FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2175364861> ?p ?o ?g. }

• W2175364861 abstract "In modern agriculture, the call for an alternative crop protection strategy increases because of the desired reduction of fungicide and pesticide use and the continuously evolving resistance of pathogens and pests to agrochemicals. The direct activation of the plant immune system does not provide a promising plant protection measure because of high fitness costs. However, upon treatment with certain natural or synthetic compounds, plant cells can promote to a fitness cost-saving, primed state of enhanced defense. In the primed state, plants respond to biotic and abiotic stress with faster and stronger activation of defense, and this is often associated with immunity and abiotic stress tolerance. Until now, the identification of chemical compounds with priming-inducing activity (so-called plant activators) relied on tedious and invasive approaches, or required the late detection of secreted furanocoumarin phytoalexins in parsley cell cultures. Thus, simple, fast, straightforward, and noninvasive techniques for identifying priming-inducing compounds for plant protection are very welcome. This report demonstrates that a respiration activity-monitoring system (RAMOS) can identify compounds with defense priming-inducing activity in parsley cell suspension in culture. RAMOS relies on the quasi-continuous, noninvasive online determination of the oxygen transfer rate (OTR). Treatment of parsley culture cells with the known plant activator salicylic acid (SA), a natural plant defense signal, resulted in an OTR increase. Addition of the defense elicitor Pep13, a cell wall peptide of Phythophthora sojae, induced two distinctive OTR peaks that were higher in SA-primed cells than in unprimed cells upon Pep13 challenge. Both, the OTR increase after priming with SA and the Pep13 challenge were dose-dependent. Furthermore, there was a close correlation of a compound’s activity to enhance the oxygen consumption in parsley cells and its capacity to prime Pep13-induced furanocoumarin secretion as evaluated by fluorescence spectroscopy. RAMOS noninvasively determines the OTR as a measure of the metabolic activity of plant cells. Chemical enhancement of oxygen consumption by salicylic derivatives in parsley cell suspension cultures correlates with the induction of the primed state of enhanced defense that enhances the quantity of Pep13-induced furanocoumarin phytoalexins. Treatment with the priming-active compounds methyl jasmonate and pyraclostrobin also resulted in an enhanced respiration activity. Thus, RAMOS is a novel technology for identifying priming-inducing compounds for agriculture." @default.
• W2175364861 created "2016-06-24" @default.
• W2175364861 creator A5012890554 @default.
• W2175364861 creator A5022603631 @default.
• W2175364861 creator A5024060286 @default.
• W2175364861 creator A5024967009 @default.
• W2175364861 creator A5033821495 @default.
• W2175364861 creator A5040992188 @default.
• W2175364861 creator A5055864066 @default.
• W2175364861 date "2015-11-25" @default.
• W2175364861 modified "2023-10-17" @default.
• W2175364861 title "Oxygen transfer rate identifies priming compounds in parsley cells" @default.
• W2175364861 cites W1544546511 @default.
• W2175364861 cites W1567555792 @default.
• W2175364861 cites W1571922869 @default.
• W2175364861 cites W1586279850 @default.
• W2175364861 cites W1768936493 @default.
• W2175364861 cites W1799266996 @default.
• W2175364861 cites W1964207622 @default.
• W2175364861 cites W1969828950 @default.
• W2175364861 cites W1977345158 @default.
• W2175364861 cites W1984668822 @default.
• W2175364861 cites W1991070995 @default.
• W2175364861 cites W2009708752 @default.
• W2175364861 cites W2009922464 @default.
• W2175364861 cites W2026965743 @default.
• W2175364861 cites W2029173255 @default.
• W2175364861 cites W2035759078 @default.
• W2175364861 cites W2040856876 @default.
• W2175364861 cites W2041605999 @default.
• W2175364861 cites W2044577862 @default.
• W2175364861 cites W2045439749 @default.
• W2175364861 cites W2051951507 @default.
• W2175364861 cites W2059555945 @default.
• W2175364861 cites W2060220000 @default.
• W2175364861 cites W2061954020 @default.
• W2175364861 cites W2064471829 @default.
• W2175364861 cites W2067264206 @default.
• W2175364861 cites W2075241674 @default.
• W2175364861 cites W2076018192 @default.
• W2175364861 cites W2077545872 @default.
• W2175364861 cites W2078027533 @default.
• W2175364861 cites W2079030218 @default.
• W2175364861 cites W2081470369 @default.
• W2175364861 cites W2081544371 @default.
• W2175364861 cites W2091515048 @default.
• W2175364861 cites W2109324504 @default.
• W2175364861 cites W2120006380 @default.
• W2175364861 cites W2121935550 @default.
• W2175364861 cites W2128640142 @default.
• W2175364861 cites W2131938914 @default.
• W2175364861 cites W2135399611 @default.
• W2175364861 cites W2137194969 @default.
• W2175364861 cites W2140270616 @default.
• W2175364861 cites W2143738686 @default.
• W2175364861 cites W2150014468 @default.
• W2175364861 cites W2152110714 @default.
• W2175364861 cites W2171849912 @default.
• W2175364861 doi "https://doi.org/10.1186/s12870-015-0666-3" @default.
• W2175364861 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4660667" @default.
• W2175364861 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26608728" @default.
• W2175364861 hasPublicationYear "2015" @default.
• W2175364861 type Work @default.
• W2175364861 sameAs 2175364861 @default.
• W2175364861 citedByCount "16" @default.
• W2175364861 countsByYear W21753648612016 @default.
• W2175364861 countsByYear W21753648612017 @default.
• W2175364861 countsByYear W21753648612018 @default.
• W2175364861 countsByYear W21753648612020 @default.
• W2175364861 countsByYear W21753648612021 @default.
• W2175364861 countsByYear W21753648612022 @default.
• W2175364861 countsByYear W21753648612023 @default.
• W2175364861 crossrefType "journal-article" @default.
• W2175364861 hasAuthorship W2175364861A5012890554 @default.
• W2175364861 hasAuthorship W2175364861A5022603631 @default.
• W2175364861 hasAuthorship W2175364861A5024060286 @default.
• W2175364861 hasAuthorship W2175364861A5024967009 @default.
• W2175364861 hasAuthorship W2175364861A5033821495 @default.
• W2175364861 hasAuthorship W2175364861A5040992188 @default.
• W2175364861 hasAuthorship W2175364861A5055864066 @default.
• W2175364861 hasBestOaLocation W21753648611 @default.
• W2175364861 hasConcept C100701293 @default.
• W2175364861 hasConcept C104317684 @default.
• W2175364861 hasConcept C132215390 @default.
• W2175364861 hasConcept C143065580 @default.
• W2175364861 hasConcept C150903083 @default.
• W2175364861 hasConcept C156203801 @default.
• W2175364861 hasConcept C181199279 @default.
• W2175364861 hasConcept C183570298 @default.
• W2175364861 hasConcept C18903297 @default.
• W2175364861 hasConcept C203014093 @default.
• W2175364861 hasConcept C2778221352 @default.
• W2175364861 hasConcept C2779012821 @default.
• W2175364861 hasConcept C2779491563 @default.
• W2175364861 hasConcept C48349386 @default.
• W2175364861 hasConcept C55493867 @default.
• W2175364861 hasConcept C59822182 @default.
• W2175364861 hasConcept C81444415 @default.
• W2175364861 hasConcept C86803240 @default.
• W2175364861 hasConcept C8891405 @default.

• next