Occurrence and nature of chromatic adaptation in cyanobacteria
about
A simple viability analysis for unicellular cyanobacteria using a new autofluorescence assay, automated microscopy, and ImageJPhototrophic biofilm assembly in microbial-mat-derived unicyanobacterial consortia: model systems for the study of autotroph-heterotroph interactionsCharacterization of the light-regulated operon encoding the phycoerythrin-associated linker proteins from the cyanobacterium Fremyella diplosiphonA response regulator of cyanobacteria integrates diverse environmental signals and is critical for survival under extreme conditions.Genes for phycocyanin subunits in Synechocystis sp. strain PCC 6701 and assembly mutant UV16.Structure and light-regulated expression of phycoerythrin genes in wild-type and phycobilisome assembly mutants of Synechocystis sp. strain PCC 6701Anti-photoaging and photoprotective compounds derived from marine organisms.Chromatic adaptation and the evolution of light color sensing in cyanobacteria.Cyanobacteriochrome CcaS regulates phycoerythrin accumulation in Nostoc punctiforme, a group II chromatic adapter.Chromatic adaptation in marine Synechococcus strains.Wavelength modulation of phycoerythrin synthesis in Synechocystis sp. 6701.Functional characterization of a cyanobacterial OmpR/PhoB class transcription factor binding site controlling light color responses.A turquoise mutant genetically separates expression of genes encoding phycoerythrin and its associated linker peptidesThe phycobilisome, a light-harvesting complex responsive to environmental conditions.Biochemical bases of type IV chromatic adaptation in marine Synechococcus spp.A gene island with two possible configurations is involved in chromatic acclimation in marine Synechococcus.High-throughput cultivation and screening platform for unicellular phototrophsOccurrence of Far-Red Light Photoacclimation (FaRLiP) in Diverse Cyanobacteria.Light-dependent attenuation of phycoerythrin gene expression reveals convergent evolution of green light sensing in cyanobacteria.New classes of mutants in complementary chromatic adaptation provide evidence for a novel four-step phosphorelay system.Convergence and divergence of the photoregulation of pigmentation and cellular morphology in Fremyella diplosiphonLight Quantity Affects the Regulation of Cell Shape in Fremyella diplosiphon.In vivo and in vitro footprinting of a light-regulated promoter in the cyanobacterium Fremyella diplosiphon.Characterization of a light-regulated gene encoding a new phycoerythrin-associated linker protein from the cyanobacterium Fremyella diplosiphon.Cyanobacterial phycobilisomes. Particles from Synechocystis 6701 and two pigment mutants.Rod substructure in cyanobacterial phycobilisomes: analysis of Synechocystis 6701 mutants low in phycoerythrin.Rod substructure in cyanobacterial phycobilisomes: phycoerythrin assembly in synechocystis 6701 phycobilisomesMutations that affect structure and assembly of light-harvesting proteins in the cyanobacterium Synechocystis sp. strain 6701.Regulation of Nostoc sp. phycobilisome structure by light and temperatureMutations affecting chromatic adaptation in the cyanobacterium Fremyella diplosiphonGreen/red cyanobacteriochromes regulate complementary chromatic acclimation via a protochromic photocycle.Cyanobacteriochrome CcaS is the green light receptor that induces the expression of phycobilisome linker protein.Control of a four-color sensing photoreceptor by a two-color sensing photoreceptor reveals complex light regulation in cyanobacteria.Occurrence of cyclic di-GMP-modulating output domains in cyanobacteria: an illuminating perspective.Unique role for translation initiation factor 3 in the light color regulation of photosynthetic gene expression.AplA, a member of a new class of phycobiliproteins lacking a traditional role in photosynthetic light harvesting.Degradation of phycobilisomes in Synechocystis sp. PCC6803: evidence for essential formation of an NblA1/NblA2 heterodimer and its codegradation by A Clp protease complex.A polypeptide with similarity to phycocyanin alpha-subunit phycocyanobilin lyase involved in degradation of phycobilisomes.Identification of facultatively heterotrophic, N2-fixing cyanobacteria able to receive plasmid vectors from Escherichia coli by conjugation.Phycocyanin synthesis and degradation in the blue-green bacterium Anacystis nidulans.
