- published: 18 Apr 2017
- views: 873814
Create your page here
back to playlist
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The sequence of DNA that we inherit from our parents encodes directions for making our cells and giving us specific traits. Identical twins have the same DNA sequence, so how can one twin end up with a genetic disorder while the other twin does not? Robin Ball explains how the secret lies in X chromosome inactivation.
Lesson by Robin Ball, animation by Anton Trofimov.
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is simply a reflection of natural human variation.
Connect with Celeste: https://www.facebook.com/celeste.mcdonnell
SBSK Patreon: https://www.patreon.com/SBSK
SBSK Socials:
http://www.instagram.com/specialbooksbyspecialkids
https://twitter.com/chrisulmer
https://www.facebook.com/specialbooksbyspecialkids
https://www.reddit.com/r/sbsk
- published: 24 Jan 2020
- views: 1564379
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chromosome is many time larger than the Y chromosome. To compensate for this genetic inequality, female mammalian cells undergo X chromosome inactivation of one X chromosome. Dr. Jeannie Lee explains the how and why of X chromosome inactivation.
Talk Overview:
In mammals, sex is determined by a pair of unequal sex chromosomes. Genetically male mammals have an X and a Y chromosome while genetically female mammals have two X chromosomes. The X chromosome is many times larger than the Y chromosome. To compensate for this genetic inequality, female mammals undergo X chromosome inactivation in which one of the X chromosomes is randomly chosen to be silenced. X chromosome inactivation has been studied for over 50 years both because it is a physiologically important event and because it is an excellent model for studying epigenetic silencing of genes by long non-coding RNAs. In her first talk, Dr. Jeannie Lee gives an overview of the steps a cell must go through during X inactivation. These include “counting” the X chromosomes, deciding which X chromosome to inactivate, initiating the inactivation and spreading it across the chromosome, and finally maintaining inactivation of the same X chromosome for the rest of the life of the organism.
In her second talk, Lee elaborates on the early steps of X inactivation. Very early in development, cells “count” the number of X chromosomes and decide if one needs to be inactivated, and if so which one. There is a region of the X chromosome called the X inactivation center which is enriched in long non-coding RNAs (lncRNAs). Lee explains how she and others showed that by sensing the ratio of two specific lncRNAs the cell can determine how many X chromosomes are present. Further studies showed that two different lncRNAs are responsible for randomly determining which X chromosome will be inactivated. Finally, she discusses the hypothesis that the allelic choice mechanism depends on a transient chromosomal pairing event that occurs at the beginning of the dosage compensation process.
And in her last talk, Lee describes how X inactivation is nucleated and spreads across the X chromosome. The Xist lncRNA is known to be necessary and sufficient for X inactivation. Lee describes experiments that identified the factors that tether Xist to the X chromosome and showed how Xist spreads to cover the entire X chromosome. She then goes on to explain that Xist blocks transcription in three ways: 1) Xist recruits factors that repress transcription via epigenetic modification such as histone methylation 2) Xist repels factors that open chromatin preparing it for transcription and 3) Xist changes the 3 dimensional organization of chromosomes. Lee ends with a model of our current understanding of the complex but critical process of X chromosome inactivation.
Speaker Biography:
Dr. Jeannie Lee is a Professor in the Department of Genetics at Harvard Medical School and in the Department of Molecular Biology at Massachusetts General Hospital (MGH). Her lab uses X chromosome inactivation as a model to study epigenetic regulation by long noncoding RNAs.
Lee received her AB in biochemistry and molecular biology from Harvard University and her MD/PhD from the University of Pennsylvania School of Medicine. She was a postdoctoral fellow at the Whitehead Institute and a resident at MGH before joining Harvard/MGH as a faculty member in 1997. Lee was also an HHMI Investigator from 2001-2018. She is a member of the National Academy of Sciences and a Fellow of the American Association for the Advancement of Science. Lee has been honored with numerous awards including the 2016 Centennial Prize from the Genetics Society of America, the 2016 Lurie Prize from the Foundation for the National Institutes of Health, and the 2010 Molecular Biology Award from the National Academy of Sciences. In 2018, she was President of the Genetics Society of America.
Learn more about Dr. Lee’s research here: https://www.x-inactivation-lee-lab.org
- published: 08 May 2019
- views: 20632
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will have an x and a y chromosome
The x and y chromosomes not only carry the genes that determine male and female traits but also some other characteristics as well.
Since only men inherit Y chromosomes, they are the only ones to inherit Y-linked traits. The y chromosome carries around 200 genes.
There are about 1,100 human X-linked genes.
Most of them code for something other than female anatomical traits. Some X-linked genes are responsible for abnormal conditions such as hemophilia, red-green color blindness,
and "male pattern baldness".
- published: 09 Jan 2019
- views: 60128
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them.
PUT your DNA on GEDmatch: https://www. gedmatch.com
IF YOU'RE ENJOYING GENEALOGY ON YOUTUBE, here are a few next steps:
1. SUBSCRIBE and HIT THE BELL to be notified when a new Family History Fanatics video goes live!
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
2. ORDER A BOOK, Andy has compiled many of YOUR questions into a single book ~ DNA Q&A;: Real Questions from Real People About Genetic Genealogy. DNA Q&A; http://amzn.to/2EChhfX
Or you might want to check out our other titles: https://www.familyhistoryfanatics.com/books
3. SIGN UP for the Family History Fanatics Newsletter and RECEIVE the FREEBIE 10 Online Genealogy Resources You Have to Try https://www.subscribepage.com/fhfanaticsnews
4. READ our blog. We share the show notes for our videos as well as additional related posts at http://blog.familyhistoryfanatics.com.
5. REGISTER FOR a Family History Fanatics webinar or workshop by visiting Visit http://www.familyhistoryfanatics.com/econference
6. LET'S CONNECT!
- http://www.familyhistoryfanatics.com
- http://www.facebook.com/familyhistoryfanatics
- http://www.twitter.com/FHFanatics
- http://www.instagram.com/FHFanatics
- https://www.pinterest.com/FamilyHistoryFanatics/
This description contains affiliate links.
