G H Nuckolls
Overview
Explore the profile of G H Nuckolls including associated specialties, affiliations and a list of published articles.
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Articles
16
Citations
346
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Recent Articles
1.
Horner A, Shum L, AYRES J, Nonaka K, Nuckolls G
Dev Dyn
. 2002 Aug;
225(1):35-45.
PMID: 12203718
Dach1 is a mouse homologue of the Drosophila dachshund gene, which is a key regulator of cell fate determination during eye, leg, and brain development in the fly. We have...
2.
Tan D, Nonaka K, Nuckolls G, Liu Y, Maxson R, Slavkin H, et al.
Nucleic Acids Res
. 2002 Feb;
30(5):1213-23.
PMID: 11861914
Msx2 is a homeobox gene expressed in multiple embryonic tissues which functions as a key mediator of numerous developmental processes. YY1 is a bi-functional zinc finger protein that serves as...
3.
Takahashi K, Nuckolls G, Takahashi I, Nonaka K, Nagata M, Ikura T, et al.
Dev Dyn
. 2001 Oct;
222(2):252-62.
PMID: 11668602
During early mouse embryogenesis, cranial neural crest cells (CNCC) emigrate from the posterior midbrain and rhombomeres 1 and 2 of the anterior hindbrain into the first branchial arch-derived maxillary and...
4.
AYRES J, Shum L, Akarsu A, Dashner R, Takahashi K, Ikura T, et al.
Genomics
. 2001 Sep;
77(1-2):18-26.
PMID: 11543628
The gene DACH is a human homologue of Drosophila melanogaster dachshund (dac), which encodes a nuclear factor essential for determining cell fates in the eye, leg, and nervous system of...
5.
Semba I, Nonaka K, Takahashi I, Takahashi K, Dashner R, Shum L, et al.
Dev Dyn
. 2000 Apr;
217(4):401-14.
PMID: 10767084
Cranial neural crest cells emigrate from the posterior midbrain and anterior hindbrain to populate the first branchial arch and eventually differentiate into multiple cell lineages in the maxilla and mandible...
6.
Nonaka K, Shum L, Takahashi I, Takahashi K, Ikura T, Dashner R, et al.
Int J Dev Biol
. 2000 Mar;
43(8):795-807.
PMID: 10707903
Bone morphogenetic protein 4 (BMP4) induces, whereas epidermal growth factor (EGF) inhibits chondrogenesis. We hypothesize that BMP4 and EGF mediated intracellular signals are both coupled in the regulation of Meckel's...
7.
Amano O, Bringas P, Takahashi I, Takahashi K, Yamane A, Chai Y, et al.
Dev Dyn
. 1999 Dec;
216(3):299-310.
PMID: 10590481
Posterior midbrain and anterior hindbrain neuroectoderm trans-differentiate into cranial neural crest cells (CNCC), emigrate from the neural folds, and become crest-derived ectomesenchyme within the mandibular and maxillary processes. To investigate...
8.
9.
Nuckolls G, Shum L, Slavkin H
Cleft Palate Craniofac J
. 1999 Mar;
36(1):12-26.
PMID: 10067756
Significant advances in the study of the human face have revealed the genetic and gene-environment bases of numerous common and rare craniofacial disorders. Classification of craniofacial malformations based on clinical...
10.
Takahashi I, Nuckolls G, Takahashi K, Tanaka O, Semba I, Dashner R, et al.
J Cell Sci
. 1998 Jul;
111 ( Pt 14):2067-76.
PMID: 9645953
The initial modeling and subsequent development of the skeleton is controlled by complex gene-environment interactions. Biomechanical forces may be one of the major epigenetic factors that determine the form and...