Talk:2018 Group Project 4: Difference between revisions
Line 15: | Line 15: | ||
"During early development neural folds are formed along the anteroposterior-axis in the ectoderm. Upon fusion the folds give rise to the neural tube. During the process of neural tube formation, cells detach at the border of the neural and epidermal ectoderm, i.e. at the dorsal aspect of the forming neural tube. These cells are referred to as neural crest cells. Neural crest cells migrate along defined pathways throughout the body. Upon arrival at their destination, they differentiate into various cell types, among which melanocytes, peripheral neurons and their supporting cells, and skeletal elements. The neural crest cells are formed along the entire cranio–caudal axis of the body and can be divided into two major populations the cranial and truncal neural crest cells. The cranial neural crest extends from the diencephalon up to somite pair 5, and the truncal neural crest from somite pair 6 to the caudal end of the neural tube. The truncal neural crest is involved in sympathetic innervation of the heart, whereas the cranial neural crest is associated with parasympathetic innervation of the heart." | "During early development neural folds are formed along the anteroposterior-axis in the ectoderm. Upon fusion the folds give rise to the neural tube. During the process of neural tube formation, cells detach at the border of the neural and epidermal ectoderm, i.e. at the dorsal aspect of the forming neural tube. These cells are referred to as neural crest cells. Neural crest cells migrate along defined pathways throughout the body. Upon arrival at their destination, they differentiate into various cell types, among which melanocytes, peripheral neurons and their supporting cells, and skeletal elements. The neural crest cells are formed along the entire cranio–caudal axis of the body and can be divided into two major populations the cranial and truncal neural crest cells. The cranial neural crest extends from the diencephalon up to somite pair 5, and the truncal neural crest from somite pair 6 to the caudal end of the neural tube. The truncal neural crest is involved in sympathetic innervation of the heart, whereas the cranial neural crest is associated with parasympathetic innervation of the heart." | ||
{{#pmid:10946058}} | |||
[[User:Z5229185|Z5229185]] ([[User talk:Z5229185|talk]]) 11:51, 21 August 2018 (AEST) Sounds good for a brief introduction of the neural crest roles to the heart development | [[User:Z5229185|Z5229185]] ([[User talk:Z5229185|talk]]) 11:51, 21 August 2018 (AEST) Sounds good for a brief introduction of the neural crest roles to the heart development | ||
Revision as of 12:52, 21 August 2018
Projects 2018: 1 Adrenal Medulla | 3 Melanocytes | 4 Cardiac | 5 Dorsal Root Ganglion |
Project Pages are currently being updated (notice removed when completed)
Neural Crest and Cardiovascular Development
About this Discussion Page
The project discussion page is where your group members can post discussion on the project topic. This will be demonstrated in the practical tutorial in week 3.
Please follow these 3 simple rules:
- Never identify yourself or any other students by name, use only your student number.
- Only edit your own student page or your own group project page.
- Only add content that is both correctly cited and you have permission to reuse.
Group Assessment Criteria |
---|
Science Student Projects
|
More Information on Assessment Criteria | Science Student Projects |
|
|
|
Z5229189 (talk) 12:28, 14 August 2018 (AEST)
Neural Crest and Cardiac Development
Introduction/history/structure of the cardiovascular network/histology/anatomy/physiology
"During early development neural folds are formed along the anteroposterior-axis in the ectoderm. Upon fusion the folds give rise to the neural tube. During the process of neural tube formation, cells detach at the border of the neural and epidermal ectoderm, i.e. at the dorsal aspect of the forming neural tube. These cells are referred to as neural crest cells. Neural crest cells migrate along defined pathways throughout the body. Upon arrival at their destination, they differentiate into various cell types, among which melanocytes, peripheral neurons and their supporting cells, and skeletal elements. The neural crest cells are formed along the entire cranio–caudal axis of the body and can be divided into two major populations the cranial and truncal neural crest cells. The cranial neural crest extends from the diencephalon up to somite pair 5, and the truncal neural crest from somite pair 6 to the caudal end of the neural tube. The truncal neural crest is involved in sympathetic innervation of the heart, whereas the cranial neural crest is associated with parasympathetic innervation of the heart."
van den Hoff MJ & Moorman AF. (2000). Cardiac neural crest: the holy grail of cardiac abnormalities?. Cardiovasc. Res. , 47, 212-6. PMID: 10946058
Z5229185 (talk) 11:51, 21 August 2018 (AEST) Sounds good for a brief introduction of the neural crest roles to the heart development
Embryonic origins/embyronic contributions
Early development
Later development
Developmental time course/carnegie stages/overview
Cell signalling involved/molecular mechanisms/factors/genes
Disorders/abnormalities
Current research/main animal models/future questions
Reference
PMID: 10359559 Waldo K, Zdanowicz M, Burch J, Kumiski DH, Stadt HA, Godt RE, Creazzo TL & Kirby ML. (1999). A novel role for cardiac neural crest in heart development. J. Clin. Invest. , 103, 1499-507. PMID: 10359559 DOI.
<pubmed limit=5>Neural Crest Embryology</pubmed>
A novel role for cardiac neural crest in heart development
PMID: 10359559 Waldo K, Zdanowicz M, Burch J, Kumiski DH, Stadt HA, Godt RE, Creazzo TL & Kirby ML. (1999). A novel role for cardiac neural crest in heart development. J. Clin. Invest. , 103, 1499-507. PMID: 10359559 DOI.
Z5229281 (talk) 12:47, 14 August 2018 (AEST)
Z5229185 (talk) 12:48, 14 August 2018 (AEST)