Deciphering genetic diversity and inheritance of tomato fruit weight and composition through a systems biology approach
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Systems Biology for Smart Crops and Agricultural Innovation: Filling the Gaps between Genotype and Phenotype for Complex Traits Linked with Robust Agricultural Productivity and SustainabilityMetabolomic profiling in tomato reveals diel compositional changes in fruit affected by source-sink relationships.Identification of major loci and genomic regions controlling acid and volatile content in tomato fruit: implications for flavor improvement.The peach HECATE3-like gene FLESHY plays a double role during fruit development.Comparative proteomic and metabolomic analyses reveal mechanisms of improved cold stress tolerance in bermudagrass (Cynodon dactylon (L.) Pers.) by exogenous calcium.
P2860
Deciphering genetic diversity and inheritance of tomato fruit weight and composition through a systems biology approach
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2013 nî lūn-bûn
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Deciphering genetic diversity ...... ugh a systems biology approach
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Deciphering genetic diversity ...... ugh a systems biology approach
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Deciphering genetic diversity ...... ugh a systems biology approach
@en
Deciphering genetic diversity ...... ugh a systems biology approach
@nl
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Deciphering genetic diversity ...... ugh a systems biology approach
@en
Deciphering genetic diversity ...... ugh a systems biology approach
@nl
P2093
P2860
P50
P356
P1476
Deciphering genetic diversity ...... ugh a systems biology approach
@en
P2093
Aurore Desgroux
Benoît Biais
Jean-Paul Bouchet
Laura Pascual
Mickaël Maucourt
Mireille Faurobert
Patricia Ballias
Stéphane Bernillon
Yves Gibon
P2860
P304
P356
10.1093/JXB/ERT349
P577
2013-10-22T00:00:00Z