Cloning and functional characterization of a fructan 1-exohydrolase (1-FEH) in the cold tolerant Patagonian species <Emphasis Type="Italic">Bromus pictus</Emphasis>

Protein phosphorylation/dephosphorylation plays critical roles in stress responses in plants. This report presents a comparative characterization of the serine/threonine PP2A catalytic subunit family in Solanum tuberosum (potato) and S. lycopersicum (tomato), two important food crops of the Solanaceae family, based on the sequence analysis and expression profiles in response to environmental stress. Sequence homology analysis revealed six isoforms in potato and five in tomato clustered into two subfamilies (I and II). The data presented in this work show that the expression of different PP2Ac genes is regulated in response to environmental stresses in potato and tomato plants and suggest that, in general, mainly members of the subfamily I are involved in stress responses in both species. However, the differences found in the expression profiles between potato and tomato suggest divergent roles of PP2A in the plant defense mechanisms against stress in these closely related species.     

Homologs of APETALA1/FRUITFULL in Solanum plants

The MADS-box APETALA1 genes control plant transition to flowering and the floral morphogenesis proper. The experimental evidence of APETALA1 overexpression presumes that this class of genes can also directly affect time to flowering. We therefore cloned and compared homologs of APETALA1 class genes from potato (Solanum tuberosum cultivars adapted to long day conditions) and its wild relative Solanum demissum, a short-day subtropical species. The homologs isolated from these plants belong to the subclass FRUITFULL. The inconsiderable variations in the primary structure of these homologs cannot explain the diverse photoperiodic reactions of particular Solanum genotypes.     

CONSTANS delays flowering and affects tuber yield in potato

CONSTANS (CO) has a central role in the photoperiodic regulation of flowering in Arabidopsis thaliana. We show here that potato (Solanum tuberosum ssp. andigena) plants constitutively expressing Arabidopsis CO (pACo plants) flower late under all photoperiodic conditions tested. Exogenous application of gibberellic acid to pACo plants corrected their short stem phenotype but not their late flowering. To further understand the effect of CO in potato, we used three photoperiodic conditions: short days (SD), which strongly induce tuberisation of wild type plants, SD supplemented with a night break (SD+NB), which are moderately inductive, and tuberisation-inhibiting long days. Tuberisation of pACo plants was delayed under SD and very strongly delayed or completely inhibited under SD+NB, suggesting that CO affects an autonomous pathway controlling potato tuberisation. In addition, tuber yield, a trait of high agronomic relevance, was significantly increased in pACo plants expressing moderate CO levels. Our results indicate that CO affects flowering and stem elongation through distinct mechanisms and suggest that its effects on flowering and tuberisation in potato are photoperiod-independent.     

Abscisic acid-deficient plants do not accumulate proteinase inhibitor II following systemin treatment

The role of systemin inPin2 gene expression was analyzed in wild-type plants of potato (Solanum tuberosum L.) and tomato (Lycopersicon esculentum Mill.), as well as in abscisic acid (ABA)-deficient tomato (sitiens) and potato (droopy) plants. The results showed that systemin initiates Pin2 mRNA accumulation only in wildtype tomato and potato plants. As in the situation after mechanical wounding,Pin2 gene expression in ABA-deficient plants was not activated by systemin. Increased endogenous levels of jasmonic acid (JA) and accumulation of Pin2 mRNA were observed following treatment with α-linolenic acid, the precursor of JA biosynthesis, suggesting that these ABA mutants still have the capability to synthesize de novo JA. Measurement of endogenous levels of ABA and JA showed that systemin leads to an increase of both phytohormones (ABA and JA) only in wild-type but not in ABA-deficient plants.     

Allotriploid somatic hybrids of diploid tomato (Lycopersicon esculentum Mill.) and monoploid potato (Solanum tuberosum L.)

Allotriploid somatic hybrids were obtained from fusions between protoplasts of diploid tomato and monohaploid potato. The selection of fusion products was carried out in two different ways: (1) The fusion of nitrate reductase-deficient tomato with potato gave rise only to hybrid calli if selection was performed on media lacking ammonium. Parental microcalli were rarely obtained and did not regenerate. (2) The fusion of cytoplasmic albino tomato with potato gave rise to albino and green hybrid calli and plants. Allotriploids were identified from the two somatic hybrid populations by counting chloroplast numbers in leaf guard cells and by flow cytometry of leaf tissue. Although some pollen fertility of allotriploids and pollen-tube growth of tomato, potato andLycopersicon pennellii into the allotriploid style were observed, no progeny could be obtained. The relevance of allotriploid somatic hybrids in facilitating limited gene transfer from potato to tomato is discussed.     

Utility of pentose colorimetric assay for the purification of potato lectin, an arabinose-rich glycoprotein

Potato lectin (Solanum tuberosum agglutinin, STA) is an unusual glycoprotein containing approximately 50% carbohydrates by weight. Of the total carbohydrates, 92% is contributed by L-arabinose, which are O-linked to hydroxyproline residues. The ferric chloride-orcinol assay (Bial’s test), which is specific for pentoses has so far been used only for the determination of free pentoses in biological samples. However, this colorimetric assay has not been used for the detection of pentoses in bound form as it occurs in Solanaceae lectins (potato, tomato, and Datura lectins). Utilizing the pentose colorimetric assay for monitoring the presence of potato lectin, a simpler and shorter procedure for the purification of this lectin from potato tubers has been developed. The yield of potato lectin (1.73 mg per 100 g potato tuber) is twice compared to the yields reported in earlier procedures. Although potato lectin is well known for its specificity to free trimers and tetramers of N-acetyl-D-glucosamine (GlcNAc), it possesses a similar specificity to the core (GlcNAc)₂ of N-linked glycoproteins. The utilization of the pentose assay in the purification of arabinose-rich lectins/agglutinins obviates the necessity for the use of agglutination assay in the various purification steps. The pentose assay appears to be a simple and convenient colorimetric assay for detecting any pentose-rich glycoprotein in plant extracts. The utility of the pentose assay appears to have a significant potential in the detection of hydroxyproline-rich glycoproteins (HRGPs), which are generally O-arabinosylated.     

