Chicken Development: Difference between revisions
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Fertilized eggs can be easily maintained in humidified incubators and during early stages of development the embryo floats on to of the egg yolk that it is using for nutrition. As the embryo grows it sinks into, or below the, yolk. The regular appearance of somites allowed early experimenters to acurately stage the embryo. The embryo was accessible and easy to manipulate (limb grafts/removal etc) that were informative about developmental processes. Chicken cells and tissues (neural ganglia/fragments) are also easy to grow in tissue culture. The discovery that quail cells have a different nuclear appearance meant that transplanted cells (chick/quail chimeras) could be tracked during development. For example, LeDourian's studies showed how neural crest cells migrate widely throughout the embryo. | Fertilized eggs can be easily maintained in humidified incubators and during early stages of development the embryo floats on to of the egg yolk that it is using for nutrition. As the embryo grows it sinks into, or below the, yolk. The regular appearance of somites allowed early experimenters to acurately stage the embryo. The embryo was accessible and easy to manipulate (limb grafts/removal etc) that were informative about developmental processes. Chicken cells and tissues (neural ganglia/fragments) are also easy to grow in tissue culture. The discovery that quail cells have a different nuclear appearance meant that transplanted cells (chick/quail chimeras) could be tracked during development. For example, LeDourian's studies showed how neural crest cells migrate widely throughout the embryo. | ||
== Hamburger & Hamilton Stages == | |||
Hamburger & Hamilton staged the chicken embryo in 1951. The original paper had approx 25 citations between 1955 - 59, while in the year 1991 alone there were over 300 citations. '''Series of Embryonic Chicken Growth.''' J. Morphology, '''88''' 49 - 92 (1951). Atlas recently republished by J.R. Sanes in Developmental Dynamics '''195''' 229-275 (1993). | |||
* A PDF Poster of developed from the original paper by Developmental Dynamics showing these stages on one page is available [http://www3.interscience.wiley.com/journal/117927935/grouphome/pdf/hamburger.pdf Poster- Hamburger Hamilton Stages] | |||
* A [http://www3.interscience.wiley.com/journal/117927935/grouphome/pdf/hamburger06.pdf 2006 reproduction of the original paper] '''Series of Embryonic Chicken Growth.''' J. Morphology, '''88''' 49 - 92 (1951). | |||
Also See [chick1.htm#hhtable table of HH Chicken stages] also [#otheratlas other Chicken Atlases.] | |||
== Gallus gallus == | |||
Taxonomy Id: 9031Preferred common name: chickenRank: speciesGenetic code: Translation table 1 (Standard) Mitochondrial genetic code: Translation table 2 | |||
<nowiki>Other names: dwarf Leghorn chickens[includes], red junglefowl[includes], chickens[common name], Gallus domesticus[misnomer], Gallus gallus domesticus[misnomer]</nowiki> | |||
Lineage( abbreviated ): Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Archosauria; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus | |||
== Other Chicken Atlases == | |||
'''Vertebrate and Invertebrate Embryos''' (7th Edition) G.C. Schoenwolf, Prentice Hall, New Jersey | |||
'''An Atlas of Embryology''' (1975) W.H. Freeman and B. Bracegirdle, Heinemann Educational Books, UK. | |||
This is an ATLAS (no description of development) , basically reprinted from the original 1963 edition. | |||
Photos with labelled diagrams covering Amphioxus (worm) Frog, Chicken. | |||
'''An Atlas for Staging Mammalian and Chick Embryos''' (1987) H. Bultler and B.H. Juurlink, CRC Press Inc., Florida | |||
This ATLAS is not a complete series of development but has interesting comparisons of species. | |||
