Isolation and characterization of a water-stress-inducible cDNA clone from Solanum chacoense

A rich source of valuable genes are wild species. Solanum chacoense Bitter with its extreme resistance to viruses, insects and drought, is a good example.In the present study, a stress gene, designated DS2, has been isolated from S. chacoense. We have shown that the expression of the gene is organ-specific being detected in leaf, stem and stolon, but not in root, tuber or flower. Treatment of detached leaves with abscisic acid (ABA), salicylic acid or methyl jasmonate resulted in only very moderate accumulation of DS2 mRNA. Thus, DS2 represents a very rare type of the water-stress-inducible genes whose signalling pathway is not primarily related to ABA.Based on DNA sequence analysis, DS2 encodes a putative protein starting with 20 amino acids homologous to the ABA- and water-stress-inducible, ripening-related (ASR) proteins of tomato continued by an insert of 155 amino acids structurally similar to certain LEAs (late embryogenesis-abundant proteins) and ending in 88 amino acids homologous again to the ASR sequences and to an unpublished partial cDNA fragment isolated from the root of rice. The N-terminal region of the DS2 protein is hydrophilic with ten 13-mer amino acid motifs and random coil structure. In contrast, the C-terminus predicts an -helix and possesses a bipartite nuclear targeting sequence motif. These data suggest that the function of the DS2 may be the protection of the nuclear DNA from desiccation.     

cDNA cloning and developmental expression of pea nodulin genes

A cDNA library prepared from pea nodule poly(A)⁺ RNA was screened by differential hybridization with cDNA probes synthesized from root and nodule RNA respectively. From the cDNA clones that hybridized exclusively with the nodule probe five clones, designated pPsNod 6, 10, 11, 13 and 14 and each containing unique sequences, were further characterized together with one leghemoglobin and one root-specific cDNA clone. In vitro translation of RNA selected by the pPsNod clones showed that the corresponding genes encode nodulins with molecular weights ranging from 5 800 to 19 000. During pea root nodule development expression of the five PsNod genes starts more or less concomitantly with the onset of nitrogen fixing activity in the nodules and the time course of appearance and accumulation of the nodulin mRNAs is similar to that of leghemoglobin mRNA. In ineffective pea root nodules expression of the PsNod genes is induced but the final accumulation levels of the mRNAs are markedly reduced to various degrees. The expression of another nodulin gene, designated ENOD2, was followed using a heterologous soybean cDNA clone as probe. In pea root nodules the ENOD2 gene is expressed at least five days before the PsNod and leghemoglobin genes, and in contrast to the PsNod mRNAs the concentration of the ENOD2 mRNA is the same in wild type and fix ^- nodules. The results described suggest that in root nodules several regulatory mechanisms exist which determine the final nodulin mRNA amounts accumulating in the root nodule.     

Isolation and characterization of a fruit-specific cDNA and the corresponding genomic clone from tomato

Differential screening of a cDNA bank constructed from ripe tomato fruit mRNA allowed the isolation of cDNA clone 2A11 which is entirely fruit-specific, is expressed at steadily increasing levels from anthesis to breaker, and accounts for approximately 1% of the messenger RNA in mature tomato fruit. A genomic clone corresponding to the 2A11 cDNA was isolated from a tomato genomic library. Sequence comparison of the cDNA clone with the genomic clone shows they are identical over the shared region with the genomic clone possessing a single large intron near the 5 end of the message.The open reading frame of 2A11 would encode a sulfur-rich polypeptide 96 amino acids in length. The identity of the putative protein is unknown. In situ hybridization shows that the 2A11 message is found throughout the pericarp cells in a tomato fruit. In contrast, in situ hybridization of early ripening stages with a polygalacturonase probe shows higher mRNA levels in cells of the outer pericarp and cells surrounding the vascular regions of the pericarp.     

