-20 times higher than nuclear DNA. In addition, there are a number of nuclear genes that are important for mitochondrial function. The inheritance pattern for mitochondrial disorders includes traditional Mendelian inheritance patterns (autosomal dominant, autosomal recessive, X-linked recessive), as well as mitochondrial inheritance patterns. In general, mitochondrial disorders involve multiple organ systems and can present at any age.
Important concepts of mitochondrial inheritance:
Maternal inheritance
Males and females are equally affected
Disease phenotype is determined by:
Type of mutation
Prevalence of abnormal mitochondria
Heteroplasmy - There is a mixture of normal and mutant mitochondria within each cell.
Homoplasmy - The mitochondria within a cell are the same (all normal or all mutant).
Organ system that is affected
- published: 07 Mar 2014
- views: 1422
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4:37
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
EXPLORE THE RI ADVENT CALENDAR: http://rigb.org.uk/advent
When we're born we usually inh...
published: 24 Dec 2013
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
Chromosome (24) mtDNA - Lynn Margulis and the mitochondrial DNA
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- published: 24 Dec 2013
- views: 23182
1:04
Mitochondrial DNA
http://genetree.com This animated tutorial is the third in a series of five videos explori...
published: 23 Aug 2010
Mitochondrial DNA
Mitochondrial DNA
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- published: 23 Aug 2010
- views: 32453
7:58
Mitochondrial DNA
Mitochondrial DNA - lecture explains about the circular mitochondrial genome structure. ht...
published: 25 Dec 2012
Mitochondrial DNA
Mitochondrial DNA
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- published: 25 Dec 2012
- views: 14403
0:43
Mitochondrial DNA
mitochondrial DNA
published: 21 Apr 2007
Mitochondrial DNA
3:09
Mitochondrial DNA
published: 26 Feb 2015
Mitochondrial DNA
Mitochondrial DNA
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- published: 26 Feb 2015
- views: 499
6:12
The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
In forensics, sometimes samples are so degraded that traditional DNA extractions and metho...
published: 18 Feb 2016
The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
The Power of Mitochondrial DNA Heteroplasmy - Adventures in Genomics
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- published: 18 Feb 2016
- views: 9
2:05
What is Mitochondrial DNA?
A very brief introduction to mitochondrial DNA. If you have any questions, please ask in ...
published: 12 Feb 2015
What is Mitochondrial DNA?
What is Mitochondrial DNA?
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- published: 12 Feb 2015
- views: 1022
4:55
Mitochondrial DNA: Bite Sci-zed
Could maternally inherited DNA gather harmful mutations that only affect men?
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published: 10 Dec 2012
Mitochondrial DNA: Bite Sci-zed
Mitochondrial DNA: Bite Sci-zed
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- published: 10 Dec 2012
- views: 16527
5:43
Mitochondrial DNA inheritance pattern
Mitochondrial DNA inheritance pattern - lecture explains about cytoplasmic inheritance or ...
published: 25 Dec 2012
Mitochondrial DNA inheritance pattern
Mitochondrial DNA inheritance pattern
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- published: 25 Dec 2012
- views: 12117
4:53
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
What is mitochondrial DNA and what can it tell us about our deep ancestry? Dr Jim Wilson e...
published: 07 Mar 2014
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
Genetic Ancestry Testing: Mitochondrial DNA - Dr Jim Wilson - BritainsDNA
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- published: 07 Mar 2014
- views: 1485
5:23
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
http://nuedutainment.webs.com/
Mitochondria provide the energy a cell needs to move, di...
published: 15 May 2011
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE
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- published: 15 May 2011
- views: 5079
50:20
Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
In this video, SRF Chief Science Officer Dr. Aubrey de Grey discusses mitochondrial mutati...
published: 11 Dec 2013
Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
Mitochondrial Mutations in Aging - Dr. Aubrey de Grey
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- published: 11 Dec 2013
- views: 8891
10:28
Mitochondrial DNA & The Sumerians
I'm not a big fan of any of the Ancient Alien guys, but this does begin to point to a fair...
published: 23 Dec 2015
Mitochondrial DNA & The Sumerians
Mitochondrial DNA & The Sumerians
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- published: 23 Dec 2015
- views: 76
64:37
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
Air date: Wednesday, March 21, 2012, 3:00:00 PM
Time displayed is Eastern Time, Washingt...
published: 22 Mar 2012
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
Mitochondrail DNA: Prometheus' Gift or Pandora's Box?
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- published: 22 Mar 2012
- views: 17820
Chromosome (24) mtDNA - Lynn Margulis and the mito...
Mitochondrial DNA...
Mitochondrial DNA...
