SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016586100> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W2016586100 endingPage "1423" @default.
W2016586100 startingPage "1410" @default.
W2016586100 abstract "Plants and animals have evolved various potential mechanisms to surmount the adverse effects of heavy metal toxicity. Plants possess low molecular weight compounds containing sulfhydryl groups (-SH) that actively react with toxic metals. For instance, glutathione (γ-Glu-Cys-Gly) is a sulfur-containing tripeptide thiol and a substrate of cysteine-rich phytochelatins (γ-Glu-Cys)2–11-Gly (PCs). Phytochelatins react with heavy metal ions by glutathione S-transferase in the cytosol and afterwards they are sequestered into the vacuole for degradation. Furthermore, heavy metals induce reactive oxygen species (ROS), which directly or indirectly influence metabolic processes. Reduced glutathione (GSH) attributes as an antioxidant and participates to control ROS during stress. Maintenance of the GSH/GSSG ratio is important for cellular redox balance, which is crucial for the survival of the plants. In this context, sulfurtransferases (Str), also called rhodaneses, comprise a group of enzymes widely distributed in all phyla, paving the way for the transfer of a sulfur atom from suitable sulfur donors to nucleophilic sulfur acceptors, at least in vitro. The best characterized in vitro reaction is the transfer of a sulfane sulfur atom from thiosulfate to cyanide, leading to the formation of sulfite and thiocyanate. Plants as well as other organisms have multi-protein families (MPF) of Str. Despite the presence of Str activities in many living organisms, their physiological role has not been clarified unambiguously. In mammals, these proteins are involved in the elimination of cyanide released from cyanogenic compounds. However, their ubiquity suggests additional physiological functions. Furthermore, it is speculated that a member of the Str family acts as arsenate reductase (AR) and is involved in arsenate detoxification. In summary, the role of Str in detoxification processes is still not well understood but seems to be a major function in the organism." @default.
W2016586100 created "2016-06-24" @default.
W2016586100 creator A5031985350 @default.
W2016586100 creator A5062354890 @default.
W2016586100 date "2015-01-14" @default.
W2016586100 modified "2023-10-16" @default.
W2016586100 title "Possible Roles of Plant Sulfurtransferases in Detoxification of Cyanide, Reactive Oxygen Species, Selected Heavy Metals and Arsenate" @default.
W2016586100 cites W114952634 @default.
W2016586100 cites W1608749512 @default.
W2016586100 cites W1966206965 @default.
W2016586100 cites W1968209620 @default.
W2016586100 cites W1969049213 @default.
W2016586100 cites W1970210819 @default.
W2016586100 cites W1981955170 @default.
W2016586100 cites W1983729367 @default.
W2016586100 cites W1985748312 @default.
W2016586100 cites W1989511088 @default.
W2016586100 cites W1992056219 @default.
W2016586100 cites W1992089306 @default.
W2016586100 cites W1993921350 @default.
W2016586100 cites W1997207613 @default.
W2016586100 cites W1997938835 @default.
W2016586100 cites W1999676304 @default.
W2016586100 cites W2002794726 @default.
W2016586100 cites W2008315338 @default.
W2016586100 cites W2009800614 @default.
W2016586100 cites W2015595783 @default.
W2016586100 cites W2028691680 @default.
W2016586100 cites W2030573651 @default.
W2016586100 cites W2031495010 @default.
W2016586100 cites W2032648454 @default.
W2016586100 cites W2040752655 @default.
W2016586100 cites W2044337579 @default.
W2016586100 cites W2047242701 @default.
W2016586100 cites W2047381468 @default.
W2016586100 cites W2048559409 @default.
W2016586100 cites W2064609282 @default.
W2016586100 cites W2064612175 @default.
W2016586100 cites W2064962102 @default.
W2016586100 cites W2065142764 @default.
W2016586100 cites W2067303294 @default.
W2016586100 cites W2068014184 @default.
W2016586100 cites W2069795071 @default.
W2016586100 cites W2073405205 @default.
W2016586100 cites W2081406386 @default.
W2016586100 cites W2082582931 @default.
W2016586100 cites W2085795844 @default.
W2016586100 cites W2088113363 @default.
W2016586100 cites W2092401673 @default.
W2016586100 cites W2098193329 @default.
W2016586100 cites W2107109782 @default.
W2016586100 cites W2109324504 @default.
W2016586100 cites W2109773487 @default.
W2016586100 cites W2109776249 @default.
W2016586100 cites W2111222398 @default.
W2016586100 cites W2111629557 @default.
W2016586100 cites W2112311375 @default.
W2016586100 cites W2118910313 @default.
W2016586100 cites W2122753552 @default.
W2016586100 cites W2127347907 @default.
W2016586100 cites W2137057701 @default.
W2016586100 cites W2143404998 @default.
W2016586100 cites W2154859757 @default.
W2016586100 cites W2156076210 @default.
W2016586100 cites W2161562820 @default.
W2016586100 cites W2252539153 @default.
W2016586100 cites W2370987279 @default.
W2016586100 cites W303144271 @default.
W2016586100 cites W4211254727 @default.
W2016586100 doi "https://doi.org/10.3390/molecules20011410" @default.
W2016586100 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6272796" @default.
W2016586100 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25594348" @default.
W2016586100 hasPublicationYear "2015" @default.
W2016586100 type Work @default.
W2016586100 sameAs 2016586100 @default.
W2016586100 citedByCount "42" @default.
W2016586100 countsByYear W20165861002015 @default.
W2016586100 countsByYear W20165861002016 @default.
W2016586100 countsByYear W20165861002017 @default.
W2016586100 countsByYear W20165861002018 @default.
W2016586100 countsByYear W20165861002019 @default.
W2016586100 countsByYear W20165861002020 @default.
W2016586100 countsByYear W20165861002021 @default.
W2016586100 countsByYear W20165861002022 @default.
W2016586100 countsByYear W20165861002023 @default.
W2016586100 crossrefType "journal-article" @default.
W2016586100 hasAuthorship W2016586100A5031985350 @default.
W2016586100 hasAuthorship W2016586100A5062354890 @default.
W2016586100 hasBestOaLocation W20165861001 @default.
W2016586100 hasConcept C178790620 @default.
W2016586100 hasConcept C181199279 @default.
W2016586100 hasConcept C185592680 @default.
W2016586100 hasConcept C2778455166 @default.
W2016586100 hasConcept C2779033446 @default.
W2016586100 hasConcept C2779201268 @default.
W2016586100 hasConcept C2779230369 @default.
W2016586100 hasConcept C2781090017 @default.
W2016586100 hasConcept C48349386 @default.