#DNA #genealogy #ancestry
- published: 09 Jan 2018
- views: 8526
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epigenetics. Epigenetics refers to processes that tell our cells how, and when, to read the DNA blueprint. The epigenetic regulation of DNA is critical in both normal development and disease.
X inactivation is a type of gene dosage compensation.
In humans, the sex chromosomes X and Y determine the sex of an individual - females have two X chromosomes (XX), males have one X and one Y chromosome (XY). All of the genes on the Y chromosome are required in male development, while the genes on the X chromosome are needed for both male and female development.
Because females receive two X chromosomes, they inherit two copies of many of the genes that are needed for normal function. Extra copies of genes or chromosomes can affect normal development. An example is Down's syndrome, which is caused by an extra copy of part or all of chromosome 21.
In female mammals, a process called X inactivation has evolved to compensate for the extra X chromosome. In X inactivation, each cell 'switches off' one of its X chromosomes, chosen at random, to ensure the correct number of genes are expressed, and to prevent abnormal development.
- published: 25 Jan 2012
- views: 235940
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of Calico cats
- published: 28 Dec 2018
- views: 14001
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
- published: 23 Jan 2017
- views: 74793
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help.
BUY our book, 'DNA Q&A;': http://amzn.to/2EChhfX
SUBSCRIBE to learn about the Fanatical side of Family History!:
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
JOIN our contact list and never miss a post or event that Family History Fanatics is involved in: https://www.subscribepage.com/fhfanaticsnews
LET'S CONNECT!
- http://www.familyhistoryfanatics.com
-- http://www.facebook.com/familyhistoryfanatics
-- http://twitter.com/FHFanatics
This description contains affiliate links.
#DNA #genealogy #ancestry
- published: 20 Mar 2018
- views: 16578
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and one inactivated X chromosome. This explains why almost all calico cats are female.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
- published: 27 Apr 2012
- views: 251369
developed with YouTube
X chromosome
The X chromosome is one of the two sex-determining chromosomes (allosomes) in many animal species, including mammals (the other is the Y chromosome), and is found in both males and females. It is a part of the XY sex-determination system and X0 sex-determination system. The X chromosome was named for its unique properties by early researchers, which resulted in the naming of its counterpart Y chromosome, for the next letter in the alphabet, after it was discovered later.
Humans
Function
The X chromosome in humans spans more than 153 million base pairs (the building material of DNA). It represents about 2000 out of 20,000 - 25,000 genes. Each person normally has one pair of sex chromosomes in each cell. Females have two X chromosomes, whereas males have one X and one Y chromosome. Both males and females retain one of their mother's X chromosomes, and females retain their second X chromosome from their father. Since the father retains his X chromosome from his mother, a human female has one X chromosome from her paternal grandmother (father's side), and one X chromosome from her mother.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/X_chromosome
-
Secrets of the X chromosome - Robin Ball
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball The sequence of DNA that we inherit from our parents encodes directions for making our cells and giving us specific traits. Identical twins have the same DNA sequence, so how can one twin end up with a genetic disorder while the other twin does not? Robin Ball explains how the secret lies in X chromosome inactivation. Lesson by Robin Ball, animation by Anton Trofimov.
published: 18 Apr 2017 -
Living with Turner Syndrome (Missing a X Chromosome)
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is simply a reflection of natural human variation. Connect with Celeste: https://www.facebook.com/celeste.mcdonnell SBSK Patreon: https://www.patreon.com/SBSK SBSK Socials: http://www.instagram.com/specialbooksbyspecialkids https://twitter.com/chrisulmer https://www.facebook.com/specialbooksbyspecialkids https://www.reddit.com/r/sbsk
published: 24 Jan 2020 -
Jeannie Lee (Harvard) 1 - X Chromosome Inactivation: Making and Breaking the Silence
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation The X chromosome is many time larger than the Y chromosome. To compensate for this genetic inequality, female mammalian cells undergo X chromosome inactivation of one X chromosome. Dr. Jeannie Lee explains the how and why of X chromosome inactivation. Talk Overview: In mammals, sex is determined by a pair of unequal sex chromosomes. Genetically male mammals have an X and a Y chromosome while genetically female mammals have two X chromosomes. The X chromosome is many times larger than the Y chromosome. To compensate for this genetic inequality, female mammals undergo X chromosome inactivation in which one of the X chromosomes is randomly chosen to be silenced. X chromosome inactivation has been studied for ove...
published: 08 May 2019 -
X and Y chromosomes explained
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will have an x and a y chromosome The x and y chromosomes not only carry the genes that determine male and female traits but also some other characteristics as well. Since only men inherit Y chromosomes, they are the only ones to inherit Y-linked traits. The y chromosome carries around 200 genes. There are about 1,100 human X-linked genes. Most of them code for something other than female anatomical traits. Some X-linked genes are responsible for abnormal conditions such as hemophilia, red-green color blindness, and "male pattern baldness".
published: 09 Jan 2019 -
How does your X chromosome compare to your siblings?
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them. PUT your DNA on GEDmatch: https://www. gedmatch.com IF YOU'RE ENJOYING GENEALOGY ON YOUTUBE, here are a few next steps: 1. SUBSCRIBE and HIT THE BELL to be notified when a new Family History Fanatics video goes live! https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1 2. ORDER A BOOK, Andy has compiled many of YOUR questions into a single book ~ DNA Q&A;: Real Questions from Real People About Genetic Genealogy. DNA Q&A; http://amzn.to/2EChhfX Or you might want to check out our other titles: https://www.familyhistoryfanatics.com/books 3. SIGN UP for the Family History Fanatics Newsletter and RECEIVE the FREEBIE 10 Online...
published: 09 Jan 2018 -
X Inactivation and Epigenetics
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epigenetics. Epigenetics refers to processes that tell our cells how, and when, to read the DNA blueprint. The epigenetic regulation of DNA is critical in both normal development and disease. X inactivation is a type of gene dosage compensation. In humans, the sex chromosomes X and Y determine the sex of an individual - females have two X chromosomes (XX), males have one X and one Y chromosome (XY). All of the genes on the Y chromosome are required in male development, while the genes on the X chromosome are needed for both male and female development. Because females receive two X chromosomes, they inherit two copies of many ...
