Mostrando 5 resultados de: 5
Filtros aplicados
Área temáticas
Bioquímica(4)
Ecología(2)
Microorganismos, hongos y algas(2)
Técnicas, equipos y materiales(2)
Eudicotas y Ceratofilales(1)
Origen
scopus(5)
Comparative proteomic analysis of nodulated and non-nodulated casuarina glauca sieb. Ex spreng. grown under salinity conditions using sequential window acquisition of all theoretical mass spectra (SWATH-MS)
ArticleAbstract: Casuarina glauca displays high levels of salt tolerance, but very little is known about how this trePalabras claves:actinorhizal plants, Casuarina glauca, Frankia, proteomics, Salt stressAutores:da Costa M., Duro N., Graça I., Isabel Marques, Manadas B., Mendes V.M., Pawlowski K., Pinto Ricardo C.P., Ramalho J.C., Ribeiro‐barros A.I.Fuentes:scopusA transcriptomic approach to understanding the combined impacts of supra‐optimal temperatures and co2 revealed different responses in the polyploid coffea arabica and its diploid progenitor c. Canephora
ArticleAbstract: Understanding the effect of extreme temperatures and elevated air (CO2) is crucial for mitigating thPalabras claves:Climate changes, Coffee, Elevated air (CO2), Functional analysis, High temperatures, Leaf RNAseq, Polyploidy, warmingAutores:Damatta F.M., Fernandes I., Isabel Marques, Lidon F.C., Paulo O.S., Ramalho J.C., Ribeiro‐barros A.I.Fuentes:scopusEditorial: Tropical Plant Responses to Climate Change
OtherAbstract:Palabras claves:Autores:Isabel Marques, Ramalho J.C., Ribeiro-Barros A.I.Fuentes:scopusOverexpression of Water-Responsive Genes Promoted by Elevated CO<inf>2</inf> Reduces ROS and Enhances Drought Tolerance in Coffea Species
ArticleAbstract: Drought is a major constraint to plant growth and productivity worldwide and will aggravate as waterPalabras claves:ABA signaling, Coffee, Functional analysis, ROS, Stress, toleranceAutores:Batista D., Damatta F.M., Fernandes I., Isabel Marques, Lidon F.C., Partelli F.L., Paulo O.S., Ramalho J.C., Ribeiro-Barros A.I.Fuentes:scopusTranscriptomic leaf profiling reveals differential responses of the two most traded coffee species to elevated [co<inf>2</inf>]
ArticleAbstract: As atmospheric [CO2] continues to rise to unprecedented levels, understanding its impact on plants iPalabras claves:Climate Change, coffee tree, Elevated air [CO ] 2, Functional analysis, Leaf RNAseqAutores:Damatta F.M., David P.H.C., Fernandes I., Fortunato A.S., Goulao L.F., Isabel Marques, Lidon F.C., Paulo O.S., Ramalho J.C., Ribeiro‐barros A.I.Fuentes:scopus