SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2151025142> ?p ?o ?g. }

Showing items 1 to 100 of ±119 with 100 items per page.

W2151025142 endingPage "115" @default.
W2151025142 startingPage "107" @default.
W2151025142 abstract "Salt stress reduces the growth of salt-sensitive plants such as maize. The cultivation of salt-resistant maize varieties might therefore help to reduce yield losses. For the elucidation of the underlying physiological and biochemical processes of a resistant hybrid, we used a gas chromatography mass spectrometry approach and analyzed five different salt stress levels. By comparing a salt-sensitive and a salt-resistant maize hybrid, we were able to identify an accumulation of sugars such as glucose, fructose, and sucrose in leaves as a salt-resistance adaption of the salt-sensitive hybrid. Although, both hybrids showed a strong decrease of the metabolite concentration in the tricarboxylic acid cycle. These decreases resulted in the same reduced catabolism for the salt-sensitive and even the salt-resistant maize hybrid. Surprisingly, the change of root metabolism was negligible under salt stress. Moreover, the salt-resistance mechanisms were the most effective at low salt-stress levels in the leaves of the salt-sensitive maize." @default.
W2151025142 created "2016-06-24" @default.
W2151025142 creator A5022019242 @default.
W2151025142 creator A5026156636 @default.
W2151025142 creator A5046913969 @default.
W2151025142 creator A5073438755 @default.
W2151025142 date "2015-04-01" @default.
W2151025142 modified "2023-09-24" @default.
W2151025142 title "Metabolic contribution to salt stress in two maize hybrids with contrasting resistance" @default.
W2151025142 cites W1538769435 @default.
W2151025142 cites W1605669510 @default.
W2151025142 cites W1964426410 @default.
W2151025142 cites W1968534191 @default.
W2151025142 cites W1972949790 @default.
W2151025142 cites W1979204143 @default.
W2151025142 cites W1995695457 @default.
W2151025142 cites W1997301069 @default.
W2151025142 cites W1998471394 @default.
W2151025142 cites W1999042983 @default.
W2151025142 cites W2001181045 @default.
W2151025142 cites W2003546880 @default.
W2151025142 cites W2021315005 @default.
W2151025142 cites W2025082271 @default.
W2151025142 cites W2031136928 @default.
W2151025142 cites W2032467781 @default.
W2151025142 cites W2046198791 @default.
W2151025142 cites W2057756209 @default.
W2151025142 cites W2060077088 @default.
W2151025142 cites W2065990938 @default.
W2151025142 cites W2089078067 @default.
W2151025142 cites W2093466362 @default.
W2151025142 cites W2096945664 @default.
W2151025142 cites W2098087167 @default.
W2151025142 cites W2100798830 @default.
W2151025142 cites W2101098894 @default.
W2151025142 cites W2105874120 @default.
W2151025142 cites W2105933335 @default.
W2151025142 cites W2124204868 @default.
W2151025142 cites W2129325648 @default.
W2151025142 cites W2135151057 @default.
W2151025142 cites W2144626145 @default.
W2151025142 cites W2145390393 @default.
W2151025142 cites W2147286371 @default.
W2151025142 cites W2148717014 @default.
W2151025142 cites W2150912198 @default.
W2151025142 cites W2151346683 @default.
W2151025142 cites W2158599626 @default.
W2151025142 cites W2161449462 @default.
W2151025142 cites W2163986764 @default.
W2151025142 cites W2168617775 @default.
W2151025142 cites W2171350245 @default.
W2151025142 cites W45534775 @default.
W2151025142 cites W91219382 @default.
W2151025142 doi "https://doi.org/10.1016/j.plantsci.2015.01.006" @default.
W2151025142 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25711818" @default.
W2151025142 hasPublicationYear "2015" @default.
W2151025142 type Work @default.
W2151025142 sameAs 2151025142 @default.
W2151025142 citedByCount "75" @default.
W2151025142 countsByYear W21510251422015 @default.
W2151025142 countsByYear W21510251422016 @default.
W2151025142 countsByYear W21510251422017 @default.
W2151025142 countsByYear W21510251422018 @default.
W2151025142 countsByYear W21510251422019 @default.
W2151025142 countsByYear W21510251422020 @default.
W2151025142 countsByYear W21510251422021 @default.
W2151025142 countsByYear W21510251422022 @default.
W2151025142 countsByYear W21510251422023 @default.
W2151025142 crossrefType "journal-article" @default.
W2151025142 hasAuthorship W2151025142A5022019242 @default.
W2151025142 hasAuthorship W2151025142A5026156636 @default.
W2151025142 hasAuthorship W2151025142A5046913969 @default.
W2151025142 hasAuthorship W2151025142A5073438755 @default.
W2151025142 hasConcept C147789679 @default.
W2151025142 hasConcept C185592680 @default.
W2151025142 hasConcept C2776371256 @default.
W2151025142 hasConcept C2776970464 @default.
W2151025142 hasConcept C2778597767 @default.
W2151025142 hasConcept C31903555 @default.
W2151025142 hasConcept C48189365 @default.
W2151025142 hasConcept C55493867 @default.
W2151025142 hasConcept C59822182 @default.
W2151025142 hasConcept C62231903 @default.
W2151025142 hasConcept C86803240 @default.
W2151025142 hasConcept C96942376 @default.
W2151025142 hasConceptScore W2151025142C147789679 @default.
W2151025142 hasConceptScore W2151025142C185592680 @default.
W2151025142 hasConceptScore W2151025142C2776371256 @default.
W2151025142 hasConceptScore W2151025142C2776970464 @default.
W2151025142 hasConceptScore W2151025142C2778597767 @default.
W2151025142 hasConceptScore W2151025142C31903555 @default.
W2151025142 hasConceptScore W2151025142C48189365 @default.
W2151025142 hasConceptScore W2151025142C55493867 @default.
W2151025142 hasConceptScore W2151025142C59822182 @default.
W2151025142 hasConceptScore W2151025142C62231903 @default.
W2151025142 hasConceptScore W2151025142C86803240 @default.
W2151025142 hasConceptScore W2151025142C96942376 @default.
W2151025142 hasFunder F4320308022 @default.