published: 25 Jan 2012 -
Genetics | X-chromosome Inactivation, Barr Bodies, and the Calico Cat
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of Calico cats
published: 28 Dec 2018 -
X Inactivation: The full mechanism, the formation of the Barr body, Heterochromatin and euchromatin
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
published: 23 Jan 2017 -
Is X-DNA helpful in genetic genealogy? - A Segment of DNA
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help. BUY our book, 'DNA Q&A;': http://amzn.to/2EChhfX SUBSCRIBE to learn about the Fanatical side of Family History!: https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1 JOIN our contact list and never miss a post or event that Family History Fanatics is involved in: https://www.subscribepage.com/fhfanaticsnews LET'S CONNECT! - http://www.familyhistoryfanatics.com -- http://www.facebook.com/familyhistoryfanatics -- http://twitter.com/FHFanatics This description contains affiliate links. #DNA #genealogy #ancestry
published: 20 Mar 2018 -
X Inactivation
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and one inactivated X chromosome. This explains why almost all calico cats are female. Intro Music Atribution Title: I4dsong_loop_main.wav Artist: CosmicD Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/ Creative Commons Atribution License
published: 27 Apr 2012
developed with YouTube
5:06
Secrets of the X chromosome - Robin Ball
- Order: Reorder
- Duration: 5:06
- Uploaded Date: 18 Apr 2017
- views: 873814
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The sequence of DNA that we inherit from our parents encodes directions for ...
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The sequence of DNA that we inherit from our parents encodes directions for making our cells and giving us specific traits. Identical twins have the same DNA sequence, so how can one twin end up with a genetic disorder while the other twin does not? Robin Ball explains how the secret lies in X chromosome inactivation.
Lesson by Robin Ball, animation by Anton Trofimov.
https://wn.com/Secrets_Of_The_X_Chromosome_Robin_Ball
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The sequence of DNA that we inherit from our parents encodes directions for making our cells and giving us specific traits. Identical twins have the same DNA sequence, so how can one twin end up with a genetic disorder while the other twin does not? Robin Ball explains how the secret lies in X chromosome inactivation.
Lesson by Robin Ball, animation by Anton Trofimov.
- published: 18 Apr 2017
- views: 873814
13:05
Living with Turner Syndrome (Missing a X Chromosome)
- Order: Reorder
- Duration: 13:05
- Uploaded Date: 24 Jan 2020
- views: 1564379
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is sim...
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is simply a reflection of natural human variation.
Connect with Celeste: https://www.facebook.com/celeste.mcdonnell
SBSK Patreon: https://www.patreon.com/SBSK
SBSK Socials:
http://www.instagram.com/specialbooksbyspecialkids
https://twitter.com/chrisulmer
https://www.facebook.com/specialbooksbyspecialkids
https://www.reddit.com/r/sbsk
https://wn.com/Living_With_Turner_Syndrome_(Missing_A_X_Chromosome)
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is simply a reflection of natural human variation.
Connect with Celeste: https://www.facebook.com/celeste.mcdonnell
SBSK Patreon: https://www.patreon.com/SBSK
SBSK Socials:
http://www.instagram.com/specialbooksbyspecialkids
https://twitter.com/chrisulmer
https://www.facebook.com/specialbooksbyspecialkids
https://www.reddit.com/r/sbsk
- published: 24 Jan 2020
- views: 1564379
45:44
Jeannie Lee (Harvard) 1 - X Chromosome Inactivation: Making and Breaking the Silence
- Order: Reorder
- Duration: 45:44
- Uploaded Date: 08 May 2019
- views: 20632
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chromosome is many time larger than the Y chromosome. To compensate for thi...
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chromosome is many time larger than the Y chromosome. To compensate for this genetic inequality, female mammalian cells undergo X chromosome inactivation of one X chromosome. Dr. Jeannie Lee explains the how and why of X chromosome inactivation.
Talk Overview:
In mammals, sex is determined by a pair of unequal sex chromosomes. Genetically male mammals have an X and a Y chromosome while genetically female mammals have two X chromosomes. The X chromosome is many times larger than the Y chromosome. To compensate for this genetic inequality, female mammals undergo X chromosome inactivation in which one of the X chromosomes is randomly chosen to be silenced. X chromosome inactivation has been studied for over 50 years both because it is a physiologically important event and because it is an excellent model for studying epigenetic silencing of genes by long non-coding RNAs. In her first talk, Dr. Jeannie Lee gives an overview of the steps a cell must go through during X inactivation. These include “counting” the X chromosomes, deciding which X chromosome to inactivate, initiating the inactivation and spreading it across the chromosome, and finally maintaining inactivation of the same X chromosome for the rest of the life of the organism.
In her second talk, Lee elaborates on the early steps of X inactivation. Very early in development, cells “count” the number of X chromosomes and decide if one needs to be inactivated, and if so which one. There is a region of the X chromosome called the X inactivation center which is enriched in long non-coding RNAs (lncRNAs). Lee explains how she and others showed that by sensing the ratio of two specific lncRNAs the cell can determine how many X chromosomes are present. Further studies showed that two different lncRNAs are responsible for randomly determining which X chromosome will be inactivated. Finally, she discusses the hypothesis that the allelic choice mechanism depends on a transient chromosomal pairing event that occurs at the beginning of the dosage compensation process.
And in her last talk, Lee describes how X inactivation is nucleated and spreads across the X chromosome. The Xist lncRNA is known to be necessary and sufficient for X inactivation. Lee describes experiments that identified the factors that tether Xist to the X chromosome and showed how Xist spreads to cover the entire X chromosome. She then goes on to explain that Xist blocks transcription in three ways: 1) Xist recruits factors that repress transcription via epigenetic modification such as histone methylation 2) Xist repels factors that open chromatin preparing it for transcription and 3) Xist changes the 3 dimensional organization of chromosomes. Lee ends with a model of our current understanding of the complex but critical process of X chromosome inactivation.
