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1 ks, compromises the self-renewal capacity of mammary epithelia.
2 th conditional loss of murine p53 (Trp53) in mammary epithelia.
3 " prepared from Cav-1(-/-) MSFs on wild-type mammary epithelia.
4 ary to restore functional differentiation of mammary epithelia.
5 trate, was mislocalized in mitotic Chk1(+/-) mammary epithelia.
6 G cells, which are derived from normal mouse mammary epithelia.
7 d required localization within the nuclei of mammary epithelia.
8 ry gland development and in cultured primary mammary epithelia.
9 brane domains in non-muscle cells, including mammary epithelia.
10 cated in the oncogenesis of the prostate and mammary epithelia.
11 uggest a cell type-specific role for TP53 in mammary epithelia.
13 This suggests a survival role for IRF-1 in mammary epithelia and demonstrates a novel role for IRF-
14 ivation promotes premalignant alterations in mammary epithelia and induces increased ERalpha expressi
15 that BMPR2 has tumor-suppressive function in mammary epithelia and microenvironment and that disrupti
16 formed in models that represent immortalized mammary epithelia and multiple subtypes of breast cancer
17 ator of proliferation and differentiation in mammary epithelia and represents a crucial prognostic in
18 factors are required for the survival of the mammary epithelia and what role these adipokines play in
19 expression is increased in Cav-1 (-/-) null mammary epithelia, and estrogen stimulation further enha
20 ediates prolactin-induced differentiation of mammary epithelia, and loss of Stat5 signaling in human
21 is the predominant SENP transcript in human mammary epithelia but is significantly reduced in precan
22 Thus, a Cav-1 deficiency profoundly affects mammary epithelia by modulating the activation state of
23 discovered that Cre-Lox ablation of Rac1 in mammary epithelia causes gross enlargement of the epithe
24 sion of an insulin receptor (IR) in a normal mammary epithelia] cell line causes insulin-dependent tr
27 nsgenic mice deregulated for cyclin E in the mammary epithelia develop carcinoma, confirming that cyc
29 we demonstrate that depletion of Scribble in mammary epithelia disrupts cell polarity, blocks three-d
30 Human ErbB-2 was expressed in the secretory mammary epithelia during pregnancy and lactation and exp
31 ave been noted in comparing the responses of mammary epithelia from nulliparous versus parous females
34 larization of early hyperplastic portions of mammary epithelia in NeuYD;MMTV-VEGF animals was associa
35 icting Par3 and aPKC to the apical region in mammary epithelia in vivo, and found that mammary morpho
36 Ac) epitopes, induces branching migration of mammary epithelia in vivo, ex vivo, and in 3D organotypi
37 anding how cell cycle is regulated in normal mammary epithelia is essential for deciphering defects o
40 imals, low levels of transgene expression in mammary epithelia led to increased expression of endogen
41 function is an early event occurring in the mammary epithelia of midlactation mammary glands in whic
45 develop mammary cancer due to expression in mammary epithelia of transforming growth factor alpha (T
46 he matrix metalloproteinase stromelysin-1 to mammary epithelia of transgenic mice resulted in reduced
47 testinal epithelium, unlike in epidermal and mammary epithelia, of mice does not result in decreased
49 studies indicate two distinct populations of mammary epithelia that express nestin: one expressing cy
50 imilar phenotypes were observed in Pten-null mammary epithelia that had been transplanted into wild-t
51 paB (RANK) pathway mediates the expansion of mammary epithelia that occurs during pregnancy, and acti
52 mary, overexpression of cyclin D1 may commit mammary epithelia to a tumor-prone phenotype in which co
54 sion of proteolytically active MMP3 in mouse mammary epithelia triggers supernumerary lateral branchi
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