C
Caroline S. Harwood
Researcher at University of Washington
Publications - 161
Citations - 14614
Caroline S. Harwood is an academic researcher from University of Washington. The author has contributed to research in topics: Rhodopseudomonas palustris & Pseudomonas putida. The author has an hindex of 66, co-authored 154 publications receiving 13125 citations. Previous affiliations of Caroline S. Harwood include University of Massachusetts Amherst & University of Iowa.
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THE β-KETOADIPATE PATHWAY AND THE BIOLOGY OF SELF-IDENTITY
TL;DR: Accumulating evidence points to an independent and convergent evolutionary origin for the eukaryotic beta-ketoadipate pathway, which appears to assume a characteristic set of features or identity in different bacteria.
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A chemosensory system that regulates biofilm formation through modulation of cyclic diguanylate levels.
TL;DR: The data suggest that the wsp signal transduction pathway regulates biofilm formation through modulation of cyclic diguanylate levels.
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Complete genome sequence of the metabolically versatile photosynthetic bacterium Rhodopseudomonas palustris
Frank W. Larimer,Patrick S. G. Chain,Patrick S. G. Chain,Loren Hauser,Loren Hauser,Jane Lamerdin,Stephanie Malfatti,Stephanie Malfatti,Long Do,Miriam Land,Miriam Land,Dale A. Pelletier,Dale A. Pelletier,Thomas Beatty,Andrew S. Lang,F. Robert Tabita,Janet L. Gibson,Thomas E. Hanson,Cedric E. Bobst,Janelle L. Torres Y. Torres,Caroline M. Peres,Faith H. Harrison,Jane Gibson,Caroline S. Harwood +23 more
TL;DR: The genome sequence of R. palustris is described, which reveals genes that confer a remarkably large number of options within a given type of metabolism, including three nitrogenases, five benzene ring cleavage pathways and four light harvesting 2 systems.
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Identification of FleQ from Pseudomonas aeruginosa as a c-di-GMP-responsive transcription factor
TL;DR: The results show that FleQ is a new type of c‐di‐GMP binding protein that controls the transcriptional regulation of EPS biosynthesis genes in P. aeruginosa.
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Anaerobic metabolism of aromatic compounds via the benzoyl‐CoA pathway
TL;DR: In this paper, the authors focus on the anaerobic aromatic metabolism via the benzoyl-CoA pathway, which is characterized by the extensive use of molecular oxygen which is essential for the hydroxylation and cleavage of aromatic ring structures.