热休克基因：在寄生原生动物分化中的调控作用。

Heat shock genes: regulatory role for differentiation in parasitic protozoa.

作者信息

Van der Ploeg L H, Giannini S H, Cantor C R

出版信息

Science. 1985 Jun 21;228(4706):1443-6. doi: 10.1126/science.4012301.

Abstract

The parasitic protozoa Trypanosoma brucei and Leishmania major are transmitted by insect vectors to their mammalian hosts. The temperature difference between the hosts (25 degrees and 37 degrees C) may induce a heat shock response in the parasite. Transcripts of heat shock genes (homologous to Hsp70 and Hsp83) were 25 to 100 times more abundant in Trypanosoma brucei bloodstream forms (trypomastigotes) than in insect (procyclic) stages. In Leishmania major the patterns of heat shock gene expression in promastigotes (insect-adapted) and amastigotes (mammal-adapted) were different. A temperature shift in vitro induced differentiation of Leishmania major from promastigotes to amastigotes. Therefore, heat shock genes may be responsible for differentiation of these vector-borne parasites.

摘要

寄生原生动物布氏锥虫和硕大利什曼原虫通过昆虫媒介传播至其哺乳动物宿主。宿主之间的温差（25摄氏度和37摄氏度）可能会在寄生虫中引发热休克反应。热休克基因（与Hsp70和Hsp83同源）的转录本在布氏锥虫血液型（锥鞭毛体）中的丰度比在昆虫（前循环）阶段高25至100倍。在硕大利什曼原虫中，前鞭毛体（适应昆虫）和无鞭毛体（适应哺乳动物）的热休克基因表达模式不同。体外温度变化诱导硕大利什曼原虫从前鞭毛体分化为无鞭毛体。因此，热休克基因可能负责这些媒介传播寄生虫的分化。

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热休克基因：在寄生原生动物分化中的调控作用。

Heat shock genes: regulatory role for differentiation in parasitic protozoa.

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