Diller T C, Xuong N H, Taylor S S
Howard Hughes Medical Institute, University of California, San Diego, 9500 Gilman Drive, La Jolla 92093, CA, USA.
Structure. 2001 Jan 10;9(1):73-82. doi: 10.1016/s0969-2126(00)00556-6.
Cyclic AMP binding domains possess common structural features yet are diversely coupled to different signaling modules. Each cAMP binding domain receives and transmits a cAMP signal; however, the signaling networks differ even within the same family of regulatory proteins as evidenced by the long-standing biochemical and physiological differences between type I and type II regulatory subunits of cAMP-dependent protein kinase.
We report the first type II regulatory subunit crystal structure, which we determined to 2.45 A resolution and refined to an R factor of 0.176 with a free R factor of 0.198. This new structure of the type II beta regulatory subunit of cAMP-dependent protein kinase demonstrates that the relative orientations of the two tandem cAMP binding domains are very different in the type II beta as compared to the type I alpha regulatory subunit. Each structural unit for binding cAMP contains the highly conserved phosphate binding cassette that can be considered the "signature" motif of cAMP binding domains. This motif is coupled to nonconserved regions that link the cAMP signal to diverse structural and functional modules.
Both the diversity and similarity of cAMP binding sites are demonstrated by this new type II regulatory subunit structure. The structure represents an intramolecular paradigm for the cooperative triad that links two cAMP binding sites through a domain interface to the catalytic subunit of cAMP-dependent protein kinase. The domain interface surface is created by the binding of only one cAMP molecule and is enabled by amino acid sequence variability within the peptide chain that tethers the two domains together.
环磷酸腺苷(cAMP)结合结构域具有共同的结构特征,但与不同的信号模块以多种方式偶联。每个cAMP结合结构域接收并传递cAMP信号;然而,即使在同一调节蛋白家族中,信号网络也存在差异,这一点从cAMP依赖性蛋白激酶I型和II型调节亚基之间长期存在的生化和生理差异中可见一斑。
我们报道了首个II型调节亚基晶体结构,其分辨率达到2.45 Å,最终精修后的R因子为0.176,自由R因子为0.198。cAMP依赖性蛋白激酶II型β调节亚基的这一新结构表明,与I型α调节亚基相比,II型β调节亚基中两个串联的cAMP结合结构域的相对取向有很大不同。每个结合cAMP的结构单元都包含高度保守的磷酸盐结合盒,可被视为cAMP结合结构域的“标志性”基序。该基序与非保守区域偶联,这些非保守区域将cAMP信号连接到不同的结构和功能模块。
这种新的II型调节亚基结构展示了cAMP结合位点的多样性和相似性。该结构代表了一种分子内模式,即通过结构域界面将两个cAMP结合位点与cAMP依赖性蛋白激酶的催化亚基连接起来的协同三联体。结构域界面表面仅由一个cAMP分子的结合产生,并且由将两个结构域连接在一起的肽链内的氨基酸序列变异性所促成。