Isolation of a cDNA encoding a homologue of actin from Porphyra yezoensis (Rhodophyta)

We report the nucleotide sequence of a cDNA encoding an actin from amarine red alga, Porphyra yezoensis Ueda. A cDNA clone wasisolated from a leafy gametophyte cDNA library and analyzed for the sequence.The clone contained an open reading frame for a protein of 373 amino acidswhichexhibits sequence similarity to known actins. The GC content of the thirdposition (83.9%) was much higher than that at the first (56.3%) and second(42.4%) positions. The actin forms a gene family in the P.yezoensis genome. Comparison of the deduced amino acid sequenceshowed higher similarity to the Florideophycidae Chondruscrispus (85%) than to the ProtoflorideophycidaeCyanidioschyzon merolae (70%). The mRNA was detected inboth the leafy gametophytes and filamentous sporophytes. The nucleotidesequence data reported in this paper will appear in theDDBJ/EMBL/GenBank databases under accession number AB039831.     

Isolation and characterization of a cDNA clone encoding the anti-viral protein from Phytolacca americana

Phytolacca anti-viral protein (PAP) was purified from Phytolacca leaves and the N-terminal was sequenced. A cDNA library was made from mRNAs isolated from Phytolacca leaves and cDNA clones for PAP were identified using oligonucleotide probes derived from the N-terminal amino acid sequence. The PAP-cDNA clone was sequenced from both directions. The predicted amino acid sequence of PAP was compared with the amino acid sequences of other ribosome-inactivating proteins. The identities of these proteins to PAP ranged from 29 to 38%, and a region was found in each with a sequence similar to the PAP sequence (AIQMVSEAARFKYI). Southern blot analysis indicates that PAP is encoded by a multi-gene family.Abbreviations MAP Mirabilis jalapa anti-viral protein - PAP Phytolacca anti-viral protein - SO6 30 kDa ribosome-inactivating protein from the seeds of Saponaria officinalis     

Isolation and analysis of a cDNA clone that encodes an alfalfa (Medicago sativa) aspartate aminotransferase

Summary Nitrate reductase (NR) assays revealed a bi-specific NAD(P)H-NR (EC 1.6.6.2.) to be the only nitrate-reducing enzyme in leaves of hydroponically grown birches. To obtain the primary structure of the NAD(P)H-NR, leaf poly(A)⁺ mRNA was used to construct a cDNA library in the lambda gt11 phage. Recombinant clones were screened with heterologous gene probes encoding NADH-NR from tobacco and squash. A 3.0 kb cDNA was isolated which hybridized to a 3.2 kb mRNA whose level was significantly higher in plants grown on nitrate than in those grown on ammonia. The nucleotide sequence of the cDNA comprises a reading frame encoding a protein of 898 amino acids which reveals 67%–77% identity with NADH-nitrate reductase sequences from higher plants. To identify conserved and variable regions of the multicentre electron-transfer protein a graphical evaluation of identities found in NR sequence alignments was carried out. Thirteen well-conserved sections exceeding a size of 10 amino acids were found in higher plant nitrate reductases. Sequence comparisons with related redox proteins indicate that about half of the conserved NR regions are involved in cofactor binding. The most striking difference in the birch NAD(P)H-NR sequence in comparison to NADH-NR sequences was found at the putative pyridine nucleotide binding site. Southern analysis indicates that the bi-specific NR is encoded by a single copy gene in birch. These sequence data appeared in the EMBL/GenBank/DDBJ nucleotide sequence data bases under the accession number X54097     

Isolation and genotype-dependent, organ-specific expression analysis of a Rhodiola rosea cDNA encoding tyrosine decarboxylase

Tyrosine decarboxylase (TyrDC) is an important enzyme in the secondary metabolism of several plant species, and was hypothesized to play a key role in the biosynthesis of salidroside, a pharmacologically valuable compound of roseroot. A 1520 bp cDNA was cloned and sequenced, and turned out to contain an ORF of 963 bp, which encodes a protein of 320 amino acids.The expression of the gene was studied by real-time PCR from leaves and roots of both high and low salidroside producer genotype of roseroot. The gene expression analysis showed the gene to be expressed in leaves as well as in roots; however, the expression was significantly higher in roots, which coincides with the fact that salidroside accumulates preferentially in the underground parts of the plant. The expression was also higher in the line accumulating high levels of salidroside, compared to the line with lower salidroside content. The difference in the expression intensity suggests a decisive role for this enzyme in the salidroside biosynthesis.     