Speaker Biography:
Dr. Jeannie Lee is a Professor in the Department of Genetics at Harvard Medical School and in the Department of Molecular Biology at Massachusetts General Hospital (MGH). Her lab uses X chromosome inactivation as a model to study epigenetic regulation by long noncoding RNAs.
Lee received her AB in biochemistry and molecular biology from Harvard University and her MD/PhD from the University of Pennsylvania School of Medicine. She was a postdoctoral fellow at the Whitehead Institute and a resident at MGH before joining Harvard/MGH as a faculty member in 1997. Lee was also an HHMI Investigator from 2001-2018. She is a member of the National Academy of Sciences and a Fellow of the American Association for the Advancement of Science. Lee has been honored with numerous awards including the 2016 Centennial Prize from the Genetics Society of America, the 2016 Lurie Prize from the Foundation for the National Institutes of Health, and the 2010 Molecular Biology Award from the National Academy of Sciences. In 2018, she was President of the Genetics Society of America.
Learn more about Dr. Lee’s research here: https://www.x-inactivation-lee-lab.org
https://wn.com/Jeannie_Lee_(Harvard)_1_X_Chromosome_Inactivation_Making_And_Breaking_The_Silence
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chromosome is many time larger than the Y chromosome. To compensate for this genetic inequality, female mammalian cells undergo X chromosome inactivation of one X chromosome. Dr. Jeannie Lee explains the how and why of X chromosome inactivation.
Talk Overview:
In mammals, sex is determined by a pair of unequal sex chromosomes. Genetically male mammals have an X and a Y chromosome while genetically female mammals have two X chromosomes. The X chromosome is many times larger than the Y chromosome. To compensate for this genetic inequality, female mammals undergo X chromosome inactivation in which one of the X chromosomes is randomly chosen to be silenced. X chromosome inactivation has been studied for over 50 years both because it is a physiologically important event and because it is an excellent model for studying epigenetic silencing of genes by long non-coding RNAs. In her first talk, Dr. Jeannie Lee gives an overview of the steps a cell must go through during X inactivation. These include “counting” the X chromosomes, deciding which X chromosome to inactivate, initiating the inactivation and spreading it across the chromosome, and finally maintaining inactivation of the same X chromosome for the rest of the life of the organism.
In her second talk, Lee elaborates on the early steps of X inactivation. Very early in development, cells “count” the number of X chromosomes and decide if one needs to be inactivated, and if so which one. There is a region of the X chromosome called the X inactivation center which is enriched in long non-coding RNAs (lncRNAs). Lee explains how she and others showed that by sensing the ratio of two specific lncRNAs the cell can determine how many X chromosomes are present. Further studies showed that two different lncRNAs are responsible for randomly determining which X chromosome will be inactivated. Finally, she discusses the hypothesis that the allelic choice mechanism depends on a transient chromosomal pairing event that occurs at the beginning of the dosage compensation process.
And in her last talk, Lee describes how X inactivation is nucleated and spreads across the X chromosome. The Xist lncRNA is known to be necessary and sufficient for X inactivation. Lee describes experiments that identified the factors that tether Xist to the X chromosome and showed how Xist spreads to cover the entire X chromosome. She then goes on to explain that Xist blocks transcription in three ways: 1) Xist recruits factors that repress transcription via epigenetic modification such as histone methylation 2) Xist repels factors that open chromatin preparing it for transcription and 3) Xist changes the 3 dimensional organization of chromosomes. Lee ends with a model of our current understanding of the complex but critical process of X chromosome inactivation.
Speaker Biography:
Dr. Jeannie Lee is a Professor in the Department of Genetics at Harvard Medical School and in the Department of Molecular Biology at Massachusetts General Hospital (MGH). Her lab uses X chromosome inactivation as a model to study epigenetic regulation by long noncoding RNAs.
Lee received her AB in biochemistry and molecular biology from Harvard University and her MD/PhD from the University of Pennsylvania School of Medicine. She was a postdoctoral fellow at the Whitehead Institute and a resident at MGH before joining Harvard/MGH as a faculty member in 1997. Lee was also an HHMI Investigator from 2001-2018. She is a member of the National Academy of Sciences and a Fellow of the American Association for the Advancement of Science. Lee has been honored with numerous awards including the 2016 Centennial Prize from the Genetics Society of America, the 2016 Lurie Prize from the Foundation for the National Institutes of Health, and the 2010 Molecular Biology Award from the National Academy of Sciences. In 2018, she was President of the Genetics Society of America.
Learn more about Dr. Lee’s research here: https://www.x-inactivation-lee-lab.org
- published: 08 May 2019
- views: 20632
2:25
X and Y chromosomes explained
- Order: Reorder
- Duration: 2:25
- Uploaded Date: 09 Jan 2019
- views: 60128
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will ...
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will have an x and a y chromosome
The x and y chromosomes not only carry the genes that determine male and female traits but also some other characteristics as well.
Since only men inherit Y chromosomes, they are the only ones to inherit Y-linked traits. The y chromosome carries around 200 genes.
There are about 1,100 human X-linked genes.
Most of them code for something other than female anatomical traits. Some X-linked genes are responsible for abnormal conditions such as hemophilia, red-green color blindness,
and "male pattern baldness".
https://wn.com/X_And_Y_Chromosomes_Explained
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will have an x and a y chromosome
The x and y chromosomes not only carry the genes that determine male and female traits but also some other characteristics as well.
Since only men inherit Y chromosomes, they are the only ones to inherit Y-linked traits. The y chromosome carries around 200 genes.
There are about 1,100 human X-linked genes.
Most of them code for something other than female anatomical traits. Some X-linked genes are responsible for abnormal conditions such as hemophilia, red-green color blindness,
and "male pattern baldness".
- published: 09 Jan 2019
- views: 60128
9:56
How does your X chromosome compare to your siblings?
- Order: Reorder
- Duration: 9:56
- Uploaded Date: 09 Jan 2018
- views: 8526
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them.
PUT your DNA on G...
