Add to ORKGProtein L-isoaspartyl (D-aspartyl) O-methyltransferases (EC 2.1.1.77; PIMT or PCMT) are enzymes that initiate the full or partial repair of damaged L-aspartyl and L-asparaginyl residues, respectively. These enzymes are found in most organisms and maintain a high degree of sequence conservation. Arabidopsis thaliana (Arabidopsis L. Heynh.) is unique among eukaryotes in that it contains two genes, rather than one, that encode PIMT isozymes. We describe a novel Arabidopsis PIMT isozyme, designated AtPIMT2αω, encoded by the PIMT2 gene (At5g50240). We characterized the enzymatic activity of the recombinant AtPIMT2αω in comparison to the other AtPIMT2 isozymes, AtPIMT1, and to the human PCMT ortholog, to better understand its role in Arabidopsis....
In growing plant population, effect of stress is a perturb issue affecting its physiological, bioche...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...
The spontaneous and deleterious conversion of l-asparaginyl and l-aspartyl protein residues to l-iso...
The formation of abnormal amino acid residues is a major source of spontaneous age-related protein d...
Conversion of aspartate and asparagine residues to isoaspartate is a prevalent covalent protein modi...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
International audienceThe formation of abnormal isoaspartyl residues derived from aspartyl or aspara...
International audienceThe formation of abnormal isoaspartyl residues derived from aspartyl or aspara...
The formation of abnormal isoaspartyl residues derived from aspartyl or asparaginyl residues is a ma...
The yield loss due to abiotic stress is an agonizing issue in agriculture mutilating its protein mak...
none3In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hyp...
In growing plant population, effect of stress is a perturb issue affecting its physiological, bioche...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...
The spontaneous and deleterious conversion of l-asparaginyl and l-aspartyl protein residues to l-iso...
The formation of abnormal amino acid residues is a major source of spontaneous age-related protein d...
Conversion of aspartate and asparagine residues to isoaspartate is a prevalent covalent protein modi...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
The role of protein isoaspartyl methyltransferase (PIMT) in repairing a wide assortment of damaged p...
International audienceThe formation of abnormal isoaspartyl residues derived from aspartyl or aspara...
International audienceThe formation of abnormal isoaspartyl residues derived from aspartyl or aspara...
The formation of abnormal isoaspartyl residues derived from aspartyl or asparaginyl residues is a ma...
The yield loss due to abiotic stress is an agonizing issue in agriculture mutilating its protein mak...
none3In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hyp...
In growing plant population, effect of stress is a perturb issue affecting its physiological, bioche...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...
In orthodox seeds, non-enzymatic protein damage occurring during dehydration and storage is hypothes...