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Böhm J Sustmann C Wilhelm C Kohlhase J 《Biochemical and biophysical research communications》2006,348(3):898-907
The SALL4 promoter has not yet been characterized. Animal studies showed that SALL4 is downstream of and interacts with TBX5 during limb and heart development, but a direct regulation of SALL4 by TBX5 has not been demonstrated. For other SAL genes, regulation within the Shh, Wnt, and Fgf pathways has been reported. Chicken csal1 expression can be activated by a combination of Fgf4 and Wnt3a or Wnt7a. Murine Sall1 enhances, but Xenopus Xsal2 represses, the canonical Wnt signaling. Here we describe the cloning and functional analysis of the SALL4 promoter. Within a minimal promoter region of 31bp, we identified a consensus TCF/LEF-binding site.The SALL4 promoter was strongly activated not only by LEF1 but also by TCF4E. Mutation of the TCF/LEF-binding site resulted in decreased promoter activation. Our results demonstrate for the first time the direct regulation of a SALL gene by the canonical Wnt signaling pathway. 相似文献
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Laura Bozal-Basterra Itziar Martín-Ruíz Lucia Pirone Yinwen Liang Jón Otti Sigurðsson Maria Gonzalez-Santamarta Immacolata Giordano Estibaliz Gabicagogeascoa Angela de Luca Jose A. Rodríguez Andrew O.M. Wilkie Jürgen Kohlhase Deborah Eastwood Christopher Yale Jesper V. Olsen Michael Rauchman Kathryn V. Anderson James D. Sutherland Rosa Barrio 《American journal of human genetics》2018,102(2):249-265
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The spalt proteins are encoded by a family of evolutionarily conserved genes found in species as diverse as Drosophila, C. elegans and vertebrates. In humans, mutations in some of these genes are associated with several congenital disorders which underscores the importance of spalt gene function in embryonic development. Recent studies have begun to cast light on the functions of this family of proteins with increasing understanding of the developmental processes regulated and the molecular mechanisms used. Here we review what is currently known about the role of spalt genes in vertebrate development and human disease. 相似文献
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In cell cultures, the dispersed phenotype is indicative of the migratory ability. Here we characterized Sal-like 4 (SALL4) as a dispersion factor in basal-like breast cancer. Our shRNA-mediated SALL4 knockdown system and SALL4 overexpression system revealed that SALL4 suppresses the expression of adhesion gene CDH1, and positively regulates the CDH1 suppressor ZEB1. Cell behavior analyses showed that SALL4 suppresses intercellular adhesion and maintains cell motility after cell–cell interaction and cell division, which results in the dispersed phenotype. Our findings indicate that SALL4 functions to suppress CDH1 expression and to maintain cell dispersion in basal-like breast cancer. 相似文献
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Raphaël Pantier Kashyap Chhatbar Timo Quante Konstantina Skourti-Stathaki Justyna Cholewa-Waclaw Grace Alston Beatrice Alexander-Howden Heng Yang Lee Atlanta G. Cook Cornelia G. Spruijt Michiel Vermeulen Jim Selfridge Adrian Bird 《Molecular cell》2021,81(4):845-858.e8
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