Conservation of the drought-inducible DS2 genes and divergences from their ASR paralogues in solanaceous species.

The drought-inducible DS2 genes of potatoes are members of the ASR (abscisic acid, stress and ripening) gene family. Previously it was shown that expression of DS2 genes is highly dehydration-specific in potato leaves, is not inducible by cold, heat, salt, hypoxia or oxidative stresses, and is independent of abscisic acid (ABA). Now it is shown that StDS2 does not respond either to sucrose or any plant hormones. Conservation of DS2 genes with this unique mode of regulation was studied in the solanaceous species with different relationships to potatoes. DS2 orthologues were identified by DNA sequence alignment in the closely related Lycopersicon and Capsicum species but not in the more distantly related Nicotiana sp. DNA and RNA gel blot analysis revealed the presence of a gene highly homologous to the potato gene StDS2 in tomato (LeDS2) with the same desiccation-specific expression in leaves and organ-specific expression in flowers and green fruits. The LeDS2 promoter was isolated and found to be almost identical in sequence with the promoter of StDS2, except for a 45-bp insertion in tomato. In contrast, no gene highly similar to StDS2 was detected in Nicotiana species on DNA gel blots. Neither StDS2 nor LeDS2 promoter regions were able to confer expression for the beta-glucuronidase (GUS) reporter gene in transgenic tobacco plants indicating that the trans regulatory factors necessary for DS2 expression are not conserved either in Nicotiana tabacum. These data suggest a narrow species-specificity and late evolution of the DS2-type genes within the family Solanaceae.     

Anaerobic induction of the maize<Emphasis Type="Italic"> GapC4</Emphasis> promoter in poplar leaves requires light and high CO<Subscript>2</Subscript>

The maize (Zea mays L.) glyceraldehyde-3-phosphate dehydrogenase gene 4 (GapC4) promoter confers anaerobic gene expression in tobacco (Nicotiana tabacum L.), potato (Solanum tuberosum L.) and Arabidopsis thaliana (L.) Heynh. Here we have investigated its expression in hybrid poplar (Populus tremula × P. alba). Our results show that the promoter is not expressed in leaves and stems under normoxic conditions while anaerobiosis induces reporter gene expression in leaves up to a level observed for the STLS-1 promoter from potato that is shown to confer leaf-specific gene expression in transgenic poplar. Anaerobic induction is cell autonomous and requires a CO₂ atmosphere and light. As in tobacco, the GapC4 promoter in poplar is wound inducible. The induction by CO₂ and light may reflect a natural situation because flooding, a natural cause of anaerobiosis, is often accompanied by high CO₂ concentrations in the floodwater. Our results show that the GapC4 promoter is suitable as an anaerobic reporter and as an inducible gene expression system in poplar.Abbreviations CaMV cauliflower mosaic virus - GapC4 glyceraldehyde-3-phosphate dehydrogenase gene 4 - GUS -glucuronidase - 4-MU methylumbelliferone - STLS-1 stem- and leaf-specific promoter 1     

Novel potato C2H2‐type zinc finger protein gene,StZFP1, which responds to biotic and abiotic stress,plays a role in salt tolerance

Many TFIIIA‐type zinc finger proteins (ZFPs) play important roles in stress responses in plants. In the present study, a novel zinc finger protein gene, StZFP1, was cloned from potato. StZFP1 is a typical TFIIIA‐type two‐finger zinc finger gene with one B‐box domain, one L‐box domain and a DLN‐box/EAR motif. The StZFP1 genes belong to a small gene family with an estimated copy number of four or five, located on chromosome I. StZFP1 is constitutively expressed in leaves, stems, roots, tubers and flowers of adult plants. Expression of StZFP1 can be induced by salt, dehydration and exogenously applied ABA. StZFP1 expression is also responsive to infection by the late blight pathogen Phytophthora infestans. Transient expression analysis of StZFP1:GFP fusion protein revealed that StZFP1 is preferentially localised in the nucleus. Ectopic expression of StZFP1, driven by the Arabidopsis rd29A promoter in transgenic tobacco, increased plant tolerance to salt stress. These results demonstrate that StZFP1 might be involved in potato responses to salt and dehydration stresses through an ABA‐dependent pathway.     

Stress-induced expression of cucumber chitinase and <Emphasis Type="Italic">Nicotiana plumbaginifolia</Emphasis><Emphasis Type="Italic">β</Emphasis>-1,3-glucanase genes in transgenic potato plants

The genes encoding for a cucumber class III chitinase and Nicotiana plumbaginifolia class I glucanase were co-introduced into Slovak potato (Solanum tuberosum L.) cultivar ETA using Agrobacterium tumefaciens. Expression of both genes was driven by wound-inducible polyubiquitin promoter isolated from Slovak potato breeding line 116/86. Analyses showed inducible, peel-specific expression of both transgenes under stress conditions. The effect of transgene expression on fungal susceptibility of transformants was evaluated in vitro and in vivo. Experiments with crude protein extracts isolated from transgenic microtubers showed growth inhibition of Rhizoctonia solani hyphae in the range from 7.3 to 14.2%. In contrast, experiments performed in growth chamber conditions revealed that the polyubiquitin promoter driven transgene expression did not ensure any obvious increase of transgenic potato resistance against Rhizoctonia solani.     

