A wound-inducible gene from Salix viminalis coding for a trypsin inhibitor

Abstract

A gene designated swin1.1 has been isolated by screening a Salix viminalis genomic library with a heterologous probe, win3 from Populus. The region sequenced included the entire coding sequence for a protein with 199 amino acids plus the promoter and terminator. At the 5' end of the coding region is a sequence that encodes a hydrophobic region of 25-30 amino acids, that could form a signal peptide. A putative TATAA box and polyadenylator sequence were identified. Introns were absent. The gene product showed similarities with serine protease inhibitors from the Kunitz family and especially with win3 from wounded leaves of Populus. Southern blot analysis indicated that swin1.1 is a member of a clustered gene family, swin1. An oligonucleotide corresponding to the putative hypervariable region towards the carboxyl end when used as a probe in Southern hybridization showed high specificity for swin1.1. Expression of the swin1.1 gene was enhanced in wounded leaves. The swin1.1 coding region without the signal sequence was highly expressed in Escherichia coli and the protein showed inhibitory activity against trypsin but at most slight activity against the other proteases tested. A systemically induced protein, SVTI, with inhibitor activity against trypsin, was isolated from Salix leaves by affinity chromatography on a column of trypsin-Sepharose 4B and N-terminal sequenced. It corresponded with the translated swin1.1 gene at 16 of the 19 amino acid sites, suggesting that SVTI is encoded by another member of the swin1 gene family.