Molecular Basis of BioJ, a Unique Gatekeeper in Bacterial Biotin Synthesis

Wei, Wenhui; Guan, Hongxin; Zhu, Tong; Zhang, Sitao; Fan, Chengpeng; Ouyang, Songying; Feng, Youjun

doi:10.1016/j.isci.2019.08.028

Cited by 9 publications

(24 citation statements)

References 32 publications

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“…Growth curves were performed as described before. 68 First, the strains were grown in a liquid M9 minimal medium containing 1 nM biotin at 30 °C overnight. The strains were harvested by centrifugation at 4000 r/min, and then the pellet was washed with M9 buffer lacking biotin three times.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

“…Expression, purification, and size exclusion chromatography were carried out as described before with minor changes. 68 The PCR product of bioDA amplified from the cDNA of A. flavus was cloned into pET28a and used for protein overexpression. Bacterial culture induced with 0.5 mM IPTG was harvested by centrifugation at 5000 r/min for 15 min.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

“…Growth curves were performed as described before . First, the strains were grown in a liquid M9 minimal medium containing 1 nM biotin at 30 °C overnight.…”

Section: Methodsmentioning

confidence: 99%

“…Expression, purification, and size exclusion chromatography were carried out as described before with minor changes . The PCR product of bioDA amplified from the cDNA of A.…”

Section: Methodsmentioning

confidence: 99%

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Characterization of the Bifunctional Enzyme BioDA Involved in Biotin Synthesis and Pathogenicity in Aspergillus flavus

Wei

Lan

Liu

et al. 2021

J. Agric. Food Chem.

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Biotin is an important enzyme cofactor that plays a key role in all three domains. The classical bifunctional enzyme BioDA in eukaryotes (such as Aspergillus flavus and Arabidopsis thaliana) is involved in the antepenultimate and penultimate steps of biotin biosynthesis. In this study, we identified a A. flavus bifunctional gene bioDA which could complement both Escherichia coli ΔEcbioD and ΔEcbioA mutants. Interestingly, the separated domain of AfBioD and AfBioA could, respectively, fuse with EcBioA and EcBioD well and work together. What is more, we found that BioDA was almost localized to the mitochondria in A. flavus, as shown by N-terminal red fluorescent protein tag fusion. Noteworthy, the subcellular localization of AfBioDA is never affected by common environmental stresses (such as hyperosmotic stress or oxidative stress). The knockout strategy demonstrated that the deletion of AfbioDA gene from the chromosome impaired the biotin de novo synthesis pathway in A. flavus. Importantly, this A. flavus mutant blocked biotin production and decreased its pathogenicity to infect peanuts. Based on the structural comparison, we found that two inhibitors (amiclenomycin and gemcitabine) could be candidates for antifungal drugs. Taken together, our findings identified the bifunctional AfbioDA gene and shed light on biotin biosynthesis in A. flavus.

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Section: ■ Materials and Methodsmentioning

confidence: 99%

Section: ■ Materials and Methodsmentioning

confidence: 99%

“…Growth curves were performed as described before . First, the strains were grown in a liquid M9 minimal medium containing 1 nM biotin at 30 °C overnight.…”

Section: Methodsmentioning

confidence: 99%

“…Expression, purification, and size exclusion chromatography were carried out as described before with minor changes . The PCR product of bioDA amplified from the cDNA of A.…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Characterization of the Bifunctional Enzyme BioDA Involved in Biotin Synthesis and Pathogenicity in Aspergillus flavus

Wei

Lan

Liu

et al. 2021

J. Agric. Food Chem.

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“…The BioC-aided methylation enables the resultant malonyl-ACP (CoA) methyl ester to undergo two reiterations of FAS II cycles [ 32 ], generating methyl pimeloyl-ACP thioester that is subsequently hydrolyzed by the promiscuous esterase BioH to give pimeloyl-ACP (pim-ACP or C7-ACP), a precursor for biotin synthesis [ 23 , 31 ]. To the best of our knowledge, six isoenzymes of BioH have been detected in various bacterial species, namely BioG [ 38 , 39 ], BioK [ 38 ], BioJ [ 40 , 41 ], BioV [ 42 ], BtsA [ 43 ], and BioUh [ 22 , 44 ]. As for ‘BioI-BioW’ model of Bacillus subtilis , the cytochrome P450 protein BioI presumably cleaves long-chain fatty acids (and/or acyl-ACP) to give pimeloyl-ACP [ 35 , 45 ], whereas the bona fide acyl-CoA synthetase BioW scavenges exogenous pimelate to yield pimeloyl-CoA thioester [ 33 , 34 , 46 ], a substrate specifically recognized by the Bacillus BioF [ 25 , 45 ].…”

Section: Introductionmentioning

confidence: 99%

Three enigmatic BioH isoenzymes are programmed in the early stage of mycobacterial biotin synthesis, an attractive anti-TB drug target

Yang

et al. 2022

PLoS Pathog

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Tuberculosis (TB) is one of the leading infectious diseases of global concern, and one quarter of the world’s population are TB carriers. Biotin metabolism appears to be an attractive anti-TB drug target. However, the first-stage of mycobacterial biotin synthesis is fragmentarily understood. Here we report that three evolutionarily-distinct BioH isoenzymes (BioH1 to BioH3) are programmed in biotin synthesis of Mycobacterium smegmatis. Expression of an individual bioH isoform is sufficient to allow the growth of an Escherichia coli ΔbioH mutant on the non-permissive condition lacking biotin. The enzymatic activity in vitro combined with biotin bioassay in vivo reveals that BioH2 and BioH3 are capable of removing methyl moiety from pimeloyl-ACP methyl ester to give pimeloyl-ACP, a cognate precursor for biotin synthesis. In particular, we determine the crystal structure of dimeric BioH3 at 2.27Å, featuring a unique lid domain. Apart from its catalytic triad, we also dissect the substrate recognition of BioH3 by pimeloyl-ACP methyl ester. The removal of triple bioH isoforms (ΔbioH1/2/3) renders M. smegmatis biotin auxotrophic. Along with the newly-identified Tam/BioC, the discovery of three unusual BioH isoforms defines an atypical ‘BioC-BioH(3)’ paradigm for the first-stage of mycobacterial biotin synthesis. This study solves a long-standing puzzle in mycobacterial nutritional immunity, providing an alternative anti-TB drug target.

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Advances in biotin biosynthesis and biotechnological production in microorganisms

Zhao,

Zuo,

Xiao

et al. 2024

World J Microbiol Biotechnol

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Molecular Basis of BioJ, a Unique Gatekeeper in Bacterial Biotin Synthesis

Cited by 9 publications

References 32 publications

Characterization of the Bifunctional Enzyme BioDA Involved in Biotin Synthesis and Pathogenicity in Aspergillus flavus

Characterization of the Bifunctional Enzyme BioDA Involved in Biotin Synthesis and Pathogenicity in Aspergillus flavus

Three enigmatic BioH isoenzymes are programmed in the early stage of mycobacterial biotin synthesis, an attractive anti-TB drug target

Advances in biotin biosynthesis and biotechnological production in microorganisms

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