Expression of protein complexes and individual proteins upon transition of etioplasts to chloroplasts in pea (Pisum sativum)

The protein complexes of pea (Pisum sativum L.) etioplasts, etio-chloroplasts and chloroplasts were examined using 2D Blue Native/SDS-PAGE. The most prominent protein complexes in etioplasts were the ATPase and the Clp and FtsH protease complexes which probably have a crucial role in the biogenesis...

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Published in:Plant and cell physiology 2008-03, Vol.49 (3), p.396-410
Main Authors: Kanervo, E.(University of Turku (Finland)), Singh, M, Suorsa, M, Paakkarinen, V, Aro, E, Battchikova, N, Aro, E.M
Format: Article
Language:English
Subjects:
ATPASA
ATPASE
Chloroplast
CHLOROPLASTE
CHLOROPLASTS
Chloroplasts - physiology
Chloroplasts - ultrastructure
CLOROPLASTO
Clp
ELECTROFORESIS
ELECTROPHORESE
ELECTROPHORESIS
ESTRES OXIDATIVO
Etioplast
FtsH
Gene Expression Profiling
Gene Expression Regulation, Plant
Light
OXIDATIVE STRESS
Pea
Photosynthesis - physiology
Photosystem II Protein Complex - genetics
Photosystem II Protein Complex - metabolism
PISUM SATIVUM
Pisum sativum - cytology
Pisum sativum - genetics
Pisum sativum - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
PLASTE
PLASTIDIOS
PLASTIDS
Protein complex assembly
PROTEINAS
PROTEINE
PROTEINS
RUBISCO
STRESS OXYDATIF
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Summary:The protein complexes of pea (Pisum sativum L.) etioplasts, etio-chloroplasts and chloroplasts were examined using 2D Blue Native/SDS-PAGE. The most prominent protein complexes in etioplasts were the ATPase and the Clp and FtsH protease complexes which probably have a crucial role in the biogenesis of etioplasts and chloroplasts. Also the cytochrome bsub(6)f (Cyt bsub(6)f) complex was assembled in the etioplast membrane, as well as Rubisco, at least partially, in the stroma. These complexes are composed of proteins encoded by both the plastid and nuclear genomes, indicating that a functional cross-talk exists between pea etioplasts and the nucleus. In contrast, the proteins and protein complexes that bind chlorophyll, with the PetD subunit and the entire Cyt bsub(6)f complex as an exception, did not accumulate in etioplasts. Nevertheless, some PSII core components such as PsbE and the luminal oxygen-evolving complex (OEC) proteins PsbO and PsbP accumulated efficiently in etioplasts. After 6 h de-etiolation, a complete PSII core complex appeared with 40% of the maximal photochemical efficiency, but a fully functional PSII was recorded only after 24 h illumination. Similarly, the core complex of PSI was assembled after 6 h illumination, whereas the PSI-light-harvesting complex I was stably assembled only in chloroplasts illuminated for 24 h. Moreover, a battery of proteins responsible for defense against oxidative stress accumulated particularly in etioplasts, including the stromal and thylakoidal forms of ascorbate peroxidase, glutathione reductase and PsbS.
ISSN:0032-0781
1471-9053
DOI:10.1093/pcp/pcn016