Peg1/Mest定位于小鼠6号染色体近端当前定义的印迹区域远端,并识别出影响生长的新印迹区域。

C V Beechey
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引用次数: 34

摘要

具有母体近端6号染色体重复(Chr 6)的小鼠在出生11.5胎前在子宫内死亡,这一效应可归因于基因组印记。先前的研究已经将Chr 6区域定义为位于G-band 6B3中T6Ad易位断点的近端。新的Chr 6易位T77H大大减小了印迹区域的大小,将其定位在g波段6A3.2和着丝粒之间。父系表达的印迹基因Mest被定位在原始印迹区域内,因此是早期胚胎致死的候选基因。FISH显示,Mest位于T77H的远端,因此位于重新定义的印迹区域之外。这一证据证实,Mest不是两个母体近端Chr 6拷贝导致早期胚胎致死的候选基因。此外,母亲复制T77H远端Ch 6 (MatDp.dist6)的小鼠在出生时生长迟缓,直到成年后体重减轻的情况保持相似。由此可见,发育迟缓是在子宫内形成的,从出生到成年一直维持在相似的水平。因此,Mest位于影响生长的g波段6A3.2远端的一个新的印迹区。据报道,Mest的靶向突变表现为生长迟缓,产后存活率降低和产妇行为异常。这是MatDp的表型。将dist6小鼠与mst缺陷突变小鼠进行比较。与后者不同的是,MatDp。Dist6小鼠存活率高,雌性具有正常的母性行为。讨论了这些差异的可能原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peg1/Mest locates distal to the currently defined imprinting region on mouse proximal chromosome 6 and identifies a new imprinting region affecting growth.

Mice with maternal duplication for proximal chromosome 6 (Chr 6) die in utero before 11.5 dpc, an effect that can be attributed to genomic imprinting. Previous studies have defined the region of Chr 6 responsible as lying proximal to the T6Ad translocation breakpoint in G-band 6B3. Evidence presented here with a new Chr 6 translocation T77H has substantially reduced the size of the imprinting region, locating it between G-band 6A3.2 and the centromere. The paternally expressed imprinted gene Mest had been mapped within the original imprinting region and was therefore a candidate for the early embryonic lethality. FISH has shown that Mest locates distal to T77H and therefore outside the redefined imprinting region. This evidence confirms that Mest is not a candidate for the early embryonic lethality found with two maternal copies of proximal Chr 6. Furthermore mice with maternal duplication for Ch 6 distal to T77H (MatDp.dist6) were found to be growth retarded at birth, the weight reduction remaining similar until adulthood. It can be concluded that the growth retardation is established in utero and is maintained at a similar level from birth to adulthood. Therefore Mest locates in a new imprinting region, distal to G-band 6A3.2 which affects growth. A targeted mutation of Mest has been reported that exhibits growth retardation, reduced postnatal survival and abnormal maternal behaviour. Here the phenotype of MatDp.dist6 mice is compared to that of Mest-deficient mutant mice. Unlike the latter, MatDp.dist6 mice have good survival rates and females have normal maternal behaviour. Possible reasons for these differences are discussed.

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