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them.
PUT your DNA on GEDmatch: https://www. gedmatch.com
IF YOU'RE ENJOYING GENEALOGY ON YOUTUBE, here are a few next steps:
1. SUBSCRIBE and HIT THE BELL to be notified when a new Family History Fanatics video goes live!
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
2. ORDER A BOOK, Andy has compiled many of YOUR questions into a single book ~ DNA Q&A;: Real Questions from Real People About Genetic Genealogy. DNA Q&A; http://amzn.to/2EChhfX
Or you might want to check out our other titles: https://www.familyhistoryfanatics.com/books
3. SIGN UP for the Family History Fanatics Newsletter and RECEIVE the FREEBIE 10 Online Genealogy Resources You Have to Try https://www.subscribepage.com/fhfanaticsnews
4. READ our blog. We share the show notes for our videos as well as additional related posts at http://blog.familyhistoryfanatics.com.
5. REGISTER FOR a Family History Fanatics webinar or workshop by visiting Visit http://www.familyhistoryfanatics.com/econference
6. LET'S CONNECT!
- http://www.familyhistoryfanatics.com
- http://www.facebook.com/familyhistoryfanatics
- http://www.twitter.com/FHFanatics
- http://www.instagram.com/FHFanatics
- https://www.pinterest.com/FamilyHistoryFanatics/
This description contains affiliate links.
#DNA #genealogy #ancestry
https://wn.com/How_Does_Your_X_Chromosome_Compare_To_Your_Siblings
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them.
PUT your DNA on GEDmatch: https://www. gedmatch.com
IF YOU'RE ENJOYING GENEALOGY ON YOUTUBE, here are a few next steps:
1. SUBSCRIBE and HIT THE BELL to be notified when a new Family History Fanatics video goes live!
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
2. ORDER A BOOK, Andy has compiled many of YOUR questions into a single book ~ DNA Q&A;: Real Questions from Real People About Genetic Genealogy. DNA Q&A; http://amzn.to/2EChhfX
Or you might want to check out our other titles: https://www.familyhistoryfanatics.com/books
3. SIGN UP for the Family History Fanatics Newsletter and RECEIVE the FREEBIE 10 Online Genealogy Resources You Have to Try https://www.subscribepage.com/fhfanaticsnews
4. READ our blog. We share the show notes for our videos as well as additional related posts at http://blog.familyhistoryfanatics.com.
5. REGISTER FOR a Family History Fanatics webinar or workshop by visiting Visit http://www.familyhistoryfanatics.com/econference
6. LET'S CONNECT!
- http://www.familyhistoryfanatics.com
- http://www.facebook.com/familyhistoryfanatics
- http://www.twitter.com/FHFanatics
- http://www.instagram.com/FHFanatics
- https://www.pinterest.com/FamilyHistoryFanatics/
This description contains affiliate links.
#DNA #genealogy #ancestry
- published: 09 Jan 2018
- views: 8526
11:04
X Inactivation and Epigenetics
- Order: Reorder
- Duration: 11:04
- Uploaded Date: 25 Jan 2012
- views: 235940
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epige...
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epigenetics. Epigenetics refers to processes that tell our cells how, and when, to read the DNA blueprint. The epigenetic regulation of DNA is critical in both normal development and disease.
X inactivation is a type of gene dosage compensation.
In humans, the sex chromosomes X and Y determine the sex of an individual - females have two X chromosomes (XX), males have one X and one Y chromosome (XY). All of the genes on the Y chromosome are required in male development, while the genes on the X chromosome are needed for both male and female development.
Because females receive two X chromosomes, they inherit two copies of many of the genes that are needed for normal function. Extra copies of genes or chromosomes can affect normal development. An example is Down's syndrome, which is caused by an extra copy of part or all of chromosome 21.
In female mammals, a process called X inactivation has evolved to compensate for the extra X chromosome. In X inactivation, each cell 'switches off' one of its X chromosomes, chosen at random, to ensure the correct number of genes are expressed, and to prevent abnormal development.
https://wn.com/X_Inactivation_And_Epigenetics
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epigenetics. Epigenetics refers to processes that tell our cells how, and when, to read the DNA blueprint. The epigenetic regulation of DNA is critical in both normal development and disease.
X inactivation is a type of gene dosage compensation.
In humans, the sex chromosomes X and Y determine the sex of an individual - females have two X chromosomes (XX), males have one X and one Y chromosome (XY). All of the genes on the Y chromosome are required in male development, while the genes on the X chromosome are needed for both male and female development.
Because females receive two X chromosomes, they inherit two copies of many of the genes that are needed for normal function. Extra copies of genes or chromosomes can affect normal development. An example is Down's syndrome, which is caused by an extra copy of part or all of chromosome 21.
In female mammals, a process called X inactivation has evolved to compensate for the extra X chromosome. In X inactivation, each cell 'switches off' one of its X chromosomes, chosen at random, to ensure the correct number of genes are expressed, and to prevent abnormal development.
- published: 25 Jan 2012
- views: 235940
13:49
Genetics | X-chromosome Inactivation, Barr Bodies, and the Calico Cat
- Order: Reorder
- Duration: 13:49
- Uploaded Date: 28 Dec 2018
- views: 14001
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of C...
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of Calico cats
https://wn.com/Genetics_|_X_Chromosome_Inactivation,_Barr_Bodies,_And_The_Calico_Cat
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of Calico cats
- published: 28 Dec 2018
- views: 14001
21:03
X Inactivation: The full mechanism, the formation of the Barr body, Heterochromatin and euchromatin
- Order: Reorder
- Duration: 21:03
- Uploaded Date: 23 Jan 2017
- views: 74793
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
https://wn.com/X_Inactivation_The_Full_Mechanism,_The_Formation_Of_The_Barr_Body,_Heterochromatin_And_Euchromatin
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
- published: 23 Jan 2017
- views: 74793
8:07
Is X-DNA helpful in genetic genealogy? - A Segment of DNA
- Order: Reorder
- Duration: 8:07
- Uploaded Date: 20 Mar 2018
- views: 16578
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help.
