顶复门原虫中的微线体蛋白
Microneme proteins in apicomplexans.
作者信息
Carruthers Vern B, Tomley Fiona M
机构信息
Department of Microbiology and Immunology, University of Michigan School of Medicine, Ann Arbor, Michigan 48109, USA.
出版信息
Subcell Biochem. 2008;47:33-45. doi: 10.1007/978-0-387-78267-6_2.
Abstract
Microneme secretion supports several key cellular processes including gliding motility, active cell invasion and migration through cells, biological barriers, and tissues. The modular design of microneme proteins enables these molecules to assist each other in folding and passage through the quality control system, accurately target to the micronemes, oligimerizing with other parasite proteins, and engaging a variety of host receptors for migration and cell invasion. Structural and biochemical analyses of MIC domains is providing new perspectives on how adhesion is regulated and the potentially distinct roles MICs might play in long or short range interactions during parasite attachment and entry. New access to complete genome sequences and ongoing advances in genetic manipulation should provide fertile ground for refining current models and defining exciting new roles for MICs in apicomplexan biology.
摘要
微线体分泌支持多种关键细胞过程,包括滑行运动、主动细胞侵袭以及穿过细胞、生物屏障和组织的迁移。微线体蛋白的模块化设计使这些分子能够在折叠过程中相互协助并通过质量控制系统,精确靶向微线体,与其他寄生虫蛋白寡聚,并与多种宿主受体结合以进行迁移和细胞侵袭。对微线体蛋白结构域的结构和生化分析为黏附如何被调节以及微线体蛋白在寄生虫附着和侵入过程中的长程或短程相互作用中可能发挥的潜在不同作用提供了新的视角。完整基因组序列的新获取途径以及基因操作方面不断取得的进展应为完善当前模型和确定微线体蛋白在顶复门生物学中的新的激动人心的作用提供肥沃的土壤。
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