N. Janardan, R. Harijan, T. Kiema, R. Wierenga, M. Murthy
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引用次数: 6
Abstract
Thiolases catalyze the degradation and synthesis of 3-ketoacyl-CoA molecules. Here, the crystal structures of a T1-like thiolase (MSM-13 thiolase) from Mycobacterium smegmatis in apo and liganded forms are described. Systematic comparisons of six crystallographically independent unliganded MSM-13 thiolase tetramers (dimers of tight dimers) from three different crystal forms revealed that the two tight dimers are connected to a rigid tetramerization domain via flexible hinge regions, generating an asymmetric tetramer. In the liganded structure, CoA is bound to those subunits that are rotated towards the tip of the tetramerization loop of the opposing dimer, suggesting that this loop is important for substrate binding. The hinge regions responsible for this rotation occur near Val123 and Arg149. The Lα1-covering loop-Lα2 region, together with the Nβ2-Nα2 loop of the adjacent subunit, defines a specificity pocket that is larger and more polar than those of other tetrameric thiolases, suggesting that MSM-13 thiolase has a distinct substrate specificity. Consistent with this finding, only residual activity was detected with acetoacetyl-CoA as the substrate in the degradative direction. No activity was observed with acetyl-CoA in the synthetic direction. Structural comparisons with other well characterized thiolases suggest that MSM-13 thiolase is probably a degradative thiolase that is specific for 3-ketoacyl-CoA molecules with polar, bulky acyl chains.
硫硫酶催化3-酮酰基辅酶a分子的降解和合成。本文描述了耻垢分枝杆菌中载脂蛋白和配体形式的t1样硫酶(MSM-13硫酶)的晶体结构。系统比较了三种不同晶体形式的六种晶体学独立的非配体MSM-13硫硫酶四聚体(紧密二聚体的二聚体),发现这两种紧密二聚体通过柔性铰链区域连接到刚性四聚结构域,产生不对称四聚体。在配体结构中,辅酶a与那些向相反二聚体的四聚环顶端旋转的亚基结合,表明该环对底物结合很重要。负责这种旋转的铰链区域位于Val123和Arg149附近。覆盖l α1的环- l α2区与相邻亚基的Nβ2-Nα2环形成了一个比其他四聚硫酶更大、极性更强的特异性口袋,表明MSM-13硫酶具有明显的底物特异性。与这一发现一致的是,在降解方向上,仅以乙酰辅酶a为底物检测到残留活性。乙酰辅酶a在合成方向上无活性。与其他已知巯基酶的结构比较表明,MSM-13巯基酶可能是一种降解巯基酶,对3-酮酰基辅酶a分子具有特异性,具有极性,大的酰基链。
期刊介绍:
Acta Crystallographica Section D welcomes the submission of articles covering any aspect of structural biology, with a particular emphasis on the structures of biological macromolecules or the methods used to determine them.
Reports on new structures of biological importance may address the smallest macromolecules to the largest complex molecular machines. These structures may have been determined using any structural biology technique including crystallography, NMR, cryoEM and/or other techniques. The key criterion is that such articles must present significant new insights into biological, chemical or medical sciences. The inclusion of complementary data that support the conclusions drawn from the structural studies (such as binding studies, mass spectrometry, enzyme assays, or analysis of mutants or other modified forms of biological macromolecule) is encouraged.
Methods articles may include new approaches to any aspect of biological structure determination or structure analysis but will only be accepted where they focus on new methods that are demonstrated to be of general applicability and importance to structural biology. Articles describing particularly difficult problems in structural biology are also welcomed, if the analysis would provide useful insights to others facing similar problems.