Carboxydotrophic Acetogenesis in Alkaline Conditions Results in Transient Formate Production by the Halo-Alkaliphilic Acetogen Haloacetibacter carboxydivorans Gen. Nov. sp. Nov. [PDF]
Environ Microbiol RepDiender M +5 more
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Harnessing acetogenic bacteria for one-carbon valorization toward sustainable chemical production. [PDF]
RSC Chem BiolBae J, Park C, Jung H, Jin S, Cho BK.
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Cell-Free Systems to Mimic and Expand Metabolism. [PDF]
ACS Synth BiolRasor BJ, Erb TJ.
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Separate, separated, and together: the transcriptional program of the <i>Clostridium acetobutylicum-Clostridium ljungdahlii</i> syntrophy leading to interspecies cell fusion. [PDF]
mSystemsWillis NB, Papoutsakis ET.
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Exploring the Potential of Syngas Fermentation for Recovery of High-Value Resources: A Comprehensive Review. [PDF]
Curr Pollut RepNeto AS +4 more
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Implementation of a <i>Clostridium luticellarii</i> genome-scale model for upgrading syngas fermentations. [PDF]
Comput Struct Biotechnol JScott WT +7 more
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Multi-omics analysis reveals the genetic basis for rapid CO<sub>2</sub> utilization in the acetogenic bacterium <i>Sporomusa sphaeroides</i> KIAC. [PDF]
mSystemsBae J +13 more
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Simultaneous Formate and Syngas Conversion Boosts Growth and Product Formation by Clostridium ragsdalei. [PDF]
MoleculesSchwarz I +3 more
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Erratum: A TetR-family protein (CAETHG_0459) activates transcription from a new promoter motif associated with essential genes for autotrophic growth in acetogens. [PDF]
Front MicrobiolFrontiers Production Office.
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