Isolation and characterization ofo-diphenol-O-methyltransferase cDNA clone in hot pepper (Capsicum annuum L.)

A cDNA clone,CaOMTl encoding ano-diphenol-O-methyltransferase (OMT), which is involved in capsaicin biosynthesis, was isolated by screening of a cDNA library prepared from the mRNA of pepper (Capsicum annuum L.) pericarp. Nucleotide sequence analysis ofCaOMTl revealed that it had an open reading frame of 1080 bp which encodes a polypeptide with a predicted molecular weight of 39,430 D, corresponding well with the size of the known OMT’s of tobacco, poplar, aspen, alfalfa, and cabbage. It also had five conserved boxes which appear in all known OMT’s. The nucleotide sequence ofCaOMTl had 89–74% identity with the OMT cDNA’s of tobacco, aspen, alfalfa, and poplar, but a relatively lower identity of 59% with the OMT cDNA of maize. Amino acid sequence analysis also revealed that CaOMT1 has high identity with the known OMT’s which have a substrate ofo-diphenolic compounds, especially 5-hydroxyferulic acid and caffeic acid. It supportsCaOMTl which encodes an OMT. Southern blot analysis suggested thatCaOMTl might exist in the form of multiple copies in the pepper genome.CaOMTl is expressed preferentially in pepper fruit and its expression levels increased during pepper fruit development, but decreased during fruit ripening, suggesting that theCaOMTl gene is fruit development-related.CaOMTl is the first reported cDNA clone for enzymes related to the phenlypropanoid pathway in pepper.     

Isolation and characterization of a cDNA from flowers of Cynara cardunculus encoding cyprosin (an aspartic proteinase) and its use to study the organ-specific expression of cyprosin

Poly(A)⁺ RNA isolated from flower buds of Cynara cardunculus has been used to prepare a cDNA library. Screening of the cDNA after expression of cloned DNA with antibodies raised against the large subunit of cyprosin 3 resulted in the isolation of six positive clones. One of these clones (cypro1s; a 1.7 kb Eco RI fragment) codes for cyprosin. The nucleotide sequence contain a 1419 bp open reading frame coding for 473 amino acids (aa) including a putative full-length mature protein (440 aa) and a partial prosequence (33 aa). Cypro1s contains a 162 bp 3 non-coding region followed by a poly(A) tail. The deduced amino acid sequence shows high homology to other plant aspartic proteinases. The homology to mammalian and microbial aspartic proteinases is somewhat lower. Plant aspartic proteinases contain an insert of around 100 aa. We are modelling where this plant-specific insert will appear in the structure of cyprosin. Using cypro1s as a probe in northern blot analysis, the expression of cyprosin in developing flowers and other tissues has been studied. The signal on the northern blot increased for RNA samples from early (flower buds 6 mm in length) to later stages of floral development (flower buds up to 40 mm in length). In late stages of floral development (open flowers 50 mm in length and styles from such flowers) no hybridization signal was visualized showing that the synthesis of mRNA encoding the cyprosin starts in early stages of floral development and switches off at maturation of the flower. Southern blot analysis of genomic DNA showed 4–5 strong hybridizing bands and several minor bands indicating that the cyprosin genes are organized as a multi-gene family in C. cardunculus.     

Isolation and characterization of a tobacco cDNA clone encoding a putative MAP kinase

We have isolated and sequenced a MAP (mitogen-activated protein) kinase-type cDNA from a tobacco (Nicotiana tabacum L.) cell suspension cDNA library by screening with a PCR fragment amplified from the same library with oligonucleotide primers corresponding to two sequences conserved in yeast and animal MAP kinases. The tobacco sequence, ntf3, shows 45–54% identity to various members of the MAP kinase family at the protein level. Northern experiments showed that ntf3 is expressed in all tobacco tissues tested, including pollen isolated at different developmental stages. Southern analysis indicated that, as in other organisms, there is a family of MAP kinase genes in tobacco. In complementary tests, ntf3 could not substitute the yeast MAP kinase genes fus3 and kss1.