Monomeric sarcosine oxidase (MSOX) is a flavoprotein D- amino acid oxidase with reported sarcosine and oxygen activation sites on the re and si faces of the flavin ring, respectively. O2 transport routes to the catalytic interior are not well understood and are difficult to ascertain solely from MSOX crystal structures. A composite free-energy method known as single-sweep is used to map and thermodynamically characterize oxygen sites and routes leading to the catalytically active Lys26S from the protein surface. The result is a network of pathways and free energies within MSOX illustrating that oxygen can access two free-energy minima on the re face of the reduced flavin from four separate solvent portals. No such minimum is observed on the si face. The pathways are geometrically similar for three major states of the enzyme: (1) apo with a closed flavin cleft, (2) apo with an open flavin cleft, and (3) inhibitor-bound with a closed flavin cleft. Interestingly, free energies along these transport pathways display significantly deeper minima when the substrate-mimicking inhibitor 2-furoic acid is bound at the sarcosine site, even at locations far from this site. This suggests a substrate-dependent allosteric modulation of the kinetics of O2 transport from the solvent to the active site.
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机译:单体肌氨酸氧化酶(MSOX)是一种黄素蛋白D-氨基酸氧化酶,在黄素环的re和si面上分别具有肌氨酸和氧激活位点。 O 2到催化内部的传输途径还没有被很好地理解,仅凭MSOX晶体结构很难确定。一种称为单扫描的复合自由能方法可用于绘制图谱并对其进行热力学表征,从而确定从蛋白质表面产生催化活性Lys26S的氧位点和路径。结果是MSOX内的途径和自由能网络,表明氧气可以从四个单独的溶剂入口处进入还原的黄素的表面上的两个自由能最小值。在si面上未观察到这样的最小值。对于该酶的三个主要状态,该途径在几何上是相似的:(1)带有黄素裂隙的载脂蛋白(apo),(2)带有黄素裂隙的载脂蛋白,和(3)抑制剂结合且具有黄素裂隙。有趣的是,当模拟底物的抑制剂2-糠酸在肌氨酸位点,甚至在远离该位点的位置结合时,沿着这些传输途径的自由能显示出更深的最小值。这表明从溶剂到活性位点的O2传输动力学的底物依赖性变构调节。
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