BUY our book, 'DNA Q&...
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help.
BUY our book, 'DNA Q&A;': http://amzn.to/2EChhfX
SUBSCRIBE to learn about the Fanatical side of Family History!:
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
JOIN our contact list and never miss a post or event that Family History Fanatics is involved in: https://www.subscribepage.com/fhfanaticsnews
LET'S CONNECT!
- http://www.familyhistoryfanatics.com
-- http://www.facebook.com/familyhistoryfanatics
-- http://twitter.com/FHFanatics
This description contains affiliate links.
#DNA #genealogy #ancestry
https://wn.com/Is_X_Dna_Helpful_In_Genetic_Genealogy_A_Segment_Of_Dna
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help.
BUY our book, 'DNA Q&A;': http://amzn.to/2EChhfX
SUBSCRIBE to learn about the Fanatical side of Family History!:
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
JOIN our contact list and never miss a post or event that Family History Fanatics is involved in: https://www.subscribepage.com/fhfanaticsnews
LET'S CONNECT!
- http://www.familyhistoryfanatics.com
-- http://www.facebook.com/familyhistoryfanatics
-- http://twitter.com/FHFanatics
This description contains affiliate links.
#DNA #genealogy #ancestry
- published: 20 Mar 2018
- views: 16578
6:23
X Inactivation
- Order: Reorder
- Duration: 6:23
- Uploaded Date: 27 Apr 2012
- views: 251369
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and on...
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and one inactivated X chromosome. This explains why almost all calico cats are female.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
https://wn.com/X_Inactivation
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and one inactivated X chromosome. This explains why almost all calico cats are female.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
- published: 27 Apr 2012
- views: 251369
5:06
Secrets of the X chromosome - Robin Ball
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The se...
published: 18 Apr 2017
Secrets of the X chromosome - Robin Ball
Secrets of the X chromosome - Robin Ball
- Report rights infringement
- published: 18 Apr 2017
- views: 873814
View full lesson: http://ed.ted.com/lessons/secrets-of-the-x-chromosome-robin-ball
The sequence of DNA that we inherit from our parents encodes directions for making our cells and giving us specific traits. Identical twins have the same DNA sequence, so how can one twin end up with a genetic disorder while the other twin does not? Robin Ball explains how the secret lies in X chromosome inactivation.
Lesson by Robin Ball, animation by Anton Trofimov.
13:05
Living with Turner Syndrome (Missing a X Chromosome)
Celeste was born with Turner syndrome and only has one X chromosome. They want the world t...
published: 24 Jan 2020
Living with Turner Syndrome (Missing a X Chromosome)
Living with Turner Syndrome (Missing a X Chromosome)
- Report rights infringement
- published: 24 Jan 2020
- views: 1564379
Celeste was born with Turner syndrome and only has one X chromosome. They want the world to know that there is nothing to fear about their uniqueness, it is simply a reflection of natural human variation.
Connect with Celeste: https://www.facebook.com/celeste.mcdonnell
SBSK Patreon: https://www.patreon.com/SBSK
SBSK Socials:
http://www.instagram.com/specialbooksbyspecialkids
https://twitter.com/chrisulmer
https://www.facebook.com/specialbooksbyspecialkids
https://www.reddit.com/r/sbsk
45:44
Jeannie Lee (Harvard) 1 - X Chromosome Inactivation: Making and Breaking the Silence
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chrom...
published: 08 May 2019
Jeannie Lee (Harvard) 1 - X Chromosome Inactivation: Making and Breaking the Silence
Jeannie Lee (Harvard) 1 - X Chromosome Inactivation: Making and Breaking the Silence
- Report rights infringement
- published: 08 May 2019
- views: 20632
https://www.ibiology.org/development-and-stem-cells/x-chromosome-inactivation
The X chromosome is many time larger than the Y chromosome. To compensate for this genetic inequality, female mammalian cells undergo X chromosome inactivation of one X chromosome. Dr. Jeannie Lee explains the how and why of X chromosome inactivation.
Talk Overview:
In mammals, sex is determined by a pair of unequal sex chromosomes. Genetically male mammals have an X and a Y chromosome while genetically female mammals have two X chromosomes. The X chromosome is many times larger than the Y chromosome. To compensate for this genetic inequality, female mammals undergo X chromosome inactivation in which one of the X chromosomes is randomly chosen to be silenced. X chromosome inactivation has been studied for over 50 years both because it is a physiologically important event and because it is an excellent model for studying epigenetic silencing of genes by long non-coding RNAs. In her first talk, Dr. Jeannie Lee gives an overview of the steps a cell must go through during X inactivation. These include “counting” the X chromosomes, deciding which X chromosome to inactivate, initiating the inactivation and spreading it across the chromosome, and finally maintaining inactivation of the same X chromosome for the rest of the life of the organism.
In her second talk, Lee elaborates on the early steps of X inactivation. Very early in development, cells “count” the number of X chromosomes and decide if one needs to be inactivated, and if so which one. There is a region of the X chromosome called the X inactivation center which is enriched in long non-coding RNAs (lncRNAs). Lee explains how she and others showed that by sensing the ratio of two specific lncRNAs the cell can determine how many X chromosomes are present. Further studies showed that two different lncRNAs are responsible for randomly determining which X chromosome will be inactivated. Finally, she discusses the hypothesis that the allelic choice mechanism depends on a transient chromosomal pairing event that occurs at the beginning of the dosage compensation process.
And in her last talk, Lee describes how X inactivation is nucleated and spreads across the X chromosome. The Xist lncRNA is known to be necessary and sufficient for X inactivation. Lee describes experiments that identified the factors that tether Xist to the X chromosome and showed how Xist spreads to cover the entire X chromosome. She then goes on to explain that Xist blocks transcription in three ways: 1) Xist recruits factors that repress transcription via epigenetic modification such as histone methylation 2) Xist repels factors that open chromatin preparing it for transcription and 3) Xist changes the 3 dimensional organization of chromosomes. Lee ends with a model of our current understanding of the complex but critical process of X chromosome inactivation.
