SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2811031286> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2811031286 endingPage "602" @default.
W2811031286 startingPage "592" @default.
W2811031286 abstract "Abstract Petal is not only the target for selection by horticulturist to enhance the ornamental value but also a perfect model system for plant metabolome studies. Petals produce a large number of secondary metabolites that provide petals a variety of colors and fragrance to attract pollinators. Here, we studied petal transcriptome and metabolome of two garden species having various color flowers in Brassicaceae, Erysimum cheiri and Matthiola incana. De novo transcriptome assembly and protein homology analysis between two species and those sequenced species in Brassicaceae generally confirmed their known phylogenetic relationships. Identification of differentially expressed genes (DEGs) indicated that homologs of PAP1 in Arabidopsis might be one of the key gene leaded to the red color formation in bronzing petals of E. cheiri compared to the yellow petals. Metabolome analysis revealed significant difference of metabolites existed in petals of two species or with different color and specific anthocyanin accumulated in E. cheiri. Present data sets will be a great enrichment of the genetic information for two species and provide genetic and metabolomic clue for further mechanism analysis of flower color variation." @default.
W2811031286 created "2018-07-10" @default.
W2811031286 creator A5004718466 @default.
W2811031286 creator A5006586061 @default.
W2811031286 creator A5019101492 @default.
W2811031286 creator A5023317917 @default.
W2811031286 creator A5049349915 @default.
W2811031286 creator A5074571350 @default.
W2811031286 creator A5087828546 @default.
W2811031286 date "2018-10-01" @default.
W2811031286 modified "2023-10-12" @default.
W2811031286 title "De novo transcriptome assembly, gene expressions and metabolites for flower color variation of two garden species in Brassicaceae" @default.
W2811031286 cites W131689113 @default.
W2811031286 cites W1965172979 @default.
W2811031286 cites W1980161974 @default.
W2811031286 cites W1980605955 @default.
W2811031286 cites W1982718360 @default.
W2811031286 cites W1984044477 @default.
W2811031286 cites W1986839267 @default.
W2811031286 cites W1993666425 @default.
W2811031286 cites W1999574084 @default.
W2811031286 cites W2014891212 @default.
W2811031286 cites W2017520661 @default.
W2811031286 cites W2020044609 @default.
W2811031286 cites W2028778841 @default.
W2811031286 cites W2031779779 @default.
W2811031286 cites W2037199331 @default.
W2811031286 cites W2040075215 @default.
W2811031286 cites W2040649114 @default.
W2811031286 cites W2059921139 @default.
W2811031286 cites W2064264042 @default.
W2811031286 cites W2071809726 @default.
W2811031286 cites W2081117733 @default.
W2811031286 cites W2083549312 @default.
W2811031286 cites W2090527454 @default.
W2811031286 cites W2092806862 @default.
W2811031286 cites W2100804568 @default.
W2811031286 cites W2103017472 @default.
W2811031286 cites W2115831900 @default.
W2811031286 cites W2119946908 @default.
W2811031286 cites W2122221811 @default.
W2811031286 cites W2126057445 @default.
W2811031286 cites W2126419817 @default.
W2811031286 cites W2129977946 @default.
W2811031286 cites W2131271579 @default.
W2811031286 cites W2133240688 @default.
W2811031286 cites W2144917006 @default.
W2811031286 cites W2151178600 @default.
W2811031286 cites W2152445696 @default.
W2811031286 cites W2159261769 @default.
W2811031286 cites W2163327181 @default.
W2811031286 cites W2165463056 @default.
W2811031286 cites W2166406821 @default.
W2811031286 cites W2166783246 @default.
W2811031286 cites W2173655985 @default.
W2811031286 cites W2317050220 @default.
W2811031286 cites W2338279419 @default.
W2811031286 cites W2715887481 @default.
W2811031286 cites W2912552569 @default.
W2811031286 cites W4250820433 @default.
W2811031286 doi "https://doi.org/10.1016/j.scienta.2018.06.057" @default.
W2811031286 hasPublicationYear "2018" @default.
W2811031286 type Work @default.
W2811031286 sameAs 2811031286 @default.
W2811031286 citedByCount "10" @default.
W2811031286 countsByYear W28110312862020 @default.
W2811031286 countsByYear W28110312862021 @default.
W2811031286 countsByYear W28110312862022 @default.
W2811031286 countsByYear W28110312862023 @default.
W2811031286 crossrefType "journal-article" @default.
W2811031286 hasAuthorship W2811031286A5004718466 @default.
W2811031286 hasAuthorship W2811031286A5006586061 @default.
W2811031286 hasAuthorship W2811031286A5019101492 @default.
W2811031286 hasAuthorship W2811031286A5023317917 @default.
W2811031286 hasAuthorship W2811031286A5049349915 @default.
W2811031286 hasAuthorship W2811031286A5074571350 @default.
W2811031286 hasAuthorship W2811031286A5087828546 @default.
W2811031286 hasConcept C104317684 @default.
W2811031286 hasConcept C121332964 @default.
W2811031286 hasConcept C150194340 @default.
W2811031286 hasConcept C162317418 @default.
W2811031286 hasConcept C18949551 @default.
W2811031286 hasConcept C2775943906 @default.
W2811031286 hasConcept C2778334786 @default.
W2811031286 hasConcept C44870925 @default.
W2811031286 hasConcept C50489715 @default.
W2811031286 hasConcept C54355233 @default.
W2811031286 hasConcept C59822182 @default.
W2811031286 hasConcept C86803240 @default.
W2811031286 hasConceptScore W2811031286C104317684 @default.
W2811031286 hasConceptScore W2811031286C121332964 @default.
W2811031286 hasConceptScore W2811031286C150194340 @default.
W2811031286 hasConceptScore W2811031286C162317418 @default.
W2811031286 hasConceptScore W2811031286C18949551 @default.
W2811031286 hasConceptScore W2811031286C2775943906 @default.
W2811031286 hasConceptScore W2811031286C2778334786 @default.
W2811031286 hasConceptScore W2811031286C44870925 @default.
W2811031286 hasConceptScore W2811031286C50489715 @default.