SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3011862905> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W3011862905 endingPage "1142" @default.
W3011862905 startingPage "1126" @default.
W3011862905 abstract "Abstract Salix matsudana Koidz is a low cadmium (Cd)-accumulating willow, whereas its cultivated variety, Salix matsudana var. matsudana f. umbraculifera Rehd., is a high Cd-accumulating and tolerant willow (HCW). The physiological and molecular mechanisms underlying differential Cd accumulation and tolerance in the two Salix species are poorly understood. Here, we confirmed that the differential Cd translocation capacity from roots to the shoots leads to the differential Cd accumulation in their aboveground parts between these two willow genotypes. Cadmium accumulation happens preferentially in the transport pathway, and Cd is mainly located in the vacuolar, cell wall and intercellular space in HCW bark by cadmium location analysis at tissue and subcellular levels. Comparative transcriptome analysis revealed that higher expressions of several metal transporter genes (ATP-binding cassette transporters, K+ transporters/channels, yellow stripe-like proteins, zinc-regulated transporter/iron-regulated transporter-like proteins, etc.) are involved in root uptake and translocation capacity in HCW; meanwhile, ascorbate–glutathione metabolic pathways play essential roles in Cd detoxification and higher tolerance of the Cd-accumulator HCW. These results lay the foundation for further understanding the molecular mechanisms of Cd accumulation in woody plants and provide new insights into molecular-assisted-screening woody plant varieties for phytoremediation." @default.
W3011862905 created "2020-03-23" @default.
W3011862905 creator A5009904732 @default.
W3011862905 creator A5017678130 @default.
W3011862905 creator A5025324044 @default.
W3011862905 creator A5029459507 @default.
W3011862905 creator A5034753451 @default.
W3011862905 creator A5055174519 @default.
W3011862905 creator A5062916898 @default.
W3011862905 creator A5087065512 @default.
W3011862905 creator A5090443077 @default.
W3011862905 date "2020-03-16" @default.
W3011862905 modified "2023-10-18" @default.
W3011862905 title "Transporters and ascorbate–glutathione metabolism for differential cadmium accumulation and tolerance in two contrasting willow genotypes" @default.
W3011862905 cites W1025875645 @default.
W3011862905 cites W159436360 @default.
W3011862905 cites W174929995 @default.
W3011862905 cites W1764196437 @default.
W3011862905 cites W1898874031 @default.
W3011862905 cites W1913178677 @default.
W3011862905 cites W1921938709 @default.
W3011862905 cites W1973356744 @default.
W3011862905 cites W1973460245 @default.
W3011862905 cites W1974153313 @default.
W3011862905 cites W1978723720 @default.
W3011862905 cites W1979238119 @default.
W3011862905 cites W1985042034 @default.
W3011862905 cites W1986110901 @default.
W3011862905 cites W1993036604 @default.
W3011862905 cites W1999574084 @default.
W3011862905 cites W2001276054 @default.
W3011862905 cites W2002354786 @default.
W3011862905 cites W2012563247 @default.
W3011862905 cites W2048300290 @default.
W3011862905 cites W2051598371 @default.
W3011862905 cites W2052761272 @default.
W3011862905 cites W2065846349 @default.
W3011862905 cites W2069646624 @default.
W3011862905 cites W2073169122 @default.
W3011862905 cites W2081672895 @default.
W3011862905 cites W2092843938 @default.
W3011862905 cites W2112080252 @default.
W3011862905 cites W2112677400 @default.
W3011862905 cites W2115216230 @default.
W3011862905 cites W2122007432 @default.
W3011862905 cites W2123295630 @default.
W3011862905 cites W2126386203 @default.
W3011862905 cites W2126419817 @default.
W3011862905 cites W2138982897 @default.
W3011862905 cites W2151831386 @default.
W3011862905 cites W2152239989 @default.
W3011862905 cites W2154140763 @default.
W3011862905 cites W2156279479 @default.
W3011862905 cites W2159562617 @default.
W3011862905 cites W2168745285 @default.
W3011862905 cites W2199271696 @default.
W3011862905 cites W226060972 @default.
W3011862905 cites W2295482244 @default.
W3011862905 cites W2403378716 @default.
W3011862905 cites W2466776909 @default.
W3011862905 cites W2524095875 @default.
W3011862905 cites W2559086659 @default.
W3011862905 cites W2565503940 @default.
W3011862905 cites W2579941947 @default.
W3011862905 cites W2607743643 @default.
W3011862905 cites W2625303311 @default.
W3011862905 cites W2735422930 @default.
W3011862905 cites W2738611033 @default.
W3011862905 cites W2763676075 @default.
W3011862905 cites W2781649698 @default.
W3011862905 cites W2794042342 @default.
W3011862905 cites W2803321265 @default.
W3011862905 cites W2906638583 @default.
W3011862905 cites W2973539554 @default.
W3011862905 cites W3149894941 @default.
W3011862905 cites W758260955 @default.
W3011862905 cites W891599851 @default.
W3011862905 doi "https://doi.org/10.1093/treephys/tpaa029" @default.
W3011862905 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32175583" @default.
W3011862905 hasPublicationYear "2020" @default.
W3011862905 type Work @default.
W3011862905 sameAs 3011862905 @default.
W3011862905 citedByCount "14" @default.
W3011862905 countsByYear W30118629052020 @default.
W3011862905 countsByYear W30118629052021 @default.
W3011862905 countsByYear W30118629052022 @default.
W3011862905 countsByYear W30118629052023 @default.
W3011862905 crossrefType "journal-article" @default.
W3011862905 hasAuthorship W3011862905A5009904732 @default.
W3011862905 hasAuthorship W3011862905A5017678130 @default.
W3011862905 hasAuthorship W3011862905A5025324044 @default.
W3011862905 hasAuthorship W3011862905A5029459507 @default.
W3011862905 hasAuthorship W3011862905A5034753451 @default.
W3011862905 hasAuthorship W3011862905A5055174519 @default.
W3011862905 hasAuthorship W3011862905A5062916898 @default.
W3011862905 hasAuthorship W3011862905A5087065512 @default.
W3011862905 hasAuthorship W3011862905A5090443077 @default.
W3011862905 hasBestOaLocation W30118629052 @default.