Department of Biochemistry and Molecular Biology, The University of Kansas Medical Center, MS 3030, 3901 Rainbow Boulevard, Kansas City, Kansas 66160, USA.
Biochemistry. 2010 Aug 24;49(33):7202-9. doi: 10.1021/bi100147w.
Protein fluorescence and small-angle X-ray scattering (SAXS) have been used to monitor effector affinity and conformational changes previously associated with allosteric regulation in rabbit muscle pyruvate kinase (M(1)-PYK). In the absence of substrate [phosphoenolpyruvate (PEP)], SAXS-monitored conformational changes in M(1)-PYK elicited by the binding of phenylalanine (an allosteric inhibitor that reduces the affinity of M(1)-PYK for PEP) are similar to those observed upon binding of alanine or 2-aminobutyric acid. Under our assay conditions, these small amino acids bind to the protein but elicit a minimal change in the affinity of the protein for PEP. Therefore, if changes in scattering signatures represent cleft closure via domain rotation as previously interpreted, we can conclude that these motions are not sufficient to elicit allosteric inhibition. Additionally, although PEP has similar affinities for the free enzyme and the M(1)-PYK-small amino acid complexes (i.e., the small amino acids have minimal allosteric effects), PEP binding elicits different changes in the SAXS signature of the free enzyme versus the M(1)-PYK-small amino acid complexes.
蛋白质荧光和小角 X 射线散射 (SAXS) 已被用于监测兔肌肉丙酮酸激酶 (M(1)-PYK) 中先前与变构调节相关的效应物亲和力和构象变化。在没有底物 [磷酸烯醇丙酮酸 (PEP)] 的情况下,由苯丙氨酸 (一种降低 M(1)-PYK 对 PEP 亲和力的变构抑制剂) 结合引起的 M(1)-PYK 的 SAXS 监测构象变化与结合丙氨酸或 2-氨基丁酸时观察到的相似。在我们的测定条件下,这些小氨基酸与蛋白质结合,但使蛋白质对 PEP 的亲和力发生最小变化。因此,如果散射特征的变化代表先前解释的通过结构域旋转的裂隙闭合,我们可以得出结论,这些运动不足以引起变构抑制。此外,尽管 PEP 对游离酶和 M(1)-PYK-小氨基酸复合物具有相似的亲和力(即,小氨基酸具有最小的变构效应),但 PEP 结合会引起游离酶与 M(1)-PYK-小氨基酸复合物的 SAXS 特征的不同变化。