Describe how mer metalloregulation controls bacterial resistance towards mercur
Answers
In Escherichia coli, the iron regulator Fur is regulated by two oxidative-stress response regulators. The generation of dangerous radicals by oxygen and iron is the basis for this dual regulation, which is also found in eukaryotes. The binding of iron-regulated transcripts to apo-aconitase and results of mRNA half-life studies indicate that there is post-transcriptional iron regulation in bacteria, as in eukaryotes. Fur contains two metal-binding sites, one for Zn2+ and one for Fe2+. Zinc uptake systems are regulated by members of the Fur protein family, and zinc is a cofactor.
Explanation:
The chromosomal mercury resistance determinant of Bacillus cereus RC607 confers resistance to inorganic mercury and to organomercurials. The order of genes in the completed mercury resistance determinant is operator-promoter 1 (O/P1) merR1 merT open reading frame 3 (ORF3) ORF4 merAO/P2 merR2 merB2 merB1. The previously undetermined 1-kb DNA sequence between the merA and merB1 genes includes two significant ORFs, whose predicted protein products are homologous with MerR (the transcriptional regulator) and MerB (the organomercurial lyase enzyme). Two transcriptional start sites (promoters), O/P1 at the beginning of the determinant and O/P2 immediately upstream of the sixth ORF, the newly identified merR2, were mapped by reverse transcriptase (RT) primer extension. A long 6.3-kb mRNA traversing all eight ORFs was shown by RT-PCR. Growth sensitivity measurements in liquid media and cellular mercury volatization assays characterized inducibility and differences in functional activity in B. cereus RC607 and after cloning of the merdeterminant into plasmids in Escherichia coli.