ICARUS: flexible protein structural alignment based on Protein Units

Cretin, Gabriel; Périn, Charlotte; Zimmermann, Nicolas; Galochkina, Tatiana; Gelly, Jean‐Christophe

doi:10.1093/bioinformatics/btad459

Cited by 1 publication

(1 citation statement)

References 31 publications

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“…In contrast, DF4-ORF10 lacked these motifs but exhibited variation in length and amino acid composition. These ndings highlight unique characteristics of each ORF within the mopR-like gene region, indicating potential differences in biological functions or regulatory mechanisms [15]. NCBI Blast analysis con rmed the signi cance of repetitive motifs within DF4-ORF8, suggesting a role in binding NAD and involvement in fatty acid oxidation pathways, potentially in uencing bioluminescence activation in DF4-8 [16].…”

Section: Discussionmentioning

confidence: 99%

Engineered Bacterium DF4-8 Achieves Specific Phenol Detection via a unique mopR-like Regulatory Pathway

Abd-El-Haleem

2024

Preprint

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The engineered Acinetobacter sp. strain DF4-8 demonstrates exceptional bioluminescent detection capabilities for phenol, showcasing its potential as a highly specific environmental biosensor. A novel mopR-like gene within DF4-8, distinct from known mopR genes, points to a unique regulatory pathway governing phenol-induced bioluminescence. Genomic analysis uncovers a complex mopR-like gene region in DF4-8, featuring distinct ORFs and promoters compared to its bioluminescence-negative counterpart, DF4-10. Each ORF exhibits a unique predicted protein structure and harbors novel motifs, with DF4-ORF8 notably carrying a discovered NAD-binding motif (EKRDQVLSLITATA). Co-factor analysis reveals a potential NAD-binding domain (QATKVGVLGAGMMGADVTKWQATKVGVLGAGMMGA) within DF4-ORF8, suggesting its dual functionality in metabolic pathways and phenol recognition. Further exploration of specific regulatory factors, such as ArgR for mopR-ORF, PhoB for DF4-ORF8, and RpoD17 for DF4-ORF10, is crucial for understanding this intricate regulatory network. The study also hints at a potential role of transposable elements (Tn elements) in explaining the dissimilarity among DF4-8, the mopR-like gene, and DF4-10 DNA sequences. These findings shed light on a previously undescribed regulatory pathway governing phenol-induced bioluminescence in DF4-8, unveiling a promising biosensor with enhanced detection specificity and opening avenues for further exploration of the intricate regulatory mechanisms within the mopR-like gene region.

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Section: Discussionmentioning

confidence: 99%

Engineered Bacterium DF4-8 Achieves Specific Phenol Detection via a unique mopR-like Regulatory Pathway

Abd-El-Haleem

2024

Preprint

View full text Add to dashboard Cite

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ICARUS: flexible protein structural alignment based on Protein Units

Cited by 1 publication

References 31 publications

Engineered Bacterium DF4-8 Achieves Specific Phenol Detection via a unique mopR-like Regulatory Pathway

Engineered Bacterium DF4-8 Achieves Specific Phenol Detection via a unique mopR-like Regulatory Pathway

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