Mitochondrial DNA...
Mitochondrial DNA...
The Power of Mitochondrial DNA Heteroplasmy - Adve...
What is Mitochondrial DNA?...
Mitochondrial DNA: Bite Sci-zed...
Mitochondrial DNA inheritance pattern...
Genetic Ancestry Testing: Mitochondrial DNA - Dr J...
MITOCHONDRIAL DNA | SHE BE ON THAT SCIENCE...
Mitochondrial Mutations in Aging - Dr. Aubrey de G...
Mitochondrial DNA & The Sumerians...
Mitochondrail DNA: Prometheus' Gift or Pandora's B...
DR.JEWEL POOKRUM-MELANIN ENERGY AND MITOCHONDRIAL ...
Mitochondrial DNA Anomalies and Nuclear Transplant...
Making a Baby With Three Parents...
The Terrifying Message within DNA!...
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photo: AP / Matt Sayles
Miley Cyrus joining ‘The Voice’ for Season 11 as a judge
Edit Zap2it 26 Mar 2016
It's true! I am going to be the newest judge on Season 11 of The Voice @NBCTheVoice #thevoice 🦄❤️💐 pic.twitter.com/hP5AyHDtdh. — Miley Ray Cyrus (@MileyCyrus) March 26, 2016 ... RELATED ... ....
photo: AP / Karim Kadim
Islamic State suicide bomber kills dozens at soccer game in Iraq
Edit Sydney Morning Herald 26 Mar 2016
Baghdad. A suicide bomber detonated his explosive belt at a soccer game in a town south of Baghdad on Friday, killing at least 31 people, including the town's mayor, provincial police officials said. Islamic State militants claimed responsibility for the attack, in the town of Iskandariya in Babil province, through the group's affiliated news agency, Al Amaq ... Advertisement ... The New York Times. . ....
photo: AP
UN slams 'gruesome' killing of Palestinian
Edit Dawn 26 Mar 2016
JERUSALEM. The United Nations condemned on Friday the "gruesome" killing of a wounded Palestinian attacker by an Israeli soldier in the West Bank, after a video of the shooting spread online ... "This was a gruesome, immoral and unjust act that can only fuel more violence and escalate an already volatile situation." ... googletag.cmd.push(function() { googletag.display('div-gpt-ad-1455520357400-10'); });. ....
photo: AP / Andrew Medichini
Pope Francis slams Europe’s ‘anaesthetised conscience’ over migrants
Edit Indian Express 26 Mar 2016
Pope Francis leads the Via Crucis (Way of the Cross) torchlight procession celebrated in front of the Colosseum on Good Friday in Rome, Friday, March 25, 2016. (AP Photo). Pope Francis decried what he called Europe’s “indifferent and anaesthetised conscience” over migrants, during Good Friday prayers in Rome during which he also slammed paedophile priests, arms dealers, fundamentalists and religious persecutors ... ....
photo: Creative Commons / Gage Skidmore
Amy Adams' wedding setting inspired by Forrest Gump movie
Edit Belfast Telegraph 26 Mar 2016
Amy Adams wanted hay bales at her nuptials. Actress Amy Adams wanted to get married under a tree after watching Forrest Gump. Share Go To ... "I wanted to get married under a tree," she told Live! with Kelly and Michael on Friday (25Mar16). "That was important to me ... "I fell in love with the idea of a tree watching Forrest Gump ... © Cover Media. ....
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A Golden Age Of Ancient DNA Science Begins
Edit IFL Science 25 Mar 2016
If I had taken a straw poll among anthropologists 10 years ago asking them how far genetic research would come in the next decade, I doubt anyone would have come close to predicting the big impact fossil DNA work would come to have ... One example is the human X-chromosome which is largely free of archaic DNA ... The mitochondrial DNA was found to be identical to the Deniosvans, but the new nuclear sequences are related to Neanderthals....
A golden age of ancient DNA science begins (UNSW - The University of New South Wales)
Edit Public Technologies 22 Mar 2016
If I had taken a straw poll among anthropologists 10 years ago asking them how far genetic research would come in the next decade, I doubt anyone would have come close to predicting the big impact fossil DNA work would come to have ... One example is the human X-chromosome which is largely free of archaic DNA ... The mitochondrial DNA was found to be identical to the Deniosvans, but the new nuclear sequences are related to Neanderthals....
