Primary structure of a lipoxygenase from barley grain as deduced from its cDNA sequence.

A full length cDNA sequence for a barley grain lipoxygenase was obtained. It includes a 5' untranslated region of 69 nucleotides, an open reading frame of 2586 nucleotides encoding a protein of 862 amino acid residues and a 3' untranslated region of 142 nucleotides. The molecular mass of the encoded polypeptide was calculated to be 96.392. Its amino acid sequence shows a high homology with that of other plant lipoxygenases identified to date.

Expression of biologically active hordothionins in tobacco. Effects of pre- and pro-sequences at the amino and carboxyl termini of the hordothionin precursor on mature protein expression and sorting.

Hordothionins (HTHs) are small anti-bacterial proteins present in barley endosperm which are processed from larger precursor proteins, consisting of an amino-terminal signal peptide (SP), the mature highly basic HTH and a carboxy-terminal acidic peptide (AP). Different HTH precursor proteins were expressed in tobacco to study the effects of the pre-sequences (SP) and pro-sequences (AP) on expression, processing, sorting and biological activity and hence the feasibility of engineering bacterial disease resistance into crops which lack these proteins. Maximum HTH expression levels of approximately 0.7% (11 mumol/kg) of total soluble protein in young tobacco leaves were obtained using a semi-synthetic gene construct encoding a complete chimaeric HTH precursor protein. Tenfold lower HTH expression levels (maximum 1.3 mumol/kg) were obtained using synthetic gene constructs without the AP-coding sequence and no expression was found in plants containing synthetic HTH gene constructs without SP- and AP-coding sequences. In both cases where expression was found, the precursors were apparently correctly processed, although the HTH produced in plants containing a construct without AP sequence appeared to be slightly modified. No effect on plant phenotype was observed. Localization studies indicated that the HTH was in identical fractions of plants expressing the two different precursors, albeit at a different ratio, and was not secreted into the intercellular spaces of leaves or culture medium by protoplasts. Our results indicated that the AP is not involved in sorting and suggested that it might facilitate transport through membranes. The in vitro toxicity of HTH isolated from transgenic tobacco plants expressing the two different precursor proteins for the bacterial plant pathogen Clavibacter michiganensis subsp. michiganensis appeared similar to that of the HTH purified from barley endosperm.

Detection of GTP-binding proteins in barley aleurone protoplasts.

We report the existence of several families of GTP-binding proteins in barley aleurone protoplasts. Partial purified plasma membrane proteins were separated by SDS-PAGE, transferred to a nitrocellulose filter and incubated with either antisera raised against a highly conserved animal G protein alpha subunit peptide/or Ras protein, or with [alpha-32P]GTP. Two sets of proteins of M(r) = 32-36 kDa and 22-24 kDa were strongly recognized by the antisera. Binding of [alpha-32P]GTP was detected on Western blots with proteins of M(r) = 22-24 kDa and 16 kDa. Binding was inhibited by 10(-7)-10(-6) M GTP gamma S, GTP or GDP; binding was not affected by 10(-6)-10(-5) M ATP gamma S or ADP. The kinetics, specificity and the effects of phytohormones in a [35S]GTP gamma S binding assay were also studied in isolated plasma membranes of barley aleurone protoplasts.

Microspore culture of Hordeum vulgare L.: the influence of density and osmolality.

Donor plants of Hordeum vulgare L. cv. Igri were grown in a conditioned environment to minimise fluctuations in the composition of the microspore population. After isolation different types of microspores were identified within each population, amongst others an embryogenic subpopulation. It was shown that the optimum plating density is achieved by adjusting the density to 2×10(4) embryogenic microspores per ml, with a lower threshold at 5×10(3) per ml. By increasing the osmolality of the pretreatment solution to 440 mOs.kg(-1) and that of the culture medium to 350 mOs.kg(-1), up to 15% of the population developed into embryo-like structures. When microspores of cv. Igri were cultured under the optimized conditions, the ratio of green/albino plants increased from 1∶1 to 34∶1, and 50 green plants per anther were formed.

Analysis of the region in between two closely linked patatin genes: class II promoter activity in tuber, root and leaf.

