Heo_2022_Molecules_27_2317

Reference

Title : Crystal Structures of the Plant Phospholipase A1 Proteins Reveal a Unique Dimerization Domain - Heo_2022_Molecules_27_2317
Author(s) : Heo Y , Lee I , Moon S , Yun JH , Kim EY , Park SY , Park JH , Kim WT , Lee W
Ref : Molecules , 27 : , 2022
Abstract :

Phospholipase is an enzyme that hydrolyzes various phospholipid substrates at specific ester bonds and plays important roles such as membrane remodeling, as digestive enzymes, and the regulation of cellular mechanism. Phospholipase proteins are divided into following the four major groups according to the ester bonds they cleave off: phospholipase A1 (PLA1), phospholipase A2 (PLA2), phospholipase C (PLC), and phospholipase D (PLD). Among the four phospholipase groups, PLA1 has been less studied than the other phospholipases. Here, we report the first molecular structures of plant PLA1s: AtDSEL and CaPLA1 derived from Arabidopsis thaliana and Capsicum annuum, respectively. AtDSEL and CaPLA1 are novel PLA1s in that they form homodimers since PLAs are generally in the form of a monomer. The dimerization domain at the C-terminal of the AtDSEL and CaPLA1 makes hydrophobic interactions between each monomer, respectively. The C-terminal domain is also present in PLA1s of other plants, but not in PLAs of mammals and fungi. An activity assay of AtDSEL toward various lipid substrates demonstrates that AtDSEL is specialized for the cleavage of sn-1 acyl chains. This report reveals a new domain that exists only in plant PLA1s and suggests that the domain is essential for homodimerization.

PubMedSearch : Heo_2022_Molecules_27_2317
PubMedID: 35408716
Gene_locus related to this paper: capan-a5yw95 , arath-At4g18550

Related information

Gene_locus capan-a5yw95    arath-At4g18550
Family Plant_phospholipase
Structure 7X0D    7X0C    2YIJ

Citations formats

Heo Y, Lee I, Moon S, Yun JH, Kim EY, Park SY, Park JH, Kim WT, Lee W (2022)
Crystal Structures of the Plant Phospholipase A1 Proteins Reveal a Unique Dimerization Domain
Molecules 27 :

Heo Y, Lee I, Moon S, Yun JH, Kim EY, Park SY, Park JH, Kim WT, Lee W (2022)
Molecules 27 :