Mostly photos of embryos with a few drawn diagrams and a series of staging correlation graphs. | |||
== Bird Evolution == | |||
Birds and Dinosaurs? as quoted in a recent Curent Biology review "...abundant and ever increasing evidence places birds as one surviving lineage of the diverse clade Dinosauria" | |||
[http://www.ncbi.nlm.nih.gov:80/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16713939 Clarke J, Middleton K.] Bird evolution. Curr Biol. 2006 May 23;16(10):R350-4. | |||
[http://www.ncbi.nlm.nih.gov:80/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16893476 Lindow BE, Dyke GJ.] Bird evolution in the Eocene: climate change in Europe and a Danish fossil fauna. Biol Rev Camb Philos Soc. 2006 Aug 8;:1-17 | |||
== Chicken Sex Determination == | |||
In chicken development sex determination depends on a ZZ male/ZW female mechanism. | |||
This differs from mammalian sex determination which is based upon testis expression of an Sry gene in somatic supporting Sertoli cells. | |||
In the gonad, the coelomic epithelium contributes only to non-steroidogenic interstitial cells and nephrogenous mesenchyme contributes both Sertoli cells and steroidogenic cells. | |||
== Chicken Genomics == | |||
The first draft of the chicken genome was publicly released in March, 2004. There are a number of sites that have begun looking into establishing chicken genomics partly due to its powerful history as a model of vertebrate development that is easy to observe, manipulate and is also cheap. (see also [http://www.nih.gov/science/models/nmm/appd.html NIH Proposal for Chicken Genomics] | [http://www.ncbi.nlm.nih.gov/projects/genome/guide/chicken/ NCBI Chicken Genome Resources]) | |||
A summary of chicken genome resources has recently been identified in a review in Developmental Dynamics by Antin PB and Konieczka JH. [http://www3.interscience.wiley.com/cgi-bin/abstract/109932363/ABSTRACT Genomic resources for chicken.] Dev Dyn. 2005 Apr;232(4):877-82. PMID: 15739221. | |||
'''Chicken genomic websites:''' | |||
* [http://www.chicken-genome.org/ AvianNet http://www.ri.bbsrc.ac.uk/chickmap] | |||
* [http://www.ncbi.nlm.nih.gov/projects/genome/guide/chicken/ NCBI Chicken Genome Resources] | |||
* [http://genome.wustl.edu/projects/chicken/ Genome browser - Washington University Genome Sequencing Center (WUGSC)] | |||
* [http://www.ensembl.org/Gallus_gallus/ Genome browser -  Ensembl] | |||
* [http://www.ri.bbsrc.ac.uk/chickmap http://www.ri.bbsrc.ac.uk/chickmap] | |||
* [http://poultry.mph.msu.edu/mapsnew.html http://poultry.mph.msu.edu/mapsnew.html] | |||
* [http://ag.ansc.purdue.edu/poultry/ http://ag.ansc.purdue.edu/poultry/] | |||
* [http://www.zod.wau.nl/vf/chickensite/chicken.html http://www.zod.wau.nl/vf/chickensite/chicken.html] | |||
* [http://tetra.gig.usda.gov:8400/chickgbase/manager.html http://tetra.gig.usda.gov:8400/chickgbase/manager.html ] | |||
== Web Links == | |||
'''Developmental Dynamics''' - [http://www.wiley.com/legacy/products/subject/life/anatomy/chick.html Chicken Special Issue (2004)] | [http://www.wiley.com/legacy/products/subject/life/anatomy/hamburger.pdf Poster- Hamburger Hamilton Stages] | [http://www.wiley.com/legacy/products/subject/life/anatomy/hamburger_hamilton_hi_res.pdf Republished Hamburger Hamilton Stages Paper] | |||
'''Developmental Biology''' - [http://sdb.bio.purdue.edu/dbcinema/ledouarin/ledouarin.html Quail-Chick Chimeras] | |||
Nicole Le Douarin pioneered the use of quail-chick chimeras to study the developmental fate of cells in the bird embryo. The videotape Nicole Le Douarin gave us permission to digitize is titled, "Quail-Chick Chimeras in Development of the Nervous System and Immune System" and it was made in 1987. These digital video sequences and still images come from the first part of her videotape. | |||
