Plant Editosome Database
a curated database of RNA editosome in plants

PPR4 - Plant Editosome Database - BIG Data Center
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Summary

Editing Factor: PPR4
Synonym: GmPPR4
Description: The mRNA expression of three genes that were highly up-regulated in soybean drought- and salt-induced transcriptome database and found that the expression levels of GmPPR4 were induced under salt and drought stresses; Under drought stress condition, GmPPR4-overexpressing (GmPPR4-OE) plants showed delayed leaf rolling; higher content of proline (Pro); and lower contents of H2O2, O2- and malondialdehyde (MDA) compared with the empty vector (EV)-control plants; GmPPR4-OE plants exhibited increased transcripts of several drought-inducible genes compared with EV-control plants
Protein Family: PPR
Subclass: DYW
Construct Structure: NA
Gene ID & Species: Glyma.01G011700 (Glycine max)
Edited Gene(s): NA
Editing Type(s): NA (3)
Publication(s): [1] Genome-Wide Analysis of the DYW Subgroup PPR Gene Family and Identification of Responses to Drought Stress., International journal of molecular sciences, 2019. [PMID=31726763]

Editing Details

Species Gene ID Organelle Edited Gene Position Region Editing Type Codon Amino Acid Molecular Effect Experiment Details
Glycine max Glyma.01G011700 NA NA NA NA NA NA=>NA NA=>NA NA
Experiment Details
Genotype (Ecotype) Allele Treatment Treatment Detail Mutant Type Phenotype Tissue Development Stage Detection Method Editing Frequency Editing Extent Mutant Effect PMID
Zhonghuang 39EVControlEmpty vector (EV)-transformed control hairy root; The coding sequences of GmPPR4 was ligated into plant transformation vector pCAMBIA3301 with the CaMV 35S promoter. The constructs were transferred inControlThe EV-control plants showed wilted leaf under drought for 3 days, and seriously dehydrated leaves were observed after 7 days; Trypan blue solution was used to detect cell activity in EV-control and GmPPR4-OE leaves, no plant leaves differed under drought stress conditions, however, the color depth of the GmPPR4-OE leaves was lower than EV-control leaves under drought treatment.Leaf15 daysNANANANA31726763
Zhonghuang 39OE-1Overexpressed GmPPR4Transgenic soybean plants which overexpressed GmPPR4 (GmPPR4-OE) were generated into soybean hairy roots; The coding sequences of GmPPR4 was ligated into plant transformation vector pCAMBIA3301 with tNAThe GmPPR4-OE seedlings showed delayed and less leaf rolling during the drought stress process. Trypan blue solution was used to detect cell activity in EV-control and GmPPR4-OE leaves, no plant leaves differed under drought stress conditions, however, the color depth of the GmPPR4-OE leaves was lower than EV-control leaves under drought treatment.Leaf15 daysNANANANA31726763
Zhonghuang 39OE-2Overexpressed GmPPR4Transgenic soybean plants which overexpressed GmPPR4 (GmPPR4-OE) were generated into soybean hairy roots; The coding sequences of GmPPR4 was ligated into plant transformation vector pCAMBIA3301 with tNAThe GmPPR4-OE seedlings showed delayed and less leaf rolling during the drought stress process. Trypan blue solution was used to detect cell activity in EV-control and GmPPR4-OE leaves, no plant leaves differed under drought stress conditions, however, the color depth of the GmPPR4-OE leaves was lower than EV-control leaves under drought treatment.Leaf15 daysNANANANA31726763
Last update: Jul 2021 (version 1.0)