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Human Polyclonal LEF1 Primary Antibody for IF (p), IHC (p) - ABIN735248
Song, Man, Wang, Bai, Wei, Liu, Liu, Gu, Wang: The Regenerating Spinal Cord of Gecko Maintains Unaltered Expression of ?-Catenin Following Tail Amputation. in Journal of molecular neuroscience : MN 2014
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Human Monoclonal LEF1 Primary Antibody for WB - ABIN1882259
Gutierrez, Tschumper, Wu, Shanafelt, Eckel-Passow, Huddleston, Slager, Kay, Jelinek: LEF-1 is a prosurvival factor in chronic lymphocytic leukemia and is expressed in the preleukemic state of monoclonal B-cell lymphocytosis. in Blood 2010
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Human Polyclonal LEF1 Primary Antibody for ELISA, WB - ABIN188546
Yasumoto, Takeda, Saito, Watanabe, Takahashi, Shibahara: Microphthalmia-associated transcription factor interacts with LEF-1, a mediator of Wnt signaling. in The EMBO journal 2002
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Human Monoclonal LEF1 Primary Antibody for RNAi, ELISA - ABIN565556
Hebenstreit, Giaisi, Treiber, Zhang, Mi, Horejs-Hoeck, Andersen, Krammer, Duschl, Li-Weber: LEF-1 negatively controls interleukin-4 expression through a proximal promoter regulatory element. in The Journal of biological chemistry 2008
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Human Polyclonal LEF1 Primary Antibody for IF (p), IHC (p) - ABIN1387756
Fu, Huang, Wang, Chen, Huang, Lu, Liang, Zhang: Proteome Profile and Quantitative Proteomic Analysis of Buffalo (Bubalusbubalis) Follicular Fluid during Follicle Development. in International journal of molecular sciences 2016
Human Polyclonal LEF1 Primary Antibody for ICC, IF - ABIN4330626
Asplund, Gry Björklund, Sundquist, Strömberg, Edlund, Ostman, Nilsson, Pontén, Lundeberg: Expression profiling of microdissected cell populations selected from basal cells in normal epidermis and basal cell carcinoma. in The British journal of dermatology 2008
Human Polyclonal LEF1 Primary Antibody for IF, WB - ABIN655987
Kalsi, Kuo, Aliev, Alexander, McMichael, Patterson, Walsh, Zhao, Schuckit, Nurnberger, Edenberg, Kramer, Hesselbrock, Tischfield, Vladimirov, Prescott, Dick, Kendler, Riley: A systematic gene-based screen of chr4q22-q32 identifies association of a novel susceptibility gene, DKK2, with the quantitative trait of alcohol dependence symptom counts. in Human molecular genetics 2010
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Data suggest that LEF1-dependent genes in zebrafish hypothalamus are associated with anxiety; LEF1 null mutant zebrafish exhibit increased anxiety.
mesodermal Wnt3a (show WNT3A Antibodies)-mediated signaling via the transcription factor Lef1 positively regulates EC specification (defined by kdrl expression) at the expense of primitive erythrocyte specification (defined by gata1 (show GATA1 Antibodies) expression) in zebrafish embryos.
Amotl2a (show AMOTL2 Antibodies) function in the control of lateral line primordium cell proliferation is mediated together by the Hippo pathway effector Yap1 (show YAP1 Antibodies) and the Wnt (show WNT2 Antibodies)/beta-catenin (show CTNNB1 Antibodies) effector Lef1.
Lef1 has a role in regulating Dusp6 (show DUSP6 Antibodies) in formation of the zebrafish posterior lateral line primordium
Nlk2 (show NLK Antibodies) is essential for the phosphorylation and activation of Lef1 transcriptional activity in neural progenitor cells.
Lef1 is required for progenitor cell identity in the zebrafish lateral line primordium.
Lef1 sustains proliferation of leading zone progenitors, maintaining the primordium size and defining neuromast deposition rate.
Data conclude that lef1-mediated Wnt (show WNT2 Antibodies) signaling is involved in various aspects of primordium migration, although part of this implication is masked by a high level of developmental redundancy.
Data show cooperation between Dnmt3 and an H3K9 methyltransferase G9a (show EHMT2 Antibodies) in regulating lef1.
high-affinity binding sites for Tcf (show HNF4A Antibodies)/Lef1 within the boz promoter region
Lef1 and Tcf1 (show HNF1A Antibodies) showed oncogenic effect in colonic carcinogenesis. Cellular context of miRNAs might play important roles in carcinogenesis by altering the expression pattern of Lef/Tcfs members.
Data (including data from studies using transgenic/knockout mice) suggest that expression of Lef1 in hypothalamus inhibits anxiety and regulates neurogenesis; expression of Lef1 in hypothalamus is required for neurogenesis.