These chimeras were a key to our understanding cell migration (eg neural crest) in the embryo. The movie links below require an internet connection. | |||
[http://sdb.bio.purdue.edu/dbcinema/ledouarin/ledouarin01qt.html Quicktime movie sequence 1] (477k) showing newly hatched quail-chick chimeras; white feathers are chick and dark, pigmented feathers are quail. | |||
[http://sdb.bio.purdue.edu/dbcinema/ledouarin/ledouarin04qt.html Quicktime movie sequence 2] (1.3 MB) Sequence showing the preparation of the chick host; removing a portion of host's neural tube and neural crest. | |||
[http://sdb.bio.purdue.edu/dbcinema/ledouarin/ledouarin05qt.html Quicktime movie sequence 3] (1.4 MB) Sequence showing the removal and "cleaning off" of donor quail neural tube and neural crest. | |||
[http://sdb.bio.purdue.edu/dbcinema/ledouarin/ledouarin06qt.html Quicktime movie sequence 4] (1.5 MB) Sequence showing transplantation and grafting of donor quail neural tube and neural crest into the chick host; at the end of this sequence, you see the host chick embryo 5 hours later with its healed in graft. | |||
Developmental Biology- Laurie Iten's [http://sdb.bio.purdue.edu/SDBEduca/QT_Embryos1.html Serially Sectioned Frog and Chick Embryos] | |||
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Revision as of 08:24, 3 September 2009
Introduction
The chicken (taxon-Gallus Gallus gallus) embryo develops and hatches in 20-21 days and has been extensively used in embryology studies.
Fertilized eggs can be easily maintained in humidified incubators and during early stages of development the embryo floats on to of the egg yolk that it is using for nutrition. As the embryo grows it sinks into, or below the, yolk. The regular appearance of somites allowed early experimenters to acurately stage the embryo. The embryo was accessible and easy to manipulate (limb grafts/removal etc) that were informative about developmental processes. Chicken cells and tissues (neural ganglia/fragments) are also easy to grow in tissue culture. The discovery that quail cells have a different nuclear appearance meant that transplanted cells (chick/quail chimeras) could be tracked during development. For example, LeDourian's studies showed how neural crest cells migrate widely throughout the embryo.
Hamburger & Hamilton Stages
Hamburger & Hamilton staged the chicken embryo in 1951. The original paper had approx 25 citations between 1955 - 59, while in the year 1991 alone there were over 300 citations. Series of Embryonic Chicken Growth. J. Morphology, 88 49 - 92 (1951). Atlas recently republished by J.R. Sanes in Developmental Dynamics 195 229-275 (1993).
- A PDF Poster of developed from the original paper by Developmental Dynamics showing these stages on one page is available Poster- Hamburger Hamilton Stages
- A 2006 reproduction of the original paper Series of Embryonic Chicken Growth. J. Morphology, 88 49 - 92 (1951).
Also See [chick1.htm#hhtable table of HH Chicken stages] also [#otheratlas other Chicken Atlases.]
Gallus gallus
Taxonomy Id: 9031Preferred common name: chickenRank: speciesGenetic code: Translation table 1 (Standard) Mitochondrial genetic code: Translation table 2
Other names: dwarf Leghorn chickens[includes], red junglefowl[includes], chickens[common name], Gallus domesticus[misnomer], Gallus gallus domesticus[misnomer]
Lineage( abbreviated ): Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Archosauria; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus
Other Chicken Atlases
Vertebrate and Invertebrate Embryos (7th Edition) G.C. Schoenwolf, Prentice Hall, New Jersey
An Atlas of Embryology (1975) W.H. Freeman and B. Bracegirdle, Heinemann Educational Books, UK.
This is an ATLAS (no description of development) , basically reprinted from the original 1963 edition.
Photos with labelled diagrams covering Amphioxus (worm) Frog, Chicken.