From a potato genomic library a phage lambda clone was isolated that carried nucleotide sequences of two patatin genes, thus demonstrating a close physical linkage between these two members of the patatin gene family. Sequence and restriction analysis showed the genes to be oriented in tandem. The more upstream gene was a pseudogene truncated at the 3' end, whereas the downstream gene was a class II patatin gene. In addition to a 208 bp fragment also present in patatin class I promoters, the region in between both genes contained various direct repeats also found in other patatin genes. To study the promoter activity of this intergenic region, a 2.78 kb fragment was transcriptionally fused to the beta-glucuronidase gene and reintroduced into potato cultivar Bintje. Histochemical analysis revealed expression in the outermost layer of cells of the cortex, in the tuber phellogen, in or around the root vascular system, and also in the abaxial phloem layer of the vascular bundle in leaves.

Introduction of foreign genes into potato cultivars Bintje and Désirée using an Agrobacterium tumefaciens binary vector.

Tuber discs of Solanum tuberosum cv Bintje and Désirée were cocultivated with an Agrobacterium tumefaciens binary vector, carrying both the neomycine phosphotransferase and the E. coli ß-glucuronidase gene fused to resp. the nopaline synthase and Cauliflower mosaic virus 35S promotor.Inoculated tuber discs produce transgenic shoots in selective media containing kanamycin. The transgenic plants are phenotypically normal and contain the euploid number of chromosomes. Both the neomycin phosphotransferase as well as the ß-glucuronidase gene are expressed conferring resp. kanamycin resistance and ß-glucuronidase activity to the plants.

Molecular cloning and analysis of four potato tuber mRNAs.

Tuberization in potato is a complex developmental process involving the expression of a specific set of genes leading to the synthesis of tuber proteins. We here report the cloning and analysis of mRNAs encoding tuber proteins. From a potato tuber cDNA library four different recombinants were isolated which hybridized predominantly with tuber mRNAs. Northern blot hybridization experiments showed that three of them, pPATB2, p303 and p340, can be regarded as tuber-specific while the fourth, p322, hybridizes to tuber and stem mRNA. Hybrid-selected in vitro translation and nucleotide sequence analysis indicate that pPATB2 and p303 represent patatin and the proteinase inhibitor II mRNA respectively. Recombinant p322 represents an mRNA encoding a polypeptide having homology with the soybean Bowman-Birk proteinase inhibitor while p340 represents an mRNA encoding a polypeptide showing homology with the winged bean Kunitz trypsin inhibitor. In total, these four polypeptides constitute approximately 50% of the soluble tuber protein. Using Southern blot analysis of potato DNA we estimate that these mRNAs are encoded by small multigene families.

Nucleotide sequence of the Agrobacterium tumefaciens octopine Ti plasmid-encoded tmr gene.

The nucleotide sequence of the tmr gene, encoded by the octopine Ti plasmid from Agrobacterium tumefaciens (pTiAch5), was determined. The T-DNA, which encompasses this gene, is involved in tumor formation and maintenance, and probably mediates the cytokinin-independent growth of transformed plant cells. The nucleotide sequence of the tmr gene displays a continuous open reading frame specifying a polypeptide chain of 240 amino acids. The 5'- terminus of the polyadenylated tmr mRNA isolated from octopine tobacco tumor cell lines was determined by nuclease S1 mapping. The nucleotide sequence 5'-TATAAAA-3', which sequence is identical to the canonical "TATA" box, was found 29 nucleotides upstream from the major initiation site for RNA synthesis. Two potential polyadenylation signals 5'-AATAAA-3' were found at 207 and 275 nucleotides downstream from the TAG stopcodon of the tmr gene. A comparison was made of nucleotide stretches, involved in transcription control of T-DNA genes.

Nucleotide sequences at the phi X gene A protein cleavage site in replicative form I DNAs of bacteriophages U3, G14, and alpha 3.

Gene A protein, a bacteriophage phi X174-encoded endonuclease involved in phi X replicative form (RF) DNA replication, nicks not only phi X RFI DNA but also RFI DNAs of several other spherical single-stranded DNA bacteriophages. The position of the phi X gene A protein nick and the nucleotide sequence surrounding this site in RF DNAs of the bacteriophages U3, G14, and alpha 3 were determined. Comparison of the nucleotide sequences which surround the nick site of the gene A protein in RF DNAs of phi X174, G4, St-1, U3, G14, and alpha 3 revealed that a strongly conserved 30-nucleotide stretch occurred in RF DNAs of all six phages. However, perfect DNA sequence homology around this site was only 10 nucleotides, the decamer sequence CAACTTGATA. The present results support the hypothesis that, for nicking of double-stranded supercoiled DNA by the phi X gene A protein, the presence of the recognition sequence CAACTTGATA and a specific gene A protein binding sequence upstream from the recognition sequence are required. The sequence data obtained so far from phages U3, G14, St-1, and alpha 3 have been compared with the nucleotide sequences and amino acid sequences of both phi X and G4. According to this comparison, the evolutionary relationship between phages G4, U3, and G14 is very close, which also holds for phages alpha 3 and St-1. However, the two groups are only distantly related, both to each other and to phi X.

