Homeobox
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Matthew P. Scott
Matthew P. Scott is a developmental biologist and HHMI investigator at Stanford University studying how embryonic and later development is governed by proteins that control gene activity and cell signaling processes.
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Walter Jakob Gehring
Walter Jakob Gehring (born 20 March 1939 in Zurich) is Professor at the Biozentrum of the University of Basel, Switzerland. He obtained his Ph.D. at the University of Zurich in 1965 and after two years as a research assistant of Professor Ernst Hadorn he joined Professor Alan Garen's group at Yale University in New Haven as a postdoctoral fellow.
http://wn.com/Walter_Jakob_Gehring -
William McGinnis
William "Bill" McGinnis, Ph.D. is a molecular biologist and professor of biology at the University of California, San Diego (UCSD). At UCSD he has also served as the Chairman of the Department of Biology from July 1998 - June 1999, as Associate Dean of the Division of Natural Sciences from July 1, 1999 - June 2000, and as Interim Dean of the newly established Division of Biological Sciences from July 1, 2000 - February 1, 2001.
http://wn.com/William_McGinnis
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Bloomington, Indiana
Bloomington is a city and the county seat of Monroe County in the southern region of the U.S. state of Indiana. According to the 2000 census, the city population was 69,291.
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CDX4
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EN1
http://wn.com/EN1 -
EN2
http://wn.com/EN2 -
RAX
Radio Aurora Explorer (RAX) is the first National Science Foundation sponsored CubeSat mission . University of Michigan students, in partnership with SRI International, built RAX in response to a growing demand for smaller, more affordable satellites able to perform science missions. Once in orbit, RAX will study properties of the upper atmosphere ionosphere using a custom-designed radar receiver. It is co-led by University of Michigan Assistant Professor James Cutler and SRI Research Physicist Dr. Hasan Bahcivan.
http://wn.com/RAX -
Switzerland
Switzerland (, , , ), officially the Swiss Confederation (Confoederatio Helvetica in Latin, hence its ISO country codes CH and CHE), is a federal republic consisting of 26 cantons, with Bern as the seat of the federal authorities. The country is situated in Western Europe where it is bordered by Germany to the north, France to the west, Italy to the south, and Austria and Liechtenstein to the east.
http://wn.com/Switzerland
- ALX3
- ALX4
- animal
- Antenna (biology)
- Antennapedia
- ARGFX
- ARX
- BAPX1
- BARHL1
- BARHL2
- BARX1
- BARX2
- base pair
- Bilateria
- bithorax
- Bloomington, Indiana
- Body plan
- CART1
- CDX1
- CDX2
- CDX4
- chromatin
- chromosome
- chromosome 12
- chromosome 17
- chromosome 2
- chromosome 7 (human)
- Cnidaria
- CRX
- CUTL1
- CUTL2
- DBX1
- DBX2
- DLX
- DLX1
- DLX2
- DLX3
- DLX4
- DLX5
- DLX6
- DMBX1
- DNA
- DPRX
- DRGX
- Drosophila
- DUX1
- DUX2
- DUX3
- DUX4
- DUX4c
- DUX5
- DUXA
- ectopia
- EMX1
- EMX2
- EN1
- EN2
- ESX1L
- evolution
- EVX1
- EVX2
- fungus
- GBX1
- GBX2
- gene
- GSC
- GSC2
- GSX1
- GSX2
- HDX
- HESX1
- HHEX
- HLX1
- HMBOX1
- HMX1
- HMX2
- HMX3
- Homeobox A1
- homeodomain fold
- homeosis
- HOMEZ
- homology (biology)
- HOPX
- Hox gene
- HOXA10
- HOXA11
- HOXA13
- HOXA2
- HOXA3
- HOXA4
- HOXA5
- HOXA6
