The environmental plasticity and ecological genomics of the cyanobacterial CO2 concentrating mechanism.
about
Structural analysis of CsoS1A and the protein shell of the Halothiobacillus neapolitanus carboxysomeThe ancestor of the Paulinella chromatophore obtained a carboxysomal operon by horizontal gene transfer from a Nitrococcus-like gamma-proteobacteriumThe genome of deep-sea vent chemolithoautotroph Thiomicrospira crunogena XCL-2Analysis of Carboxysomes from Synechococcus PCC7942 Reveals Multiple Rubisco Complexes with Carboxysomal Proteins CcmM and CcaARenewable energy from Cyanobacteria: energy production optimization by metabolic pathway engineering.The structure of isolated Synechococcus strain WH8102 carboxysomes as revealed by electron cryotomographyInsights from multiple structures of the shell proteins from the β-carboxysomeThe photorespiratory glycolate metabolism is essential for cyanobacteria and might have been conveyed endosymbiontically to plantsPhytoplankton-specific response to enrichment of phosphorus-rich surface waters with ammonium, nitrate, and ureaStructure, mineralogy, and microbial diversity of geothermal spring microbialites associated with a deep oil drilling in RomaniaProteomic analysis of carbon concentrating chemolithotrophic bacteria Serratia sp. for sequestration of carbon dioxideMetagenomic and metabolic profiling of nonlithifying and lithifying stromatolitic mats of Highborne Cay, The BahamasAlgal evolution in relation to atmospheric CO2: carboxylases, carbon-concentrating mechanisms and carbon oxidation cyclesOver-expression of the β-carboxysomal CcmM protein in Synechococcus PCC7942 reveals a tight co-regulation of carboxysomal carbonic anhydrase (CcaA) and M58 contentFunctional Cyanobacterial -Carboxysomes Have an Absolute Requirement for Both Long and Short Forms of the CcmM ProteinTwo-dimensional crystals of carboxysome shell proteins recapitulate the hexagonal packing of three-dimensional crystalsCellular inorganic carbon fluxes in Trichodesmium: a combined approach using measurements and modelling.INTERACTIVE EFFECTS OF IRRADIANCE AND CO2 ON CO2 FIXATION AND N2 FIXATION IN THE DIAZOTROPH TRICHODESMIUM ERYTHRAEUM (CYANOBACTERIA)(1).Diel Variation in Gene Expression of the CO2-Concentrating Mechanism during a Harmful Cyanobacterial Bloom.Response of microalgae to elevated CO2 and temperature: impact of climate change on freshwater ecosystems.Competition between cyanobacteria and green algae at low versus elevated CO2: who will win, and why?Long-term response toward inorganic carbon limitation in wild type and glycolate turnover mutants of the cyanobacterium Synechocystis sp. strain PCC 6803.A model for carbohydrate metabolism in the diatom Phaeodactylum tricornutum deduced from comparative whole genome analysis.Comparative genomic analysis of carbon and nitrogen assimilation mechanisms in three indigenous bioleaching bacteria: predictions and validations.Choreography of the transcriptome, photophysiology, and cell cycle of a minimal photoautotroph, prochlorococcusThe influence of pCO2 and temperature on gene expression of carbon and nitrogen pathways in Trichodesmium IMS101.Combined Effects of Elevated pCO2 and Warming Facilitate Cyanophage Infections.Exploring Components of the CO2-Concentrating Mechanism in Alkaliphilic Cyanobacteria Through Genome-Based AnalysisAlgal and aquatic plant carbon concentrating mechanisms in relation to environmental change.Reversal in competitive dominance of a toxic versus non-toxic cyanobacterium in response to rising CO2.Expression and function of four carbonic anhydrase homologs in the deep-sea chemolithoautotroph Thiomicrospira crunogena.Trichodesmium--a widespread marine cyanobacterium with unusual nitrogen fixation propertiesLycopene cyclase paralog CruP protects against reactive oxygen species in oxygenic photosynthetic organisms.Functions, compositions, and evolution of the two types of carboxysomes: polyhedral microcompartments that facilitate CO2 fixation in cyanobacteria and some proteobacteria.Metagenomic exploration of viruses throughout the Indian Ocean.A carboxysomal carbon-concentrating mechanism in the cyanelles of the 'coelacanth' of the algal world, Cyanophora paradoxa?Proposed carbon dioxide concentrating mechanism in Chlamydomonas reinhardtii.The complex effects of ocean acidification on the prominent N2-fixing cyanobacterium Trichodesmium.A multiprotein bicarbonate dehydration complex essential to carboxysome function in cyanobacteriaGenetic diversity of inorganic carbon uptake systems causes variation in CO2 response of the cyanobacterium Microcystis.
