苏云金芽孢杆菌CryIA毒素的结构域III交换影响其与不同舞毒蛾中肠受体的结合。

Domain III exchanges of Bacillus thuringiensis CryIA toxins affect binding to different gypsy moth midgut receptors.

作者信息

Lee M K, Young B A, Dean D H

机构信息

Department of Biochemistry, Ohio State University, Columbus 43210, USA.

出版信息

Biochem Biophys Res Commun. 1995 Nov 2;216(1):306-12. doi: 10.1006/bbrc.1995.2625.

DOI:10.1006/bbrc.1995.2625

PMID:7488105

Abstract

Aminopeptidase-N, purified from gypsy moth (Lymantria dispar L.) brush border membrane vesicles, exhibited specific binding to CryIAc toxin but not to CryIAa toxin. CryIAa-CryIAc hybrid toxins were used to localize the aminopeptidase-N binding region on CryIAc. Slot blot assays and ligand blot experiments demonstrated that the hybrid toxins which have the residues 451 to 623, comprising essentially domain III, from CryIAc toxin exhibited strong binding to purified aminopeptidase-N and 120 kDa brush border membrane protein. In contrast, the hybrid toxins which have the residues 451 to 623 from CryIAa toxin failed to bind to aminopeptidase-N, but did bind to another receptor, a 210 kDa protein. This is the first direct evidence that domain III is involved in receptor binding and the first to demonstrate that domain III substitutions direct the binding of these toxins to different gypsy moth midgut receptors.

摘要

从舞毒蛾（Lymantria dispar L.）刷状缘膜囊泡中纯化得到的氨肽酶N，表现出与CryIAc毒素特异性结合，但不与CryIAa毒素结合。CryIAa - CryIAc杂合毒素被用于定位氨肽酶N在CryIAc上的结合区域。狭缝印迹分析和配体印迹实验表明，含有CryIAc毒素第451至623位残基（基本包含结构域III）的杂合毒素与纯化的氨肽酶N和120 kDa刷状缘膜蛋白表现出强结合。相反，含有CryIAa毒素第451至623位残基的杂合毒素未能与氨肽酶N结合，但确实与另一种受体（一种210 kDa蛋白）结合。这是结构域III参与受体结合的首个直接证据，也是首个证明结构域III的替换会引导这些毒素与舞毒蛾中肠不同受体结合的证据。

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苏云金芽孢杆菌CryIA毒素的结构域III交换影响其与不同舞毒蛾中肠受体的结合。

Domain III exchanges of Bacillus thuringiensis CryIA toxins affect binding to different gypsy moth midgut receptors.

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