Yu-Chieh Cheng scite author profile

Fengycin, a lipopeptidic antibiotic, is synthesized nonribosomally by five fengycin synthetases (FenC, FenD, FenE, FenA, and FenB) in Bacillus subtilis F29-3. This work demonstrates that these fengycin synthetases interlock to form a chain, which coils into a 14.5-nm structure. In this chain, fengycin synthetases are linked in the order FenC-FenD-FenE-FenA-FenB by interactions between the C-terminal region of an upstream enzyme and the N-terminal region of its downstream partner enzyme, with their amino acid activation modules arranged colinearly with the amino acids in fengycin. This work also reveals that fengycin is synthesized on this fengycin synthetase chain, explaining how fengycin is synthesized efficiently and accurately. The results from this investigation demonstrate that forming a peptide synthetase complex is crucial to nonribosomal peptide synthesis.

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Water surface tension modulates the swarming mechanics of Bacillus subtilis

Hsueh

Cheng

et al. 2015

Front. Microbiol.

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Many Bacillus subtilis strains swarm, often forming colonies with tendrils on agar medium. It is known that B. subtilis swarming requires flagella and a biosurfactant, surfactin. In this study, we find that water surface tension plays a role in swarming dynamics. B. subtilis colonies were found to contain water, and when a low amount of surfactin is produced, the water surface tension of the colony restricts expansion, causing bacterial density to rise. The increased density induces a quorum sensing response that leads to heightened production of surfactin, which then weakens water surface tension to allow colony expansion. When the barrier formed by water surface tension is breached at a specific location, a stream of bacteria swarms out of the colony to form a tendril. If a B. subtilis strain produces surfactin at levels that can substantially weaken the overall water surface tension of the colony, water floods the agar surface in a thin layer, within which bacteria swarm and migrate rapidly. This study sheds light on the role of water surface tension in regulating B. subtilis swarming, and provides insight into the mechanisms underlying swarming initiation and tendril formation.

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Extra-Renal Abscess in Chronic Hemodialysis Patients

et al. 2002

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Outbreak of Serratia marcescens infection due to contamination of multiple-dose vial of heparin–saline solution used to flush deep venous catheters or peripheral trocars

Liu¹,

Zhang²,

Huang³

et al. 2011

Journal of Hospital Infection

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Axillary Artery to Contralateral Axillary Vein Graft Fistula in Chronic Hemodialysis Patients

et al. 2003

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Yu-Chieh Cheng

Nonribosomal Synthesis of Fengycin on an Enzyme Complex Formed by Fengycin Synthetases

Water surface tension modulates the swarming mechanics of Bacillus subtilis

Extra-Renal Abscess in Chronic Hemodialysis Patients

Outbreak of Serratia marcescens infection due to contamination of multiple-dose vial of heparin–saline solution used to flush deep venous catheters or peripheral trocars

Axillary Artery to Contralateral Axillary Vein Graft Fistula in Chronic Hemodialysis Patients

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