Aaron Kaplan
Aaron Kaplan
כתובת אימייל מאומתת בדומיין mail.huji.ac.il - דף הבית
צוטט על ידי
צוטט על ידי
The Phaeodactylum genome reveals the evolutionary history of diatom genomes
C Bowler, AE Allen, JH Badger, J Grimwood, K Jabbari, A Kuo, ...
Nature 456 (7219), 239-244, 2008
A Kaplan, L Reinhold
Annual review of plant biology 50 (1), 539-570, 1999
Internal inorganic carbon pool of Chlamydomonas reinhardtii: evidence for a carbon dioxide-concentrating mechanism
MR Badger, A Kaplan, JA Berry
Plant physiology 66 (3), 407-413, 1980
DNA microarray analysis of cyanobacterial gene expression during acclimation to high light
Y Hihara, A Kamei, M Kanehisa, A Kaplan, M Ikeuchi
The Plant Cell 13 (4), 793-806, 2001
A model for carbohydrate metabolism in the diatom Phaeodactylum tricornutum deduced from comparative whole genome analysis
PG Kroth, A Chiovitti, A Gruber, V Martin-Jezequel, T Mock, MS Parker, ...
PloS one 3 (1), e1426, 2008
Photosynthesis and the intracellular inorganic carbon pool in the bluegreen alga Anabaena variabilis: response to external CO 2 concentration
A Kaplan, MR Badger, JA Berry
Planta 149 (3), 219-226, 1980
Membrane transport of sugars and amino acids
L Reinhold, A Kaplan
Annual Review of Plant Physiology 35 (1), 45-83, 1984
The cyanobacterial hepatotoxin microcystin binds to proteins and increases the fitness of Microcystis under oxidative stress conditions
Y Zilliges, JC Kehr, S Meissner, K Ishida, S Mikkat, M Hagemann, ...
PloS one 6 (3), e17615, 2011
Programmed cell death of the dinoflagellate Peridinium gatunense is mediated by CO2 limitation and oxidative stress
A Vardi, I Berman-Frank, T Rozenberg, O Hadas, A Kaplan, A Levine
Current Biology 9 (18), 1061-1064, 1999
The photorespiratory glycolate metabolism is essential for cyanobacteria and might have been conveyed endosymbiontically to plants
M Eisenhut, W Ruth, M Haimovich, H Bauwe, A Kaplan, M Hagemann
Proceedings of the National Academy of Sciences 105 (44), 17199-17204, 2008
Genes encoding A-type flavoproteins are essential for photoreduction of O2 in cyanobacteria
Y Helman, D Tchernov, L Reinhold, M Shibata, T Ogawa, R Schwarz, ...
Current Biology 13 (3), 230-235, 2003
Distinct constitutive and low-CO2-induced CO2 uptake systems in cyanobacteria: genes involved and their phylogenetic relationship with homologous genes in other organisms
M Shibata, H Ohkawa, T Kaneko, H Fukuzawa, S Tabata, A Kaplan, ...
Proceedings of the National Academy of Sciences 98 (20), 11789-11794, 2001
Molecular and biochemical mechanisms associated with dormancy and drought tolerance in the desert legume Retama raetam
L Pnueli, E Hallak‐Herr, M Rozenberg, M Cohen, P Goloubinoff, A Kaplan, ...
The Plant Journal 31 (3), 319-330, 2002
Genes essential to sodium-dependent bicarbonate transport in cyanobacteria: function and phylogenetic analysis
M Shibata, H Katoh, M Sonoda, H Ohkawa, M Shimoyama, H Fukuzawa, ...
Journal of Biological Chemistry 277 (21), 18658-18664, 2002
Towards clarification of the biological role of microcystins, a family of cyanobacterial toxins
D Schatz, Y Keren, A Vardi, A Sukenik, S Carmeli, T Börner, E Dittmann, ...
Environmental microbiology 9 (4), 965-970, 2007
Growth and photosynthesis of Chlamydomonas reinhardtii as a function of CO2 concentration
J Berry, J Boynton, A Kaplan, M Badger
Annual report, 1976
Dinoflagellate-cyanobacterium communication may determine the composition of phytoplankton assemblage in a mesotrophic lake
A Vardi, D Schatz, K Beeri, U Motro, A Sukenik, A Levine, A Kaplan
Current biology 12 (20), 1767-1772, 2002
Inhibition of growth and photosynthesis of the dinoflagellate Peridinium gatunense by Microcystis sp. (cyanobacteria): A novel allelopathic mechanism
A Sukenik, R Eshkol, A Livne, O Hadas, M Rom, D Tchernov, A Vardi, ...
Limnology and Oceanography 47 (6), 1656-1663, 2002
Invasion of Nostocales (cyanobacteria) to subtropical and temperate freshwater lakes–physiological, regional, and global driving forces
A Sukenik, O Hadas, A Kaplan, A Quesada
Frontiers in microbiology 3, 86, 2012
Nature of the inorganic carbon species actively taken up by the cyanobacterium Anabaena variabilis
M Volokita, D Zenvirth, A Kaplan, L Reinhold
Plant Physiology 76 (3), 599-602, 1984
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מאמרים 1–20