EC Number |
General Information |
Reference |
---|
2.3.1.158 | evolution |
PDAT belongs to the LCAT-like family |
720694 |
2.3.1.158 | evolution |
phylogenetic analysis showed that plant PDAT can be grouped into four clades, two of which have one putative transmembrane domain (TMD) while the other two are predicted to be entirely soluble. The majority of PDAT in the database have the single-predicted TMD consisting of a small cytosolic N-terminus and a large C-terminal domain in the endoplasmic reticulum lumen. The N-terminal region is hydrophilic with arginine clusters similar to those observed in DGAT1 |
757544 |
2.3.1.158 | evolution |
phylogenetic analysis shows that plant PDAT can be grouped into four clades, two of which have one putative transmembrane domain (TMD) while the other two are predicted to be entirely soluble. The majority of PDAT in the database have the single-predicted TMD consisting of a small cytosolic N-terminus and a large C-terminal domain in the endoplasmic reticulum lumen. The N-terminal region is hydrophilic with arginine clusters similar to those observed in DGAT1 |
757544 |
2.3.1.158 | evolution |
two PDAT orthologues, AtPDAT1 and AtPDAT2, with 57% amino acid sequence similarity, are identified in Arabidopsis thaliana. Phylogenetic analysis shows that plant PDAT can be grouped into four clades, two of which have one putative transmembrane domain (TMD) while the other two are predicted to be entirely soluble. The majority of PDAT in the database have the single-predicted TMD consisting of a small cytosolic N-terminus and a large C-terminal domain in the endoplasmic reticulum lumen. The N-terminal region is hydrophilic with arginine clusters similar to those observed in DGAT1 |
757544 |
2.3.1.158 | malfunction |
artificial microRNA silencing of PDAT alters the membrane lipid composition, reducing the maximum specific growth rate |
720694 |
2.3.1.158 | malfunction |
LRO1 single knockout has a markedly reduced level of the coreinduced LD formation |
758135 |
2.3.1.158 | malfunction |
seedlings deficient in the enzyme PDAT1 are unable to accumulate triacylglycerols after heat stress |
758046 |
2.3.1.158 | malfunction |
the removal of the putative N-terminal transmembrane domain (TMD) in Saccharomyces cerevisiae PDAT does not affect activity |
-, 757544 |
2.3.1.158 | metabolism |
different members of Camelina sativa phospholipid diacylglycerol acyltransferase family are involved in different types of stress responses in camelina seedlings, providing evidence of their roles in oil biosynthesis and regulation in camelina vegetative tissue |
756132 |
2.3.1.158 | metabolism |
specific role of DGAT (EC 2.3.1.20) and PDAT (EC 2.3.1.158) genes in fatty acid biosynthesis |
758030 |