The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.

The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.

Fragile X syndrome, a common form of inherited mental retardation, is caused by the loss of fragile X mental retardation protein (FMRP). We have previously demonstrated that dFmr1, the Drosophila ortholog of the fragile X mental retardation 1 gene, plays a role in the proper maintenance of germline...

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Main Authors: Yingyue Yang, Shunliang Xu, Laixin Xia, Jun Wang, Shengmei Wen, Peng Jin, Dahua Chen
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2009-04-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC2654963?pdf=render
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spelling doaj-3f2245d06be54805b01730319bc1064e2020-11-25T00:07:26ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042009-04-0154e100044410.1371/journal.pgen.1000444The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.Yingyue YangShunliang XuLaixin XiaJun WangShengmei WenPeng JinDahua ChenFragile X syndrome, a common form of inherited mental retardation, is caused by the loss of fragile X mental retardation protein (FMRP). We have previously demonstrated that dFmr1, the Drosophila ortholog of the fragile X mental retardation 1 gene, plays a role in the proper maintenance of germline stem cells in Drosophila ovary; however, the molecular mechanism behind this remains elusive. In this study, we used an immunoprecipitation assay to reveal that specific microRNAs (miRNAs), particularly the bantam miRNA (bantam), are physically associated with dFmrp in ovary. We show that, like dFmr1, bantam is not only required for repressing primordial germ cell differentiation, it also functions as an extrinsic factor for germline stem cell maintenance. Furthermore, we find that bantam genetically interacts with dFmr1 to regulate the fate of germline stem cells. Collectively, our results support the notion that the FMRP-mediated translation pathway functions through specific miRNAs to control stem cell regulation.http://europepmc.org/articles/PMC2654963?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yingyue Yang
Shunliang Xu
Laixin Xia
Jun Wang
Shengmei Wen
Peng Jin
Dahua Chen
spellingShingle Yingyue Yang
Shunliang Xu
Laixin Xia
Jun Wang
Shengmei Wen
Peng Jin
Dahua Chen
The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
PLoS Genetics
author_facet Yingyue Yang
Shunliang Xu
Laixin Xia
Jun Wang
Shengmei Wen
Peng Jin
Dahua Chen
author_sort Yingyue Yang
title The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
title_short The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
title_full The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
title_fullStr The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
title_full_unstemmed The bantam microRNA is associated with drosophila fragile X mental retardation protein and regulates the fate of germline stem cells.
title_sort bantam microrna is associated with drosophila fragile x mental retardation protein and regulates the fate of germline stem cells.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2009-04-01
description Fragile X syndrome, a common form of inherited mental retardation, is caused by the loss of fragile X mental retardation protein (FMRP). We have previously demonstrated that dFmr1, the Drosophila ortholog of the fragile X mental retardation 1 gene, plays a role in the proper maintenance of germline stem cells in Drosophila ovary; however, the molecular mechanism behind this remains elusive. In this study, we used an immunoprecipitation assay to reveal that specific microRNAs (miRNAs), particularly the bantam miRNA (bantam), are physically associated with dFmrp in ovary. We show that, like dFmr1, bantam is not only required for repressing primordial germ cell differentiation, it also functions as an extrinsic factor for germline stem cell maintenance. Furthermore, we find that bantam genetically interacts with dFmr1 to regulate the fate of germline stem cells. Collectively, our results support the notion that the FMRP-mediated translation pathway functions through specific miRNAs to control stem cell regulation.
url http://europepmc.org/articles/PMC2654963?pdf=render
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