- HOXA7
- HOXA9
- HOXB1
- HOXB13
- HOXB2
- HOXB3
- HOXB4
- HOXB5
- HOXB6
- HOXB7
- HOXB8
- HOXB9
- HOXC10
- HOXC11
- HOXC12
- HOXC13
- HOXC4
- HOXC5
- HOXC6
- HOXC8
- HOXC9
- HOXD1
- HOXD10
- HOXD11
- HOXD12
- HOXD13
- HOXD3
- HOXD4
- HOXD8
- HOXD9
- insect
- IRX1
- IRX2
- IRX3
- IRX4
- IRX5
- IRX6
- ISL1
- ISL2
- ISX
- LASS3
- LASS5
- LASS6
- LBX1
- LBX2
- LHX1
- LHX2
- LHX3
- LHX4
- LHX5
- LHX6
- LHX8
- LHX9
- Limb (anatomy)
- LMX1A
- LMX1B
- LOC340260
- MADS-box
- mammal
- Matthew P. Scott
- MEIS1
- MEIS2
- MEIS3
- MEOX1
- MEOX2
- metazoa
- microorganism
- MIXL1
- MKX
- MNX1
- morphogenesis
- MSX1
- MSX2
- NANOG
- NANOGP1
- NANOGP8
- NKX2-2
- NKX2-3
- NKX2-4
- NKX2-5
- NKX2-8
- NKX3-1
- NKX6-1
- NKX6-2
- NKX6-3
- NOBOX
- ONECUT1
- ONECUT2
- ONECUT3
- OTP
- OTX1
- OTX2
- Paleozoic
- PAX3
- PAX4
- PAX6
- PAX7
- PAX7B
- PBX1
- PBX2
- PBX3
- PBX4
- PDX1
- phenotype
- PHOX2A
- PHOX2B
- PITX1
- PITX2
- PITX3
- PKNOX1
- PKNOX2
- plant
- POU family
- POU1F1
- POU2F1
- POU2F2
- POU2F3
- POU3F1
- POU3F2
- POU3F3
- POU3F4
- POU4F1
- POU4F2
- POU4F3
- POU5F1
- POU5F1P1
- POU5F1P4
- POU5F2
- POU6F2
- promoter (biology)
- PROP1
- protein
- PRRX1
- PRRX2
- RAX
- RAXL1
- reptile
- RHOXF1
- RHOXF2
- SATB1
- SATB2
- SEBOX
- SHOX
- SHOX2
- SIX1
- SIX2
- SIX3
- SIX4
- SIX5
- SIX6
- Snake
- Switzerland
- TCF1
- TCF2
- TGIF1
- TGIF2
- TGIF2LX
- TGIF2LY
- Thomas Kaufman
- TITF1
- TLX1
- TLX2
- TLX3
- transcription factor
- Trithorax
- TSHZ1
- TSHZ2
- TSHZ3
- UniProt
- University of Basel
- VAX1
- VAX2
- VENTX
- VSX1
- VSX2
- Walter Jakob Gehring
- William McGinnis
- Xenopus
- Xyelidae
- yeast
- ZFHX2
- ZFHX3
- ZFHX4
- ZHX1
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The Diversity of Development: Embryos and Evolution
- Order: Reorder
- Duration: 58:32
- Published: 22 Feb 2008
- Uploaded: 05 Nov 2011
- Author: UCtelevision
How does variation in genes generate the beautiful diversity of animal body shapes that fill the world? UCSD Biologist William McGinnis explains that all animals, whether fish, fowl, or fly, share similar architectural control genes called Homeobox genes. The discovery and study of these genes has led to an understanding of how subtle changes in Homeobox genes can lead to changes in animal form during evolution. Series: "Evolution Matters" [2/2008] [Science] [Show ID: 13545]
http://wn.com/The_Diversity_of_Development_Embryos_and_Evolution
Homeobox Lunch
Practice Session - Runaway The audio seems to be off, but I blame youtube. I took this with my digital camera (audio and video).
http://wn.com/Homeobox_Lunch
Homeobox Lunch
Jam Session - Rock Star The audio seems to be off, but I blame youtube. I took this with my digital camera (audio and video).
http://wn.com/Homeobox_Lunch
Homeobox Lunch - Sleepwalking n Triptalking
Practice Session
http://wn.com/Homeobox_Lunch__Sleepwalking_n_Triptalking
Evolution Genetic Tool Kit
- Order: Reorder
- Duration: 4:49
- Published: 31 Jul 2007
- Uploaded: 02 Nov 2011
- Author: Acorvettes
www.myspace.com The genes containing developmental instructions for the body plan are known as homeobox-containing genes. The DNA code in homeobox genes directs the cell to make chemical sequences, which in turn regulate still other genes that affect the positioning of cells in the embryo. While this sounds complicated, it is a far more elegant and simple mechanism than scientists thought could possibly be responsible for the enormous variation we see when we survey the animal kingdom.
