Relationships between structure, function and stability for pyridoxal 5'-phosphate-dependent starch phosphorylase from Corynebacterium callunae as revealed by reversible cofactor dissociation studies.

Richard Griessler, Barbara Psik, Alexandra Schwarz, Bernd Nidetzky
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引用次数: 10

Abstract

Using 0.4 m imidazole citrate buffer (pH 7.5) containing 0.1 mm l-cysteine, homodimeric starch phosphorylase from Corynebacterium calluane (CcStP) was dissociated into native-like folded subunits concomitant with release of pyridoxal 5'-phosphate and loss of activity. The inactivation rate of CcStP under resolution conditions at 30 degrees C was, respectively, four- and threefold reduced in two mutants, Arg234-->Ala and Arg242-->Ala, previously shown to cause thermostabilization of CcStP [Griessler, R., Schwarz, A., Mucha, J. & Nidetzky, B. (2003) Eur. J. Biochem.270, 2126-2136]. The proportion of original enzyme activity restored upon the reconstitution of wild-type and mutant apo-phosphorylases with pyridoxal 5'-phosphate was increased up to 4.5-fold by added phosphate. The effect on recovery of activity displayed a saturatable dependence on the phosphate concentration and results from interactions with the oxyanion that are specific to the quarternary state. Arg234-->Ala and Arg242-->Ala mutants showed, respectively, eight- and > 20-fold decreased apparent affinities for phosphate (K(app)), compared to the wild-type (K(app) approximately 6 mm). When reconstituted next to each other in solution, apo-protomers of CcStP and Escherichia coli maltodextrin phosphorylase did not detectably associate to hybrid dimers, indicating that structural complementarity among the different subunits was lacking. Pyridoxal-reconstituted CcStP was inactive but approximately 60% and 5% of wild-type activity could be rescued at pH 7.5 by phosphate (3 mm) and phosphite (5 mm), respectively. pH effects on catalytic rates were different for the native enzyme and pyridoxal-phosphorylase bound to phosphate and could reflect the differences in pK(a) values for the cofactor 5'-phosphate and the exogenous oxyanion.

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可逆性辅因子解离研究揭示了愈伤棒状杆菌吡哆醛5'-磷酸依赖性淀粉磷酸化酶的结构、功能和稳定性之间的关系。
使用含有0.1 mm l-半胱氨酸的0.4 m咪唑柠檬酸缓冲液(pH 7.5), calluane棒状杆菌(CcStP)的同型二聚体淀粉磷酸化酶被解离成原生折叠亚基,同时释放5'-磷酸吡多醛并失去活性。在30℃的分解条件下,两个突变体Arg234- >Ala和Arg242- >Ala的失活率分别降低了四倍和三倍,这两个突变体先前被证明会导致CcStP的热稳定化[Griessler, R., Schwarz, A., Mucha, J.和Nidetzky, B.(2003)]。[j].中国生物医学工程学报,2016,33(2):444 - 444。用吡哆醛5′-磷酸重建野生型和突变型载脂蛋白磷酸化酶后,恢复的酶活性比例增加了4.5倍。对活性恢复的影响显示出对磷酸盐浓度的饱和依赖,并且是与氧离子相互作用的结果,这是特定于第四态的。与野生型(K(app)约6 mm)相比,Arg234- >Ala和Arg242- >Ala突变体对磷酸盐(K(app))的表观亲和力分别降低了8倍和20倍以上。当在溶液中相邻重组时,CcStP和大肠杆菌麦芽糊精磷酸化酶的载脂蛋白原体没有检测到与杂交二聚体的关联,表明不同亚基之间缺乏结构互补性。吡多醛重组的CcStP是无活性的,但在pH为7.5时,磷酸盐(3 mm)和亚磷酸盐(5 mm)分别可以恢复大约60%和5%的野生型活性。pH对天然酶和与磷酸盐结合的吡哆醛磷酸化酶的催化速率的影响不同,这可以反映辅因子5'-磷酸和外源氧阴离子的pK(a)值的差异。
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