Arthur R. Grossman
Carnegie Institution for Science
352 Papers
4.4K Citations
Arthur R. Grossman is an academic researcher from Carnegie Institution for Science. The author has contributed to research in topics: Chlamydomonas reinhardtii & Biology. The author has an hindex of 94, co-authored 321 publications. Previous affiliations of Arthur R. Grossman include Rockefeller University & University of Idaho.
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Papers
Towards sustainable microalgal biomass processing: anaerobic induction of autolytic cell-wall self-ingestion in lipid-rich Nannochloropsis slurries
Ronald Halim,Ronald Halim,Ronald Halim,David R. A. Hill,Eric Hanssen,Paul A. Webley,Susan Irene Ellis Blackburn,Arthur R. Grossman,Clemens Posten,Gregory J.O. Martin +9 more
TL;DR: Incubating Nannochloropsis slurries in darkness at 38 °C activated auto-fermentation metabolism that thinned cell walls and led to increased cell rupture.
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Chromatic adaptation and the events involved in phycobilisome biosynthesis
TL;DR: The major concern of this article is the molecular events involved in chromatic adaptation in phycobilisomes.
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Sulfur Availability and the SAC1 Gene Control Adenosine Triphosphate Sulfurylase Gene Expression in Chlamydomonas reinhardtii
TL;DR: ATP sulfurylase mRNA was present when cells were grown in sulfur-replete medium, but accumulated to higher levels when the cells were exposed to sulfur-limiting conditions, and sulfur-stress-induced accumulation of the ATS1 transcript was reduced in a strain defective in SAC1, a gene that is critical for acclimation toulfur-limited growth.
Photoreversibility of the Effect of Red and Green Light Pulses on the Accumulation in Darkness of mRNAs Coding for Phycocyanin and Phycoerythrin in Fremyella diplosiphon.
TL;DR: The data are consistent with the hypothesis that the light-induced increase and decrease of a particular phycobiliprotein mRNA is controlled by a single red/green photoreversible photosystem, but that phycoerythrin and phyCocyanin mRNA levels are either controlled by two distinct photore reversible systems or that marked differences occur in the chain of events leading from photoperception to gene activation.
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Phylogenetic characterization of transporter proteins in the cnidarian-dinoflagellate symbiosis
Ashley E. Sproles,Nathan L. Kirk,Sheila A. Kitchen,Clinton A. Oakley,Arthur R. Grossman,Virginia M. Weis,Simon K. Davy +6 more
TL;DR: This study is the first to identify transporter sequences from a diversity of cnidarian species and Symbiodinium clades, which will be useful for future experimental analyses of the host-symbiont proteome and the nutritional exchange of Symbiod inium cells in hospite.
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