Mishima Masaki, Shida Toshio, Yabuki Kazuto, Kato Ken-Ichi, Sekiguchi Junichi, Kojima Chojiro
Graduate School of Biological Sciences, Nara Institute of Science and Technology, 8916-5 Takayama, Ikoma 630-0101, Japan.
Biochemistry. 2005 Aug 2;44(30):10153-63. doi: 10.1021/bi050624n.
Bacillus subtilis CwlC is a cell wall lytic N-acetylmuramoyl-l-alanine amidase that plays an important role in mother-cell lysis during sporulation. The enzyme consists of an N-terminal catalytic domain with C-terminal tandem repeats. The repeats [repeat 1 (residues 184-219) and repeat 2 (residues 220-255)] are termed CwlCr. We report on the solution structure of CwlCr as determined by multidimensional NMR, including the use of 36 (h3)J(NC)'-derived hydrogen bond restraints and 64 residual (1)D(NH) dipolar couplings. Two tandem repeats fold into a pseudo-2-fold symmetric single-domain structure consisting of a betaalphabetabetaalphabeta-fold containing numerous contacts between the repeats. Hydrophobic residues important for structural integrity are conserved between the repeats, and are located symmetrically. We also present NMR analysis of the circularly permuted repeat mutant of CwlCr. Secondary structure content from the chemical shifts and hydrogen bonds derived from (h3)J(NC)' show that the mutant folds into a structure similar to that of the wild type, suggesting that the repeats are exchangeable. This implies that conserved hydrophobic residues are crucial for maintaining the folding of the repeats. While monitoring the chemical shift perturbations following the addition of digested soluble peptidoglycan fragments, we identified two peptidoglycan interaction sites of CwlCr at the edges of the protein symmetrically, and they are located approximately 28 A from each other.
枯草芽孢杆菌CwlC是一种细胞壁裂解N-乙酰胞壁酰-L-丙氨酸酰胺酶,在芽孢形成过程中的母细胞裂解中起重要作用。该酶由一个带有C端串联重复序列的N端催化结构域组成。这些重复序列[重复序列1(第184 - 219位氨基酸)和重复序列2(第220 - 255位氨基酸)]被称为CwlCr。我们报道了通过多维核磁共振确定的CwlCr的溶液结构,包括使用36个(h3)J(NC)'衍生的氢键约束和64个残余的(1)D(NH)偶极耦合。两个串联重复序列折叠成一个伪2倍对称的单结构域结构,由一个β-α-β-α-β折叠组成,重复序列之间有许多接触。对结构完整性重要的疏水残基在重复序列之间保守,且对称分布。我们还展示了CwlCr循环置换重复突变体的核磁共振分析。来自化学位移和(h3)J(NC)'衍生氢键的二级结构含量表明,该突变体折叠成与野生型相似的结构,表明这些重复序列是可交换的。这意味着保守的疏水残基对于维持重复序列的折叠至关重要。在监测添加消化后的可溶性肽聚糖片段后的化学位移扰动时,我们对称地在蛋白质边缘确定了CwlCr的两个肽聚糖相互作用位点,它们彼此相距约28埃。