SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2750823915> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W2750823915 endingPage "2248" @default.
W2750823915 startingPage "2233" @default.
W2750823915 abstract "Plants have complex and adaptive innate immune responses against pathogen infections. Stomata are key entry points for many plant pathogens. Both pathogens and plants regulate stomatal aperture for pathogen entry and defense, respectively. Not all plant proteins involved in stomatal aperture regulation have been identified. Here, we report GENERAL CONTROL NONREPRESSIBLE4 (GCN4), an AAA+-ATPase family protein, as one of the key proteins regulating stomatal aperture during biotic and abiotic stress. Silencing of GCN4 in Nicotiana benthamiana and Arabidopsis thaliana compromises host and nonhost disease resistance due to open stomata during pathogen infection. AtGCN4 overexpression plants have reduced H+-ATPase activity, stomata that are less responsive to pathogen virulence factors such as coronatine (phytotoxin produced by the bacterium Pseudomonas syringae) or fusicoccin (a fungal toxin produced by the fungus Fusicoccum amygdali), reduced pathogen entry, and enhanced drought tolerance. This study also demonstrates that AtGCN4 interacts with RIN4 and 14-3-3 proteins and suggests that GCN4 degrades RIN4 and 14-3-3 proteins via a proteasome-mediated pathway and thereby reduces the activity of the plasma membrane H+-ATPase complex, thus reducing proton pump activity to close stomata." @default.
W2750823915 created "2017-09-15" @default.
W2750823915 creator A5003679682 @default.
W2750823915 creator A5006940360 @default.
W2750823915 creator A5018249783 @default.
W2750823915 creator A5026163141 @default.
W2750823915 creator A5037552518 @default.
W2750823915 creator A5052636933 @default.
W2750823915 creator A5062414696 @default.
W2750823915 creator A5072214709 @default.
W2750823915 creator A5073452927 @default.
W2750823915 date "2017-08-30" @default.
W2750823915 modified "2023-10-12" @default.
W2750823915 title "GENERAL CONTROL NONREPRESSIBLE4 Degrades 14-3-3 and the RIN4 Complex to Regulate Stomatal Aperture with Implications on Nonhost Disease Resistance and Drought Tolerance" @default.
W2750823915 cites W1539503448 @default.
W2750823915 cites W1559065834 @default.
W2750823915 cites W1578482701 @default.
W2750823915 cites W1597392293 @default.
W2750823915 cites W1943430046 @default.
W2750823915 cites W1965620479 @default.
W2750823915 cites W1966703024 @default.
W2750823915 cites W1969795778 @default.
W2750823915 cites W1972028056 @default.
W2750823915 cites W1983078000 @default.
W2750823915 cites W1991042298 @default.
W2750823915 cites W2002672259 @default.
W2750823915 cites W2002821316 @default.
W2750823915 cites W2003293585 @default.
W2750823915 cites W2003377214 @default.
W2750823915 cites W2003523250 @default.
W2750823915 cites W2016007765 @default.
W2750823915 cites W2019531132 @default.
W2750823915 cites W2031814568 @default.
W2750823915 cites W2047312008 @default.
W2750823915 cites W2054646881 @default.
W2750823915 cites W2059265460 @default.
W2750823915 cites W2068847043 @default.
W2750823915 cites W2076261991 @default.
W2750823915 cites W2084183470 @default.
W2750823915 cites W2086726504 @default.
W2750823915 cites W2086943804 @default.
W2750823915 cites W2087435302 @default.
W2750823915 cites W2088373845 @default.
W2750823915 cites W2094725690 @default.
W2750823915 cites W2101101724 @default.
W2750823915 cites W2102476539 @default.
W2750823915 cites W2104569155 @default.
W2750823915 cites W2109089359 @default.
W2750823915 cites W2110721163 @default.
W2750823915 cites W2112713711 @default.
W2750823915 cites W2114111406 @default.
W2750823915 cites W2116029921 @default.
W2750823915 cites W2116122104 @default.
W2750823915 cites W2121883975 @default.
W2750823915 cites W2122823143 @default.
W2750823915 cites W2123231717 @default.
W2750823915 cites W2123786096 @default.
W2750823915 cites W2125723256 @default.
W2750823915 cites W2126285636 @default.
W2750823915 cites W2128635872 @default.
W2750823915 cites W2129317778 @default.
W2750823915 cites W2135546449 @default.
W2750823915 cites W2136309995 @default.
W2750823915 cites W2138909438 @default.
W2750823915 cites W2141930462 @default.
W2750823915 cites W2143964569 @default.
W2750823915 cites W2146802326 @default.
W2750823915 cites W2154540205 @default.
W2750823915 cites W2159866399 @default.
W2750823915 cites W2162515800 @default.
W2750823915 cites W2163448850 @default.
W2750823915 cites W2164585205 @default.
W2750823915 cites W2192079274 @default.
W2750823915 cites W2341680533 @default.
W2750823915 cites W2469005906 @default.
W2750823915 cites W315981862 @default.
W2750823915 doi "https://doi.org/10.1105/tpc.17.00070" @default.
W2750823915 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5635975" @default.
W2750823915 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28855332" @default.
W2750823915 hasPublicationYear "2017" @default.
W2750823915 type Work @default.
W2750823915 sameAs 2750823915 @default.
W2750823915 citedByCount "49" @default.
W2750823915 countsByYear W27508239152018 @default.
W2750823915 countsByYear W27508239152019 @default.
W2750823915 countsByYear W27508239152020 @default.
W2750823915 countsByYear W27508239152021 @default.
W2750823915 countsByYear W27508239152022 @default.
W2750823915 countsByYear W27508239152023 @default.
W2750823915 crossrefType "journal-article" @default.
W2750823915 hasAuthorship W2750823915A5003679682 @default.
W2750823915 hasAuthorship W2750823915A5006940360 @default.
W2750823915 hasAuthorship W2750823915A5018249783 @default.
W2750823915 hasAuthorship W2750823915A5026163141 @default.
W2750823915 hasAuthorship W2750823915A5037552518 @default.
W2750823915 hasAuthorship W2750823915A5052636933 @default.
W2750823915 hasAuthorship W2750823915A5062414696 @default.
W2750823915 hasAuthorship W2750823915A5072214709 @default.