Qing Wen scite author profile

Elemental sulfur (S(0)) oxidation in Acidithiobacillus spp. is an important process in metal sulfide bioleaching. However, the gene that encodes the sulfur dioxygenase (SDO) for S(0) oxidation has remained unclarified in Acidithiobacillus spp. By BLASTP with the eukaryotic mitochondrial sulfur dioxygenases (ETHE1s), the putative sdo genes (AFE_0269 and ACAL_0790) were recovered from the genomes of Acidithiobacillus ferrooxidans ATCC 23270 and Acidithiobacillus caldus MTH-04. The purified recombinant proteins of AFE_0269 and ACAL_0790 exhibited remarkable SDO activity at optimal mildly alkaline pH by using the GSH-dependent in vitro assay. Then, a sdo knockout mutant and a sdo overexpression strain of A. ferrooxidans ATCC 23270 were constructed and characterized. By overexpressing sdo in A. ferrooxidans ATCC 23270, a significantly increased transcriptional level of sdo (91-fold) and a 2.5-fold increase in SDO activity were observed when S(0) was used as sole energy source. The sdo knockout mutant of A. ferrooxidans displayed a slightly reduced growth capacity in S(0)-medium compared with the wild type but still maintained high S(0)-oxidizing activity, suggesting that there is at least one other S(0)-oxidizing enzyme besides SDO in A. ferrooxidans ATCC 23270 cells. In addition, no obvious changes in transcriptional levels of selected genes related to sulfur oxidation was observed in response to the sdo overexpression or knockout in A. ferrooxidans when cultivated in S(0)-medium. All the results might suggest that SDO is involved in sulfide detoxification rather than bioenergetic S(0) oxidation in chemolithotrophic bacteria.

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A versatile and efficient markerless gene disruption system for Acidithiobacillus thiooxidans: application for characterizing a copper tolerance related multicopper oxidase gene

Wen

Liu

Wang

et al. 2014

Environmental Microbiology

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The acidophilic bioleaching bacteria can usually survive in high concentrations of copper ions because of their special living environment. However, little is known about the copper homeostatic mechanisms of Acidithiobacillus thiooxidans, an important member of bioleaching bacteria. Here, a putative multicopper oxidase gene (cueO) was detected from the draft genome of A. thiooxidans ATCC 19377. The transcriptional level of cueO in response to 10 mM CuSO₄was upregulated 25.01 ± 2.59 folds. The response of P(cueO) to copper was also detected and might be stimulated by a putative CueR protein. Then, by using the counter-selectable marker lacZ and enhancing the expression of endonuclease I-SceI with tac promoter, a modified markerless gene disruption system was developed and the cueO gene disruption mutant (ΔcueO) of A. thiooxidans was successfully constructed with a markedly improved second homologous recombination frequency of 0.28 ± 0.048. The ΔcueO mutant was more sensitive to external copper and nearly completely lost the phenoloxidase activity; however, the activity could be restored after complementing the cueO gene. All results suggest the close relation of cueO gene to copper tolerance in A. thiooxidans. In addition, the developed efficient markerless gene knockout method can also be introduced into other Acidithiobacillus strains.

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Identification of two Pleurotus ostreatus blue light receptor genes (PoWC-1 and PoWC-2) and in vivo confirmation of complex PoWC-12 formation through yeast two hybrid system

Sun

et al. 2020

Fungal Biology

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Qing Wen

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A versatile and efficient markerless gene disruption system for Acidithiobacillus thiooxidans: application for characterizing a copper tolerance related multicopper oxidase gene

Identification of two Pleurotus ostreatus blue light receptor genes (PoWC-1 and PoWC-2) and in vivo confirmation of complex PoWC-12 formation through yeast two hybrid system

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