Speaker Biography:
Dr. Jeannie Lee is a Professor in the Department of Genetics at Harvard Medical School and in the Department of Molecular Biology at Massachusetts General Hospital (MGH). Her lab uses X chromosome inactivation as a model to study epigenetic regulation by long noncoding RNAs.
Lee received her AB in biochemistry and molecular biology from Harvard University and her MD/PhD from the University of Pennsylvania School of Medicine. She was a postdoctoral fellow at the Whitehead Institute and a resident at MGH before joining Harvard/MGH as a faculty member in 1997. Lee was also an HHMI Investigator from 2001-2018. She is a member of the National Academy of Sciences and a Fellow of the American Association for the Advancement of Science. Lee has been honored with numerous awards including the 2016 Centennial Prize from the Genetics Society of America, the 2016 Lurie Prize from the Foundation for the National Institutes of Health, and the 2010 Molecular Biology Award from the National Academy of Sciences. In 2018, she was President of the Genetics Society of America.
Learn more about Dr. Lee’s research here: https://www.x-inactivation-lee-lab.org
2:25
X and Y chromosomes explained
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the...
published: 09 Jan 2019
X and Y chromosomes explained
X and Y chromosomes explained
- Report rights infringement
- published: 09 Jan 2019
- views: 60128
X linked chromosomes explained,Humans have 23 pairs of chromosomes. One pair determine the gender of the child.A female will have xx chromosomes and males will have an x and a y chromosome
The x and y chromosomes not only carry the genes that determine male and female traits but also some other characteristics as well.
Since only men inherit Y chromosomes, they are the only ones to inherit Y-linked traits. The y chromosome carries around 200 genes.
There are about 1,100 human X-linked genes.
Most of them code for something other than female anatomical traits. Some X-linked genes are responsible for abnormal conditions such as hemophilia, red-green color blindness,
and "male pattern baldness".
9:56
How does your X chromosome compare to your siblings?
In the final video in this DNA series about your relationships, Andy talks about your sibl...
published: 09 Jan 2018
How does your X chromosome compare to your siblings?
How does your X chromosome compare to your siblings?
- Report rights infringement
- published: 09 Jan 2018
- views: 8526
In the final video in this DNA series about your relationships, Andy talks about your siblings, and how your X chromosome(s) compare to them.
PUT your DNA on GEDmatch: https://www. gedmatch.com
IF YOU'RE ENJOYING GENEALOGY ON YOUTUBE, here are a few next steps:
1. SUBSCRIBE and HIT THE BELL to be notified when a new Family History Fanatics video goes live!
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
2. ORDER A BOOK, Andy has compiled many of YOUR questions into a single book ~ DNA Q&A;: Real Questions from Real People About Genetic Genealogy. DNA Q&A; http://amzn.to/2EChhfX
Or you might want to check out our other titles: https://www.familyhistoryfanatics.com/books
3. SIGN UP for the Family History Fanatics Newsletter and RECEIVE the FREEBIE 10 Online Genealogy Resources You Have to Try https://www.subscribepage.com/fhfanaticsnews
4. READ our blog. We share the show notes for our videos as well as additional related posts at http://blog.familyhistoryfanatics.com.
5. REGISTER FOR a Family History Fanatics webinar or workshop by visiting Visit http://www.familyhistoryfanatics.com/econference
6. LET'S CONNECT!
- http://www.familyhistoryfanatics.com
- http://www.facebook.com/familyhistoryfanatics
- http://www.twitter.com/FHFanatics
- http://www.instagram.com/FHFanatics
- https://www.pinterest.com/FamilyHistoryFanatics/
This description contains affiliate links.
#DNA #genealogy #ancestry
11:04
X Inactivation and Epigenetics
X inactivation is a vital process that occurs in all DNA-containing cells of the female bo...
published: 25 Jan 2012
X Inactivation and Epigenetics
X Inactivation and Epigenetics
- Report rights infringement
- published: 25 Jan 2012
- views: 235940
X inactivation is a vital process that occurs in all DNA-containing cells of the female body. It is also an important research model and tool for studying epigenetics. Epigenetics refers to processes that tell our cells how, and when, to read the DNA blueprint. The epigenetic regulation of DNA is critical in both normal development and disease.
X inactivation is a type of gene dosage compensation.
In humans, the sex chromosomes X and Y determine the sex of an individual - females have two X chromosomes (XX), males have one X and one Y chromosome (XY). All of the genes on the Y chromosome are required in male development, while the genes on the X chromosome are needed for both male and female development.
Because females receive two X chromosomes, they inherit two copies of many of the genes that are needed for normal function. Extra copies of genes or chromosomes can affect normal development. An example is Down's syndrome, which is caused by an extra copy of part or all of chromosome 21.
In female mammals, a process called X inactivation has evolved to compensate for the extra X chromosome. In X inactivation, each cell 'switches off' one of its X chromosomes, chosen at random, to ensure the correct number of genes are expressed, and to prevent abnormal development.
13:49
Genetics | X-chromosome Inactivation, Barr Bodies, and the Calico Cat
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and r...
published: 28 Dec 2018
Genetics | X-chromosome Inactivation, Barr Bodies, and the Calico Cat
Genetics | X-chromosome Inactivation, Barr Bodies, and the Calico Cat
- Report rights infringement
- published: 28 Dec 2018
- views: 14001
X-chromosome inactivation in various sex chromosome genotypes (XX, XY, XXY, XXX, XO) and resulting Barr bodies; the Lyon hypothesis; the proposed mechanism of Calico cats
21:03
X Inactivation: The full mechanism, the formation of the Barr body, Heterochromatin and euchromatin
This video is a full explanation about the x inactivation, the formation of the barr body,...
published: 23 Jan 2017
X Inactivation: The full mechanism, the formation of the Barr body, Heterochromatin and euchromatin
X Inactivation: The full mechanism, the formation of the Barr body, Heterochromatin and euchromatin
- Report rights infringement
- published: 23 Jan 2017
- views: 74793
This video is a full explanation about the x inactivation, the formation of the barr body, and the heterochromatin and euchromatin structure of the DNA.