‘Frosty’ Looking Tanana Arctic Butterfly Is A Hybrid, And The Only One Native To Alaska
Edit Inquisitr 22 Mar 2016
The Tanana Arctic butterfly looks unlike any butterfly you’ve seen. Its wings are the color of a penny and are speckled with large white spots on the underwings, giving it a “frosty” look ... The Tanana #Arctic ... — US Arctic (@USArctic) March 17, 2016 ... chryxus ... Scientists will now confirm that the Tanana Arctic butterfly really is a hybrid by sequencing its genome; they already known it shares mitochondrial DNA with O....
New shark and ray species found in Indian waters
Edit The Hindu 19 Mar 2016
From the Indian waters, a unique and pleasant challenge has suddenly surfaced — 13 new species of sharks and rays ... The results of 111 species of sharks and rays that were bar coded were published last month in the journal Mitochondrial DNA. The DNA bar coding was successfully used for accurate identification of chondrichthyans which included the chimaeras, sharks, rays, and skates in the Indian waters, according to A ... Keywords....
Ancient DNA from Spain's 'pit of bones' could reveal the origin of Neanderthals
Edit Sydney Morning Herald 18 Mar 2016
New analysis of DNA from a collection of bones found in Spain – the oldest human DNA of its kind studied – could help write the history of early humankind ... DNA analysis published in 2013 suggested the Sima hominins were more closely related to Denisovans – a less-understood lineage of human ... The 2013 study analysed mitochondrial DNA (mtDNA), which is easier to recover from ancient bones....
Research impact category: award winner and runners up
Edit The Guardian 17 Mar 2016
The pioneering work of academics at Newcastle University offers hope to families who risk passing mitochondrial diseases down the female family line ... The nuclear DNA, containing 99.9% of genetic material from the mother and father, remains unchanged ... The breakthrough offers hope to families who otherwise risk passing mitochondrial DNA diseases down the female family line....
Revealed: 400,000-year-old fossils from Spain belongs to relatives of Neanderthals
Edit DNA India 16 Mar 2016
Their maternally inherited mitochondrial DNA was distantly related to Denisovans, extinct relatives of Neanderthals in Asia ... Previous analyses of the hominins from Sima de los Huesos in 2013 showed that their maternally inherited mitochondrial DNA was distantly related to Denisovans, extinct relatives of Neanderthals in Asia....
Ancient People Rewrite The Human Family Tree
Edit Inquisitr 16 Mar 2016
The analysis found that the mitochondrial DNA (which comes just from the mother) in at least one person was closely related to another branch on the family tree called the Denisovans, and not to European Neanderthals ... the same mitochondrial DNA, but it was replaced by an as-yet unknown new species that came from Africa and bred with Neanderthals....
Ancient nuclear DNA found in ‘Pit of Bones’ shows earliest genetic evidence of Neanderthals
Edit The Independent 16 Mar 2016Pediatric Researchers Find Evidence that Help Prevent Abnormalities in Heart Muscle after Children Receive Chemotherapy (DMC - Detroit Medical Center)
Edit Public Technologies 15 Mar 2016
... and defective mitochondrial DNA than normal ... 'Overall, this is the first long-term study of pediatric high-risk ALL survivors to show that anthracycline therapy affects mitochondrial DNA numbers and that concomitant dexrazoxane therapy protects these cells and preserves the normal number of mitochondrial DNA copies per cell…,' the researchers said....
Pediatric Researchers Find Evidence that Help Prevent Abnormalities in Heart Muscle after Children Receive Chemotherapy (DMC Children’s Hospital of Michigan)
Edit Public Technologies 15 Mar 2016
... and defective mitochondrial DNA than normal ... 'Overall, this is the first long-term study of pediatric high-risk ALL survivors to show that anthracycline therapy affects mitochondrial DNA numbers and that concomitant dexrazoxane therapy protects these cells and preserves the normal number of mitochondrial DNA copies per cell…,' the researchers said....
400,000-year-old fossils from Spain provide earliest genetic evidence of Neandertals
Edit Science Daily 15 Mar 2016
Previous analyses of the hominins from Sima de los Huesos in 2013 showed that their maternally inherited mitochondrial DNA was distantly related to Denisovans, extinct relatives of Neanderthals in Asia ... Researchers have since worked on sequencing nuclear DNA from fossils from the cave, a challenging task as the extremely old DNA is degraded to very short fragments ... ....
Oldest Human DNA Ever Sequenced Could Rewrite Human Evolutionary Tree
Edit IFL Science 15 Mar 2016
Researchers have managed to sequence a section of the oldest human DNA ever, taken from the 430,000-year-old teeth and thigh bones of fossils found in northern Spain ... For example, while the nuclear DNA taken from the Sima de los Huesos fossils showed that the bones were Neanderthal, some of the mitochondrial DNA that is found in other parts of the cell seem to show that at least one of the 28 individuals was related to the Denisovans....
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