Abstract
A total of 121 protein sequences of pectate lyases were subjected to homology search, multiple sequence alignment, phylogenetic tree construction, and motif analysis. The phylogenetic tree constructed revealed different clusters based on different source organisms representing bacterial, fungal, plant, and nematode pectate lyases. The multiple accessions of bacterial, fungal, nematode, and plant pectate lyase protein sequences were placed closely revealing a sequence level similarity. The multiple sequence alignment of these pectate lyase protein sequences from different source organisms showed conserved regions at different stretches with maximum homology from amino acid residues 439–467, 715–816, and 829–910 which could be used for designing degenerate primers or probes specific for pectate lyases. The motif analysis revealed a conserved Pec_Lyase_C domain uniformly observed in all pectate lyases irrespective of variable sources suggesting its possible role in structural and enzymatic functions.
Highlights
The enzymes hydrolyzing pectic substances ubiquitously present in the plant kingdom forming major components of middle lamella are referred as pectinases
The pectinases include polygalacturonases, pectic esterases, pectin lyases, and pectate lyases depending on their mode of action [1]
This paper reports in silico characterization of pectate lyase protein sequences from different source organisms for homology search, multiple sequence alignment, phylogenetic
Summary
The enzymes hydrolyzing pectic substances ubiquitously present in the plant kingdom forming major components of middle lamella are referred as pectinases. Dassonvillei DSM 43111], AAZ56201.1[Thermobifida fusca YX], AAW84086.1[Bacillus halodurans], ACD11362.1[Bacillus pumilus], AAC38059.1[Pseudonocardia sp.], ZP 04608172.1[Micromonospora sp ATCC 39149], ZP 05021985.1[Streptomyces sviceus ATCC 33406], YP 677777.1[Cytophaga hutchinsonii ATCC 33406], CAA43401.1[Pectobacterium carotovorum], CAA47821.1[Erwinia chrysanthemi], ABF59812.1[Erwinia sp.
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