疟原虫蛋白磷酸酶的全基因组功能分析揭示了寄生虫发育和分化的关键调节因子。

Genome-wide functional analysis of Plasmodium protein phosphatases reveals key regulators of parasite development and differentiation.

作者信息

Guttery David S, Poulin Benoit, Ramaprasad Abhinay, Wall Richard J, Ferguson David J P, Brady Declan, Patzewitz Eva-Maria, Whipple Sarah, Straschil Ursula, Wright Megan H, Mohamed Alyaa M A H, Radhakrishnan Anand, Arold Stefan T, Tate Edward W, Holder Anthony A, Wickstead Bill, Pain Arnab, Tewari Rita

机构信息

Centre for Genetics and Genomics, School of Life Sciences, Queens Medical Centre, University of Nottingham, Nottingham NG2 7UH, UK.

Computational Bioscience Research Center (CBRC), Biological and Environmental Sciences and Engineering (BESE) Division, King Abdullah University of Science and Technology, Thuwal 23955-6900, Kingdom of Saudi Arabia.

出版信息

Cell Host Microbe. 2014 Jul 9;16(1):128-40. doi: 10.1016/j.chom.2014.05.020.

DOI:10.1016/j.chom.2014.05.020

PMID:25011111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4094981/

Abstract

Reversible protein phosphorylation regulated by kinases and phosphatases controls many cellular processes. Although essential functions for the malaria parasite kinome have been reported, the roles of most protein phosphatases (PPs) during Plasmodium development are unknown. We report a functional analysis of the Plasmodium berghei protein phosphatome, which exhibits high conservation with the P. falciparum phosphatome and comprises 30 predicted PPs with differential and distinct expression patterns during various stages of the life cycle. Gene disruption analysis of P. berghei PPs reveals that half of the genes are likely essential for asexual blood stage development, whereas six are required for sexual development/sporogony in mosquitoes. Phenotypic screening coupled with transcriptome sequencing unveiled morphological changes and altered gene expression in deletion mutants of two N-myristoylated PPs. These findings provide systematic functional analyses of PPs in Plasmodium, identify how phosphatases regulate parasite development and differentiation, and can inform the identification of drug targets for malaria.

摘要

由激酶和磷酸酶调节的可逆蛋白质磷酸化控制着许多细胞过程。尽管已报道了疟原虫激酶组的重要功能，但大多数蛋白质磷酸酶（PPs）在疟原虫发育过程中的作用尚不清楚。我们报告了伯氏疟原虫蛋白质磷酸酶组的功能分析，其与恶性疟原虫磷酸酶组具有高度保守性，并且包含30种预测的PPs，在生命周期的各个阶段具有不同且独特的表达模式。对伯氏疟原虫PPs的基因破坏分析表明，一半的基因可能对无性血液阶段的发育至关重要，而六个基因是蚊子有性发育/孢子生殖所必需的。表型筛选与转录组测序相结合，揭示了两个N-肉豆蔻酰化PPs缺失突变体中的形态变化和基因表达改变。这些发现提供了疟原虫中PPs的系统功能分析，确定了磷酸酶如何调节寄生虫的发育和分化，并可为疟疾药物靶点的鉴定提供信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9cd6/4094981/4321c1f0391d/fx1.jpg

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疟原虫蛋白磷酸酶的全基因组功能分析揭示了寄生虫发育和分化的关键调节因子。

Genome-wide functional analysis of Plasmodium protein phosphatases reveals key regulators of parasite development and differentiation.

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