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Evolutionarily Ancient Association of the FoxJ1 Transcription Factor with the Motile Ciliogenic Program
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نویسنده
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vij s. ,rink j.c. ,ho h.k. ,babu d. ,eitel m. ,narasimhan v. ,tiku v. ,westbrook j. ,schierwater b. ,roy s.
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منبع
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plos genetics - 2012 - دوره : 8 - شماره : 11
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چکیده
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It is generally believed that the last eukaryotic common ancestor (leca) was a unicellular organism with motile cilia. in the vertebrates,the winged-helix transcription factor foxj1 functions as the master regulator of motile cilia biogenesis. despite the antiquity of cilia,their highly conserved structure,and their mechanism of motility,the evolution of the transcriptional program controlling ciliogenesis has remained incompletely understood. in particular,it is presently not known how the generation of motile cilia is programmed outside of the vertebrates,and whether and to what extent the foxj1-dependent regulation is conserved. we have performed a survey of numerous eukaryotic genomes and discovered that genes homologous to foxj1 are restricted only to organisms belonging to the unikont lineage. using a mis-expression assay,we then obtained evidence of a conserved ability of foxj1 proteins from a number of diverse phyletic groups to activate the expression of a host of motile ciliary genes in zebrafish embryos. conversely,we found that inactivation of a foxj1 gene in schmidtea mediterranea,a platyhelminth (flatworm) that utilizes motile cilia for locomotion,led to a profound disruption in the differentiation of motile cilia. together,all of these findings provide the first evolutionary perspective into the transcriptional control of motile ciliogenesis and allow us to propose a conserved foxj1-regulated mechanism for motile cilia biogenesis back to the origin of the metazoans. © 2012 vij et al.
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آدرس
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institute of molecular and cell biology,proteos,singapore, Singapore, max planck institute of molecular cell biology and genetics,dresden, Germany, institute of molecular and cell biology,proteos,singapore, Singapore, institute of molecular and cell biology,proteos,singapore,singapore,department of biological sciences,national university of singapore,singapore,singapore,nus graduate school for integrative sciences and engineering,national university of singapore,singapore, Singapore, itz division of ecology and evolution,stiftung tierärztliche hochschule,hannover,germany,the swire institute of marine science,faculty of science,school of biological sciences,the university of hong kong,hong kong, China, institute of molecular and cell biology,proteos,singapore, Singapore, max planck institute of molecular cell biology and genetics,dresden, Germany, department of molecular and cell biology and center for integrative genomics,university of california berkeley,berkeley,ca, United States, itz division of ecology and evolution,stiftung tierärztliche hochschule,hannover, Germany, institute of molecular and cell biology,proteos,singapore,singapore,department of biological sciences,national university of singapore,singapore,singapore,nus graduate school for integrative sciences and engineering,national university of singapore,singapore,singapore,school of biological sciences,nanyang technological university,singapore, Singapore
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Authors
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