Molecular and computational approaches to characterize thermostable laccase gene from two xerophytic plant species.

Laccases are blue multicopper oxidases that carry out single electron transfers in the oxidation of phenols to quinones. In plants, they confer structural stability to the cell wall. Thermostable laccases were identified in xerophytes Cereus pterogonus and Opuntia vulgaris that could be used in biotechnology and industrial processes. Polyclonal anti-laccase antibodies were generated against purified laccase enzyme isoforms capable of 98-99% inhibition of the catalytic activity. Antibodies raised against lower molecular weight isoforms inhibited 70% of the catalytic activity of higher molecular forms. Only 20% inhibition was noted when assayed in reverse. A partial gene sequence of thermostable xerophytic laccase comprising 712 and 880 bp was identified employing cDNA as template. The nucleotide sequence was submitted to GenBank. The gene sequence was in silico translated into protein sequence and a 3-D structure was predicted using I-Tasser and Genesilico online servers that justified the experimental observations. Anti-laccase antibodies and nucleotide gene sequence of this thermostable plant laccase can be utilized for predicting laccase antigenic sequences and for cloning and expression of the thermostable eukaryotic laccase.