Post-transcriptional regulation of a salt-inducible alfalfa gene encoding a putative chimeric proline-rich cell wall protein.

Abstract

A cDNA previously shown to identify a salt-inducible root-specific transcript in Medicago sativa was used to screen an alfalfa library for the corresponding genomic sequence. One positive clone was recovered. The nucleotide sequence of a subclone contained a 329 bp 5' region upstream of the first ATG codon, a 1143 bp coding segment, and a 447 bp 3'-untranslated region interrupted by a single 475 bp intron. Translation of the coding segment, which was designated MsPRP2, suggested it encodes a chimeric 40,569 Da cell wall protein with an amino-terminal signal sequence, a repetitive proline-rich sequence, and a cysteine-rich carboxyl-terminal sequence homologous to nonspecific lipid transfer proteins. The 3'-untranslated region of MsPRP2 contained a sequence similar to one found to destabilize mRNAs transcribed from the elicitor-regulated proline-rich protein gene PvPRP1. Transcription run-on experiments using nuclei from salt-sensitive and salt-tolerant alfalfa callus suggested that the accumulation of MsPRP2 transcripts in salt-tolerant alfalfa cells grown in the presence of salt is due primarily to increased mRNA stability. The MsPRP2 gene thus may be a useful model for studying post-transcriptional salt-regulated expression of cell wall proteins.