http://wn.com/Evolution_Genetic_Tool_Kit
Homeobox Lunch - Up'n'Left
Partial Recording of Up'n'Left from a practice session
http://wn.com/Homeobox_Lunch__Up'n'Left
Banda Homeobox - Romeu
- Order: Reorder
- Duration: 4:17
- Published: 15 Jul 2008
- Uploaded: 15 Dec 2009
- Author: gabrielmendesbio
Vídeo ao vivo da banda Homeobox. Gabriel e Rômulo nos violões e vocais, Kiddy no Baixo e Marquinhos na Percussão.
http://wn.com/Banda_Homeobox__Romeu
Banda Homeobox - Versos e Poesias
- Order: Reorder
- Duration: 4:01
- Published: 15 Jul 2008
- Uploaded: 17 Aug 2010
- Author: gabrielmendesbio
Vídeo ao vivo da banda Homeobox. Gabriel e Rômulo nos violões e vocais, Kiddy no Baixo e Marquinhos na Percussão.
http://wn.com/Banda_Homeobox__Versos_e_Poesias
Banda Homeobox - Far away
- Order: Reorder
- Duration: 2:37
- Published: 07 Jul 2008
- Uploaded: 25 Sep 2009
- Author: gabrielmendesbio
This song is our first song in english. We hope you like. Enjoy -------------------------------------- Essa é a nossa nova. Nós nunca paramos de fazer músicas, mas essa é especial - nossa primeira que surgiu em inglês completinha :P. Essa gravação foi feita com: Romulo = 1ª voz e 2º violão Gabriel = 2ª voz e 1º violão Espero que gostem OBS:: Kiddy, markinho, tá aí a música.
http://wn.com/Banda_Homeobox__Far_away
homeobox
- Order: Reorder
- Duration: 1:43
- Published: 20 Oct 2011
- Uploaded: 20 Oct 2011
- Author: TheDdkd1982
Banda Homeobox - Mais um dia
- Order: Reorder
- Duration: 3:25
- Published: 05 Jul 2008
- Uploaded: 01 Aug 2010
- Author: gabrielmendesbio
Primeiro vídeo clipe nada a ver da banda Homeobox. Com Gabriel no vocal, Markinhos no violão (ele é batera), Kiddy na câmera (ele é o baixista) eo Rômulo em casa dormindo (ele é o vocal também). Rsrsrs!
http://wn.com/Banda_Homeobox__Mais_um_dia
Banda Homeobox - Discórdia
- Order: Reorder
- Duration: 3:27
- Published: 14 Jul 2008
- Uploaded: 19 Nov 2008
- Author: gabrielmendesbio
Vídeo ao vivo da banda Homeobox. Gabriel e Rômulo nos violões e vocais, Kiddy no Baixo e Marquinhos na Percussão.
http://wn.com/Banda_Homeobox__Discórdia
Banda Homeobox - Imagem
- Order: Reorder
- Duration: 3:34
- Published: 15 Jul 2008
- Uploaded: 21 Sep 2008
- Author: gabrielmendesbio
Vídeo ao vivo da banda Homeobox. Gabriel e Rômulo nos violões e vocais, Kiddy no Baixo e Marquinhos na Percussão.
http://wn.com/Banda_Homeobox__Imagem
Banda Homeobox - Sociedade
- Order: Reorder
- Duration: 3:44
- Published: 15 Jul 2008
- Uploaded: 19 Nov 2008
- Author: gabrielmendesbio
Vídeo ao vivo da banda Homeobox. Gabriel e Rômulo nos violões e vocais, Kiddy no Baixo e Marquinhos na Percussão.
