静水压力对两种同属海鱼百日咳毒素催化鸟嘌呤核苷酸结合蛋白核糖基化的影响

Joseph F. Siebenaller , Thomas F. Murray
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引用次数: 9

摘要

研究了两种生活在不同深度的同属海鱼脑膜制剂中鸟嘌呤核苷酸GDP和鸟嘌呤5′- o -[γ-硫代]三磷酸(GTPγS)存在时,压力对百日毒(PTX)催化的鸟嘌呤核苷酸结合蛋白α-亚基Gi和Go的[32P] adp核糖基化的影响。在100 μM GDP存在下,高达340 atm的压力对深层物种Sebastolobus altivelis中ptx催化的[32P] adp核糖基化没有影响。[32P] 68 atm压力可抑制浅水生活的alascanus 37%的adp -核糖基化。204 ~ 476大气压对反应的抑制作用约为54%。在100 μM gtp - γ s存在下,压力对两种物质的影响是相同的。68-340大气压对两种动物[32P] adp核糖基化的抑制作用约为30%;476 . ATM抑制核糖基化54%。在浅水物种中,压力可能会增加G蛋白偶联到未占用受体的比例,或降低GDP促进异三聚体聚集状态的功效。压力似乎增强了gtp - γ - s在两种物种中解离异三聚体全蛋白的功效。通过PTX在十二烷基硫酸钠-聚丙烯酰胺凝胶上绘制标记有[32P]ADP的脑匀浆部分蛋白水解酶的图谱,比较了两种动物Gi/Go α-亚基的结构相似性。使用的蛋白酶有tpck处理过的胰蛋白酶、嘉士伯枯草杆菌蛋白酶和金黄色葡萄球菌菌株V8内源性蛋白酶gluc。两个物种的[32P] adp标记的肽图无法区分。两种植物之间压力敏感性的差异可能是由于初级结构的微小变化和/或翻译后异三聚体亚基的修饰。
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The effects of hydrostatic pressure on pertussis toxin-catalyzed ribosylation of guanine nucleotide-binding proteins from two congeneric marine fish

The effects of pressure on pertussis toxin (PTX)-catalyzed [32P]ADP-ribosylation of α-subunits of the guanine nucleotide-binding proteins, Gi and Go, were examined in the presence of the guanyl nucleotides GDP and guanosine 5′-O-[γ-thio]triphosphate (GTPγS) in brain membrane preparations from two congeneric marine fish that live at different depths. In the presence of 100 μM GDP, pressures up to 340 atm had no effect on PTX-catalyzed [32P]ADP-ribosylation in the deeper-occurring species, Sebastolobus altivelis. [32P]ADP-ribosylation was suppressed 37% by 68 atm pressure in the shallower-living S. alascanus. Pressure in the range 204–476 atm inhibited the reaction approximately 54%. In the presence of 100 μM GTPγS, the effects of pressure were identical in the two species. Pressures of 68–340 atm inhibited [32P]ADP-ribosylation approximately 30% in both species; 476 atm inhibited ribosylation 54%. In the shallower-living species, pressure may increase the fraction of G proteins coupled to unoccupied receptors or decrease the efficacy of GDP in promoting the heterotrimeric aggregation state. Pressure appears to enhance the efficacy of GTPγS in dissociating the heterotrimeric holoprotein in both species. The structural similarities of the Gi/Go α-subunits of the two species were compared by mapping partial proteolytic digests of brain homogenates labeled with [32P]ADP by PTX on sodium dodecyl sulfate-polyacrylamide gels. The proteases used were TPCK-treated trypsin, subtilisin Carlsberg and Staphylococcus aureus strain V8 endoproteinase Glu-C. The [32P]ADP-labeled peptide maps of the two species were indistinguishable. The differences in pressure sensitivity between the two species may result from small changes in primary structure and/or post-translational modification of the heterotrimeric subunits.

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