2018
DOI: 10.7554/elife.38194.038
|View full text |Cite
|
Sign up to set email alerts
|

Author response: The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1

Citation Types

0
3
0

Year Published

2019
2019
2021
2021

Publication Types

Select...
2
2

Relationship

2
2

Authors

Journals

citations
Cited by 4 publications
(3 citation statements)
references
References 0 publications
0
3
0
Order By: Relevance
“…ROS-mediated changes play a fundamental role in cell signalling and this function also includes a direct or indirect role as retrograde signals in the chloroplast-cytosol/nucleus communication [49][50][51]. ROS function in retrograde signalling by three mechanisms: (i) H 2 O 2 may be transferred to the extra-chloroplast space by aquaporin-mediated transport [52] or diffusive leakage; (ii) ROS alter metabolic activities in the chloroplast, leading, e.g., to different metabolite levels and ratios, which then deliver information to the extrachloroplast space; (iii) ROS react with reactive chloroplast molecules like lipids or peptides and the generated reaction products leave the chloroplast and affect extrachloroplast processes like transcription, translation and metabolism to enable the acclimation process [50,51 [54]. Under more severe stress, they may trigger oxidative stress responses which in turn liberate retrograde signalling via signalling metabolites such as haem, MEcPP and PAP [55].…”
Section: Reaction Products Of Chloroplast-originated Reactive Oxygen mentioning
confidence: 99%
See 1 more Smart Citation
“…ROS-mediated changes play a fundamental role in cell signalling and this function also includes a direct or indirect role as retrograde signals in the chloroplast-cytosol/nucleus communication [49][50][51]. ROS function in retrograde signalling by three mechanisms: (i) H 2 O 2 may be transferred to the extra-chloroplast space by aquaporin-mediated transport [52] or diffusive leakage; (ii) ROS alter metabolic activities in the chloroplast, leading, e.g., to different metabolite levels and ratios, which then deliver information to the extrachloroplast space; (iii) ROS react with reactive chloroplast molecules like lipids or peptides and the generated reaction products leave the chloroplast and affect extrachloroplast processes like transcription, translation and metabolism to enable the acclimation process [50,51 [54]. Under more severe stress, they may trigger oxidative stress responses which in turn liberate retrograde signalling via signalling metabolites such as haem, MEcPP and PAP [55].…”
Section: Reaction Products Of Chloroplast-originated Reactive Oxygen mentioning
confidence: 99%
“…Work with redox and ROS mutants like alx8, xm2 and xm3 demonstrated that SAL1 functions as an oxidative sensor in the chloroplast. ROS accumulation under stress alters the redox poise of the stroma and oxidizes thiols of target proteins either directly [85] or, e.g., via TRX oxidation [54]. Oxidized SAL1 is inhibited and this triggers PAP accumulation in the chloroplast and cytosol.…”
Section: Retrograde Signals From Overreduced Psi (A) Retrograde Signalling Via Methylerythritol Cyclodiphosphatementioning
confidence: 99%
“…The best understood plant PRX is the 2-CysPRX, which has been scrutinized with respect to its catalytic properties, redox-dependent conformational dynamics, regeneration by electron transmitters such as TRX and GRX/GSH and its role in the redox regulatory network of the chloroplast [5][6][7][8]. In contrast PRX-Q and PRX-IIE have been studied for their peroxidatic property, regeneration mechanism and their function in mutant plants with decreased protein amounts [9,10].…”
Section: Introductionmentioning
confidence: 99%