Mikhaylova Lyudmila M, Boutanaev Alexander M, Nurminsky Dmitry I
Department of Anatomy and Cellular Biology, Tufts University School of Medicine, Boston, MA 02111, USA.
Proc Natl Acad Sci U S A. 2006 Aug 8;103(32):11975-80. doi: 10.1073/pnas.0605087103. Epub 2006 Jul 28.
Transcriptional activation in early spermatocytes involves hundreds of genes, many of which are required for meiosis and spermatid differentiation. A number of the meiotic-arrest genes have been identified as general regulators of transcription; however, the gene-specific transcription factors have remained elusive. To identify such factors, we purified the protein that specifically binds to the promoter of spermatid-differentiation gene Sdic and identified it as Modulo, the Drosophila homologue of nucleolin. Analysis of gene-expression patterns in the male sterile modulo mutant indicates that Modulo supports high expression of the meiotic-arrest genes and is essential for transcription of spermatid-differentiation genes. Expression of Modulo itself is under the control of meiotic-arrest genes and requires the DAZ/DAZL homologue Boule that is involved in the control of G(2)/M transition. Thus, regulatory interactions among Modulo, Boule, and the meiotic-arrest genes integrate meiosis and spermatid differentiation in the male germ line.
早期精母细胞中的转录激活涉及数百个基因,其中许多基因是减数分裂和精子细胞分化所必需的。一些减数分裂阻滞基因已被确定为转录的一般调节因子;然而,基因特异性转录因子仍然难以捉摸。为了鉴定这些因子,我们纯化了与精子细胞分化基因Sdic启动子特异性结合的蛋白质,并将其鉴定为核仁素的果蝇同源物Modulo。对雄性不育modulo突变体中基因表达模式的分析表明,Modulo支持减数分裂阻滞基因的高表达,并且对精子细胞分化基因的转录至关重要。Modulo本身的表达受减数分裂阻滞基因的控制,并且需要参与G(2)/M转换控制的DAZ/DAZL同源物Boule。因此,Modulo、Boule和减数分裂阻滞基因之间的调节相互作用整合了雄性生殖系中的减数分裂和精子细胞分化。