Construction and characterization of recombinant plasmid DNAs containing sequences of the origin of bacteriophage phi X174 DNA replication.

The synthetic DNA fragment (formula, see text) (corresponding to nucleotides 4299-4314 of the phi X DNA sequence) was cloned into either the AmpR gene or the KmR gene of plasmid pACYC 177. The DNA sequence of the KmR gene around the insertion site was determined by nucleotide sequence analysis of the pACYC 177 FnudII restriction DNA fragment N6 (345 b.p.). Of five selected plasmid DNAs, which contained inserted DNA sequences in the antibiotic resistance genes, the nucleotide sequences at and around these insertions were determined. Two recombinant plasmids (pFH 704 and pFH 614) contain the hexadecamer sequence in tandem (tail-to-tail and tail-to-head). In the recombinant plasmids pFH 812, pFH 903 and pFH 807 the DNA sequence homology with the phi X origin region was 14 (No. 4300-4313), 16 (No. 4299-4314) and 20 nucleotides (No. 4299-4318), respectively. None of the supercoiled recombinant plasmid DNAs is nicked upon incubation with phi X gene A protein. Moreover, the recombinant plasmid RFI DNAs cannot act as substitutes for phi X RFI DNA in the in vitro (+) strand synthesizing system. It has been shown earlier that single-stranded DNA, which contains the decamer sequence CAACTTGATA is efficiently nicked by the phi X gene A protein. The present results indicate that for nicking of double-stranded supercoiled DNA nucleotide sequence homology with the phi X origin region of more than 20 nucleotides is required. These results suggest a model for initiation of phi X RF DNA replication, which involves the presence of the recognition sequence CAACTTGATA of the phi X gene A protein as well as a second specific nucleotide sequence which is required for the binding of the phi X gene A protein. This binding causes local unwinding of the DNA double helix and exposure of the recognition sequence in a single-stranded form, which then can be nicked by phi X gene A protein.

Studies of the recognition sequence of phi X174 gene A protein. Cleavage site of phi X gene A protein in St-1 RFI DNA.

It is already known that phi X gene A protein converts besides phi X RFI DNA also the RFI DNAs of the single-stranded bacteriophages G4, St-1, alpha 3 and phi K into RFII DNA. We have extended this observations for bacteriophages G14 and U3. Restriction enzyme analysis placed the phi X gene A protein cleavage site in St-1 RF DNA in the HinfI restriction DNA fragment F10 and in the overlapping HaeIII restriction DNA fragment Z7. The exact position and the nucleotide sequence at the 3'-OH end of the nick were determined by DNA sequence analysis of the single-stranded DNA subfragment of the nicked DNA fragment F10 obtained by gelelectrophoresis in denaturing conditions. A stretch of 85 nucleotides of St-1 DNA around the position of the phi X gene A protein cleavage site was established by DNA sequence analysis of the restriction DNA fragment Z7F1. Comparison of this nucleotide sequence with the previously determined nucleotide sequence around the cleavage site of phi X gene A protein in phi X174 RF DNA and G4 RF DNA revealed an identical sequence of only 10 nucleotides. The results suggest that the recognition sequence of the phi X174 gene A protein lies within these 10 nucleotides.

Topographical analysis of yeast ribosomal DNA by cleavage with restriction endonucleases.

Yeast ribosomal DNA (rDNA) was digested with the restriction enzymes Hind III, Hind II and a mixture of Hind II and Hind III. The cleavage products were analyzed by electrophoresis on 1.5% agarose gels. Several distinct bands could be observed, which are derived from the redundant ribosomal transcription units. They are superimposed on a rather broad smear of background DNA, representing the heterogenous 'spacer' sequences. From the restriction maps, together with data obtained by partial digestion, a physical map for the ribosomal transcription unit in yeast could be constructed.