SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2901496474> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2901496474 endingPage "249" @default.
W2901496474 startingPage "232" @default.
W2901496474 abstract "Clematis terniflora DC. is a valuable resource with potential high pharmaceutical value. Proteomic, transcriptomic and metabolomic analyses of C. terniflora that has been exposed to high levels of UVB irradiation and dark conditions (HUVB + D) have revealed the mechanisms underlying its medicinal potential. However, the signal transduction pathways and the mechanisms of regulation for the accumulation of secondary metabolites remain unclear. In this study, we show that the jasmonic acid (JA) and salicylic acid (SA) signals were activated in C. terniflora in response to HUVB + D. Metabolomic analysis demonstrated that the perturbation in JA and SA balance led to additional reallocation of carbon and nitrogen resources. Evaluating the fold change ratios of differentially changed metabolites proved that JA signal enhanced the transformation of nitrogen to carbon through the 4-aminobutyric acid (GABA) shunt pathway, which increased the carbon reserve to be utilized in the production of secondary metabolites. However, SA signal induced the synthesis of proline, while avoiding the accumulation of secondary metabolites. Over all, the results indicate that the co-increase of JA and SA reconstructed the dynamic stability of transformation from nitrogen to carbon, which effectively enhanced the oxidative defense to HUVB + D in C. terniflora by increasing the secondary metabolites." @default.
W2901496474 created "2018-11-29" @default.
W2901496474 creator A5008171524 @default.
W2901496474 creator A5011866916 @default.
W2901496474 creator A5012687551 @default.
W2901496474 creator A5018928264 @default.
W2901496474 creator A5024845093 @default.
W2901496474 creator A5028904372 @default.
W2901496474 creator A5047614788 @default.
W2901496474 creator A5058438411 @default.
W2901496474 creator A5067417031 @default.
W2901496474 creator A5075129601 @default.
W2901496474 date "2019-02-08" @default.
W2901496474 modified "2023-09-23" @default.
W2901496474 title "A metabolomic strategy revealed the role of JA and SA balance in <scp> <i>Clematis terniflora</i> </scp> DC. Response to UVB radiation and dark" @default.
W2901496474 cites W1548744082 @default.
W2901496474 cites W1572716561 @default.
W2901496474 cites W1573518848 @default.
W2901496474 cites W1725307211 @default.
W2901496474 cites W1835465815 @default.
W2901496474 cites W1837288435 @default.
W2901496474 cites W1970862267 @default.
W2901496474 cites W1975075709 @default.
W2901496474 cites W1978174627 @default.
W2901496474 cites W1983143793 @default.
W2901496474 cites W1983542200 @default.
W2901496474 cites W1991567854 @default.
W2901496474 cites W1996133279 @default.
W2901496474 cites W1997301339 @default.
W2901496474 cites W2002346967 @default.
W2901496474 cites W2007603562 @default.
W2901496474 cites W2011447141 @default.
W2901496474 cites W2012908411 @default.
W2901496474 cites W2025979008 @default.
W2901496474 cites W2032419274 @default.
W2901496474 cites W2037769495 @default.
W2901496474 cites W2039256908 @default.
W2901496474 cites W2039653715 @default.
W2901496474 cites W2064690813 @default.
W2901496474 cites W2067495179 @default.
W2901496474 cites W2069757439 @default.
W2901496474 cites W2072386831 @default.
W2901496474 cites W2077912336 @default.
W2901496474 cites W2084720613 @default.
W2901496474 cites W2090861897 @default.
W2901496474 cites W2096454250 @default.
W2901496474 cites W2102751714 @default.
W2901496474 cites W2107277218 @default.
W2901496474 cites W2108558865 @default.
W2901496474 cites W2111175831 @default.
W2901496474 cites W2111444582 @default.
W2901496474 cites W2114973337 @default.
W2901496474 cites W2118882727 @default.
W2901496474 cites W2121665848 @default.
W2901496474 cites W2122265870 @default.
W2901496474 cites W2126908616 @default.
W2901496474 cites W2133760292 @default.
W2901496474 cites W2135959854 @default.
W2901496474 cites W2138056166 @default.
W2901496474 cites W2141542056 @default.
W2901496474 cites W2142904225 @default.
W2901496474 cites W2143624696 @default.
W2901496474 cites W2144231457 @default.
W2901496474 cites W2145150234 @default.
W2901496474 cites W2150664420 @default.
W2901496474 cites W2159993385 @default.
W2901496474 cites W2167647507 @default.
W2901496474 cites W2169502091 @default.
W2901496474 cites W2237177661 @default.
W2901496474 cites W2318726586 @default.
W2901496474 cites W2463788631 @default.
W2901496474 cites W2493390043 @default.
W2901496474 cites W2510490633 @default.
W2901496474 cites W2534581504 @default.
W2901496474 cites W2535843543 @default.
W2901496474 cites W2538084768 @default.
W2901496474 cites W2557127663 @default.
W2901496474 cites W2593046948 @default.
W2901496474 cites W2603928116 @default.
W2901496474 cites W2725293891 @default.
W2901496474 cites W2735990551 @default.
W2901496474 cites W4293247451 @default.
W2901496474 doi "https://doi.org/10.1111/ppl.12883" @default.
W2901496474 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30467852" @default.
W2901496474 hasPublicationYear "2019" @default.
W2901496474 type Work @default.
W2901496474 sameAs 2901496474 @default.
W2901496474 citedByCount "5" @default.
W2901496474 countsByYear W29014964742021 @default.
W2901496474 countsByYear W29014964742023 @default.
W2901496474 crossrefType "journal-article" @default.
W2901496474 hasAuthorship W2901496474A5008171524 @default.
W2901496474 hasAuthorship W2901496474A5011866916 @default.
W2901496474 hasAuthorship W2901496474A5012687551 @default.
W2901496474 hasAuthorship W2901496474A5018928264 @default.
W2901496474 hasAuthorship W2901496474A5024845093 @default.
W2901496474 hasAuthorship W2901496474A5028904372 @default.
W2901496474 hasAuthorship W2901496474A5047614788 @default.