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Authors Nelson

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Nelson, William C.


Publications
2

CitationNamesAbstract
Three Genomes from the PhylumAcidobacteriaProvide Insight into the Lifestyles of These Microorganisms in Soils Ward et al. (2009). Applied and Environmental Microbiology 75 (7) “Koribacter versatilis” “Solibacter usitatus”
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Candidatus Chloracidobacterium thermophilum: An Aerobic Phototrophic Acidobacterium Bryant et al. (2007). Science 317 (5837) Ca. Chloracidobacterium thermophilum Ca. Chloracidobacterium
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Three Genomes from the PhylumAcidobacteriaProvide Insight into the Lifestyles of These Microorganisms in Soils
ABSTRACTThe complete genomes of three strains from the phylumAcidobacteriawere compared. Phylogenetic analysis placed them as a unique phylum. They share genomic traits with members of theProteobacteria, theCyanobacteria, and the Fungi. The three strains appear to be versatile heterotrophs. Genomic and culture traits indicate the use of carbon sources that span simple sugars to more complex substrates such as hemicellulose, cellulose, and chitin. The genomes encode low-specificity major facilitator superfamily transporters and high-affinity ABC transporters for sugars, suggesting that they are best suited to low-nutrient conditions. They appear capable of nitrate and nitrite reduction but not N2fixation or denitrification. The genomes contained numerous genes that encode siderophore receptors, but no evidence of siderophore production was found, suggesting that they may obtain iron via interaction with other microorganisms. The presence of cellulose synthesis genes and a large class of novel high-molecular-weight excreted proteins suggests potential traits for desiccation resistance, biofilm formation, and/or contribution to soil structure. Polyketide synthase and macrolide glycosylation genes suggest the production of novel antimicrobial compounds. Genes that encode a variety of novel proteins were also identified. The abundance of acidobacteria in soils worldwide and the breadth of potential carbon use by the sequenced strains suggest significant and previously unrecognized contributions to the terrestrial carbon cycle. Combining our genomic evidence with available culture traits, we postulate that cells of these isolates are long-lived, divide slowly, exhibit slow metabolic rates under low-nutrient conditions, and are well equipped to tolerate fluctuations in soil hydration.
Candidatus Chloracidobacterium thermophilum: An Aerobic Phototrophic Acidobacterium
Only five bacterial phyla with members capable of chlorophyll (Chl)–based phototrophy are presently known. Metagenomic data from the phototrophic microbial mats of alkaline siliceous hot springs in Yellowstone National Park revealed the existence of a distinctive bacteriochlorophyll (BChl)–synthesizing, phototrophic bacterium. A highly enriched culture of this bacterium grew photoheterotrophically, synthesized BChls a and c under oxic conditions, and had chlorosomes and type 1 reaction centers. “ Candidatus Chloracidobacterium thermophilum” is a BChl-producing member of the poorly characterized phylum Acidobacteria .
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