Your search keyword '"Marisa H Mayer"' showing total 2 results

1. Anaerobic 3-methylhopanoid production by an acidophilic photosynthetic purple bacterium

Author

M. N. Parenteau, Linda L. Jahnke, Michael T. Madigan, Megan L. Kempher, Paula V. Welander, and Marisa H. Mayer

Subjects

Hopanoids, Aerobic bacteria, Photosynthesis, Biochemistry, Microbiology, Anoxygenic phototrophs, Microbial ecology, RNA, Ribosomal, 16S, Botany, Genetics, Anaerobiosis, Molecular Biology, Phylogeny, Original Paper, Base Composition, biology, Phototroph, Chemistry, Rhodopila globiformis, General Medicine, Sequence Analysis, DNA, biology.organism_classification, Anoxic waters, Warm thermal springs, Acetobacteraceae, Anaerobic exercise, Bacteria

Abstract

Bacterial lipids are well-preserved in ancient rocks and certain ones have been used as indicators of specific bacterial metabolisms or environmental conditions existing at the time of rock deposition. Here we show that an anaerobic bacterium produces 3-methylhopanoids, pentacyclic lipids previously detected only in aerobic bacteria and widely used as biomarkers for methane-oxidizing bacteria. Both Rhodopila globiformis, a phototrophic purple nonsulfur bacterium isolated from an acidic warm spring in Yellowstone, and a newly isolated Rhodopila species from a geochemically similar spring in Lassen Volcanic National Park (USA), synthesized 3-methylhopanoids and a suite of related hopanoids and contained the genes encoding the necessary biosynthetic enzymes. Our results show that 3-methylhopanoids can be produced under anoxic conditions and challenges the use of 3-methylhopanoids as biomarkers of oxic conditions in ancient rocks and as prima facie evidence that methanotrophic bacteria were active when the rocks were deposited.

Published

2021

2. Genomic Features of the Bundle-Forming Heliobacterium Heliophilum fasciatum

Author

Kelly S. Bender, Michael T. Madigan, Kyleigh L. Williamson, Marisa H. Mayer, Mary N. Parenteau, Linda L. Jahnke, Paula V. Welander, Sophia A. Sanguedolce, Abigail C. Brown, and W. Matthew Sattley

Subjects

Microbiology (medical), Virology, Microbiology, anoxygenic phototrophs, heliobacteria, bacteriochlorophyll g, Heliophilum fasciatum, genome sequence

Abstract

Eight species of heliobacteria have had their genomes sequenced. However, only two of these genomes have been analyzed in detail, those from the thermophilic Heliomicrobium (Hmi.) modesticaldum and the alkaliphilic Heliorestis (Hrs.) convoluta. Here we present analyses of the draft genome sequence of a species of heliobacterium that grows optimally at a moderate temperature and neutral pH. The organism, Heliophilum (Hph.) fasciatum, is phylogenetically unique among cultured heliobacteria and was isolated from rice soil, a common habitat for heliobacteria. The Hph. fasciatum genome contains 3.14 Mbp—similar to that of other reported heliobacteria—but has a G+C base ratio that lies between that of Hmi. modesticaldum and Hrs. convoluta. Many of the genomic features of Hmi. modesticaldum and Hrs. convoluta, such as the absence of genes encoding autotrophic pathways, the presence of a superoperonal cluster of photosynthesis-related genes, and genes encoding endospore-specific proteins, are also characteristic of the Hph. fasciatum genome. However, despite the fact that Hph. fasciatum is diazotrophic, classical nif genes encoding the alpha and beta subunits of dinitrogenase (nifDK) present in other heliobacteria could not be identified. Instead, genes encoding several highly divergent NifDK homologs were present, at least one of which likely encodes a functional dinitrogenase and another a methylthio-alkane reductase (MarDK) for sulfur assimilation. A classical NifH (dinitrogenase reductase) homolog was also absent in Hph. fasciatum, but a related protein was identified that likely carries out this function as well as electron delivery to MarDK. The N2-fixing system of Hph. fasciatum is therefore distinct from that of other heliobacteria and may have unusual properties.

Published

2022