SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2777986220> ?p ?o ?g. }

Showing items 1 to 100 of ±224 with 100 items per page.

W2777986220 endingPage "180" @default.
W2777986220 startingPage "171" @default.
W2777986220 abstract "Priming by natural compounds is an interesting alternative for sustainable agriculture, which also contributes to explore the molecular mechanisms associated with stress tolerance. Although hosts and stress types eventually determine the mode of action of plant-priming agents, it highlights that many of them act on redox signalling. These include vitamins thiamine, riboflavin and quercetin; organic acids like pipecolic, azelaic and hexanoic; volatile organic compounds such as methyl jasmonate; cell wall components like chitosans and oligogalacturonides; H2O2, etc. This review provides data on how priming inducers promote stronger and faster responses to stress by modulating the oxidative environment, and interacting with signalling pathways mediated by salycilic acid, jasmonic acid and ethylene. The histone modifications involved in priming that affect the transcription of defence-related genes are also discussed. Despite the evolutionary distance between plants and animals, and the fact that the plant innate immunity takes place in each plant cell, they show many similarities in the molecular mechanisms that underlie pathogen perception and further signalling to activate defence responses. This review highlights the similarities between priming through redox signalling in plants and in mammalian cells. The strategies used by pathogens to manipulate the host´s recognition and the further activation of defences also show similarities in both kingdoms. Moreover, phytochemicals like sulforaphane and 12-oxo-phytodienoic acid prime both plant and mammalian responses by activating redox-sensitive genes. Hence research data into the priming of plant defences can provide additional information and a new viewpoint for priming mammalian defence, and vice versa." @default.
W2777986220 created "2018-01-05" @default.
W2777986220 creator A5072113662 @default.
W2777986220 date "2018-07-01" @default.
W2777986220 modified "2023-09-24" @default.
W2777986220 title "Priming plant resistance by activation of redox-sensitive genes" @default.
W2777986220 cites W1529044262 @default.
W2777986220 cites W1593321888 @default.
W2777986220 cites W1604602425 @default.
W2777986220 cites W1818266310 @default.
W2777986220 cites W1906886153 @default.
W2777986220 cites W1963515473 @default.
W2777986220 cites W1963645516 @default.
W2777986220 cites W1969396288 @default.
W2777986220 cites W1970547962 @default.
W2777986220 cites W1973007396 @default.
W2777986220 cites W1974861963 @default.
W2777986220 cites W1978184169 @default.
W2777986220 cites W1979138486 @default.
W2777986220 cites W1982718914 @default.
W2777986220 cites W1982735849 @default.
W2777986220 cites W1987215151 @default.
W2777986220 cites W1990482697 @default.
W2777986220 cites W1992200292 @default.
W2777986220 cites W2002047195 @default.
W2777986220 cites W2003290833 @default.
W2777986220 cites W2004793366 @default.
W2777986220 cites W2009452869 @default.
W2777986220 cites W2014287346 @default.
W2777986220 cites W2015449369 @default.
W2777986220 cites W2017727993 @default.
W2777986220 cites W2018858269 @default.
W2777986220 cites W2025584577 @default.
W2777986220 cites W2032772167 @default.
W2777986220 cites W2032879466 @default.
W2777986220 cites W2036777834 @default.
W2777986220 cites W2048398460 @default.
W2777986220 cites W2050133918 @default.
W2777986220 cites W2054371593 @default.
W2777986220 cites W2054904222 @default.
W2777986220 cites W2058310563 @default.
W2777986220 cites W2059402223 @default.
W2777986220 cites W2059984286 @default.
W2777986220 cites W2060301482 @default.
W2777986220 cites W2063622551 @default.
W2777986220 cites W2064011765 @default.
W2777986220 cites W2069571989 @default.
W2777986220 cites W2073224972 @default.
W2777986220 cites W2073500489 @default.
W2777986220 cites W2074271378 @default.
W2777986220 cites W2084720613 @default.
W2777986220 cites W2084765536 @default.
W2777986220 cites W2089755779 @default.
W2777986220 cites W2091259920 @default.
W2777986220 cites W2091956761 @default.
W2777986220 cites W2093684370 @default.
W2777986220 cites W2094908805 @default.
W2777986220 cites W2097624542 @default.
W2777986220 cites W2097961562 @default.
W2777986220 cites W2102187892 @default.
W2777986220 cites W2107536885 @default.
W2777986220 cites W2108349312 @default.
W2777986220 cites W2108605786 @default.
W2777986220 cites W2110998473 @default.
W2777986220 cites W2112894735 @default.
W2777986220 cites W2113861951 @default.
W2777986220 cites W2114308295 @default.
W2777986220 cites W2114685999 @default.
W2777986220 cites W2115771825 @default.
W2777986220 cites W2115816514 @default.
W2777986220 cites W2118105836 @default.
W2777986220 cites W2118481874 @default.
W2777986220 cites W2118751052 @default.
W2777986220 cites W2122224768 @default.
W2777986220 cites W2123115034 @default.
W2777986220 cites W2125938458 @default.
W2777986220 cites W2128337342 @default.
W2777986220 cites W2128640142 @default.
W2777986220 cites W2129029258 @default.
W2777986220 cites W2129092514 @default.
W2777986220 cites W2129317778 @default.
W2777986220 cites W2129433097 @default.
W2777986220 cites W2129742189 @default.
W2777986220 cites W2130953306 @default.
W2777986220 cites W2134181109 @default.
W2777986220 cites W2138498649 @default.
W2777986220 cites W2139328007 @default.
W2777986220 cites W2139456772 @default.
W2777986220 cites W2142816705 @default.
W2777986220 cites W2143280770 @default.
W2777986220 cites W2143738686 @default.
W2777986220 cites W2145725596 @default.
W2777986220 cites W2148549632 @default.
W2777986220 cites W2148680876 @default.
W2777986220 cites W2151200864 @default.
W2777986220 cites W2151388061 @default.
W2777986220 cites W2151831386 @default.
W2777986220 cites W2152002992 @default.