Synthesis of the peptide-transport carrier of barley scutellum during the early stages of germination

Expression analyses of Arabidopsis oligopeptide transporters during seed germination, vegetative growth and reproduction

AtOPT promoter-GUS fusions were constructed for six of the nine known, putative oligopeptide transporters (OPTs) in Arabidopsis thaliana and used to examine AtOPT expression at various stages of plant development. AtOPT1, AtOPT3, AtOPT4, AtOPT6 and AtOPT7 were expressed in the embryonic cotyledons prior to root radicle emergence. Except for AtOPT8, which gave weak expression, all AtOPTs were strongly expressed in post-germinative seedlings with strongest expression in vascular tissues of cotyledons and hypocotyls. Preferential expression of AtOPTs in vascular tissues was also observed in cotyledons, leaves, hypocotyls, roots, flowers, siliques, and seed funiculi of seedlings and adult plants. Differential tissue-specific expression was observed for specific AtOPTs. For example, AtOPT1, AtOPT3 and AtOPT8 were uniquely expressed in pollen. Only AtOPT1 was expressed in growing pollen tubes, while only AtOPT6 was observed in ovules. AtOPT8 was transiently expressed in seeds during early stages of embryogenesis. Iron limitation was found to enhance expression of AtOPT3. These data suggest distinct cellular roles for specific AtOPTs including nitrogen mobilization during germination and senescence, pollen tube growth, pollen and ovule development, seed formation and metal transport.

Cloning and functional characterisation of a peptide transporter expressed in the scutellum of barley grain during the early stages of germination

A peptide transport gene (HvPTR1) expressed in the scutella of germinating barley grain has been cloned by an RT-PCR approach. Sequence analysis of the full length cDNA (2260 bp) revealed an open reading frame encoding a 579 amino acid protein of predicted molecular mass 63 kDa, which displayed 58% identity to the Arabidopsis thaliana peptide transporter AtPTR2-B. Expression of HvPTR1 in Xenopus laevis oocytes conferred a 48-fold increase in alanyl-[14C]phenylalanine uptake relative to water injected oocytes, confirming the function of HvPTR1 as a peptide transporter. HvPTR1 expression was detectable only in the scutellum of the germinating barley grain, with no transcript found in roots, shoots or the embryo axis. Transcript levels increased rapidly from 6 to 24 h imbibition, correlating with the development of peptide transport activity in the barley scutellum. Peptide transport provides a significant source of organic nitrogen to the barley embryo for use in germination and growth processes associated with the early stages of seedling development. The temporal and spatial pattern of HvPTR1 expression is consistent with a central role for HvPTR1 in the transport of peptides in the germinating barley grain.

Isolation and identification of proteins from the peptide-transport carrier in the scutellum of germinating barley (Hordeum vulgare L.) embryos

Peptide-transport proteins, intrinsic to the epithelial plasmalemmae of the scutella of germinating barley (Hordeum vulgare L.) embryos, have been selectively labelled with p-chloro-[(203)Hg]mercuribenzenesulphonate using both a substrate-screening technique and a procedure developed to label exclusively vicinal dithiol groups, which were shown previously (Walker-Smith and Payne, 1983, FEBS Lett. 160, 25-30) to be essential components of the peptide-transport system. After radioactive labelling, proteins from the scutellar membranes have been solubilised with lithium diiodosalicylate plus sodium dodecyl sulphate and separated by using polyacrylamide gel electrophoresis. Fluorography and silver staining of these gels has for the first time allowed identification of two presumptive components of the peptide-transport system. These components only become detectable in an extract of the scutellar epithelia after 15 h imbibition, concomitant with a dramatic increase in peptide-transport activity, and they remain present at least 3 d after the onset of germination. [(35)] Methionine was shown to be incorporated into these proteins between 15-20 h after imbibition, but its incorporation during a similar 5 h period into scutella isolated after 3 d was undetectable, implying a slow turnover of these proteins during the later stages of germination.