http://wn.com/Banda_Homeobox__Sociedade
PBS - Genetic Toolkit
from pbs www.pbs.org Neil Shubin and Sean Carroll discuss homeobox genes, a set of genes that produce basic body parts in all animals. In 1994, Walter Gehring discovered the eyeless gene, which guides formation of fruit fly eyes. As an experiment, Gehring put a mouse's eyeless gene into a fruit fly, resulting in normal fruit fly eyes. The same holds true for homeobox genes for wings, legs, even heads. This discovery indicates that animals descended from a single common ancestor that passed along to them a set of homeobox genes, used to build a wide variety of forms from just a few basic body plans. From Evolution: "Great Transformations"
http://wn.com/PBS__Genetic_Toolkit
HOX: clover
- Order: Reorder
- Duration: 2:42
- Published: 08 Nov 2006
- Uploaded: 29 Nov 2007
- Author: funkminsta
*homeobox lunch* performs _clover_ by mattpaul @ The Practice Place, San Jose
http://wn.com/HOX_clover
HOX: runaway
- Order: Reorder
- Duration: 4:12
- Published: 08 Nov 2006
- Uploaded: 15 Aug 2010
- Author: funkminsta
*homeobox lunch* performs _runaway_ by mattpaul @ The Practice Place, San Jose
http://wn.com/HOX_runaway
Evolution for Creationists: Where Do We Disagree?
- Order: Reorder
- Duration: 9:41
- Published: 28 Aug 2009
- Uploaded: 10 Nov 2011
- Author: C0nc0rdance
A brief run through the underlying principles behind evolution. I'm interested in our points of departure between creationism and evolutionary theory. On a side note, I am interested in a formal video debate with an Intelligent Design creationist. PM me if you would be interested. For more information about: Natural Selection and Evolution in general: evolution.berkeley.edu Personalized Genetic Medicine (Pharmacogenomics) en.wikipedia.org Homeobox genes and bauplans: en.wikipedia.org Thanks for watching, commenting, "favorite" -ing, and subscribing. I really do appreciate all the support.
http://wn.com/Evolution_for_Creationists_Where_Do_We_Disagree?
Evolution for Creationists: Where Do We Disagree?
- Order: Reorder
- Duration: 9:41
- Published: 22 Nov 2010
- Uploaded: 02 Nov 2011
- Author: conc0rdance
A brief run through the underlying principles behind evolution. I'm interested in our points of departure between creationism and evolutionary theory. For more information about: Natural Selection and Evolution in general: evolution.berkeley.edu Personalized Genetic Medicine (Pharmacogenomics) en.wikipedia.org Homeobox genes and bauplans: en.wikipedia.org Thanks for watching, commenting, "favorite" -ing, and subscribing. I really do appreciate all the support.
http://wn.com/Evolution_for_Creationists_Where_Do_We_Disagree?
A homeobox is a DNA sequence found within genes that are involved in the regulation of patterns of anatomical development (morphogenesis) in animals, fungi and plants.
Discovery
They were discovered independently in 1983 by Ernst Hafen, Michael Levine and William McGinnis working in the lab of Walter Jakob Gehring at the University of Basel, Switzerland; and by Matthew P. Scott and Amy Weiner, who were then working with Thomas Kaufman at Indiana University in Bloomington.
Homeodomain
A homeobox is about 180 base pairs long. It encodes a protein domain (the homeodomain) which when expressed (i.e. as protein) can bind DNA. The following shows the consensus 60-polypeptide chain corresponding to homeobox domain, with typical intron positions noted with dashes:
RRRKRTA-YTRYQLLE-LEKEFLF-NRYLTRRRRIELAHSL-NLTERHIKIWFQN-RRMK-WKKEN
Homeobox genes encode transcription factors that typically switch on cascades of other genes. The homeodomain binds DNA in a sequence-specific manner. However, the specificity of a single homeodomain protein is usually not enough to recognize only its desired target genes. Most of the time, homeodomain proteins act in the promoter region of their target genes as complexes with other transcription factors. Such complexes have a much higher target specificity than a single homeodomain protein. Homeodomains are encoded both by genes of the Hox gene clusters and by other genes throughout the genome.
The homeobox domain was first identified in a number of drosophila homeotic and segmentation proteins, but is now known to be well-conserved in many other animals, including vertebrates. Hox genes encode homeodomain-containing transcriptional regulators that operate differential genetic programs along the anterior-posterior axis of animal bodies. The domain binds DNA through a helix-turn-helix (HTH) structure. The HTH motif is characterised by two alpha-helices, which make intimate contacts with the DNA and are joined by a short turn. The second helix binds to DNA via a number of hydrogen bonds and hydrophobic interactions, which occur between specific side chains and the exposed bases and thymine methyl groups within the major groove of the DNA. The first helix helps to stabilise the structure.
