Project description:A 1.3-kb insertion sequence, termed ISAfe1 (U66426), from Acidithiobacillus ferrooxidans ATCC 19859 is described. ISAfe1 exhibits the features of a typical bacterial insertion sequence. It has 26-bp, imperfectly matched, terminal inverted repeats and an open reading frame (ORF) that potentially encodes a transposase (TPase) of 404 amino acids (AAB07489) with significant similarity to members of the ISL3 family of insertion sequences. A potential ribosome-binding site and potential -10 and -35 promoter sites for the TPase ORF were identified, and a +1 transcriptional start site was detected experimentally. A potential outwardly directed -35 site was identified in the right inverted repeat of ISAfe1. A second ORF (ORF B), of unknown function, was found on the complementary strand with significant similarity to ORF 2 of ISAe1 from Ralstonia eutropha. Southern blot analyses demonstrated that ISAfe1-like elements can be found in multiple copies in a variety of A. ferrooxidans strains and that they exhibit transposition. A codon adaptation index (CAI) analysis of the TPase of ISAfe1 indicates that is has a CAI of 0.726 and can be considered well adapted to its host, suggesting that ISAfe1 might be an ancient resident of A. ferrooxidans. Analysis of six of its target sites of insertion in the genome of A. ferrooxidans ATCC 19859 indicates a preference for 8-bp pseudopalindromic sequences, one of which resembles the termini of its inverted repeats. Evidence is presented here that is consistent with the possibility that ISAfe1 can promote both plasmid cointegrate formation and resolution in E. coli.

Project description:The outer-membrane c-type cytochrome Cyc2 is generally considered to be the initial electron acceptor in iron respiratory chain of Acidithiobacillus ferrooxidans ATCC 23270, a model microorganism in acidophilic bioleaching environment. In our work, however, the knockout of cyc2 did not result in impaired Fe(II) consumption or growth capacity. To screen the potential genes for alternative initial electron acceptors other than Cyc2, RNA-Seq was employed to compare global gene expressions in the A. ferrooxidans ATCC 23270 wild type and the Δcyc2 mutant grown on Fe(II) or switched energy source from S0 to Fe(II). The data focused on 29 up-regulated and 19 down-regulated genes in the mutant under both conditions, among which AFE_1428 was the most highest one. in-silico analysis also suggested that the product of AFE_1428 might act as an alternative initial electron acceptor when Cyc2 was absent, which needs to be further validated.

Project description:The study identified a total of 3169 gene transcripts (98.4% coverage). By comparing the anaerobic versus aerobic H2-oxidizing At. ferrooxidans cultures, a total of 371 DEGs were found. Of these, 168 DEGs were increased significantly during the aerobic growth on H2 (with O2 as the sole electron acceptor), while 203 DEGs increased significantly during anaerobic growth on H2 (with Fe3+ as the sole electron acceptor).

Project description:Acidithiobacillus ferrooxidans (A. ferrooxidans) ATCC 23270 is a model bacteria for bioleaching research. Because of the use of extractant in metal extraction industry, A. ferrooxidans needs to cope with the water-organic two-phase system. To get insight into the molecular response of A. ferrooxidans to organic solvent, global gene expression pattern was examined in A. ferrooxidans ATCC 23270 cells subjected to Lix984n (an organic extractant) using the method of whole-genome DNA microarray. The data suggested that the global response of A. ferrooxidans to Lix984n stress was characterized by the up-regulation of genes involved in pentose phosphate pathway, fatty acid and glutamate biosynthesis contrary to the significant down-regulation of the majority motility-related genes. In further study, compared to heterotrophic bacteria in dealing with short-time stress, A. ferrooxidans has a special strategy of continuously enhancing the expression of genes encoding proteins involved in electron transport, such as petI, petII, cyo and cyd. Besides, acrAB-tolC operon encoding organic solvent efflux pump and its positive regulator gene ostR were addressed.

Project description:Acidophilic organisms, such as Acidithiobacillus ferrooxidans, possess high-level resistance to copper and other metals. A. ferrooxidans contains canonical copper resistance determinants present in other bacteria, such as CopA ATPases and RND efflux pumps, but these components do not entirely explain its high metal tolerance. The aim of this study was to find other possible copper resistance determinants in this bacterium. Transcriptional expression of A. ferrooxidans genes coding for a cytoplasmic CopZ-like copper-binding chaperone and the periplasmic copper-binding proteins rusticyanin and AcoP, which form part of an iron-oxidizing supercomplex, was found to increase when the microorganism was grown in the presence of copper. All of these proteins conferred more resistance to copper when expressed heterologously in a copper-sensitive Escherichia coli strain. This effect was absent when site-directed-mutation mutants of these proteins with altered copper-binding sites were used in this metal sensitivity assay. These results strongly suggest that the three copper-binding proteins analyzed here are copper resistance determinants in this extremophile and contribute to the high-level metal resistance of this industrially important biomining bacterium.

Project description:Acidithiobacillus ferrooxidans YQH-1 is a moderate acidophilic bacterium isolated from a river in a volcano of Northeast China. Here, we describe the draft genome of strain YQH-1, which was assembled into 123 contigs containing 3,111,222 bp with a G + C content of 58.63%. A large number of genes related to carbon dioxide fixation, dinitrogen fixation, pH tolerance, heavy metal detoxification, and oxidative stress defense were detected. The genome sequence can be accessed at DDBJ/EMBL/GenBank under the accession no. LJBT00000000.

Project description:Acidophile used for bioremediation and recovery of important metals

Project description:Iron-oxidizing acidophile

Project description:Global Transcriptional Analysis of Stress-Response Strategies in Acidithiobacillus ferrooxidans ATCC 23270 Exposed to Organic Extractant - Lix984n

Project description:The differentially expressed genes of A. ferrooxidans ATCC 23270 at different time after introduced fluoride