SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2114264048> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W2114264048 endingPage "260" @default.
W2114264048 startingPage "253" @default.
W2114264048 abstract "Many abiotic and biotic stresses can reduce plant growth and development. Low temperature is one of the most harmful abiotic stresses, particularly for plants that are tropical or subtropical in origin. To elucidate the molecular mechanisms underlying the cold-stress response, components involved in the signal transduction of cold stress have been c haracterized. In this study, we characterized a basic helix-loop-helix (bHLH) transcription factor encoding gene, SlICE1, from tomato (Solanum lycopersicum), which shows similarity with Arabidopsis ICE1. �e expression of SlICE1 was observed in younger leaves, �owers, and green and red fruits. To characterize the function of SlICE1, overexpressing toma to lines were produced. SlICE1-overexpressing tomatoes exhibited chilling tolerance, and SlICE1 enhanced the expression of cold- responsive genes, such as SlCBF1 and SlDRCi7, as well as accumulation of ascorbic acid. �e SlICE1 protein was degraded aer cold treatment. �ese results indicate that SlICE1 enhances cold tolerance in tomatoes." @default.
W2114264048 created "2016-06-24" @default.
W2114264048 creator A5002870347 @default.
W2114264048 creator A5044908168 @default.
W2114264048 creator A5054424336 @default.
W2114264048 creator A5062696785 @default.
W2114264048 creator A5068019611 @default.
W2114264048 creator A5068575679 @default.
W2114264048 creator A5077072690 @default.
W2114264048 creator A5079890722 @default.
W2114264048 creator A5082370715 @default.
W2114264048 date "2012-01-01" @default.
W2114264048 modified "2023-10-09" @default.
W2114264048 title "SlICE1 encoding a MYC-type transcription factor controls cold tolerance in tomato, Solanum lycopersicum" @default.
W2114264048 cites W1572041393 @default.
W2114264048 cites W1975920666 @default.
W2114264048 cites W1983870100 @default.
W2114264048 cites W1989511492 @default.
W2114264048 cites W1996192578 @default.
W2114264048 cites W2021250033 @default.
W2114264048 cites W2026910503 @default.
W2114264048 cites W2028463864 @default.
W2114264048 cites W2031178671 @default.
W2114264048 cites W2038867049 @default.
W2114264048 cites W2039733532 @default.
W2114264048 cites W2043390512 @default.
W2114264048 cites W2048266197 @default.
W2114264048 cites W2052062475 @default.
W2114264048 cites W2052821301 @default.
W2114264048 cites W2053682208 @default.
W2114264048 cites W2054442084 @default.
W2114264048 cites W2061466094 @default.
W2114264048 cites W2082812076 @default.
W2114264048 cites W2085578783 @default.
W2114264048 cites W2090936658 @default.
W2114264048 cites W2093735842 @default.
W2114264048 cites W2094497988 @default.
W2114264048 cites W2119050573 @default.
W2114264048 cites W2121070451 @default.
W2114264048 cites W2121818799 @default.
W2114264048 cites W2122113408 @default.
W2114264048 cites W2123406650 @default.
W2114264048 cites W2123570817 @default.
W2114264048 cites W2131621063 @default.
W2114264048 cites W2134512081 @default.
W2114264048 cites W2150029852 @default.
W2114264048 cites W2152746275 @default.
W2114264048 cites W2154614604 @default.
W2114264048 cites W2157431359 @default.
W2114264048 cites W2161021383 @default.
W2114264048 cites W2170335659 @default.
W2114264048 cites W2171012097 @default.
W2114264048 cites W2171939663 @default.
W2114264048 doi "https://doi.org/10.5511/plantbiotechnology.12.0303a" @default.
W2114264048 hasPublicationYear "2012" @default.
W2114264048 type Work @default.
W2114264048 sameAs 2114264048 @default.
W2114264048 citedByCount "58" @default.
W2114264048 countsByYear W21142640482012 @default.
W2114264048 countsByYear W21142640482013 @default.
W2114264048 countsByYear W21142640482014 @default.
W2114264048 countsByYear W21142640482015 @default.
W2114264048 countsByYear W21142640482016 @default.
W2114264048 countsByYear W21142640482017 @default.
W2114264048 countsByYear W21142640482018 @default.
W2114264048 countsByYear W21142640482019 @default.
W2114264048 countsByYear W21142640482020 @default.
W2114264048 countsByYear W21142640482021 @default.
W2114264048 countsByYear W21142640482022 @default.
W2114264048 countsByYear W21142640482023 @default.
W2114264048 crossrefType "journal-article" @default.
W2114264048 hasAuthorship W2114264048A5002870347 @default.
W2114264048 hasAuthorship W2114264048A5044908168 @default.
W2114264048 hasAuthorship W2114264048A5054424336 @default.
W2114264048 hasAuthorship W2114264048A5062696785 @default.
W2114264048 hasAuthorship W2114264048A5068019611 @default.
W2114264048 hasAuthorship W2114264048A5068575679 @default.
W2114264048 hasAuthorship W2114264048A5077072690 @default.
W2114264048 hasAuthorship W2114264048A5079890722 @default.
W2114264048 hasAuthorship W2114264048A5082370715 @default.
W2114264048 hasBestOaLocation W21142640481 @default.
W2114264048 hasConcept C104317684 @default.
W2114264048 hasConcept C2781083041 @default.
W2114264048 hasConcept C54355233 @default.
W2114264048 hasConcept C59822182 @default.
W2114264048 hasConcept C86339819 @default.
W2114264048 hasConcept C86803240 @default.
W2114264048 hasConceptScore W2114264048C104317684 @default.
W2114264048 hasConceptScore W2114264048C2781083041 @default.
W2114264048 hasConceptScore W2114264048C54355233 @default.
W2114264048 hasConceptScore W2114264048C59822182 @default.
W2114264048 hasConceptScore W2114264048C86339819 @default.
W2114264048 hasConceptScore W2114264048C86803240 @default.
W2114264048 hasIssue "3" @default.
W2114264048 hasLocation W21142640481 @default.
W2114264048 hasOpenAccess W2114264048 @default.
W2114264048 hasPrimaryLocation W21142640481 @default.
W2114264048 hasRelatedWork W1828691184 @default.