连锁群选择：鉴定疟疾中控制菌株特异性保护免疫的基因

Linkage group selection: towards identifying genes controlling strain specific protective immunity in malaria.

机构信息

Ashworth Laboratories, Institute of Immunology and Infection Research, School of Biological Sciences, University of Edinburgh, Edinburgh, United Kingdom.

出版信息

PLoS One. 2007 Sep 12;2(9):e857. doi: 10.1371/journal.pone.0000857.

DOI:10.1371/journal.pone.0000857

PMID:17848988

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1959240/

Abstract

Protective immunity against blood infections of malaria is partly specific to the genotype, or strain, of the parasites. The target antigens of Strain Specific Protective Immunity are expected, therefore, to be antigenically and genetically distinct in different lines of parasite. Here we describe the use of a genetic approach, Linkage Group Selection, to locate the target(s) of Strain Specific Protective Immunity in the rodent malaria parasite Plasmodium chabaudi chabaudi. In a previous such analysis using the progeny of a genetic cross between P. c. chabaudi lines AS-pyr1 and CB, a location on P. c. chabaudi chromosome 8 containing the gene for merozoite surface protein-1, a known candidate antigen for Strain Specific Protective Immunity, was strongly selected. P. c. chabaudi apical membrane antigen-1, another candidate for Strain Specific Protective Immunity, could not have been evaluated in this cross as AS-pyr1 and CB are identical within the cell surface domain of this protein. Here we use Linkage Group Selection analysis of Strain Specific Protective Immunity in a cross between P. c. chabaudi lines CB-pyr10 and AJ, in which merozoite surface protein-1 and apical membrane antigen-1 are both genetically distinct. In this analysis strain specific immune selection acted strongly on the region of P. c. chabaudi chromosome 8 encoding merozoite surface protein-1 and, less strongly, on the P. c. chabaudi chromosome 9 region encoding apical membrane antigen-1. The evidence from these two independent studies indicates that Strain Specific Protective Immunity in P. c. chabaudi in mice is mainly determined by a narrow region of the P. c. chabaudi genome containing the gene for the P. c. chabaudi merozoite surface protein-1 protein. Other regions, including that containing the gene for P. c. chabaudi apical membrane antigen-1, may be more weakly associated with Strain Specific Protective Immunity in these parasites.

摘要

针对疟疾血液感染的保护性免疫在一定程度上是针对寄生虫的基因型或株系特异性的。因此，针对特定株系的保护性免疫的靶抗原预计在不同寄生虫系中具有抗原和遗传上的独特性。在这里，我们描述了使用遗传方法——连锁群选择，来定位伯氏疟原虫（Plasmodium chabaudi chabaudi）中针对特定株系的保护性免疫的靶标。在以前的一项此类分析中，使用 P. c. chabaudi 系 AS-pyr1 和 CB 之间遗传杂交的后代进行分析，强烈选择了 P. c. chabaudi 染色体 8 上包含裂殖体表面蛋白-1 基因的位置，裂殖体表面蛋白-1 是针对特定株系的保护性免疫的已知候选抗原。在这个杂交中，无法评估 P. c. chabaudi 顶端膜抗原-1，因为 AS-pyr1 和 CB 在该蛋白的细胞表面结构域内是相同的。在这里，我们使用 P. c. chabaudi 系 CB-pyr10 和 AJ 之间针对特定株系的保护性免疫的连锁群选择分析，其中裂殖体表面蛋白-1 和顶端膜抗原-1 在遗传上都是不同的。在这项分析中，针对特定株系的免疫选择强烈作用于编码裂殖体表面蛋白-1 的 P. c. chabaudi 染色体 8 区域，并且较弱地作用于编码顶端膜抗原-1 的 P. c. chabaudi 染色体 9 区域。这两项独立研究的证据表明，在小鼠中，针对 P. c. chabaudi 的针对特定株系的保护性免疫主要由包含 P. c. chabaudi 裂殖体表面蛋白-1 蛋白基因的 P. c. chabaudi 基因组的一个狭窄区域决定。其他区域，包括包含 P. c. chabaudi 顶端膜抗原-1 基因的区域，在这些寄生虫中可能与针对特定株系的保护性免疫的相关性较弱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2124/1959240/6cf86c7faeb6/pone.0000857.g001.jpg

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连锁群选择：鉴定疟疾中控制菌株特异性保护免疫的基因

Linkage group selection: towards identifying genes controlling strain specific protective immunity in malaria.

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