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Noncanonical Streptococcus sanguinis ComCDE circuitry integrates environmental cues in transformation outcome decision.


ABSTRACT: Natural competence is the principal driver of streptococcal evolution. While acquisition of new traits could facilitate rapid fitness improvement for bacteria, entry into the competent state is a highly orchestrated event, involving an interplay between various pathways. We present a new type of competence-predation coordination mechanism in Streptococcus sanguinis. Unlike other streptococci that mediate competence through the ComABCDE regulon, several key components are missing in the S. sanguinis ComCDE circuitry. We assembled two synthetic biology devices linking competence-stimulating peptide (CSP) cleavage and export with a quantifiable readout to unravel the unique features of the S. sanguinis circuitry. Our results revealed the ComC precursor cleavage pattern and the two host ABC transporters implicated in the export of the S. sanguinis CSP. Moreover, we discovered a ComCDE-dependent bacteriocin locus. Overall, this study presents a mechanism for commensal streptococci to maximize transformation outcome in a fluid environment through extensive circuitry rewiring.

SUBMITTER: Guo M 

PROVIDER: S-EPMC10922391 | biostudies-literature | 2024 Feb

REPOSITORIES: biostudies-literature

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Noncanonical Streptococcus sanguinis ComCDE circuitry integrates environmental cues in transformation outcome decision.

Guo Mingzhe M   Renshaw Clay P CP   Mull Ryan W RW   Tal-Gan Yftah Y  

Cell chemical biology 20231012 2


Natural competence is the principal driver of streptococcal evolution. While acquisition of new traits could facilitate rapid fitness improvement for bacteria, entry into the competent state is a highly orchestrated event, involving an interplay between various pathways. We present a new type of competence-predation coordination mechanism in Streptococcus sanguinis. Unlike other streptococci that mediate competence through the ComABCDE regulon, several key components are missing in the S. sangui  ...[more]

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