Unravelling the proteomic profile of rice meiocytes during early meiosis

Unravelling the proteomic profile of rice meiocytes during early meiosis

Transfer of genetic traits from wild or related species into cultivated rice is nowadays an important aim in rice breeding. Breeders use genetic crosses to introduce desirable genes from exotic germplasms into cultivated rice varieties. However, in many hybrids there is only a low level of pairing (...

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Published in:Frontiers in plant science Vol. 5; p. 356
Main Authors: Collado-Romero, Melania, Alós, Enriqueta, Prieto, Pilar
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 24-07-2014
Subjects:
Chromosome Pairing
chromosome recognition
Cytoskeleton
meiocytes proteome
MS/MS
Plant Science
prophase I
chromosome recognition
chromosome pairing
cytoskeleton
SKP1 proteins
MS/MS
meiocytes proteome
prophase I
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Summary:Transfer of genetic traits from wild or related species into cultivated rice is nowadays an important aim in rice breeding. Breeders use genetic crosses to introduce desirable genes from exotic germplasms into cultivated rice varieties. However, in many hybrids there is only a low level of pairing (if existing) and recombination at early meiosis between cultivated rice and wild relative chromosomes. With the objective of getting deeper into the knowledge of the proteins involved in early meiosis, when chromosomes associate correctly in pairs and recombine, the proteome of isolated rice meiocytes has been characterized by nLC-MS/MS at every stage of early meiosis (prophase I). Up to 1316 different proteins have been identified in rice isolated meiocytes in early meiosis, being 422 exclusively identified in early prophase I (leptotene, zygotene, or pachytene). The classification of proteins in functional groups showed that 167 were related to chromatin structure and remodeling, nucleic acid binding, cell-cycle regulation, and cytoskeleton. Moreover, the putative roles of 16 proteins which have not been previously associated to meiosis or were not identified in rice before, are also discussed namely: seven proteins involved in chromosome structure and remodeling, five regulatory proteins [such as SKP1 (OSK), a putative CDK2 like effector], a protein with RNA recognition motifs, a neddylation-related protein, and two microtubule-related proteins. Revealing the proteins involved in early meiotic processes could provide a valuable tool kit to manipulate chromosome associations during meiosis in rice breeding programs. The data have been deposited to the ProteomeXchange with the PXD001058 identifier.
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Reviewed by: Chris Petzold, Lawrence Berkeley National Laboratory, USA; Vardis Ntoukakis, University of Warwick, UK
Edited by: Alex Jones, University of Warwick, UK
This article was submitted to Plant Proteomics, a section of the journal Frontiers in Plant Science.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2014.00356