细胞色素b5
连接器
细胞色素c
血红素
C端
立体化学
蛋白质亚单位
结晶学
化学
还原酶
生物化学
基因
酶
氨基酸
线粒体
操作系统
计算机科学
作者
Hao Zhu,David R. Benson,Bin Deng,M.M. Kashipathy,Scott Lovell,K.P. Battaile,Anne Cooper,Philip Gao,Aron W. Fenton
标识
DOI:10.22541/au.169002203.35444701/v1
摘要
Ncb5or (NADH cytochrome b5 oxidoreductase) is a cytosolic ferric reductase implicated in diabetes and neurological conditions. Ncb5or comprises cytochrome b5 (b5) and cytochrome b5 reductase (b5R) domains separated by a CHORD-Sgt1 (CS) linker domain. Ncb5or redox activity depends on proper interdomain interactions to mediate electron transfer from NADH or NADPH via FAD to heme. While full-length human Ncb5or has proven resistant to crystallization, we have succeeded in obtaining high-resolution atomic structures of the b5 domain and a construct containing the CS and b5R domains (CS/b5R). Ncb5or also contains an N-terminal intrinsically disordered region of 50 residues with a distinctive, conserved L 34 MDWIRL 40 motif that has no homologs in animals but is present in root lateral formation protein (RLF) in rice and Increased Recombination Center 21 (IRC21) in baker’s yeast, and in these proteins, it is likewise attached to a b5 domain. After unsuccessful attempts at crystallizing a human Ncb5or construct comprising the N-terminal region naturally fused to the b5 domain, we were able to obtain a high-resolution atomic structure of a recombinant rice RLF construct corresponding to residues 25-129 of human Ncb5or (52% sequence identity; 74% similarity). The structure reveals Trp120 (corresponding to invariant Trp37 in Ncb5or) to be part of an 11-residue α-helix (S 116 QMDWLKLTRT 126 ) packing against two of the four helices in the b5 domain that surround heme (α2 and α5). The Trp120 side chain forms a network of interactions with the side chains of four highly conserved residues corresponding to Tyr85 and Tyr88 (α2), Cys124 (α5), and Leu47 in Ncb5or. Circular dichroism (CD) measurements of human Ncb5or fragments further support a key role of Trp37 in nucleating the formation of the N-terminal helix, whose location in the N/b5 module suggests a role in regulating the function of this multidomain redox enzyme. This study revealed for the first time an ancient origin of a helical motif in the N/b5 module as reflected by its existence in a class of cytochrome b5 proteins from three kingdoms among eukaryotes.
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