8:07
Is X-DNA helpful in genetic genealogy? - A Segment of DNA
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you,...
published: 20 Mar 2018
Is X-DNA helpful in genetic genealogy? - A Segment of DNA
Is X-DNA helpful in genetic genealogy? - A Segment of DNA
- Report rights infringement
- published: 20 Mar 2018
- views: 16578
You keep hearing about X-DNA, but what is it and what can you do with it? Luckily for you, your go-to DNA guy, Andy Lee, is here to help.
BUY our book, 'DNA Q&A;': http://amzn.to/2EChhfX
SUBSCRIBE to learn about the Fanatical side of Family History!:
https://www.youtube.com/channel/UCmkKepHoafldMRZ4UNt0Akw?sub_confirmation=1
JOIN our contact list and never miss a post or event that Family History Fanatics is involved in: https://www.subscribepage.com/fhfanaticsnews
LET'S CONNECT!
- http://www.familyhistoryfanatics.com
-- http://www.facebook.com/familyhistoryfanatics
-- http://twitter.com/FHFanatics
This description contains affiliate links.
#DNA #genealogy #ancestry
6:23
X Inactivation
Paul Andersen explains how X inactivation works in mammals. This process was first descri...
published: 27 Apr 2012
X Inactivation
X Inactivation
- Report rights infringement
- published: 27 Apr 2012
- views: 251369
Paul Andersen explains how X inactivation works in mammals. This process was first described by Mary Lyon. Each cell in a female will have on activated and one inactivated X chromosome. This explains why almost all calico cats are female.
Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/CosmicD/sounds/72556/
Creative Commons Atribution License
X chromosome
The X chromosome is one of the two sex-determining chromosomes (allosomes) in many animal species, including mammals (the other is the Y chromosome), and is found in both males and females. It is a part of the XY sex-determination system and X0 sex-determination system. The X chromosome was named for its unique properties by early researchers, which resulted in the naming of its counterpart Y chromosome, for the next letter in the alphabet, after it was discovered later.
Humans
Function
The X chromosome in humans spans more than 153 million base pairs (the building material of DNA). It represents about 2000 out of 20,000 - 25,000 genes. Each person normally has one pair of sex chromosomes in each cell. Females have two X chromosomes, whereas males have one X and one Y chromosome. Both males and females retain one of their mother's X chromosomes, and females retain their second X chromosome from their father. Since the father retains his X chromosome from his mother, a human female has one X chromosome from her paternal grandmother (father's side), and one X chromosome from her mother.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/X_chromosome
Secrets of the X chromosome - Robin Ball...
Living with Turner Syndrome (Missing a X Chromosom...
Jeannie Lee (Harvard) 1 - X Chromosome Inactivatio...
X and Y chromosomes explained...
How does your X chromosome compare to your siblin...
X Inactivation and Epigenetics...
Genetics | X-chromosome Inactivation, Barr Bodies,...
X Inactivation: The full mechanism, the formation ...
Is X-DNA helpful in genetic genealogy? - A Segment...
X Inactivation...
Latest News for: x chromosome
Edit
BANNED ON YOUTUBE PROOF COVID IS ALREADY AN EXISTING CHROMOSOME IN YOUR BODY. NOT A ...
Go to the source via the article link to view the video ....
Edit
BANNED ON YOUTUBE PROOF COVID IS AN EXISTING CHROMOSOME IN YOUR BODY. NOT A VIRUS ...
Go to the source via the article link to view the video ....
Edit
PROOF COVID IS ALREADY AN EXISTING CHROMOSOME IN YOUR BODY. NOT A -VIRUS- -RFB
Go to the source via the article link to view the video ....
Edit
BANNED ON YOUTUBE, PROOF COVID IS ALREADY AN EXISTING CHROMOSOME IN YOUR BODY. NOT A ...
Go to the source via the article link to view the video ....
Edit
Microchromosomes are building blocks of bird, reptile, and mammal chromosomes [Evolution]
We used cytological and whole-genome sequence comparisons, and ...
Edit
Why cancers thrive in chromosomal chaos
Researchers describe how malignancies leverage evolution and basic cellular functions to promote immune dysfunction and a better future for themselves. <!-- more --> ... .
Edit
Dr. Kaufman - Chromosome 8 and the SARS-COV2 PCR test
Go to the source via the article link to view the video ....
Edit
Four-dimensional chromosome reconstruction elucidates the spatiotemporal reorganization of the mammalian X chromosome [Cell Biology]
Chromosomes are segmented into domains and compartments, but how ...
Edit
Local scientists: Blue crabs have double the chromosomes of humans
It was unknown until now that the blue crab has between 40 and 50 chromosomes, nearly double the number found in humans ... She added, “It’s a lot of chromosomes.”. Even though blue crabs have more chromosomes than humans, theirs are much smaller.
Edit
Linker histones tune the length and shape of chromosomes
... short and thick chromosomes with fewer large loops.
Edit
Supercomputers reveal how X chromosomes fold, deactivate
Using supercomputer-driven dynamic modeling based on experimental data, researchers can now probe the process that turns off one X chromosome in female mammal embryos ... The modeling also shows genes on the surface of the chromosome that escape X chromosome inactivation, confirming early experimental work.
Edit
Gene Editing May Cause ‘Massive Damage’ to Chromosomes, Study Finds
Edit
When a chromosome is lost: How do human cells react to monosomy?
Human cells are usually diploid—they contain two sets of chromosome. Cells in which one chromosome is missing from the duplicated chromosome set are generally not viable ... Recurrent loss of an entire chromosome or chromosome arm is common in certain tumors, such as neuroblastoma, lung cancer, and myeloid malignancies ... When a chromosome is lost.
Edit
Y chromosome has another function other than sex determination: CCMB
A study by Centre for Cellular and Molecular Biology revealed that the Y chromosome has another function apart from sex determination. The novel finding indicates that Y chromosome regulates other chromosomes related to male reproduction ... This is the first report of piRNAs from Y chromosomes.
- 1
- 2
- Next page »
