Complete sequence and analysis of plastid genomes of two economically important red algae: Pyropia haitanensis and Pyropia yezoensis

Complete sequence and analysis of plastid genomes of two economically important red algae: Pyropia haitanensis and Pyropia yezoensis

Pyropia haitanensis and P. yezoensis are two economically important marine crops that are also considered to be research models to study the physiological ecology of intertidal seaweed communities, evolutionary biology of plastids, and the origins of sexual reproduction. This plastid genome informat...

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Bibliographic Details
Published in:PloS one Vol. 8; no. 5; p. e65902
Main Authors: Wang, Li, Mao, Yunxiang, Kong, Fanna, Li, Guiyang, Ma, Fei, Zhang, Baolong, Sun, Peipei, Bi, Guiqi, Zhang, Fangfang, Xue, Hongfan, Cao, Min
Format: Journal Article
Language:English
Published: United States Public Library of Science 29-05-2013
Public Library of Science (PLoS)
Subjects:
Algae
Bangiales
Bangiophycidae
Biological evolution
Biology
Breeding
Chloroplast Proteins - classification
Chloroplast Proteins - genetics
Chloroplasts
Cryptomonas
Deoxyribonucleic acid
DNA
Ecological monitoring
Ecology
Economic analysis
Eukaryotes
Evolution
Fisheries
Gene clusters
Gene Order
Gene sequencing
Genes
Genetically altered foods
Genetics
Genome, Plastid - genetics
Genomes
Genomics
Laboratories
Life sciences
Molecular Sequence Data
Photosynthesis
Phylogeny
Physiological ecology
Plant breeding
Plastids
Population genetics
Population studies
Porphyra
Proteins
Pyropia haitanensis
Pyropia yezoensis
Reproduction (biology)
Rhodophyta
Rhodophyta - classification
Rhodophyta - genetics
Ribonucleic acid
Ribosomal DNA
RNA
rRNA
Sequence Analysis, DNA - methods
Sexual reproduction
Species Specificity
Taxonomy
tRNA
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Summary:Pyropia haitanensis and P. yezoensis are two economically important marine crops that are also considered to be research models to study the physiological ecology of intertidal seaweed communities, evolutionary biology of plastids, and the origins of sexual reproduction. This plastid genome information will facilitate study of breeding, population genetics and phylogenetics. We have fully sequenced using next-generation sequencing the circular plastid genomes of P. hatanensis (195,597 bp) and P. yezoensis (191,975 bp), the largest of all the plastid genomes of the red lineage sequenced to date. Organization and gene contents of the two plastids were similar, with 211-213 protein-coding genes (including 29-31 unknown-function ORFs), 37 tRNA genes, and 6 ribosomal RNA genes, suggesting a largest coding capacity in the red lineage. In each genome, 14 protein genes overlapped and no interrupted genes were found, indicating a high degree of genomic condensation. Pyropia maintain an ancient gene content and conserved gene clusters in their plastid genomes, containing nearly complete repertoires of the plastid genes known in photosynthetic eukaryotes. Similarity analysis based on the whole plastid genome sequences showed the distance between P. haitanensis and P. yezoensis (0.146) was much smaller than that of Porphyra purpurea and P. haitanensis (0.250), and P. yezoensis (0.251); this supports re-grouping the two species in a resurrected genus Pyropia while maintaining P. purpurea in genus Porphyra. Phylogenetic analysis supports a sister relationship between Bangiophyceae and Florideophyceae, though precise phylogenetic relationships between multicellular red alage and chromists were not fully resolved. These results indicate that Pyropia have compact plastid genomes. Large coding capacity and long intergenic regions contribute to the size of the largest plastid genomes reported for the red lineage. Possessing the largest coding capacity and ancient gene content yet found reveal that Pyropia are more primitive multicellular red algae.
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Conceived and designed the experiments: LW YM FK. Performed the experiments: LW BZ. Analyzed the data: LW GL FM PS GB FZ HX MC. Contributed reagents/materials/analysis tools: LW GB BZ. Wrote the paper: LW.
Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0065902