Types I alpha and I beta isozymes of cGMP-dependent protein kinase: alternative mRNA splicing may produce different inhibitory domains.

Second messengers and phosphoproteins Pub Date : 1988-01-01

S H Francis, T A Woodford, L Wolfe, J D Corbin

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Abstract

We recently described a novel isozyme of cGMP-dependent protein kinase (type I beta). It has a structure and peptide substrate specificity which is similar to that of type I alpha, but it has a different cGMP binding behavior, and autophosphorylation occurs almost entirely in serine instead of in both serine and threonine residues (Wolfe, L., Corbin, J.D., and Francis, S.H. (1989) J. Biol. Chem. 264, 7734-7741). An amino-terminal sequence of 31 amino acids derived from three proteolytic fragments of type I beta had 45% homology with a sequence beginning at type I alpha-47. However, sequences of three CNBr peptides of type I beta were identical to sequences of type I alpha beginning at type I alpha-202, -213, and -576 of 11, 27, and 30 residues. These sequences include portions of the catalytic domain and at least one cGMP-binding domain (site 1). Thus, types I alpha and I beta may be produced by alternative splicing of two unique mRNA segments to generate different amino acid sequences in the protein in a region that is amino-terminal to type I alpha-202. This segment in type I beta corresponds to the region in type I alpha that includes the major autophosphorylation site (Thr-58) which is within the domain that is proposed to inhibit catalytic activity. This region presumably interacts with the cGMP-binding site(s) to account for the differences in cGMP-binding behavior between types I alpha and I beta. Even though the sequence of type I beta in the variable region lacks the residue corresponding to Thr-58, it includes a consensus phosphorylation site (KRQAISA) beginning at type I alpha-59, which is absent in type I alpha. The results imply flexibility in the design of the autophosphorylation site and, hence, of the inhibitory domain.

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cgmp依赖性蛋白激酶I型α和I型β同工酶:不同的mRNA剪接可能产生不同的抑制结构域。

我们最近描述了一种新的cgmp依赖性蛋白激酶(I型β)同工酶。它具有与I型α相似的结构和肽底物特异性，但具有不同的cGMP结合行为，并且自磷酸化几乎完全发生在丝氨酸中，而不是在丝氨酸和苏氨酸残基中同时发生(Wolfe, L.， Corbin, j.d.， and Francis, S.H. (1989) J. Biol。化学，264,7734-7741)。从I型β的三个蛋白水解片段中获得的31个氨基酸的氨基末端序列与I型α -47开始的序列同源性为45%。然而，I型β的三个CNBr肽的序列与I型α的序列相同，从11、27和30个残基的I型α -202、-213和-576开始。这些序列包括部分催化结构域和至少一个cgmp结合结构域(位点1)。因此，I型α和I型β可以通过两个独特的mRNA片段的选择性剪接产生，从而在I型α -202的氨基末端的蛋白质区域中产生不同的氨基酸序列。I型β中的这段与I型α中的区域相对应，该区域包括主要的自磷酸化位点(Thr-58)，该区域位于被提议抑制催化活性的区域内。该区域可能与cgmp结合位点相互作用，从而解释了I α型和I β型之间cgmp结合行为的差异。尽管可变区I型β的序列缺乏与Thr-58对应的残基，但它包括一个从I型α -59开始的共识磷酸化位点(KRQAISA)，这在I型α中是不存在的。结果意味着自磷酸化位点设计的灵活性，因此，抑制结构域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Second messengers and phosphoproteins

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