Agriculture Reference
In-Depth Information
and Particularities of Farm Animal Species. Journal of Proteomics 2012;75(14)
4190-4206.
[297] Kosová K., Vítámvás P., Prášil I.T., Renaut J. Plant Proteome Changes under Abiotic
Stress- Contribution of Proteomics Studies to Understanding Plant Stress Response.
Journal of Proteomics 2011;74(8) 1301-1322.
[298] Evers D., Legay S., Lamoureux D., Hausman J.F., Hoffmann L., Renaut J. Towards a
Synthetic View of Potato Cold and Salt Stress Response by Transcriptomic and
Proteomic Analyses. Plant Molecular Biology 2012;78(4-5) 503-514.
[299] Falvo S., Di Carli M., Desiderio A., Benvenuto E., Moglia A., America T., Lanteri S.,
Acquadro A. 2-D DIGE Analysis of UV-C Radiation-Responsive Proteins in Globe
Artichoke Leaves. Proteomics 2012;12(3) 448-460.
[300] Farinha A.P., Irar S., de Oliveira E., Oliveira M.M., Pagès M. Novel Clues on Abiotic
Stress Tolerance Emerge from Embryo Proteome Analyses of Rice Varieties with
Contrasting Stress Adaptation. Proteomics 2011;11(12) 2389-2405.
[301] Saito K., Matsuda F. Metabolomics for Functional Genomics, Systems Biology and
Biotechnology. Annual Review Plant Biology 2010;61 463-489.
[302] Dixon R.A., Strack D. Phytochemistry Meets Genome Analysis and Beyond. Phyto‐
chemistry 2003;62(6) 815-816.
[303] Badjakov I., Kondakova V., Atanassov A. Metabolomics: Current View on Fruit Quality
in Relation to Human Health. In: Benkeblia N. (ed.) Sustainable Agriculture and New
Technologies. Boca Raton: CRC Press; 2012. p303-320.
[304] Urano K., Kurihara Y., Seki M., Shinozaki K. 'Omics' Analyses of Regulatory Networks
in Plant Abiotic Stress Responses. Current Opinion in Plant Biology 2010;13(2) 132-138.
[305] Cook D., Fowler S., Fiehn O., Thomashow M.F. A Prominent Role for the CBF Cold
Response Pathway in Configuring the Low-Temperature Metabolome of Arabidopsis.
Proceedings of the National Academy of Sciences U.S.A 2004;101(42) 15243-15248.
[306] Sanchez D.H., Schwabe F., Erban A., Udvardi M.K., Kopka J. Comparative Metabolo‐
mics of Drought Acclimation in Model and Forage Legumes. Plant, Cell and Environ‐
ment 2012;35(1) 136-149.
[307] Sicher R.C., Barnaby J.Y. Impact of Carbon Dioxide Enrichment on the Responses of
Maize Leaf Transcripts and Metabolites to Water Stress. Physiologia Plantarum
2012;144(3) 238-253.
[308] Hernández G., Ramírez M., Valdés-López O., Tesfaye M., Graham M.A., Czechowski
T., Schlereth A., Wandrey M., Erban A., Cheung F., Wu H.C., Lara M., Town C.D.,
Kopka J., Udvardi M.K., Vance C.P. Phosphorus Stress in Common Bean: Root
Transcript and Metabolic Responses. Plant Physiology 2007;144(2) 752-767.
[309] Broughton W.J., Hernández G., Blair M., Beebe S., Gepts P., Vanderleyden J. Beans
(
Phaseolus
spp.): Model Food Legume. Plant and Soil 2003;252(1) 55-128.
Search WWH ::
Custom Search