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Arthur R. Grossman
Carnegie Institution for Science
354Publications
80H-index
21kCitations
Publications 354
Newest
Published on Jan 25, 2019in Journal of Biological Chemistry 4.01
Yuval Kaye (Carnegie Institution for Science), Weichao Huang (Carnegie Institution for Science)+ 4 AuthorsArthur R. Grossman80
Estimated H-index: 80
(Carnegie Institution for Science)
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Published on Mar 18, 2019in Nature Genetics 27.13
Xiaobo Li (Princeton University), Weronika Patena3
Estimated H-index: 3
(Princeton University)
+ 17 AuthorsRu Zhang7
Estimated H-index: 7
(Carnegie Institution for Science)
Photosynthetic organisms provide food and energy for nearly all life on Earth, yet half of their protein-coding genes remain uncharacterized1,2. Characterization of these genes could be greatly accelerated by new genetic resources for unicellular organisms. Here we generated a genome-wide, indexed library of mapped insertion mutants for the unicellular alga Chlamydomonas reinhardtii. The 62,389 mutants in the library, covering 83% of nuclear protein-coding genes, are available to the community. ...
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Published on Jul 1, 2018in Plant Journal 5.78
Natalie Heimerl1
Estimated H-index: 1
(University of Jena),
Elisabeth Hommel1
Estimated H-index: 1
(University of Jena)
+ 6 AuthorsSeverin Sasso9
Estimated H-index: 9
(University of Jena)
1 Citations Source Cite
Published on Nov 7, 2018in bioRxiv
Xiaobo Li (Princeton University), Weronika Patena3
Estimated H-index: 3
(Princeton University)
+ 17 AuthorsRu Zhang7
Estimated H-index: 7
(Carnegie Institution for Science)
Photosynthetic organisms provide food and energy for nearly all life on Earth, yet half of their protein-coding genes remain uncharacterized. Characterization of these genes could be greatly accelerated by new genetic resources for unicellular organisms that complement the use of multicellular plants by enabling higher-throughput studies. Here, we generated a genome-wide, indexed library of mapped insertion mutants for the flagship unicellular alga Chlamydomonas reinhardtii (Chlamydomonas hereaf...
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Published on Jan 1, 2018in Nano Research 7.99
Hyeonaug Hong2
Estimated H-index: 2
(Yonsei University),
Yong Jae Kim2
Estimated H-index: 2
(Yonsei University)
+ 6 AuthorsWonHyoung Ryu14
Estimated H-index: 14
(Yonsei University)
Harvesting photosynthetic electrons (PEs) from plant or algal cells can be a highly efficient and environmentally friendly way of generating renewable energy. Recent work on nanoelectrode insertion into algal cells has demonstrated the possibility to directly extract PEs from living algal cells with high efficiencies. However, the instability of the inserted cells limits the practicality of this technology. Here, the impact of nanoelectrode insertion on intracellular extraction of PEs is charact...
2 Citations Source Cite
Published on Mar 1, 2018in Molecular Phylogenetics and Evolution 4.41
Ashley E. Sproles2
Estimated H-index: 2
(Victoria University of Wellington),
Nathan L. Kirk2
Estimated H-index: 2
(Oregon State University)
+ 4 AuthorsSimon K. Davy26
Estimated H-index: 26
(Victoria University of Wellington)
Abstract Metabolic exchange between cnidarians and their symbiotic dinoflagellates is central to maintaining their mutualistic relationship. Sugars are translocated to the host, while ammonium and nitrate are utilized by the dinoflagellates ( Symbiodinium spp.). We investigated membrane protein sequences of each partner to identify potential transporter proteins that move sugars into cnidarian cells and nitrogen products into Symbiodinium cells. We examined the facilitated glucose transporters (...
3 Citations Source Cite
Published on Jun 1, 2018in Plant Journal 5.78
Tyler M. Wittkopp7
Estimated H-index: 7
(Stanford University),
Shai Saroussi4
Estimated H-index: 4
(Carnegie Institution for Science)
+ 12 AuthorsCorey D. Broeckling22
Estimated H-index: 22
(Colorado State University)
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Published on Nov 1, 2018in eLife 7.62
Severin Sasso9
Estimated H-index: 9
(University of Jena),
Herwig Stibor25
Estimated H-index: 25
(Ludwig Maximilian University of Munich)
+ 1 AuthorsArthur R. Grossman80
Estimated H-index: 80
(Carnegie Learning)
1 Citations Source Cite
Published on Nov 1, 2018in eLife 7.62
Severin Sasso9
Estimated H-index: 9
,
Herwig Stibor25
Estimated H-index: 25
+ 1 AuthorsArthur R. Grossman80
Estimated H-index: 80
1 Citations Source Cite
Published on May 1, 2017in Plant Physiology 5.95
Nico Müller4
Estimated H-index: 4
(Schiller International University),
Sandra Wenzel4
Estimated H-index: 4
(University of Jena)
+ 7 AuthorsMaria Mittag25
Estimated H-index: 25
(University of Jena)
Cryptochromes are flavin-binding proteins that act as blue light receptors in bacteria, fungi, plants, and insects and are components of the circadian oscillator in mammals. Animal and plant cryptochromes are evolutionarily divergent, although the unicellular alga Chlamydomonas reinhardtii ( Chlamydomonas throughout) has both an animal-like cryptochrome and a plant cryptochrome (pCRY; formerly designated CPH1). Here, we show that the pCRY protein accumulates at night as part of a complex. Functi...
12 Citations Source Cite
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