Tobacco proteinase inhibitor I genes are locally,but not systemically induced by stress

A cDNA library of tobacco mosaic virus (TMV)-infected tobacco was screened with polymerase chain reaction products obtained using a degenerate primer corresponding to proteinase inhibitor I (PI-I) of tomato and potato. The resulting clones encoded two highly similar, putative tobacco PI-I proteins, indicating that both genes identified in tobacco are probably expressed. The tobacco PI-I's were approximately 50% identical to wound-inducible potato and tomato PI-I and 80% identical to an ethylene-regulated tomato PI-I. Northern blot analyses indicated that healthy tobacco leaf contains only minor amounts of PI-I mRNA, and that the inhibitor genes are induced by TMV infection, salicylate treatment, ethephon spraying, UV light irradiation and wounding. The results indicate that the tobacco PI-I genes are coordinately expressed with the genes for the basic pathogenesis-related proteins. Contrary to PI-I genes of tomato and potato, wound induction of the tobacco genes occurs only locally; the upper, unwounded leaves do not show any wound-induced PI-I gene expression.     

Organisation and expression of a wound/ripening-related small multigene family from tomato

cDNA clones derived from a ripe tomato fruit cDNA library were used to investigate changes in the abundance of specific mRNAs in ripening fruit and wounded leaves. mRNAs related to one cDNA clone (pTOM 13) were expressed in both situations. This clone was used to identify homologous sequences in a tomato genomic library. Three groups of related clones that hybridised to the pTOM 13 cDNA insert were identified and subcloned into plasmid vectors. Genomic Southern analysis of tomato DNA using gene-specific DNA fragments isolated from the subcloned DNAs indicated that all pTOM 13 closely related genes had been isolated. RNA dot blot analysis with these DNA fragments as probes indicated differential expression of this small multigene family in leaves and fruit.     

利用抑制差减杂交技术分离马铃薯晚疫病抗性相关基因

以晚疫病病原菌混合小种接种处理48h的马铃薯水平抗性材料(R-gene-free)叶片为目的材料,以未处理材料作为对照,用抑制差减杂交技术构建了一个富集晚疫病抗性相关基因的差减文库。应用反向Northern技术对840个克隆进行斑点杂交筛选,筛选出150个病原诱导后信号明显增强的克隆。26个片段测序结果表明：部分片段基因功能与抗病性明显相关。7个差异表达片段与GenBank EST数据库中已有晚疫病原诱导马铃薯叶片得到的EST有很高同源性(达95％～100％);部分片段核苷酸或氨基酸序列分别与番茄、烟草、拟南芥等的EST序列或氨基酸序列有较高同源性;另有4个基因片段在GenBank EST数据库中未找到明显的同源序列,可能为新发现的基因片段。     

Biochemical characterization of the suberization-associated anionic peroxidase of potato.

The anionic peroxidase associated with the suberization response in potato (Solanum tuberosum L.) tubers during wound healing has been purified and partially characterized at the biochemical level. It is a 45-kD, class III (plant secretory) peroxidase that is localized to suberizing tissues and shows a preference for feruloyl (o-methoxyphenol)-substituted substrates (order of substrate preference: feruloyl > caffeoyl > p-coumaryl approximately syringyl) such as those that accumulate in tubers during wound healing. There was little influence on oxidation by side chain derivatization, although hydroxycinnamates were preferred over the corresponding hydroxycinnamyl alcohols. The substrate specificity pattern is consistent with the natural substrate incorporation into potato wound suberin. In contrast, the cationic peroxidase(s) induced in response to wound healing in potato tubers is present in both suberizing and nonsuberizing tissues and does not discriminate between hydroxycinnamates and hydroxycinnamyl alcohols. A synthetic polymer prepared using E-[8-(13)C]ferulic acid, H(2)O(2), and the purified anionic enzyme contained a significant amount of cross-linking through C-8, albeit with retention of unsaturation.     

A tomato cDNA inducible by salt stress and abscisic acid: nucleotide sequence and expression pattern

We have characterized a new tomato cDNA, TAS14, inducible by salt stress and abscisic acid (ABA). Its nucleotide sequence predicts an open reading frame coding for a highly hydrophilic and glycine-rich (23.8%) protein of 130 amino acids. Southern blot analysis of tomato DNA suggests that there is one TAS14 structural gene per haploid genome. TAS14 mRNA accumulates in tomato seedlings upon treatment with NaCl, ABA or mannitol. It is also induced in roots, stems and leaves of hydroponically grown tomato plants treated with NaCl or ABA. TAS14 mRNA is not induced by other stress conditions such as cold and wounding. The sequence of the predicted TAS14 protein shows four structural domains similar to the rice RAB21, cotton LEA D11 and barley and maize dehydrin genes.     

Cloning, Expression, and Mapping of GDP-D-mannose Pyrophosphorylase cDNA from Tomato (Lycopersicon esculentum)

GDP-D-mannose pyrophosphorylase (GMP, EC 2.7.7.22) catalyzes the synthesis of GDP-D-mannose and represents the first committed step in plant ascorbic acid biosynthesis. Using potato GMP cDNA sequence as a querying probe, 65 highly homologous tomato ESTs were obtained from dbEST of GenBank and the putative cDNA sequence of tomato GMP was assembled. The full-length GMP cDNA of tomato was cloned by RACE-PCR with primers designed according to the assembled cDNA sequence. The full-length cDNA sequence contained a complete open reading frame (ORF) of 1 086 bp, which encoded 361 amino acid residues. This gene was designated as LeGMP (GenBank accession No. AY605668). Homology analysis of LeGMP showed a 96% identity with potato GMP and the deduced amino acid showed 99%, 97%, 91% and 89% homology with GMP from potato, tobacco, alfalfa and Arabidopsis thaliana, respectively. Northern blot analysis showed that LeGMP was constitutively expressed in roots, stems, leaves, flowers and fruits of tomato; but the expression levels varied.LeGMP was mapped to 3-D using 75 tomato introgression lines (ILs), each containing a single homozygous RFLP-defined chromosome segment from the green-fruited species Lycopersicon pennellii.     

Molecular cloning, expression and mapping analysis of a novel cytosolic ascorbate peroxidase gene from tomato.

Ascorbate peroxidase (APX, EC 1.11.1.11) plays a major role in H(2)O(2)-scavenging in plants and can help to avoid reactive oxygen species (ROS) damage. A new cytosolic APX gene was cloned from tomato (designated LecAPX2) by RACE-PCR. The full-length cDNA of LecAPX2 contained a complete open reading frame (ORF) of 753 bp, which encoding 250 amino acid residues. Homology analysis of LecAPX2 showed a 94% identity with potato cAPX gene and 92% identity with another tomato cAPX gene (APX20), the deduced amino acid showed 88% homology with APX20 protein and 75-92% identity with cAPX from other plants such as potato, tobacco, broccoli, spinach, pea, rice, etc. LecAPX2 revealed the existence of a haem peroxidase and plant APX family signatures. Northern blot analysis showed that LecAPX2 was constitutively expressed in root, stem, leaf, flower and fruit of tomato, whereas the expression levels were different. LecAPX2 was mapped to 6-A using 75 tomato introgression lines (ILs), each containing a single homozygous RFLP-defined chromosome segment from the green-fruited species Lycopersicon pennellii.