psbA in the marine chromophyte Heterosigma carterae: evolutionary analysis and comparative structure of the D1 carboxyl terminus

psbA in the marine chromophyte Heterosigma carterae: evolutionary analysis and comparative structure of the D1 carboxyl terminus

The 32 kDa D1 protein, encoded by the psbA gene, is a component of photosystem II in photosynthetic eukaryotes and cyanobacteria. In the chl a,c-containing alga Heterosigma carterae (previously referred to as Olisthodiscus luteus), psbA is transcribed as a 1.7-kb monoeistronic message. The transcrip...

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Bibliographic Details
Published in:American journal of botany Vol. 82; no. 7; pp. 893 - 902
Main Authors: Hardison, L.K. (University of Washington, Seattle, WA.), Boczar, B.A, Cattolico, R.A
Format: Journal Article
Language:English
Published: Columbus American Botanical Society 01-07-1995
Botanical Society of America, Inc
Subjects:
ADN
ALGAE
Amino acids
ARN
Botany
CHLOROPHYLLE
Chloroplasts
CLOROFILAS
CODE GENETIQUE
CODIGO GENETICO
COMPOSICION QUIMICA
COMPOSITION CHIMIQUE
Cyanobacteria
Euglena
Evolution
FILOGENIA
FOTOSISTEMAS
GENE
GENES
GENETICA
Genetics
GENETIQUE
GRENOUILLE
PHOTOSYSTEME
Phylogenetics
PHYLOGENIE
Plants
Plastids
PROTEINAS
PROTEINE
Proteins
RANA
SECUENCIA NUCLEICA
SEQUENCE NUCLEIQUE
Systematics and Evolution
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Description
Summary:The 32 kDa D1 protein, encoded by the psbA gene, is a component of photosystem II in photosynthetic eukaryotes and cyanobacteria. In the chl a,c-containing alga Heterosigma carterae (previously referred to as Olisthodiscus luteus), psbA is transcribed as a 1.7-kb monoeistronic message. The transcription start site and putative prokaryotic-like -10 (TATAAT) and -35 (GTGATT) promoter domains have been identified for this gene, which encodes a protein that is 360 amino acids in length. The protein contains a seven amino acid motif near the carboxyl terminus that is also present in non-chl b-containing algal plastids and cyanobacteria, but not in terrestrial plants, green algae, or the prokaryote Prochlorothrix. Phylogenetic analysis of D1 sequences, with special attention to the seven amino acid motif, suggests that plastids of rhodophytic and chromophytic algae form an evolutionary lineage distinct from cyanobacteria and chlorophytic (chl a,b-containing) chloroplasts. A model for the function of the seven amino acid motif is proposed
Bibliography:9558090
F60
F30
F70
ISSN:0002-9122
1537-2197
DOI:10.1002/j.1537-2197.1995.tb15706.x