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Full-Text Articles in Medicine and Health Sciences
Linkage Of Two Human Pregnancy-Specific Beta 1-Glycoprotein Genes: One Is Associated With Hydatidiform Mole., Kimberly Leslie, S. Watanabe, K. Lei, D. Chou, C. Plouzek, H. Deng, J. Torres, J. Chou
Linkage Of Two Human Pregnancy-Specific Beta 1-Glycoprotein Genes: One Is Associated With Hydatidiform Mole., Kimberly Leslie, S. Watanabe, K. Lei, D. Chou, C. Plouzek, H. Deng, J. Torres, J. Chou
Kimberly K. Leslie
A genomic clone containing two linked human pregnancy-specific beta 1-glycoprotein (PS beta G) genes has been isolated and characterized. The two genes are arranged in the same 5'----3' orientation; the 3' region (including the A2 and B-C exons) of the upstream gene, PSGGA, is linked to the 5' region (including the 5'/L and L/N exons) of PSGGB, the downstream gene. Depending upon the domains compared, PSGGA and PSGGB share 92-98% nucleotide and 86-95% amino acid sequence identity with PSG93, the most abundant PS beta G transcript. The 3' exon (B-C) of PSGGA contains four alternative splice sites and three polyadenylylation …
Functional Analysis Of A Mutant Estrogen Receptor Isolated From T47dco Breast Cancer Cells., Kimberly Leslie, D. Tasset, K. Horwitz
Functional Analysis Of A Mutant Estrogen Receptor Isolated From T47dco Breast Cancer Cells., Kimberly Leslie, D. Tasset, K. Horwitz
Kimberly K. Leslie
OBJECTIVE: Estrogen receptor-positive cancers that initially respond to hormone therapy often progress to a resistant state. The breast cancer cell line T47Dco is a model for such resistance. It is a polymorphic line, composed of multiple cell populations that demonstrate the presence of mutant estrogen receptors by cloning and sequencing techniques. Our objective was to isolate and analyze the structural and functional characteristics of the T47Dco mutant estrogen receptor complementary deoxyribonucleic acid clones. STUDY DESIGN: We constructed two independent T47Dco complementary deoxyribonucleic acid libraries. We isolated and sequenced T47Dco estrogen receptors and have identified a mutant receptor that is truncated …
Egfr Isoforms And Gene Regulation In Human Endometrial Cancer Cells, L. Albitar, G. Pickett, M. Morgan, J. Wilken, N. Maihle, Kimberly Leslie
Egfr Isoforms And Gene Regulation In Human Endometrial Cancer Cells, L. Albitar, G. Pickett, M. Morgan, J. Wilken, N. Maihle, Kimberly Leslie
Kimberly K. Leslie
BACKGROUND: Epidermal growth factor (EGF) and its receptor (EGFR) constitute a principal growth-promoting pathway in endometrial cancer cells. Pre-clinical studies were undertaken to compare the expression of EGFR isoforms and the downstream effects of activating or blocking EGFR function in Ishikawa H cells, derived from a moderately differentiated type I endometrioid adenocarcinoma, or in Hec50co cells, derived from a poorly differentiated type II adenocarcinoma with papillary serous sub-differentiation. RESULTS: We investigated whether EGFR mutations are present in the tyrosine kinase domain (exons 18-22) of EGFR and also whether EGFR isoforms are expressed in the Ishikawa H or Hec50co cell lines. …
Models Representing Type I And Type Ii Human Endometrial Cancers: Ishikawa H And Hec50co Cells, L. Albitar, G. Pickett, M. Morgan, S. Davies, Kimberly Leslie
Models Representing Type I And Type Ii Human Endometrial Cancers: Ishikawa H And Hec50co Cells, L. Albitar, G. Pickett, M. Morgan, S. Davies, Kimberly Leslie
Kimberly K. Leslie
OBJECTIVE: Endometrial cancer models are critical to the advancement of investigation, and Ishikawa H and Hec50co cells have been used as research tools. The purpose of these studies is to verify the degree to which these commonly used cell models share the molecular characteristics of the two major in vivo endometrial cancer subtypes, I and II. METHODS: The studies reported include an analysis of pathologic features, tumor suppressor mutations, detailed karyotyping, and cell cycle regulation. RESULTS: Ishikawa H cells are hormone responsive and have lost PTEN expression. In addition they have lost RB1 expression due to a deletion in exon …