TY - JOUR
T1 - Differential proteomics reveals the hallmarks of seed development in common bean (Phaseolus vulgaris L.)
AU - Parreira, José R.
AU - Bouraada, J.
AU - Fitzpatrick, M. A.
AU - Silvestre, S.
AU - Bernardes Da Silva, Anabela
AU - Marques da Silva, J. R.
AU - Almeida, A. M.
AU - Fevereiro, P.
AU - Altelaar, A. F M
AU - Araújo, S. S.
PY - 2016/6/30
Y1 - 2016/6/30
N2 - Common bean (Phaseolus vulgaris L.) is one of the most consumed staple foods worldwide. Little is known about the molecular mechanisms controlling seed development. This study aims to comprehensively describe proteome dynamics during seed development of common bean. A high-throughput gel-free proteomics approach (LC–MS/MS) was conducted on seeds at 10, 20, 30 and 40Â days after anthesis, spanning from late embryogenesis until desiccation. Of the 418 differentially accumulated proteins identified, 255 were characterized, most belonging to protein metabolism. An accumulation of proteins belonging to the MapMan functional categories of “protein”, “glycolysis”, “TCA”, “DNA”, “RNA”, “cell” and “stress” were found at early seed development stages, reflecting an extensive metabolic activity. In the mid stages, accumulation of storage, signaling, starch synthesis and cell wall-related proteins stood out. In the later stages, an increase in proteins related to redox, protein degradation/modification/folding and nucleic acid metabolisms reflect that seed desiccation-resistance mechanisms were activated. Our study unveils new clues to understand the regulation of seed development mediated by post-translational modifications and maintenance of genome integrity. This knowledge enhances the understanding on seed development molecular mechanisms that may be used in the design and selection of common bean seeds with desired quality traits. Significance Common bean (P. vulgaris) is an important source of proteins and carbohydrates worldwide. Despite the agronomic and economic importance of this pulse, knowledge on common bean seed development is limited. Herein, a gel-free high throughput methodology was used to describe the proteome changes during P. vulgaris seed development. Data obtained will enhance the knowledge on the molecular mechanisms controlling this grain legume seed development and may be used in the design and selection of common bean seeds with desired quality traits. Results may be extrapolated to other pulses.
AB - Common bean (Phaseolus vulgaris L.) is one of the most consumed staple foods worldwide. Little is known about the molecular mechanisms controlling seed development. This study aims to comprehensively describe proteome dynamics during seed development of common bean. A high-throughput gel-free proteomics approach (LC–MS/MS) was conducted on seeds at 10, 20, 30 and 40Â days after anthesis, spanning from late embryogenesis until desiccation. Of the 418 differentially accumulated proteins identified, 255 were characterized, most belonging to protein metabolism. An accumulation of proteins belonging to the MapMan functional categories of “protein”, “glycolysis”, “TCA”, “DNA”, “RNA”, “cell” and “stress” were found at early seed development stages, reflecting an extensive metabolic activity. In the mid stages, accumulation of storage, signaling, starch synthesis and cell wall-related proteins stood out. In the later stages, an increase in proteins related to redox, protein degradation/modification/folding and nucleic acid metabolisms reflect that seed desiccation-resistance mechanisms were activated. Our study unveils new clues to understand the regulation of seed development mediated by post-translational modifications and maintenance of genome integrity. This knowledge enhances the understanding on seed development molecular mechanisms that may be used in the design and selection of common bean seeds with desired quality traits. Significance Common bean (P. vulgaris) is an important source of proteins and carbohydrates worldwide. Despite the agronomic and economic importance of this pulse, knowledge on common bean seed development is limited. Herein, a gel-free high throughput methodology was used to describe the proteome changes during P. vulgaris seed development. Data obtained will enhance the knowledge on the molecular mechanisms controlling this grain legume seed development and may be used in the design and selection of common bean seeds with desired quality traits. Results may be extrapolated to other pulses.
KW - Common bean
KW - Legume
KW - Seed development
KW - Shotgun proteomics
UR - http://www.scopus.com/inward/record.url?scp=84959873410&partnerID=8YFLogxK
U2 - 10.1016/j.jprot.2016.03.002
DO - 10.1016/j.jprot.2016.03.002
M3 - Article
AN - SCOPUS:84959873410
SN - 1874-3919
VL - 143
SP - 188
EP - 198
JO - Journal of Proteomics
JF - Journal of Proteomics
ER -