Uncovering a Pitx2 (show PITX2 Antibodies)-Sox2 (show SOX2 Antibodies)-Lef-1 transcriptional mechanism that regulates dental epithelial stem cells homeostasis and dental development.
this study shows that the transcription factors Tcf1 (show HNF1A Antibodies) and Lef1 suppress CD4 (show CD4 Antibodies)+ T lineage genes in CD8 (show CD8A Antibodies)+ T cells through intrinsic histone deacetylase (show HDAC1 Antibodies) activity
leukemic stem cells are therefore more sensitive to loss of Tcf1 (show HNF1A Antibodies) and Lef1 than Hematopoietic Stem Cells in their self-renewal capacity.
Sp5 (show SP5 Antibodies)/8 bind directly to GC boxes in Wnt (show WNT2 Antibodies) target gene enhancers and to adjacent, or distally positioned, chromatin-bound T-cell factor (Tcf) 1 (show HNF1A Antibodies)/lymphoid enhancer factor (Lef) 1 to facilitate recruitment of beta-catenin (show CTNNB1 Antibodies) to target gene enhancers.
This paper demonstrates a cell-intrinsic requirement for transcription factors TCF1 (show HNF1A Antibodies) and LEF1 for the development of all subsets of Natural Killer T cells.
this study gives new insights into transcriptional regulating mechanisms of Wnt (show WNT2 Antibodies)-mediated Isl1 (show ISL1 Antibodies) expression during cardiomyocyte differentiation.
data reveal LEF1 as a central regulator of iNKT cell number and Th2-type effector differentiation.
These findings provide evidence for the existance of a posititve feedback loop connecting survivin (show BIRC5 Antibodies) expression in tumor cells to PI3K/Akt (show AKT1 Antibodies) enhanced beta-catenin (show CTNNB1 Antibodies)-Tcf (show HNF4A Antibodies)/Lef-dependent transcription followed by secretion of VEGF (show VEGFA Antibodies) and angiogenesis.
Tcf (show HNF4A Antibodies)/Lef genes encode factors of different activities, which function together in antagonistic or synergistic ways to modulate the intensity and outcome of Wnt (show WNT2 Antibodies)/beta-catenin (show CTNNB1 Antibodies) signalling and to trigger tissue-specific responses.
Interaction of Xom and LEF1/TCF (show HNF4A Antibodies)-factors is essential for ventral cell fate determination and LEF1/TCF (show HNF4A Antibodies) factors may function as a point of convergence to mediate the combined signaling of Wnt (show WNT2 Antibodies)/beta-catenin (show CTNNB1 Antibodies) and BMP4 (show BMP4 Antibodies)/Xom pathways during early embryogenesis.
LEF1 was consistently expressed in the tubal-peritoneal junctions and all tubal intraepithelial lesions, independent of p53 (show TP53 Antibodies) status.
these data suggest that LEF1 rather has tumor suppressive functions and attenuates aggressiveness in a subset of RMS.
Positive LEF-1 favors a benign neoplasm.
Results show that high enhancer-binding factor-1 (LEF1) expression is associated with poor survival for chronic lymphocytic leukemia (CLL) patients.
Knockdown of GATA6 (show GATA6 Antibodies) completely eliminated the effect of TCF1 (show HNF1A Antibodies), while forced expression of GATA6 (show GATA6 Antibodies) induced hESC differentiation
Data indicate that microRNA miR (show MLXIP Antibodies)-27a directly targets GSK-3beta and increases expression of beta-catenin (show CTNNB1 Antibodies) and LEF1 in all-trans-retinoic acid (ATRA)-induced Hep2 cells.
and CTU1 (show CTU1 Antibodies)/2, partner enzymes in U34 methoxycarbonylmethyl-2-thio (show ACAA1 Antibodies) tRNA modification, are up-regulated in human breast cancers and sustain metastasis.
EVI1 (show MECOM Antibodies) transcription is directly regulated by LEF1/beta-catenin (show CTNNB1 Antibodies) complex in myeloid blast crisis of chronic myeloid leukemia (show BCL11A Antibodies). Loss of p53 (show TP53 Antibodies) function as a key regulator for beta-catenin (show CTNNB1 Antibodies)-EVI1 (show MECOM Antibodies) in myeloid blast crisis of chronic myeloid leukemia (show BCL11A Antibodies).
LEF1 is a sensitive and specific marker for chronic lymphocytic B-cell leukemia
The molecular characterisation of the porcine LEF1 gene and its association with number of teats and inverted teats in experimental and commercial populations, is described.
This gene encodes a transcription factor belonging to a family of proteins that share homology with the high mobility group protein-1. The protein encoded by this gene can bind to a functionally important site in the T-cell receptor-alpha enhancer, thereby conferring maximal enhancer activity. This transcription factor is involved in the Wnt signaling pathway, and it may function in hair cell differentiation and follicle morphogenesis. Mutations in this gene have been found in somatic sebaceous tumors. This gene has also been linked to other cancers, including androgen-independent prostate cancer. Alternative splicing results in multiple transcript variants.
lymphoid enhancer binding factor-1
, lymphoid enhancer-binding factor 1
, lymphoid enhancer-binding factor 1-like
, lymphoid enhancer binding factor 1 short isoform
, T cell-specific transcription factor 1-alpha
, lymphiod enhancer binding factor 1
, transcription factor LEF-1
, lymphoid enhancer binding factor 1