Functional diversification of thylakoidal processing peptidases in Arabidopsis thaliana

Functional diversification of thylakoidal processing peptidases in Arabidopsis thaliana

Thylakoidal processing peptidase (TPP) is responsible for removing amino-terminal thylakoid-transfer signals from several proteins in the thylakoid lumen. Three TPP isoforms are encoded by the nuclear genome of Arabidopsis thaliana. Previous studies showed that one of them termed plastidic type I si...

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Bibliographic Details
Published in:PloS one Vol. 6; no. 11; p. e27258
Main Authors: Hsu, Shih-Chi, Endow, Joshua K, Ruppel, Nicholas J, Roston, Rebecca L, Baldwin, Amy J, Inoue, Kentaro
Format: Journal Article
Language:English
Published: United States Public Library of Science 07-11-2011
Public Library of Science (PLoS)
Subjects:
Amino acids
Arabidopsis
Arabidopsis - enzymology
Arabidopsis thaliana
Biology
Chloroplasts
Cladistic analysis
Cloning
Complementary DNA
Disruption
Divergence
E coli
Endopeptidases - genetics
Endopeptidases - metabolism
Endopeptidases - physiology
Enzymes
Genes
Genes, Plant
Genomes
Genomics
Glycine max
Homology
Isoforms
Lethality
Metabolism
Neural networks
Peptidases
Peptides
Phenotype
Photosynthesis
Phylogeny
Physcomitrella patens
Physiological aspects
Plant sciences
Plastids
Populus trichocarpa
Prokaryotes
Proteases
Protein Isoforms
Proteins
Reverse transcription
Seedlings
Signal peptidase
Signal processing
Thylakoids - metabolism
Tissue Distribution
Tissues
Transcription (Genetics)
Vectors (Biology)
United States > US
California
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Summary:Thylakoidal processing peptidase (TPP) is responsible for removing amino-terminal thylakoid-transfer signals from several proteins in the thylakoid lumen. Three TPP isoforms are encoded by the nuclear genome of Arabidopsis thaliana. Previous studies showed that one of them termed plastidic type I signal peptidase 1 (Plsp1) was necessary for processing three thylakoidal proteins and one protein in the chloroplast envelope in vivo. The lack of Plsp1 resulted in seedling lethality, apparently due to disruption of proper thylakoid development. The physiological roles of the other two TPP homologs remain unknown. Here we show that the three A. thaliana TPP isoforms evolved to acquire diverse functions. Phylogenetic analysis revealed that TPP may have originated before the endosymbiotic event, and that there are two groups of TPP in seed plants: one includes Plsp1 and another comprises the other two A. thaliana TPP homologs, which are named as Plsp2A and Plsp2B in this study. The duplication leading to the two groups predates the gymnosperm-angiosperm divergence, and the separation of Plsp2A and Plsp2B occurred after the Malvaceae-Brassicaceae diversification. Quantitative reverse transcription-PCR assay revealed that the two PLSP2 genes were co-expressed in both photosynthetic tissues and roots, whereas the PLSP1 transcript accumulated predominantly in photosynthetic tissues. Both PLSP2 genes were expressed in the aerial parts of the plsp1-null mutant at levels comparable to those in wild-type plants. The seedling-lethal phenotype of the plsp1-null mutant could be rescued by a constitutive expression of Plsp1 cDNA but not by that of Plsp2A or Plsp2B. These results indicate that Plsp1 and Plsp2 evolved to function differently, and that neither of the Plsp2 isoforms is necessary for proper thylakoid development in photosynthetic tissues.
Bibliography:Current address: School of Biosciences, Cardiff University, Cardiff, United Kingdom
Conceived and designed the experiments: SH JKE RLR KI. Performed the experiments: SH JKE NJR RLR AJB. Analyzed the data: SH JKE NJR KI. Wrote the paper: SH JKE KI.
Current address: Boyce Thompson Institute for Plant Research, Itacha, New York, United States of America
Current address: Department of Biochemistry and Molecular Biology, Michigan State University, East Lansing, Michigan, United States of America
Current address: Department of Biology, Oberlin College, Oberlin, Ohio, United States of America
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0027258