Institute of Microbiology and Genetics, Technische Universität Darmstadt, Schnittspahnstr. 10, 64287 Darmstadt, Germany.
Mol Microbiol. 2010 Jan;75(1):122-37. doi: 10.1111/j.1365-2958.2009.06965.x. Epub 2009 Nov 17.
Bacterial c-type cytochrome maturation is dependent on a complex enzymic machinery. The key reaction is catalysed by cytochrome c haem lyase (CCHL) that usually forms two thioether bonds to attach haem b to the cysteine residues of a haem c binding motif (HBM) which is, in most cases, a CX(2)CH sequence. Here, the HBM specificity of three distinct CCHL isoenzymes (NrfI, CcsA1 and CcsA2) from the Epsilonproteobacterium Wolinella succinogenes was investigated using either W. succinogenes or Escherichia coli as host organism. Several reporter c-type cytochromes were employed including cytochrome c nitrite reductases (NrfA) from E. coli and Campylobacter jejuni that differ in their active-site HBMs (CX(2)CK or CX(2)CH). W. succinogenes CcsA2 was found to attach haem to standard CX(2)CH motifs in various cytochromes whereas other HBMs were not recognized. NrfI was able to attach haem c to the active-site CX(2)CK motif of both W. succinogenes and E. coli NrfA, but not to NrfA from C. jejuni. Different apo-cytochrome variants carrying the CX(15)CH motif, assumed to be recognized by CcsA1 during maturation of the octahaem cytochrome MccA, were not processed by CcsA1 in either W. succinogenes or E. coli. It is concluded that the dedicated CCHLs NrfI and CcsA1 attach haem to non-standard HBMs only in the presence of further, as yet uncharacterized structural features. Interestingly, it proved impossible to delete the ccsA2 gene from the W. succinogenes genome, a finding that is discussed in the light of the available genomic, proteomic and functional data on W. succinogenes c-type cytochromes.
细菌 c 型细胞色素的成熟依赖于复杂的酶学机制。关键反应由细胞色素 c 血红素裂解酶(CCHL)催化,该酶通常形成两个硫醚键,将血红素 b 附着到一个血红素 c 结合基序(HBM)的半胱氨酸残基上,在大多数情况下,HBM 是一个 CX(2)CH 序列。在这里,研究了来自 ε 变形菌脱硫弧菌的三种不同 CCHL 同工酶(NrfI、CcsA1 和 CcsA2)的 HBM 特异性,使用脱硫弧菌或大肠杆菌作为宿主生物体。使用了几种报告型 c 型细胞色素,包括大肠杆菌和空肠弯曲菌的细胞色素 c 亚硝酸盐还原酶(NrfA),它们在活性位点 HBM(CX(2)CK 或 CX(2)CH)上有所不同。发现脱硫弧菌 CcsA2 能够将血红素附着到各种细胞色素中的标准 CX(2)CH 基序上,而其他 HBM 则不被识别。NrfI 能够将血红素 c 附着到脱硫弧菌和大肠杆菌 NrfA 的活性位点 CX(2)CK 基序上,但不能附着到空肠弯曲菌 NrfA 的活性位点上。携带 CX(15)CH 基序的不同 apo-细胞色素变体,假定在八血红素细胞色素 McCA 的成熟过程中被 CcsA1 识别,但在脱硫弧菌或大肠杆菌中都没有被 CcsA1 加工。因此,结论是,专门的 CCHLs NrfI 和 CcsA1 仅在存在其他尚未表征的结构特征的情况下,将血红素附着到非标准 HBM 上。有趣的是,事实证明不可能从脱硫弧菌基因组中删除 ccsA2 基因,这一发现将根据可用的基因组、蛋白质组学和功能数据进行讨论。