Genome-Wide Identification of Populus Malectin/Malectin-Like Domain-Containing Proteins and Expression Analyses Reveal Novel Candidates for Signaling and Regulation of Wood Development

Malectin domain (MD) is a ligand-binding protein motif of pro- and eukaryotes. It is particularly abundant in Viridiplantae, where it occurs as either a single (MD, PF11721) or tandemly duplicated domain (PF12819) called malectin-like domain (MLD). In herbaceous plants, MD- or MLD-containing protein...

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Published in:Frontiers in plant science 2020-12, Vol.11, p.588846-588846
Main Authors: Kumar, Vikash, Donev, Evgeniy N, Barbut, Félix R, Kushwah, Sunita, Mannapperuma, Chanaka, Urbancsok, János, Mellerowicz, Ewa J
Format: Article
Language:English
Subjects:
Agricultural Science
CBM57
cell wall integrity
CrRLK1L
Jordbruksvetenskap
malectin domain
malectin-like domain
Plant Science
Populus
receptor-like protein kinases
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Summary:Malectin domain (MD) is a ligand-binding protein motif of pro- and eukaryotes. It is particularly abundant in Viridiplantae, where it occurs as either a single (MD, PF11721) or tandemly duplicated domain (PF12819) called malectin-like domain (MLD). In herbaceous plants, MD- or MLD-containing proteins (MD proteins) are known to regulate development, reproduction, and resistance to various stresses. However, their functions in woody plants have not yet been studied. To unravel their potential role in wood development, we carried out genome-wide identification of MD proteins in the model tree species black cottonwood ( ), and analyzed their expression and co-expression networks. had 146 genes assigned to 14 different clades, two of which were specific to the genus . 87% of these genes were located on chromosomes, the rest being associated with scaffolds. Based on their protein domain organization, and in agreement with the exon-intron structures, the genes identified here could be classified into five superclades having the following domains: leucine-rich repeat (LRR)-MD-protein kinase (PK), MLD-LRR-PK, MLD-PK ( RLK1L), MLD-LRR, and MD-Kinesin. Whereas the majority of genes were highly expressed in leaves, particularly under stress conditions, eighteen showed a peak of expression during secondary wall formation in the xylem and their co-expression networks suggested signaling functions in cell wall integrity, pathogen-associated molecular patterns, calcium, ROS, and hormone pathways. Thus, genes having different domain organizations comprise many genes with putative foliar defense functions, some of which could be specific to and related species, as well as genes with potential involvement in signaling pathways in other tissues including developing wood.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2020.588846