P2860
Q28364629-55A08AD2-5905-4F99-B5FC-59C031C131B0Q28660156-015029B0-199C-470A-8FD5-68D827BBBE16Q33255978-94BAF032-5983-48E0-839A-20AC574D736FQ33568988-B849949A-776E-4E53-AAF6-77B9E3D6A582Q33743317-B84F70B1-60F3-4CAE-A00D-5C460533E645Q33743323-7F945DCB-BABB-4604-9968-5227F1C791C8Q33837024-B7C4E9EA-498D-4E00-A81B-555D65096A65Q33927387-D19F03AE-F415-4810-8B8B-A9FB2D3481D4Q33928507-8927C8E7-17BC-449F-8943-B3BE19F5AAE0Q33989005-29136EB6-EB3A-4203-BFA7-24BC029C9F8AQ34128243-FCD0E33E-A90C-4E6C-B582-ED6D6E60FAD0Q34291191-38A7E73F-7B68-41AC-8DD8-9A6CCD9BA5D0Q34305073-6BBA48D1-37E5-43D9-8634-BFDAD071661CQ34345227-4F912D80-09D0-4032-A489-2B8AB9B508FEQ34564900-6F37655A-8329-43A4-8ACA-074B136EE9DCQ35082992-3353D279-FE2F-40AA-A7D4-10ACA084761CQ35253674-8CB699A9-C84E-4590-A11B-D1E1719F3D94Q35333936-5F4D2F5D-FDF6-44F1-9A2C-5E753861E2F9Q35546716-5DC7B68D-9E2A-4007-A4EC-BFDEDBA21484Q35624521-DE4E0854-8118-42E3-88C6-9CA34DA719F0Q35914244-CD9BA781-C493-41FD-B7DB-C4115611846FQ35937957-10D10FAC-4EDE-43B7-A744-C6A552FBE44FQ36087377-8DB5AFFC-F4B2-4CF0-AA0D-E3EBAD51078DQ36127597-259529AA-008B-4E37-B0B5-EA288991EEB5Q36203578-C1A03717-F33B-4714-8464-B26A2622557EQ36205898-1600D4FC-EBB5-4E29-916C-E58167EE4060Q36207000-06C2299B-5B29-4457-8B51-7EC64689469DQ36226242-AF642E93-3999-49FF-9A68-BCF676FA0A31Q36332583-573842CA-9867-462E-B2EB-FC764521A95AQ36413460-A3DF8AE4-55E2-44DF-A52F-734DCB40AFF3Q36729784-4DE86148-A5F4-4493-8A53-26F1E074FB44Q36775336-4343BD1F-E6A1-45B3-A062-1A9139CB5129Q37068568-4DD7E1A3-512D-4571-922D-130ABEAC67B2Q37105669-A3FADCE3-3163-4F6D-AE71-27C25CE05F47Q37218366-B55AF69D-1CCA-4A0E-90EA-FD9004E662A0Q37583222-2D7DB0F3-7CBD-467B-BDA8-261C68D10E98Q39006567-CD61D55A-E560-4001-AAA5-F7671A8E8249Q39493857-B20D9646-2C88-42B2-868C-20340945F2A2Q39970172-4C39F9A9-791B-4F46-95F1-39B056A66C31Q40035102-87A125CA-BA48-45D8-9618-DABE9B0B8137
P2860
Occurrence and nature of chromatic adaptation in cyanobacteria
description
1977 nî lūn-bûn
@nan
1977年の論文
@ja
1977年論文
@yue
1977年論文
@zh-hant
1977年論文
@zh-hk
1977年論文
@zh-mo
1977年論文
@zh-tw
1977年论文
@wuu
1977年论文
@zh
1977年论文
@zh-cn
name
Occurrence and nature of chromatic adaptation in cyanobacteria
@ast
Occurrence and nature of chromatic adaptation in cyanobacteria
@en
type
label
Occurrence and nature of chromatic adaptation in cyanobacteria
@ast
Occurrence and nature of chromatic adaptation in cyanobacteria
@en
prefLabel
Occurrence and nature of chromatic adaptation in cyanobacteria
@ast
Occurrence and nature of chromatic adaptation in cyanobacteria
@en
P2860
P1476
Occurrence and nature of chromatic adaptation in cyanobacteria
@en
P2093
Tandeau de Marsac N
P2860
P407
P577
1977-04-01T00:00:00Z