Tissue-specific signal(s) activate the promoter of a metallocarboxypeptidase inhibitor gene family in potato tuber and berry

The molecular basis of the differential expression of the GM7-type metallocarboxypeptidase inhibitor (MCPI) genes in tuberizing (StMCPI) and non-tuberizing Solanum species (SbMCPI) was investigated. It was shown that the StMCPI is encoded by a gene family in Solanum tuberosum (potato), but SbMCPI might be a single-copy gene in the non-tuberizing species Solanum brevidens. The StMCPI promoter shows evolutionary relatedness to the S. brevidens-derived SbMCPI and to the fruit-specific tomato promoter 2A11. Both StMCPI and SbMCPI promoter regions were able to confer tuber- and berry-specific expression for the -glucuronidase reporter gene in potato suggesting that the difference in MCPI gene expression is in trans regulatory factors between the tuberizing and the non-tuberizing Solanum species. The MCPI promoters did not respond to metabolic, environmental or hormonal signals in leaves. Thus, the MCPI genes are regulated in a different way than the other known tuber-specific genes and potentially are suitable for biotechnological application in potato to provide specific transgene expression in tuber and berry.     

Effective delivery of a nematode‐repellent peptide using a root‐cap‐specific promoter

The potential of the MDK4‐20 promoter of Arabidopsis thaliana to direct effective transgenic expression of a secreted nematode‐repellent peptide was investigated. Its expression pattern was studied in both transgenic Arabidopsis and Solanum tuberosum (potato) plants. It directed root‐specific β‐glucuronidase expression in both species that was chiefly localized to cells of the root cap. Use of the fluorescent timer protein dsRED‐E5 established that the MDK4‐20 promoter remains active for longer than the commonly used constitutive promoter CaMV35S in separated potato root border cells. Transgenic Arabidopsis lines that expressed the nematode‐repellent peptide under the control of either AtMDK4‐20 or CaMV35S reduced the establishment of the beet cyst nematode Heterodera schachtii. The best line using the AtMDK4‐20 promoter displayed a level of resistance >80%, comparable to that of lines using the CaMV35S promoter. In transgenic potato plants, 94.9 ± 0.8% resistance to the potato cyst nematode Globodera pallida was achieved using the AtMDK4‐20 promoter, compared with 34.4 ± 8.4% resistance displayed by a line expressing the repellent peptide from the CaMV35S promoter. These results establish the potential of the AtMDK4‐20 promoter to limit expression of a repellent peptide whilst maintaining or even improving the efficacy of the cyst‐nematode defence.     

Gene note. Isolation of a cDNA corresponding to a low temperature- and ABA-responsive gene encoding a putative glycine-rich RNA-binding protein in Solanum commersonii

A cDNA encoding a putative RNA-binding glycine-rich protein, SCRGP-1, was isolated from the wild potato species Solanum commersonii. The amino acid sequence of the deduced protein revealed that the protein contains a consensus RNA-binding domain and has a glycine-rich carboxy-terminal domain. The corresponding gene is induced by low temperature, ABA, wounding, and drought in both Solanum commersonii and Solanum tuberosum. The response of this putative RNA-binding protein gene to low temperature and ABA treatments in Solanum sp. suggests that the SCRGP-1 protein might participate in the adaptation process leading to increased freezing tolerance.     

Molecular examination of a chromosome region that controls resistance to potato Y and A potyviruses in potato

 The gene Ry _adg that confers resistance to potato Y potyvirus (PVY) in the cultivated potato [Solanum tuberosum subsp. andigena, line 2x(v-2)7] is located on chromosome XI in a segment that contains three other known resistance genes in other syntenic solanaceous species. One of them is the gene N that controls resistance to tobacco mosaic tobamovirus in tobacco and has previously been isolated and sequenced. Three sequence-related, resistance gene-like (RGL) DNA fragments (354–369 bp) highly homologous to the gene N were PCR-amplified from the potato line 2x(v-2)7. Two RGL fragments (79 and 81% homologous to the N gene) co-segregated with Ry _adg among the 77 F1 progeny tested. These RGLs may originate from a resistance gene family on chromosome XI. The potato line 2x(v-2)7 also expressed resistance to potato A potyvirus (PVA), which was controlled by another locus on chromosome XI mapped ca. 6.8 cM distal to Ry _adg . Received: 18 December 1997 / Accepted: 30 December 1997     

Construction and functional characteristics of tuber-specific and cold-inducible chimeric promoters in potato

