来自蚊子的活性类转座元件的功能表征。

Functional characterization of the active like transposable element, from the mosquito .

作者信息

Liu Kun, Wessler Susan R

机构信息

Graduate Program in Botany and Plant Sciences, University of California, Riverside, CA 92521 USA.

Department of Botany and Plant Sciences, University of California, Riverside, CA 92521 USA.

出版信息

Mob DNA. 2017 Jan 11;8:1. doi: 10.1186/s13100-016-0084-6. eCollection 2017.

DOI:10.1186/s13100-016-0084-6

PMID:28096902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5225508/

Abstract

BACKGROUND

-like transposable elements (MULEs) are widespread with members in fungi, plants, and animals. Most of the research on the MULE superfamily has focused on plant MULEs where they were discovered and where some are extremely active and have significant impact on genome structure. The maize element has been widely used as a tool for both forward and reverse genetic studies because of its high transposition rate and preference for targeting genic regions. However, despite being widespread, only a few active MULEs have been identified, and only one, the rice , has demonstrated activity in a non-host organism.

RESULTS

Here we report the identification of potentially active MULEs in the mosquito We demonstrate that one of these, , is capable of excision and reinsertion in a yeast transposition assay. Element reinsertion generated either 8 bp or 9 bp target site duplications (TSDs) with no apparent sequence preference. Mutagenesis analysis of donor site TSDs in the yeast assay indicates that their presence is important for precise excision and enhanced transposition. Site directed mutagenesis of the putative DDE catalytic motif and other conserved residues in the transposase protein abolished transposition activity.

CONCLUSIONS

Collectively, our data indicates that the transposase of can efficiently catalyze both excision and reinsertion reactions in yeast. Mutagenesis analysis reveals that several conserved amino acids, including the DDE triad, play important roles in transposase function. In addition, donor site TSD also impacts the transposition of .

摘要

背景

类Mutator转座元件（MULEs）广泛存在于真菌、植物和动物中。对MULE超家族的大多数研究都集中在植物MULEs上，它们在植物中被发现，并且一些MULEs极其活跃，对基因组结构有重大影响。玉米Mu元件因其高转座率和对基因区域的靶向偏好，已被广泛用作正向和反向遗传学研究的工具。然而，尽管MULEs广泛存在，但仅鉴定出少数活跃的MULEs，并且只有一个，即水稻MULE，已在非宿主生物体中表现出活性。

结果

在此我们报告在蚊子中鉴定出潜在活跃的MULEs。我们证明其中一个MULE，即Mos1，在酵母转座试验中能够进行切除和重新插入。元件重新插入产生了8 bp或9 bp的靶位点重复序列（TSDs），且没有明显的序列偏好。酵母试验中供体位点TSDs的诱变分析表明它们的存在对于精确切除和增强转座很重要。对转座酶蛋白中假定的DDE催化基序和其他保守残基进行定点诱变消除了转座活性。

结论

总体而言，我们的数据表明蚊子的Mos1转座酶能够在酵母中高效催化切除和重新插入反应。诱变分析表明，包括DDE三联体在内的几个保守氨基酸在转座酶功能中起重要作用。此外，供体位点TSD也影响Mos1的转座。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4776/5225508/e37baa4e4d72/13100_2016_84_Fig1_HTML.jpg

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来自蚊子的活性类转座元件的功能表征。

Functional characterization of the active like transposable element, from the mosquito .

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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