TY - BOOK ID - 134716410 TI - Natural Product Genomics and Metabolomics of Marine Bacteria PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Moorena bouillonii KW - marine natural products KW - chemogeography KW - metabolomics KW - natural products KW - dereplication KW - antibiotics KW - marine sponges KW - plant pathogen KW - cyclodepsipeptides KW - marine Actinobacteria KW - Streptomyces spp. KW - antibiotic KW - sea cucumber KW - HCV KW - Actinobacteria KW - marine KW - Polar KW - genomics KW - specialised metabolites KW - chitin KW - chitinase KW - chitin degradation machinery KW - Pseudoalteromonas KW - secondary metabolites KW - bacterial natural products KW - mass spectrometry KW - genome mining KW - paired omics KW - keratinases KW - keratinolytic proteases KW - marine-derived Streptomyces KW - genomic comparison KW - cyanobacteria KW - symbionts KW - comparative genomics KW - biosynthetic gene clusters KW - Indonesia KW - biodiversity KW - novel antibiotics KW - drug screening KW - bioactivity KW - gene cluster networking KW - GNPS KW - enterococci KW - genome-wide analysis KW - bacteriocins KW - probiotics KW - wild marine species KW - Neolyngbya KW - anticancer KW - drug discovery KW - South China Sea KW - wenchangamide KW - Moorea producens KW - CuSO4·5H2O assisted KW - differential gDNA isolation KW - filamentous bacteria KW - micrococcin P1 and P2 KW - stalked diatoms UR - https://www.unicat.be/uniCat?func=search&query=sysid:134716410 AB - Marine organisms are a treasure trove for the discovery of novel natural products, and, thus, marine natural products have been a focus of interest for researchers for decades. Some marine bacteria are prolific producers of natural products, occurring either free-living or, as recently shown, in symbiosis with marine animals. Recent advances in DNA sequencing have led to an enormous increase in published bacterial genomes and bioinformatics tools to analyze natural product biosynthetic potential by various “genome mining” approaches. Similarly, analytical NMR and MS methods for the characterization and comparison of metabolomes of natural product producers have advanced. Novel interdisciplinary approaches combine genomics and metabolomics data for accelerated and targeted natural product discovery. This Special Issue invites articles from both genomics- and metabolomics-driven studies on marine bacteria with a focus on natural product discovery and characterization. We particularly welcome articles that combine genomics and metabolomic approaches for the dereplication and characterization of marine bacterial natural products. ER -