The improvement of processing quality of potato products (fries and chips) demands less accumulation of reducing sugars (glucose and fructose) in cold-stored potato (Solanum tuberosum) tubers. Control of gene expression to achieve this requires promoters with specificity to tubers as well as inducible activity under low temperatures. Here we use overlapping extension PCR to construct two chimeric promoters, pCL and pLC, to control gene expression in a tuber-specific and cold-inducible pattern. This combined different combinations of the LTRE (low-temperature responsive element) from Arabidopsis thaliana cor15a promoter and the TSSR (tuber-specific and sucrose-responsive sequence) from potato class I patatin promoter. The cold-inducible and tuber-specific activities of the chimeric promoters were investigated by quantitative analysis of GUS activity in transgenic potato cultivar E3 plants. The results showed that the cis-elements, LTRE and TSSR, played responsive roles individually or in combination. pCL with the TSSR closer to the TATA-box showed substantially higher promoter activity than pLC with the LTRE closer to the TATA-box at either normal (20°C) or low temperature (2°C), suggesting that the promoter activity was closely associated with the position of the two elements. The chimeric promoter pCL with tuber-specific and cold-inducible features may provide valuable tool for controlling the expression of gene constructs designed to lower the formation of reducing sugars in tubers stored at low temperature and to improve the processing quality of potato products. The nucleotide sequence data reported will appear in the GenBank database under the accession numbers DQ494557 (pCL) and DQ494558 (pLC ).     

The complete chloroplast genome sequences of Solanum tuberosum and comparative analysis with Solanaceae species identified the presence of a 241-bp deletion in cultivated potato chloroplast DNA sequence

The complete nucleotide sequence of the chloroplast genome of potato Solanum tuberosum L. cv. Desiree was determined. The circular double-stranded DNA, which consists of 155,312 bp, contains a pair of inverted repeat regions (IRa, IRb) of 25,595 bp each. The inverted repeat regions are separated by small and large single copy regions of 18,373 and 85,749 bp, respectively. The genome contains 79 proteins, 30 tRNAs, 4 rRNAs, and unidentified genes. A comparison of chloroplast genomes of seven Solanaceae species revealed that the gene content and their relative positions of S. tuberosum are similar to the other six Solanaceae species. However, undefined open reading frames (ORFs) in LSC region were highly diverged in Solanaceae species except N. sylvestris. Detailed comparison was identified by numerous indels in the intergenic regions that were mostly located in the LSC region. Among them, a single large 241-bp deletion, was not associated with direct repeats and found in only S. tuberosum, clearly discriminates a cultivated potato from wild potato species Solanum bulbocastanum. The extent of sequence divergence may provide the basis for evaluating genetic diversity within the Solanaceae species, and will be useful to examine the evolutionary processes in potato landraces.     

Structural organisation,expression, and promoter analysis of a 16R isoform of 14-3-3 protein gene from potato

Six full-length cDNAs encoding 14-3-3 proteins from potato (Solanum tuberosum L. cv. Desiree) plants have been recently isolated and sequenced. Screening of a potato genomic library with the 16R cDNA encoding 14-3-3 protein isoform resulted in the identification and isolation of the respective genomic clone. The gene contains four exons and three introns. Inspection of the promoter sequence of the 16R gene revealed several boxes important for the regulation of the gene expression. The induction of the promoter activity by sucrose, IAA, ABA and salicylic acid has been shown. Dof protein-binding sequences, E-boxes and sequences responsible for developmental regulation are most frequently represented. Northern blot and fluorometric analyses, as well as the microscopic examination of transgenic potato plants transformed with GUS reporter under 14-3-3 protein promoter, provide evidence for tissue-specific expression and age-dependent promoter activity. Significant GUS expression was observed in young organs or organ portions, as well as in minor vascular bundles of mature organs.     

Effects of systemic potato response to wounding and jasmonate on the aphid Macrosiphum euphorbiae (Sternorryncha: Aphididae)

Plant induced responses are activated by multiple biotic and abiotic stresses, and may affect the interactions between a plant and phytophagous insects. The objective of this work was to evaluate the effects of different stresses inflicted to potato plants (Solanum tuberosum) on the potato aphid (Macrosiphum euphorbiae). Abiotic wounding, biotic wounding by Leptinotarsa decemlineata and treatment with volatile methyl jasmonate (MeJA) were evaluated with regard to the orientation behaviour, the feeding behaviour and the development of the potato aphids. Dual‐choice olfactometry showed that plants treated with MeJA lost their attractiveness for the potato aphids, while both abiotic and biotic wounding did not alter the orientation of aphids. Electropenetrography revealed that the feeding behaviour of aphids was only slightly disturbed by a previous L. decemlineata wounding, while it was highly disturbed by mechanical wounding and MeJA treatment. Aphid nymph survival was reduced on mechanically wounded plants, the pre‐reproductive period was lengthened and the fecundity reduced on plants treated with MeJA. Our results bring new information about the effects of various stresses inflicted to S. tuberosum on M. euphorbiae. We showed that wounding and MeJA treatment induced an antixenosis resistance in potato plants against M. euphorbiae, which may influence aphid colonization processes.