源自 HM-1:IMSS 菌株的无病毒 UG10 型组织溶解性恩塔米巴虫突变体显示出有限的基因组变异性和异常的 5-甲基胞嘧啶基因组分布。

IF 1.4 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Naurú Idalia Vargas-Maya , Alika K. Maunakea , Fátima Berenice Ramírez-Montiel , Razvan Sultana , Rafael Peres , Quetzalli Xiadany Macías-Cervantes , Ana Laura Medina-Nieto , Ángeles Rangel-Serrano , José A. Martínez-Álvarez , Itzel Páramo-Pérez , Fernando Anaya-Velázquez , Felipe Padilla-Vaca , Bernardo Franco
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引用次数: 0

摘要

组织溶解恩塔米巴虫是一种具有全球意义的肠道寄生虫,因其相关的高发病率和高死亡率而对健康构成严重威胁。尽管目前已有一系列分子工具用于研究其基因功能,但其致病性的调控机制在很大程度上仍未得到探索。这一知识空白凸显了阐明对其毒力至关重要的细胞功能的关键基因决定因素的必要性。此前,我们的研究小组在与 HM1:IMSS 菌株相同的遗传背景下产生了一种无毒菌株,称为 UG10。尽管 UG10 菌株显示出众所周知的毒力因子的正常表达水平,但它却无法进行与阿米巴毒力相关的体外和体内活动。在本研究中,我们旨在通过全基因组测序揭示导致 UG10 株无毒表型的全基因组修饰。作为补充方法,我们对高毒力的 HM1:IMSS 菌株和低毒力的 UG10 菌株进行了甲基化 DNA 免疫沉淀结合测序(MeDIP-seq)分析,以揭示全基因组的甲基化特征。这些双重方法揭示了 UG10 无毒菌株的两个方面。其一是核糖体基因簇和 tRNA 基因片段的随机整合,范围从 120bp 到 400bp 不等;其二是编码小 GTP 酶的基因的编码链和非编码链相对于起始密码子序列有明显的富集甲基化特征,这与之前描述的无毒表型有关。这项研究为探索组织溶血性大肠杆菌的其他遗传和表观遗传调控回路以及了解这种寄生虫的致病机制的新目标奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Avirulent UG10 Entamoeba histolytica mutant derived from HM-1:IMSS strain shows limited genome variability and aberrant 5-methyl cytosine genomic distribution

Entamoeba histolytica, an intestinal parasite of global significance, poses substantial health risks with its associated high morbidity and mortality rates. Despite the current repertoire of molecular tools for the study of gene function in, the regulatory mechanisms governing its pathogenicity remain largely unexplored. This knowledge gap underscores the need to elucidate key genetic determinants orchestrating cellular functions critical to its virulence. Previously, our group generated an avirulent strain, termed UG10, with the same genetic background as the HM1:IMSS strain. UG10 strain, despite showing normal expression levels of well-known virulence factors, was unable to perform in-vitro and in-vivo activities related to amoebic virulence. In this study, we aimed to uncover the genome-wide modifications that rendered the avirulent phenotype of the UG10 strain through whole-genome sequencing. As a complementary approach, we conducted Methylated DNA Immunoprecipitation coupled with sequencing (MeDIP-seq) analysis on both the highly virulent HM1:IMSS strain and the low-virulence UG10 strain to uncover the genome-wide methylation profile. These dual methodologies revealed two aspects of the UG10 avirulent strain. One is the random integration of fragments from the ribosomal gene cluster and tRNA genes, ranging from 120 to 400 bp; and secondly, a clear, enriched methylation profile in the coding and non-coding strand relative to the start codon sequence in genes encoding small GTPases, which is associated with the previously described avirulent phenotype. This study provides the foundation to explore other genetic and epigenetic regulatory circuitries in E. histolytica and novel targets to understand the pathogenic mechanism of this parasite.

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来源期刊
CiteScore
2.90
自引率
0.00%
发文量
51
审稿时长
63 days
期刊介绍: The journal provides a medium for rapid publication of investigations of the molecular biology and biochemistry of parasitic protozoa and helminths and their interactions with both the definitive and intermediate host. The main subject areas covered are: • the structure, biosynthesis, degradation, properties and function of DNA, RNA, proteins, lipids, carbohydrates and small molecular-weight substances • intermediary metabolism and bioenergetics • drug target characterization and the mode of action of antiparasitic drugs • molecular and biochemical aspects of membrane structure and function • host-parasite relationships that focus on the parasite, particularly as related to specific parasite molecules. • analysis of genes and genome structure, function and expression • analysis of variation in parasite populations relevant to genetic exchange, pathogenesis, drug and vaccine target characterization, and drug resistance. • parasite protein trafficking, organelle biogenesis, and cellular structure especially with reference to the roles of specific molecules • parasite programmed cell death, development, and cell division at the molecular level.
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