FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2046147968> ?p ?o ?g. }

• W2046147968 endingPage "562" @default.
• W2046147968 startingPage "556" @default.
• W2046147968 abstract "Level of the neuroexcitatory β-N-oxalyl-L-α,β-diaminopropionic acid (β-ODAP) in grass pea (Lathyrus sativus L.) varies with development and environmental stress. Reactive oxygen species (ROS) (mainly O2− and H2O2) are frequently reported to play important roles in plant development and in response to various stresses. To investigate the possible inter-relationship between contents of β-ODAP and ROS, grass pea leaves have been analyzed for contents of β-ODAP, O2− and H2O2. The results showed that leaves containing high levels of β-ODAP, exhibited low levels of O2− and H2O2, while leaves with high contents of O2− and H2O2 accumulated little β-ODAP. The application of pyridine or ABA which inhibit the production of O2− or H2O2 led to an increase in β-ODAP contents in intact or detached young leaves, whereas inhibition of catalase activity using AT (3-amino-1,2,4-triazole), leading to an increase in H2O2 content, result in significant decrease in β-ODAP levels of detached young leaves. In addition, inoculation of Rhizobium to young seedlings enhanced O2− and H2O2 levels, but reduced β-ODAP contents in shoots. These results suggest that β-ODAP accumulation could be related to low levels of superoxide anion and hydrogen peroxide in grass pea tissues." @default.
• W2046147968 created "2016-06-24" @default.
• W2046147968 creator A5009579970 @default.
• W2046147968 creator A5021386768 @default.
• W2046147968 creator A5025603599 @default.
• W2046147968 creator A5047403554 @default.
• W2046147968 creator A5048922340 @default.
• W2046147968 creator A5063490889 @default.
• W2046147968 creator A5070042064 @default.
• W2046147968 creator A5088671434 @default.
• W2046147968 date "2011-03-01" @default.
• W2046147968 modified "2023-09-24" @default.
• W2046147968 title "β-ODAP accumulation could be related to low levels of superoxide anion and hydrogen peroxide in Lathyrus sativus L." @default.
• W2046147968 cites W148518391 @default.
• W2046147968 cites W1575782680 @default.
• W2046147968 cites W1964803931 @default.
• W2046147968 cites W1966494784 @default.
• W2046147968 cites W1971798720 @default.
• W2046147968 cites W1982617632 @default.
• W2046147968 cites W1989076322 @default.
• W2046147968 cites W1989480537 @default.
• W2046147968 cites W1998946620 @default.
• W2046147968 cites W2001647162 @default.
• W2046147968 cites W2006291527 @default.
• W2046147968 cites W2014066434 @default.
• W2046147968 cites W2015093208 @default.
• W2046147968 cites W2018960584 @default.
• W2046147968 cites W2025843675 @default.
• W2046147968 cites W2029142689 @default.
• W2046147968 cites W2032595802 @default.
• W2046147968 cites W2038607032 @default.
• W2046147968 cites W2041342590 @default.
• W2046147968 cites W2046494212 @default.
• W2046147968 cites W2048732061 @default.
• W2046147968 cites W2050962208 @default.
• W2046147968 cites W2051889695 @default.
• W2046147968 cites W2052639759 @default.
• W2046147968 cites W2056957452 @default.
• W2046147968 cites W2056971999 @default.
• W2046147968 cites W2057478070 @default.
• W2046147968 cites W2058553626 @default.
• W2046147968 cites W2061878647 @default.
• W2046147968 cites W2062985225 @default.
• W2046147968 cites W2071505773 @default.
• W2046147968 cites W2077028677 @default.
• W2046147968 cites W2079662153 @default.
• W2046147968 cites W2080506594 @default.
• W2046147968 cites W2083100860 @default.
• W2046147968 cites W2090703659 @default.
• W2046147968 cites W2092018112 @default.
• W2046147968 cites W2094861976 @default.
• W2046147968 cites W2105874120 @default.
• W2046147968 cites W2124196534 @default.
• W2046147968 cites W2130537869 @default.
• W2046147968 cites W2137013949 @default.
• W2046147968 cites W2139043094 @default.
• W2046147968 cites W2154140763 @default.
• W2046147968 cites W2164596190 @default.
• W2046147968 cites W2313726613 @default.
• W2046147968 doi "https://doi.org/10.1016/j.fct.2010.05.054" @default.
• W2046147968 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20510333" @default.
• W2046147968 hasPublicationYear "2011" @default.
• W2046147968 type Work @default.
• W2046147968 sameAs 2046147968 @default.
• W2046147968 citedByCount "28" @default.
• W2046147968 countsByYear W20461479682012 @default.
• W2046147968 countsByYear W20461479682013 @default.
• W2046147968 countsByYear W20461479682014 @default.
• W2046147968 countsByYear W20461479682015 @default.
• W2046147968 countsByYear W20461479682016 @default.
• W2046147968 countsByYear W20461479682017 @default.
• W2046147968 countsByYear W20461479682018 @default.
• W2046147968 countsByYear W20461479682019 @default.
• W2046147968 countsByYear W20461479682020 @default.
• W2046147968 countsByYear W20461479682021 @default.
• W2046147968 countsByYear W20461479682022 @default.
• W2046147968 countsByYear W20461479682023 @default.
• W2046147968 crossrefType "journal-article" @default.
• W2046147968 hasAuthorship W2046147968A5009579970 @default.
• W2046147968 hasAuthorship W2046147968A5021386768 @default.
• W2046147968 hasAuthorship W2046147968A5025603599 @default.
• W2046147968 hasAuthorship W2046147968A5047403554 @default.
• W2046147968 hasAuthorship W2046147968A5048922340 @default.
• W2046147968 hasAuthorship W2046147968A5063490889 @default.
• W2046147968 hasAuthorship W2046147968A5070042064 @default.
• W2046147968 hasAuthorship W2046147968A5088671434 @default.
• W2046147968 hasConcept C144027150 @default.
• W2046147968 hasConcept C181199279 @default.
• W2046147968 hasConcept C185592680 @default.
• W2046147968 hasConcept C21410773 @default.
• W2046147968 hasConcept C2776915367 @default.
• W2046147968 hasConcept C2778979269 @default.
• W2046147968 hasConcept C2780795997 @default.
• W2046147968 hasConcept C31903555 @default.
• W2046147968 hasConcept C48349386 @default.
• W2046147968 hasConcept C533411734 @default.
• W2046147968 hasConcept C55493867 @default.
• W2046147968 hasConcept C59822182 @default.

• next