SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3003186354> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W3003186354 endingPage "26" @default.
W3003186354 startingPage "11" @default.
W3003186354 abstract "Maize (Zea mays) is an important food and forage crop, as well as an industrial raw material, that plays important roles in agriculture and national economies. Drought stress has negative effects on seed germination and seedling growth, and it decreases crop production. In this study, we selected two maize inbred lines with different drought-tolerance levels: drought-tolerant 287M and drought-sensitive 753F. The physiological results showed that drought stress resulted in a large accumulation of reactive oxygen species (ROS) in maize root cells. However, in 287M, the activity levels of the ROS scavenging enzymes superoxide dismutase and ascorbate peroxidase also increased, resulting in a higher ROS scavenging ability than 753F. We used Illumina RNA sequencing to obtain the gene expression profiles of the two maize inbred lines at the seedling stage in response to drought stress. The transcriptome data were analyzed to reveal the mechanisms underlying the drought tolerance of 287M at the gene regulatory level. The differences in drought tolerance between 287M and 753F may be associated with different ROS scavenging capabilities, signal interaction networks, and some transcription factors. Our results will aid in understanding the molecular mechanisms involved in plant responses to drought stress." @default.
W3003186354 created "2020-02-07" @default.
W3003186354 creator A5025280115 @default.
W3003186354 creator A5031138415 @default.
W3003186354 creator A5053259508 @default.
W3003186354 creator A5080186724 @default.
W3003186354 creator A5081254133 @default.
W3003186354 creator A5083445425 @default.
W3003186354 creator A5089850022 @default.
W3003186354 date "2020-04-01" @default.
W3003186354 modified "2023-10-16" @default.
W3003186354 title "Transcriptome analysis of maize inbred lines differing in drought tolerance provides novel insights into the molecular mechanisms of drought responses in roots" @default.
W3003186354 cites W1544715630 @default.
W3003186354 cites W1596823570 @default.
W3003186354 cites W1965437479 @default.
W3003186354 cites W1966062937 @default.
W3003186354 cites W1970831679 @default.
W3003186354 cites W1974420898 @default.
W3003186354 cites W1975359092 @default.
W3003186354 cites W1975473360 @default.
W3003186354 cites W1980200149 @default.
W3003186354 cites W1983729367 @default.
W3003186354 cites W1996613904 @default.
W3003186354 cites W1999693525 @default.
W3003186354 cites W2000208854 @default.
W3003186354 cites W2002320110 @default.
W3003186354 cites W2008412904 @default.
W3003186354 cites W2010295058 @default.
W3003186354 cites W2018318080 @default.
W3003186354 cites W2021100539 @default.
W3003186354 cites W2030389342 @default.
W3003186354 cites W2033703444 @default.
W3003186354 cites W2034234820 @default.
W3003186354 cites W2048682665 @default.
W3003186354 cites W2063912164 @default.
W3003186354 cites W2063982388 @default.
W3003186354 cites W2074208150 @default.
W3003186354 cites W2077780517 @default.
W3003186354 cites W2091394666 @default.
W3003186354 cites W2095811247 @default.
W3003186354 cites W2103023733 @default.
W3003186354 cites W2114900530 @default.
W3003186354 cites W2127347020 @default.
W3003186354 cites W2129375719 @default.
W3003186354 cites W2133790733 @default.
W3003186354 cites W2134469837 @default.
W3003186354 cites W2137290110 @default.
W3003186354 cites W2139210662 @default.
W3003186354 cites W2139328007 @default.
W3003186354 cites W2142237411 @default.
W3003186354 cites W2144626145 @default.
W3003186354 cites W2146047703 @default.
W3003186354 cites W2147533928 @default.
W3003186354 cites W2152239989 @default.
W3003186354 cites W2157236929 @default.
W3003186354 cites W2159019964 @default.
W3003186354 cites W2164154943 @default.
W3003186354 cites W2165463056 @default.
W3003186354 cites W2166058588 @default.
W3003186354 cites W2181529157 @default.
W3003186354 cites W2210066284 @default.
W3003186354 cites W2320043785 @default.
W3003186354 cites W2402963341 @default.
W3003186354 cites W2626068632 @default.
W3003186354 cites W2747089667 @default.
W3003186354 cites W2793723688 @default.
W3003186354 cites W2888647486 @default.
W3003186354 doi "https://doi.org/10.1016/j.plaphy.2020.01.027" @default.
W3003186354 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32035249" @default.
W3003186354 hasPublicationYear "2020" @default.
W3003186354 type Work @default.
W3003186354 sameAs 3003186354 @default.
W3003186354 citedByCount "29" @default.
W3003186354 countsByYear W30031863542020 @default.
W3003186354 countsByYear W30031863542021 @default.
W3003186354 countsByYear W30031863542022 @default.
W3003186354 countsByYear W30031863542023 @default.
W3003186354 crossrefType "journal-article" @default.
W3003186354 hasAuthorship W3003186354A5025280115 @default.
W3003186354 hasAuthorship W3003186354A5031138415 @default.
W3003186354 hasAuthorship W3003186354A5053259508 @default.
W3003186354 hasAuthorship W3003186354A5080186724 @default.
W3003186354 hasAuthorship W3003186354A5081254133 @default.
W3003186354 hasAuthorship W3003186354A5083445425 @default.
W3003186354 hasAuthorship W3003186354A5089850022 @default.
W3003186354 hasConcept C100701293 @default.
W3003186354 hasConcept C104317684 @default.
W3003186354 hasConcept C137580998 @default.
W3003186354 hasConcept C150194340 @default.
W3003186354 hasConcept C162317418 @default.
W3003186354 hasConcept C181199279 @default.
W3003186354 hasConcept C189797535 @default.
W3003186354 hasConcept C2775838275 @default.
W3003186354 hasConcept C2776096895 @default.
W3003186354 hasConcept C48349386 @default.
W3003186354 hasConcept C54355233 @default.
W3003186354 hasConcept C55493867 @default.
W3003186354 hasConcept C59822182 @default.