Ecotype dependent expression and alternative splicing of epithiospecifier protein (ESP) in Arabidopsis thaliana.

Epithiospecifier protein (ESP) is responsible for diverting glucosinolate hydrolysis from the generation of isothiocyanates to that of epithionitriles or nitriles, and thereby negatively affects the ability of the plant to defend itself against certain insects. Despite this important role of ESP, little is known about its expression in plant tissues and the regulation thereof. We therefore investigated ESP expression by qPCR and Western blot in different organs during the growth cycle of the two Arabidopsis thaliana ecotypes Col-0 and Mt-0. Besides the fact that ESP transcript and protein levels were revealed to be much higher in Mt-0 than in Col-0 in all cases, our qPCR results also indicated that ESP expression is regulated differently in the two A. thaliana ecotypes. No ESP protein was detected by Western blot in any organ or developmental stage for Col-0. During the assays an alternative splice variant of ESP was identified in Col-0, but not Mt-0, leading to a mis-spliced transcript which could explain the low expression levels of ESP in the former ecotype. Analysis of genomic sequences containing the ESP splice sites, of ESP protein level and ESP activity from seven A. thaliana ecotypes showed a positive correlation between the presence of a non-canonical 5' splice site for ESP and the absence of detectable ESP protein levels and ESP activity. When analysing the expression of both transcript variants in Col-0 after treatment with methyl jasmonate, a condition known to "induce ESP", it was indeed the alternative splice variant that was preferentially induced.

Molecular cloning and characterization of the enzyme UDP-glucose: protein transglucosylase from potatodaggerdaggerThis paper is specially dedicated to the memory of Dr Juana S. Tandecarz, deceased on December 10, 1996.

UDP-Glc:protein transglucosylase (UPTG) (EC 2.4.1.112) is an autocatalytic glycosyl-transferase previously postulated as a protein that primes starch biosynthesis. Polyclonal antibodies raised against UPTG purified from potato (Solanum tuberosum L.) tubers were used to screen a potato swelling stolon tip cDNA expression library. The isolation, cloning and sequencing of two cDNAs corresponding to UPTG are described. Recombinant UPTG was labelled after incubation with UDP-[(14)C]-Glc and Mn(2+), indicating that it was enzymatically active. It was determined that purified as well as recombinant UPTG can be reversibly glycosylated by UDP-Glc, UDP-Xyl or UDP-Gal. RNA hybridization studies and western blot analysis indicate that UPTG mRNA and protein are expressed in all potato tissues. Databank searches revealed a high degree of identity between UPTG and several plant sequences that encode for proteins with apparent localization at the cytoplasmic face of the Golgi apparatus and at plasmodesmata. The biochemical properties of UPTG and the apparent lack of a signal peptide that could allow its entrance into plastids argue against the postulated role of UPTG in starch synthesis and point towards a possible role of the protein in the synthesis of cell wall polysaccharides.