An Atlas for Staging Mammalian and Chick Embryos (1987) H. Bultler and B.H. Juurlink, CRC Press Inc., Florida
This ATLAS is not a complete series of development but has interesting comparisons of species.
Mostly photos of embryos with a few drawn diagrams and a series of staging correlation graphs.
Bird Evolution
Birds and Dinosaurs? as quoted in a recent Curent Biology review "...abundant and ever increasing evidence places birds as one surviving lineage of the diverse clade Dinosauria"
Clarke J, Middleton K. Bird evolution. Curr Biol. 2006 May 23;16(10):R350-4.
Lindow BE, Dyke GJ. Bird evolution in the Eocene: climate change in Europe and a Danish fossil fauna. Biol Rev Camb Philos Soc. 2006 Aug 8;:1-17
Chicken Sex Determination
In chicken development sex determination depends on a ZZ male/ZW female mechanism.
This differs from mammalian sex determination which is based upon testis expression of an Sry gene in somatic supporting Sertoli cells.
In the gonad, the coelomic epithelium contributes only to non-steroidogenic interstitial cells and nephrogenous mesenchyme contributes both Sertoli cells and steroidogenic cells.
Chicken Genomics
The first draft of the chicken genome was publicly released in March, 2004. There are a number of sites that have begun looking into establishing chicken genomics partly due to its powerful history as a model of vertebrate development that is easy to observe, manipulate and is also cheap. (see also NIH Proposal for Chicken Genomics | NCBI Chicken Genome Resources)
A summary of chicken genome resources has recently been identified in a review in Developmental Dynamics by Antin PB and Konieczka JH. Genomic resources for chicken. Dev Dyn. 2005 Apr;232(4):877-82. PMID: 15739221.
Chicken genomic websites:
- AvianNet http://www.ri.bbsrc.ac.uk/chickmap
- NCBI Chicken Genome Resources
- Genome browser - Washington University Genome Sequencing Center (WUGSC)
- Genome browser -  Ensembl
- http://www.ri.bbsrc.ac.uk/chickmap
- http://poultry.mph.msu.edu/mapsnew.html
- http://ag.ansc.purdue.edu/poultry/
- http://www.zod.wau.nl/vf/chickensite/chicken.html
- http://tetra.gig.usda.gov:8400/chickgbase/manager.html
Web Links
Developmental Dynamics - Chicken Special Issue (2004) | Poster- Hamburger Hamilton Stages | Republished Hamburger Hamilton Stages Paper
Developmental Biology - Quail-Chick Chimeras
Nicole Le Douarin pioneered the use of quail-chick chimeras to study the developmental fate of cells in the bird embryo. The videotape Nicole Le Douarin gave us permission to digitize is titled, "Quail-Chick Chimeras in Development of the Nervous System and Immune System" and it was made in 1987. These digital video sequences and still images come from the first part of her videotape.
These chimeras were a key to our understanding cell migration (eg neural crest) in the embryo. The movie links below require an internet connection.
Quicktime movie sequence 1 (477k) showing newly hatched quail-chick chimeras; white feathers are chick and dark, pigmented feathers are quail.
Quicktime movie sequence 2 (1.3 MB) Sequence showing the preparation of the chick host; removing a portion of host's neural tube and neural crest.
Quicktime movie sequence 3 (1.4 MB) Sequence showing the removal and "cleaning off" of donor quail neural tube and neural crest.
Quicktime movie sequence 4 (1.5 MB) Sequence showing transplantation and grafting of donor quail neural tube and neural crest into the chick host; at the end of this sequence, you see the host chick embryo 5 hours later with its healed in graft.
Developmental Biology- Laurie Iten's Serially Sectioned Frog and Chick Embryos
Glossary Links
- Glossary: A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | Numbers | Symbols | Term Link
Cite this page: Hill, M.A. (2024, May 2) Embryology Chicken Development. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Chicken_Development
- © Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G
