SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382181555> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W4382181555 endingPage "200" @default.
W4382181555 startingPage "187" @default.
W4382181555 abstract "SUMMARY Phenylpropanoids are specialized metabolites derived from phenylalanine. Glucosinolates are defense compounds derived mainly from methionine and tryptophan in Arabidopsis. It was previously shown that the phenylpropanoid pathway and glucosinolate production are metabolically linked. The accumulation of indole‐3‐acetaldoxime (IAOx), the precursor of tryptophan‐derived glucosinolates, represses phenylpropanoid biosynthesis through accelerated degradation of phenylalanine ammonia lyase (PAL). As PAL functions at the entry point of the phenylpropanoid pathway, which produces indispensable specialized metabolites such as lignin, aldoxime‐mediated phenylpropanoid repression is detrimental to plant survival. Although methionine‐derived glucosinolates in Arabidopsis are abundant, any impact of aliphatic aldoximes (AAOx) derived from aliphatic amino acids such as methionine on phenylpropanoid production remains unclear. Here, we investigate the impact of AAOx accumulation on phenylpropanoid production using Arabidopsis aldoxime mutants, ref2 and ref5 . REF2 and REF5 metabolize aldoximes to respective nitrile oxides redundantly, but with different substrate specificities. ref2 and ref5 mutants have decreased phenylpropanoid contents due to the accumulation of aldoximes. As REF2 and REF5 have high substrate specificity toward AAOx and IAOx, respectively, it was assumed that ref2 accumulates AAOx, not IAOx. Our study indicates that ref2 accumulates both AAOx and IAOx. Removing IAOx partially restored phenylpropanoid content in ref2 , but not to the wild‐type level. However, when AAOx biosynthesis was silenced, phenylpropanoid production and PAL activity in ref2 were completely restored, suggesting an inhibitory effect of AAOx on phenylpropanoid production. Further feeding studies revealed that the abnormal growth phenotype commonly observed in Arabidopsis mutants lacking AAOx production is a consequence of methionine accumulation." @default.
W4382181555 created "2023-06-28" @default.
W4382181555 creator A5000237337 @default.
W4382181555 creator A5015439814 @default.
W4382181555 creator A5016353273 @default.
W4382181555 creator A5036441500 @default.
W4382181555 creator A5036899831 @default.
W4382181555 creator A5042186617 @default.
W4382181555 creator A5045771545 @default.
W4382181555 creator A5053221924 @default.
W4382181555 creator A5063703158 @default.
W4382181555 creator A5081326005 @default.
W4382181555 creator A5092274117 @default.
W4382181555 date "2023-07-04" @default.
W4382181555 modified "2023-10-17" @default.
W4382181555 title "Altered methionine metabolism impacts phenylpropanoid production and plant development in <i>Arabidopsis thaliana</i>" @default.
W4382181555 cites W1971005452 @default.
W4382181555 cites W1972020725 @default.
W4382181555 cites W1975214920 @default.
W4382181555 cites W1993924390 @default.
W4382181555 cites W1996283350 @default.
W4382181555 cites W1996611722 @default.
W4382181555 cites W1997401793 @default.
W4382181555 cites W2006837524 @default.
W4382181555 cites W2012809842 @default.
W4382181555 cites W2021427465 @default.
W4382181555 cites W2024012002 @default.
W4382181555 cites W2041951165 @default.
W4382181555 cites W2050057606 @default.
W4382181555 cites W2052315279 @default.
W4382181555 cites W2055323344 @default.
W4382181555 cites W2055939723 @default.
W4382181555 cites W2074509176 @default.
W4382181555 cites W2080531260 @default.
W4382181555 cites W2089204324 @default.
W4382181555 cites W2090407854 @default.
W4382181555 cites W2099204921 @default.
W4382181555 cites W2109303360 @default.
W4382181555 cites W2111906292 @default.
W4382181555 cites W2113978971 @default.
W4382181555 cites W2117805596 @default.
W4382181555 cites W2119220115 @default.
W4382181555 cites W2126197960 @default.
W4382181555 cites W2135674867 @default.
W4382181555 cites W2148299987 @default.
W4382181555 cites W2155478762 @default.
W4382181555 cites W2169006608 @default.
W4382181555 cites W2170966566 @default.
W4382181555 cites W2173743066 @default.
W4382181555 cites W2275236249 @default.
W4382181555 cites W2280240693 @default.
W4382181555 cites W2295595724 @default.
W4382181555 cites W2465038948 @default.
W4382181555 cites W2513390929 @default.
W4382181555 cites W2528182419 @default.
W4382181555 cites W2592269776 @default.
W4382181555 cites W2768937288 @default.
W4382181555 cites W2780863014 @default.
W4382181555 cites W2792784654 @default.
W4382181555 cites W2804798670 @default.
W4382181555 cites W2894725130 @default.
W4382181555 cites W2895224606 @default.
W4382181555 cites W2905314265 @default.
W4382181555 cites W2913238326 @default.
W4382181555 cites W2915627658 @default.
W4382181555 cites W2963828985 @default.
W4382181555 cites W2967787385 @default.
W4382181555 cites W2991408616 @default.
W4382181555 cites W2993534953 @default.
W4382181555 cites W2999948696 @default.
W4382181555 cites W3005406791 @default.
W4382181555 cites W3006329480 @default.
W4382181555 cites W3028156709 @default.
W4382181555 cites W3036529257 @default.
W4382181555 cites W3047609236 @default.
W4382181555 cites W3086921336 @default.
W4382181555 cites W3111397348 @default.
W4382181555 cites W3118580617 @default.
W4382181555 cites W3159293046 @default.
W4382181555 cites W3159440609 @default.
W4382181555 cites W4307430391 @default.
W4382181555 doi "https://doi.org/10.1111/tpj.16370" @default.
W4382181555 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37366635" @default.
W4382181555 hasPublicationYear "2023" @default.
W4382181555 type Work @default.
W4382181555 citedByCount "1" @default.
W4382181555 crossrefType "journal-article" @default.
W4382181555 hasAuthorship W4382181555A5000237337 @default.
W4382181555 hasAuthorship W4382181555A5015439814 @default.
W4382181555 hasAuthorship W4382181555A5016353273 @default.
W4382181555 hasAuthorship W4382181555A5036441500 @default.
W4382181555 hasAuthorship W4382181555A5036899831 @default.
W4382181555 hasAuthorship W4382181555A5042186617 @default.
W4382181555 hasAuthorship W4382181555A5045771545 @default.
W4382181555 hasAuthorship W4382181555A5053221924 @default.
W4382181555 hasAuthorship W4382181555A5063703158 @default.
W4382181555 hasAuthorship W4382181555A5081326005 @default.
W4382181555 hasAuthorship W4382181555A5092274117 @default.