P2860
Q21092759-F1EC58EE-3B9A-4A10-80AE-902F874CE74CQ21093415-3E3E4305-1F48-4EB4-8152-ED40D7555D1BQ21146027-14BB032F-AE33-49E9-8108-3DB1049B2EDFQ21994447-01B1FD98-AEE3-4595-80B2-C5F96CBE365DQ21994492-AF659E94-959D-47AD-84C4-2514D56BE7DCQ24644502-6712C133-81D5-45C3-B3D4-134EFE186C3DQ27653590-D02F1018-6B71-4202-B7A4-805FF484EFFEQ28298924-8715B28C-D014-4C3B-A50E-31225317F8A1Q28485178-26D0DE8A-F75D-439F-9296-08C8ACA11D4AQ28651104-B3310D32-6C84-4CB3-A402-961EEBB5C6DDQ28657907-2603F462-AAAB-4FC2-99C8-67C56D40D848Q28729210-2E042C10-A7D1-4475-9283-875CDFEB3863Q28740626-DC4ADE10-9CCF-419E-8801-2D02CBDD655BQ29029947-95F47ACF-4CF7-445F-9819-EA5061B0A1EFQ29397052-F7EDF394-5AFD-4E1E-8A72-5001885FEE57Q30434043-84C062FC-4473-4765-A7D3-A40E323E9FD8Q30872187-D1DB6C18-2275-4F61-A44C-8E79E882557FQ31064161-85B7CE00-2266-4E70-A416-AFF3760AA3A5Q31090942-8A8D1927-A7C7-42D5-8785-09AD5227D7D0Q31115059-59E0FE3C-AEF3-48A1-83B3-60CF6A3F23FBQ31162463-7A528227-6956-414F-BB46-E5F435E9756FQ33289273-DBFE4D7C-06D5-4B67-821F-966E1C819104Q33313881-B0A06DA7-7474-4441-AE6B-DDCE77A17E0BQ33389552-7E764E7F-F194-45F1-8B1B-E3F0F8750847Q33427883-1C6E26F0-2605-4003-B776-9D3D372B752CQ33769392-27499A37-3B90-4F1D-81BF-C8055EA003E2Q33790086-19C44DAE-B098-44E7-AF5E-3AA941F869FEQ33802839-3118D19D-4F12-4401-8E77-DF198383E572Q33822452-35F51E02-6790-4E8F-909D-89C1A545E184Q33841884-9036DE3E-B1A6-4E53-9D2C-8A4875EFBEC7Q33876732-7F89879B-B0A5-4371-A6C1-557B1F29A53AQ34296430-D7F5908F-7EF5-42B7-95AD-AF49E1DF013FQ34307181-26791714-BC74-4E44-887D-303C384C930DQ34368749-B0F3A50C-C5A1-4C16-9C82-AC2BFEDF3BB8Q34451821-C78EC749-D807-4F0A-896D-2CFA610547D9Q34587932-441235AA-4978-448E-B581-DC3720A9E614Q34635819-1A4ADB63-223F-455C-941F-1E862163CFA4Q34681784-C9688037-6722-48F7-96CC-12D663CF44DCQ34712251-513326F1-E145-46A0-904A-DDDC7165898AQ35019299-1F0E6D16-5588-4587-B771-4CB4F04A2EB2
P2860
The environmental plasticity and ecological genomics of the cyanobacterial CO2 concentrating mechanism.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
The environmental plasticity a ...... l CO2 concentrating mechanism.
@ast
The environmental plasticity a ...... l CO2 concentrating mechanism.
@en
type
label
The environmental plasticity a ...... l CO2 concentrating mechanism.
@ast
The environmental plasticity a ...... l CO2 concentrating mechanism.
@en
prefLabel
The environmental plasticity a ...... l CO2 concentrating mechanism.
@ast
The environmental plasticity a ...... l CO2 concentrating mechanism.
@en
P2093
P356
P1476
The environmental plasticity a ...... al CO2 concentrating mechanism
@en
P2093
Fiona J Woodger
G Dean Price
Murray R Badger
P304
P356
10.1093/JXB/ERI286
P577
2005-10-10T00:00:00Z