Physiological diversity and niche adaptation in marine Synechococcus.
about
Diversity and evolution of phycobilisomes in marine Synechococcus spp.: a comparative genomics studyComputational inference and experimental validation of the nitrogen assimilation regulatory network in cyanobacterium Synechococcus sp. WH 8102.Ecological genomics of marine picocyanobacteriaMining genomes of marine cyanobacteria for elements of zinc homeostasis.Acclimation of a low iron adapted Ostreococcus strain to iron limitation through cell biomass lowering.Characterization of Prochlorococcus clades from iron-depleted oceanic regionsMulti-locus sequence analysis, taxonomic resolution and biogeography of marine Synechococcus.Cyanobacterial two-component proteins: structure, diversity, distribution, and evolution.Influence of the Changjiang River flood on Synechococcus ecology in the surface waters of the East China Sea.Variability in protist grazing and growth on different marine Synechococcus isolates.Lack of control of nitrite assimilation by ammonium in an oceanic picocyanobacterium, Synechococcus sp. strain WH 8103.Prochlorococcus and Synechococcus have Evolved Different Adaptive Mechanisms to Cope with Light and UV Stress.Photoinactivation of Photosystem II in Prochlorococcus and Synechococcus.Ni uptake and limitation in marine Synechococcus strainsPredicting the electron requirement for carbon fixation in seas and oceans.Proteomic responses of oceanic Synechococcus WH8102 to phosphate and zinc scarcity and cadmium additionsComparative genomics reveals surprising divergence of two closely related strains of uncultivated UCYN-A cyanobacteria.DISSECTING THE PHYSIOLOGICAL RESPONSE TO PHOSPHORUS STRESS IN MARINE SYNECHOCOCCUS ISOLATES (CYANOPHYCEAE)(1).Novel psychrotolerant picocyanobacteria isolated from Chesapeake Bay in the winter.Clade-specific 16S ribosomal DNA oligonucleotides reveal the predominance of a single marine Synechococcus clade throughout a stratified water column in the Red Sea.DIFFERENCES IN GROWTH AND PHYSIOLOGY OF MARINE SYNECHOCOCCUS (CYANOBACTERIA) ON NITRATE VERSUS AMMONIUM ARE NOT DETERMINED SOLELY BY NITROGEN SOURCE REDOX STATE(1).Streamlined regulation and gene loss as adaptive mechanisms in Prochlorococcus for optimized nitrogen utilization in oligotrophic environments.Transcriptome dynamics of a broad host-range cyanophage and its hosts.Nearly identical bacteriophage structural gene sequences are widely distributed in both marine and freshwater environmentsPhysiological Studies of Glutamine Synthetases I and III from Synechococcus sp. WH7803 Reveal Differential Regulation.Intracellular assembly of cyanophage Syn5 proceeds through a scaffold-containing procapsid.Differential sunlight sensitivity of picophytoplankton from surface Mediterranean Coastal Waters.A suppression subtractive hybridization approach reveals niche-specific genes that may be involved in predator avoidance in marine Synechococcus isolates.The use of NH4+ rather than NO3- affects cell stoichiometry, C allocation, photosynthesis and growth in the cyanobacterium Synechococcus sp. UTEX LB 2380, only when energy is limiting.Genetic and ecophysiological traits of Synechococcus strains isolated from coastal and open ocean waters of the Arabian Sea.Adaptation to sub-optimal hosts is a driver of viral diversification in the ocean
P2860
Q21184130-345227A0-33C3-49AA-ACC2-4AB4A6B595CEQ24538066-2E90A78C-C9A5-4951-904D-C88736B7BA70Q24644523-6C19D612-80EA-4742-ADAA-284F84DB2478Q30512952-BBC89F0C-7411-4E67-804B-D3B25CC145BAQ33669938-4B7696B8-4467-4565-BD36-1FF7D5607CCFQ33669961-610C3964-8CBB-4B74-9A52-ED7C25BCACD3Q33926007-0B66FF72-B153-4CFF-AA5B-C019375B0DD5Q34720154-900159C0-C1D7-4DD2-9647-F92F7DBE2917Q35008602-B7895E7E-A1B4-46B2-802A-7FA3745F58E5Q35077282-0505EE23-CEB5-476F-9FD2-329E61F7A29FQ35844367-9300946E-A5A9-42C7-9792-6D39F65B2FF2Q36231925-FDEBCF6D-C4D5-4F08-8CC4-645E9B2AF536Q36262444-EB47DB38-132B-4260-803B-4D52CB15B697Q36420869-AAC94DC5-0F9D-4DDA-8CD7-64134768D91BQ36680853-E2DDDF2F-76E1-42BA-9592-1A8AFABAD441Q37397517-6FA23324-DCD1-4B56-9E75-17164548A40CQ38913783-6F6F0C94-5514-49AC-A329-A9F9F76A7E9BQ39229134-D2B85858-6894-4EB2-AE10-713ECC6E9A66Q39609169-444E4700-7804-433C-8118-A94F17A6C30BQ39750786-6B23AA5F-F50E-4B3F-87C7-F0A864BE483FQ39892840-4F9C873C-D4E6-42CD-A496-B2C089934B21Q40737062-2F7ED7EE-1E2E-4144-89CD-16751B53D212Q40888095-2E9CD2B3-DF4F-4ADF-B5F7-709FD6168A32Q40897910-E81D8AFA-3250-4BA2-857C-EAED6C79D1F2Q42532612-7490ADB8-DF41-404C-8593-77E0165EC27AQ42707017-4D6E809E-8C0C-4BDD-AE1E-AEEBFE061305Q42722921-A6DF5A89-E178-48B0-B210-9FF1F4FE6076Q42905529-F71904DC-F481-4EB7-8755-37BECB93D592Q46445169-DB4F27C8-475C-43F6-8245-6191941E302EQ51591990-D9BB6B87-7A03-4744-8FEC-EAF519EE3642Q58586604-020D8983-B0A5-44D0-8E68-CC50DB4CB65E
P2860
Physiological diversity and niche adaptation in marine Synechococcus.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Physiological diversity and niche adaptation in marine Synechococcus.
@ast
Physiological diversity and niche adaptation in marine Synechococcus.
@en
type
label
Physiological diversity and niche adaptation in marine Synechococcus.
@ast
Physiological diversity and niche adaptation in marine Synechococcus.
@en
prefLabel
Physiological diversity and niche adaptation in marine Synechococcus.
@ast
Physiological diversity and niche adaptation in marine Synechococcus.
@en
P1476
Physiological diversity and niche adaptation in marine Synechococcus.
@en
P2093
David J Scanlan
P356
10.1016/S0065-2911(03)47001-X
P577
2003-01-01T00:00:00Z