内含子最小化的新作用：将 mRNA 导向细胞质。

A novel role for minimal introns: routing mRNAs to the cytosol.

机构信息

CAS Key Laboratory of Genome Sciences and Information, Beijing Institute of Genomics, Chinese Academy of Sciences, Beijing, China.

出版信息

PLoS One. 2010 Apr 12;5(4):e10144. doi: 10.1371/journal.pone.0010144.

DOI:10.1371/journal.pone.0010144

PMID:20419085

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2856156/

Abstract

BACKGROUND

Introns and their splicing are tightly coupled with the subsequent mRNA maturation steps, especially nucleocytoplasmic export. A remarkable fraction of vertebrate introns have a minimal size of about 100 bp, while majority of introns expand to several kilobases even megabases in length.

PRINCIPAL FINDINGS

We carried out analyses on the evolution and function of minimal introns (50-150 bp) in human and mouse genomes. We found that minimal introns are conserved in terms of both length and sequence. They are preferentially located toward 3' end of mRNA and non-randomly distributed among chromosomes. Both the evolutionary conservation and non-random distribution are indicative of biological relevance. We showed that genes with minimal introns have higher abundance, larger size, and tend to be universally expressed as compared to genes with only large introns and intron-less genes. Genes with minimal introns replicate earlier and preferentially reside in the vicinities of open chromatin, suggesting their unique nuclear position and potential relevance to the regulation of gene expression and transcript export.

CONCLUSIONS

Based on these observations, we proposed a nuclear-export routing model, where minimal introns play a regulatory role in selectively exporting the highly abundant and large housekeeping genes that reside at the surface of chromatin territories, and thus preventing entanglement with other genes located at the interior locations.

摘要

背景

内含子及其剪接与随后的 mRNA 成熟步骤密切相关，尤其是核质输出。脊椎动物的很大一部分内含子具有约 100bp 的最小尺寸，而大多数内含子扩展到几个千碱基甚至几个兆碱基的长度。

主要发现

我们对人类和小鼠基因组中最小内含子（50-150bp）的进化和功能进行了分析。我们发现，最小内含子在长度和序列上都具有保守性。它们优先位于 mRNA 的 3'端，并且在染色体间非随机分布。进化保守性和非随机分布都表明了它们具有生物学相关性。我们表明，与只有大内含子和无内含子的基因相比，具有最小内含子的基因具有更高的丰度、更大的大小，并且倾向于普遍表达。具有最小内含子的基因复制更早，并且优先位于开放染色质的附近，这表明它们具有独特的核定位，可能与基因表达和转录输出的调控有关。

结论

基于这些观察结果，我们提出了一个核输出路由模型，其中最小内含子在选择性输出位于染色质区域表面的高丰度和大管家基因中发挥调节作用，从而防止与位于内部位置的其他基因纠缠。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93a5/2856156/979febe59af1/pone.0010144.g001.jpg

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内含子最小化的新作用：将 mRNA 导向细胞质。

A novel role for minimal introns: routing mRNAs to the cytosol.

机构信息

出版信息

BACKGROUND

PRINCIPAL FINDINGS

CONCLUSIONS

背景

主要发现

结论

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