The motif is very similar in sequence and structure in a wide range of DNA-binding proteins (e.g., cro and repressor proteins, homeotic proteins, etc.). One of the principal differences between HTH motifs in these different proteins arises from the stereo-chemical requirement for glycine in the turn which is needed to avoid steric interference of the beta-carbon with the main chain: for cro and repressor proteins the glycine appears to be mandatory, while for many of the homeotic and other DNA-binding proteins the requirement is relaxed.
==Hox genes==
They are essential metazoan genes as they determine the identity of embryonic regions along the anterio-posterior axis. The first vertebrate Hox gene was isolated in Xenopus by Eddy De Robertis and colleagues in 1984, marking the beginning of the young science of Evo-devo.
In vertebrates, the four paralog clusters are partially redundant in function, but have also acquired several derived functions. In particular, HoxA and HoxD specify segment identity along the limb axis.
The main interest in this set of genes stems from their unique behaviour. They are typically found in an organized cluster. The linear order of the genes within a cluster is directly correlated to the order of the regions they affect as well as the timing in which they are affected. This phenomenon is called colinearity. Due to this linear relationship, changes in the gene cluster due to mutations generally result in similar changes in the affected regions.
For example, when one gene is lost the segment develops into a more anterior one, while a mutation that leads to a gain of function causes a segment to develop into a more posterior one. This is called ectopia. Famous examples are Antennapedia and bithorax in Drosophila, which can cause the development of legs instead of antennae and the development of a duplicated thorax, respectively.
Molecular evidence shows that some limited number of Hox genes have existed in the Cnidaria since before the earliest true Bilatera, making these genes pre-Paleozoic.
Diversity
The homeobox genes were first found in the fruit fly Drosophila melanogaster and have subsequently been identified in many other species, from insects to reptiles and mammals.Homeobox genes were previously only identified in bilateria but more recently cnidaria have also been found to contain homeobox domains and the "missing link" in the evolution between the two has been identified.
Homeobox genes have even been found in fungi, for example the unicellular yeasts, and in plants.
Plants
The well known homeotic genes in plants (MADS-box genes) are not homologous to Hox genes in animals. Plants and animals do not share the same homeotic genes, and this suggests that homeotic genes arose independently in the early evolution of animals and plants.
Human genes
Humans generally contain Hox genes in four clusters:
| name | chromosome |
| HOXA (or sometimes HOX1) - | chromosome 7 (human)chromosome 7 || HOXA1, HOXA2, HOXA3, HOXA4, HOXA5, HOXA6, HOXA7, HOXA9, HOXA10, HOXA11, HOXA13 |
| HOXB - | chromosome 17 |
| HOXC - | chromosome 12 |
| HOXD - | chromosome 2 |
There is also a "distal-less homeobox" family: DLX1, DLX2, DLX3, DLX4, DLX, and DLX6.
"HESX homeobox 1" is also known as HESX1.
Short stature homeobox gene is also known as SHOX.
Additional human proteins containing this domain per UniProt annotation:
Mutations
Mutations to homeobox genes can produce easily visible phenotypic changes.Two examples of homeobox mutations in the above-mentioned fruit fly are legs where the antennae should be (antennapedia), and a second pair of wings.
Duplication of homeobox genes can produce new body segments, and such duplications are likely to have been important in the evolution of segmented animals. However, Hox genes typically determine the identity of body segments.
Interestingly, there is one insect family, the xyelid sawflies, in which both the antennae and mouthparts are remarkably leg-like in structure. This is not uncommon in arthropods as all arthropod appendages are homologous.
Regulation
The regulation of Hox genes is highly complex and involves reciprocal interactions, mostly inhibitory. Drosophila is known to use the Polycomb and Trithorax Complexes to maintain the expression of Hox genes after the down-regulation of the pair-rule and gap genes that occurs during larval development. Polycomb-group proteins can silence the HOX genes by modulation of chromatin structure.
See also
References
Further reading
External links
Category:Genes Category:Developmental biology Category:Protein domains Category:Transcription factors
ar:علبة مثلية cs:Homeobox de:Homöobox es:Homeobox fr:Boîte homéotique it:Omeobox lt:Homeozinis genas nl:Homeobox ja:ホメオボックス pl:Geny homeotyczne pt:Homeobox ru:Гомеобокс fi:Homeoboksi zh:同源框This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
