赤狐和貉B染色体的测序证实了B染色体非随机获取基因。

Sequencing of Supernumerary Chromosomes of Red Fox and Raccoon Dog Confirms a Non-Random Gene Acquisition by B Chromosomes.

作者信息

Makunin Alexey I, Romanenko Svetlana A, Beklemisheva Violetta R, Perelman Polina L, Druzhkova Anna S, Petrova Kristina O, Prokopov Dmitry Yu, Chernyaeva Ekaterina N, Johnson Jennifer L, Kukekova Anna V, Yang Fengtang, Ferguson-Smith Malcolm A, Graphodatsky Alexander S, Trifonov Vladimir A

机构信息

Institute of Molecular and Cellular Biology Siberian Branch of the Russian Academy of Sciences, 630090 Novosibirsk, Russia.

Novosibirsk State University, 630090 Novosibirsk, Russia.

出版信息

Genes (Basel). 2018 Aug 10;9(8):405. doi: 10.3390/genes9080405.

DOI:10.3390/genes9080405

PMID:30103445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6116037/

Abstract

B chromosomes (Bs) represent a variable addition to the main karyotype in some lineages of animals and plants. Bs accumulate through non-Mendelian inheritance and become widespread in populations. Despite the presence of multiple genes, most Bs lack specific phenotypic effects, although their influence on host genome epigenetic status and gene expression are recorded. Previously, using sequencing of isolated Bs of ruminants and rodents, we demonstrated that Bs originate as segmental duplications of specific genomic regions, and subsequently experience pseudogenization and repeat accumulation. Here, we used a similar approach to characterize Bs of the red fox ( L.) and the Chinese raccoon dog ( Gray). We confirm the previous findings of the gene on Bs of both species, but demostrate an independent origin of Bs in these species, with two reused regions. Comparison of gene ensembles in Bs of canids, ruminants, and rodents once again indicates enrichment with cell-cycle genes, development-related genes, and genes functioning in the neuron synapse. The presence of B-chromosomal copies of genes involved in cell-cycle regulation and tissue differentiation may indicate importance of these genes for B chromosome establishment.

摘要

B染色体（Bs）是动植物某些谱系中主核型的一种可变附加物。Bs通过非孟德尔遗传积累，并在种群中广泛分布。尽管存在多个基因，但大多数Bs缺乏特定的表型效应，尽管它们对宿主基因组表观遗传状态和基因表达的影响已有记录。此前，通过对反刍动物和啮齿动物分离出的Bs进行测序，我们证明Bs起源于特定基因组区域的片段重复，随后经历假基因化和重复积累。在这里，我们采用类似方法对赤狐（Vulpes vulpes）和貉（Nyctereutes procyonoides）的Bs进行表征。我们证实了之前在这两个物种的Bs上发现的基因，但证明这些物种中的Bs是独立起源的，有两个重复使用的区域。对犬科动物、反刍动物和啮齿动物Bs中的基因集合进行比较，再次表明细胞周期基因、发育相关基因以及在神经元突触中发挥作用的基因富集。参与细胞周期调控和组织分化的基因的B染色体拷贝的存在，可能表明这些基因对B染色体形成的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/12a8/6116037/ec61e9f075f6/genes-09-00405-g001.jpg

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赤狐和貉B染色体的测序证实了B染色体非随机获取基因。

Sequencing of Supernumerary Chromosomes of Red Fox and Raccoon Dog Confirms a Non-Random Gene Acquisition by B Chromosomes.

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