Interestingly, the M. acetivorans vht mRNA expression pattern was similar to that seen in M. mazei [22], and
a physiological role is implied for the M. acetivorans vht genes. The rnf and mrp gene clusters are unique to the metabolism of M. acetivorans since related gene clusters are absent in either of the M. mazei and M. barkeri genomes (Table 1, [5, 23]). As noted by Li, the rnfXCDGEABY gene products are logical candidates to fulfill the role of the Ech-type hydrogenases present in M. mazei and M. barkeri [10]. By this scheme, the Rnf complex would accept electrons derived from the carbon monoxide dehydrogenase click here (CODH) complex via an associated ferredoxin encoded by the complex. The membrane associated Rnf-type complex is then proposed to transfer electrons on to the membrane associated methanophenazine cofactor (MPH) that in turn
is reoxidized by a membrane-type heterodisulfide reductase (e.g. HdrED). From the hdr transcript studies (Figure 2), this enzyme would be encoded by the hdrED1 gene set C59 concentration since hdrD2 expression was low. By an alternative model, one might envision a role for the Rnf complex in transferring electrons to the soluble heterodisulfide reductase complex encoded by the hdrA1 pfd and hdrC1B1 genes via protein-protein interactions. The poly-ferredoxin encoded by pfd (MA2867) from the soluble-type heterodisulfide gene cluster is one candidate to interact with one of the unique Rnf complex proteins such as RnfX or RnfY. Either model is compatible with the essentiality for Rnf based on the effect of an rnf deletion strain that is unable to grow with acetate as a sole carbon supply. Little biochemical data exist to distinguish among these possibilities. Based on the role of the Mrp complex in cytoplasmic
pH homeostasis in Bacillus halodurans, a similar function was proposed for the M. acetivorans Mrp-like complex [10]. Both belong to the Group I class of proteins and exhibit similar gene compositions and gene order [24]. Interestingly, several alternative roles have been suggested for the bacterial Mrp genes and include exchange of another type of mono-valent ion, in detoxification, and in interactions with another cellular enzyme to form Rebamipide a membrane complex somehow associated with cellular ion partitioning [24]. A role for the M. acetivorans gene products in cytoplasmic pH homeostasis or the other above roles would make it distinct from other Methanosarcina species since related mrp genes are absent in the other sequenced genomes (Table 1). In this regard, phenotypic analysis of M. acetivorans mrp mutants will be of special interest. The high similarity of the M. acetivorans mrp genes relative to those in the bacteria, JPH203 suggest an origin in the methanogen by lateral gene transfer event from a Group I organism. Do the M.
Related posts:
- Expression pattern and tissue restriction
- Wnt signaling Interestingly, large throughput technologies, toget
- Interestingly, expression of Egfl7, miR 126 and miR 126 was induc
- Expression responses to the heat treatment in N noltii were very
- Lower BRCA1 protein and mRNA expression has also been Inhibitors,