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Nancy A. Jenkins
Researcher at Houston Methodist Hospital
Publications - 743
Citations - 105243
Nancy A. Jenkins is an academic researcher from Houston Methodist Hospital. The author has contributed to research in topics: Gene & Gene mapping. The author has an hindex of 155, co-authored 741 publications receiving 101587 citations. Previous affiliations of Nancy A. Jenkins include Institute of Molecular and Cell Biology & University of Texas MD Anderson Cancer Center.
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Journal ArticleDOI
cDNA cloning, expression analysis, and mapping of the mouse Nedd4 gene.
Sharad Kumar,Kieran F. Harvey,Makoto Kinoshita,Neal G. Copeland,Makoto Noda,Nancy A. Jenkins +5 more
TL;DR: It is shown that Nedd4 protein is localized to the cellular cytoplasm and maps to a previously defined homologous region between human and mouse chromosomes and thus provides additional information regarding interspecies comparative mapping.
Journal Article
Expression of a novel form of Tec kinase in hematopoietic cells and mapping of the gene to chromosome 5 near Kit.
Hiroyuki Mano,Kozue Mano,Bo Tang,Maria Koehler,Taolin Yi,Debra J. Gilbert,Nancy A. Jenkins,Neal G. Copeland,James N. Ihle +8 more
TL;DR: In screening of interleukin 3 (IL-3)-dependent myeloid leukemia cells for protein tyrosine kinases, it is observed that all cell lines examined expressed high levels of Tec transcripts, however, characterization of Tec cDNAs indicated that they differed significantly from the published sequence.
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A Comprehensive Genetic Map of Murine Chromosome 11 Reveals Extensive Linkage Conservation between Mouse and Human
TL;DR: The mouse chromosome 11 linkage map generated in these studies substantially extends the framework for identifying homologous genes in the mouse that are involved in human disease, for elucidating the genes responsible for several mouse mutations, and for gaining insights into chromosome evolution and genome organization.
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Comparative Genome Organization of Vertebrates
Leif Andersson,Alan Archibald,M. Ashburner,S. Audun,William Barendse,J. Bitgood,Cynthia D.K. Bottema,T. E. Broad,Stephen D.M. Brown,David W. Burt,Carole Charlier,Neal G. Copeland,Scott K. Davis,Muriel T. Davisson,J. Edwards,André Eggen,Greg Elgar,J. T. Eppig,I.R. Franklin,Peter M. Grewe,Theodore Gill,Jennifer A. Marshall Graves,R. J. Hawken,Jay Hetzel,A. Hilyard,Howard J. Jacob,L. Jaswinska,Nancy A. Jenkins,H. Kunz,Göran Levan,O. Lie,Leslie A. Lyons,P. Maccarone,Cathryn S. Mellersh,Grant W. Montgomery,Stephen S. Moore,Chris Moran,D. Morizot,M. Neff,Frank W. Nicholas,Stephen J. O'Brien,Yvonne M. Parsons,Josephine Peters,John H. Postlethwait,Marilyn Menotti Raymond,Max F. Rothschild,Lawrence B. Schook,Y. Sugimoto,Claude Szpirer,M. Tate,Jeremy F. Taylor,John L. VandeBerg,Matthew Wakefield,Johannes Wienberg,James E. Womack +54 more
TL;DR: In a recent paper as mentioned in this paper, the authors present an overview of the state-of-the-art work in animal genetics, focusing on the use of protein-protein interactions.
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TROY, a Newly Identified Member of the Tumor Necrosis Factor Receptor Superfamily, Exhibits a Homology with Edar and Is Expressed in Embryonic Skin and Hair Follicles
Tetsuo Kojima,Yoshihiro Morikawa,Neal G. Copeland,Debra J. Gilbert,Nancy A. Jenkins,Emiko Senba,Toshio Kitamura +6 more
TL;DR: In a signal sequence trap screening of the murine brain, a new member of the tumor necrosis factor receptor superfamily designated TROY was identified, indicating that TRAFs and nuclear factor κB are involved in the signal transduction of TROY.