Suitability of tomato leaves for larval development of Potato Tuber Moth,Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae)

The potato tuber moth (PTM) is an important pest of the potato plant and its tuber. With the expansion of its geographic range, the PTM could be potential threat to the tomato (Solanum lycopersicum L.), a congeneric species of the potato. To assess that risk, we tested larval feeding and development of PTM on leaves of five cultivated tomato varieties namely Moneymaker, Campari, Ailsa Craig, LA3475, E6203 and one wild tomato variety S. pimpinellifolium. PTM larvae accepted all tested plant leaves and developed into adults. Larval development was fastest on the Ailsa Craig variety. Pupae developed fastest on the Moneymaker variety and slowest on LA3475. Host acceptance and survival were highest on Ailsa Craig and lowest on LA3475. The significantly highest male proportion occurred on LA3475 variety. The study showed that PTM could be a potential threat to tomato cultivation which is rapidly increasing in temperate regions owing to climate change.     

The nematode-resistance gene,<Emphasis Type="Italic"> Mi-1</Emphasis>, is associated with an inverted chromosomal segment in susceptible compared to resistant tomato

The gene Mi-1 confers effective resistance in tomato (Lycopersicon esculentum) against root-knot nematodes and some isolates of potato aphid. This locus was introgressed from L. peruvianum into the corresponding region on chromosome 6 in tomato. In nematode-resistant tomato, Mi-1 and six homologs are grouped into two clusters separated by 300 kb. Analysis of BAC clones revealed that the Mi-1 locus from susceptible tomato carried the same number and distribution of Mi-1 homologs, as did the resistant locus. Molecular markers flanking the resistant and susceptible loci were in the same relative orientation, but markers between the two clusters were in an inverse orientation. The simplest explanation for these observations is that there is an inversion between the two clusters of homologs when comparing the Mi-1 loci from L. esculentum and L. peruvianum. Such an inversion may explain previous observations of severe recombination suppression in the region. Two Mi-1 homologs identified from the BAC library derived from susceptible tomato are not linked to the chromosome 6 locus, but map to chromosome 5 in regions known to contain resistance gene loci in other solanaceous species.Communicated by J.S. Heslop-Harrison     

Homologs of the Genes for Receptor-Like Kinase Proteins Conferring Plant Resistance to Pathogens: Resistance Gene Homologs in Solanum Species

Direct amplification of the genomic DNA from cultivated and wild Solanum species was used to synthesize three groups of NBS-LRR homologs of the genes which encode the pathogen-recognizing receptor-like serine/threonine kinases (RLK): (1) the NBS-kinase regions homologous to the arabidopsis RPS2 gene, the tobacco N gene, and the flax L6 gene (the corresponding GenBank accession nos. U14158, U15605, and U27081); (2) full-size sequences homologous to the Pto gene of Lycopersicon pimpinellifolium (AF220602); and (3) LRR regions homologous to potato genesGpa2/Rx1 (AJ249449 and AJ011801) and the tomato gene Mi1 (AF091048). The nucleotide and deduced amino acid sequences of the cloned fragments of the genes and pseudogenes were compared to the already known genes and their homologs within the family Solanaceae.     

Use of phosphomannose isomerase-based selection system for <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of tomato and potato

Two selection systems for Agrobacterium tumefaciens mediated transformation of tomato and potato were compared. In the tomato (Lycopersicon esculentum cv. Moneymaker), the highest transformation rate, 4.2 %, of cotyledon explants on mannose-selection medium was obtained when mannose/sucrose concentration in the regeneration medium was 5/15 g dm⁻³. The best transformation efficacy with the commonly used concentration of 100 mg dm⁻³ kanamycin as a selection agent was 9 %. In the potato (Solanum tuberosum cv. Bintje), the highest transformation frequency was 53.3 % when mannose concentration in the regeneration medium was 5 g dm⁻³ during the first 3 weeks after transformation and 10 g dm⁻³ afterwards. The optimum concentration of sucrose was 20 g dm⁻³. The transformation efficiency using kanamycin as a selection agent at a concentration 100 mg dm⁻³ was 33.3 % with potato. Our results demonstrate that the transformation efficiency using mannose selection is 1.6-fold higher for potato and about 2 times lower for tomato comparing with the ordinary protocol using kanamycin.     

Isolation and characterization of potato-tomato somatic hybrids using an amylose-free potato mutant as parental genotype

Summary Using different genotypes of tomato and diploid potato, possessing alien selectable markers as well as endogenous markers, very high frequencies of protoplast fusion hybrids were obtained. One endogenous genetic marker, the amylose-free (amf) mutant of potato, was helpful not only for the confirmation of fusion products but also for the study of genetic complementation and the segregation of amylose-free starch in microspores. Cytological analysis of the fusion hybrids indicated that except for one which was hexaploid, all of them had a perfectly balanced chromosome number of allotetraploid constitution (2n = 4x = 48). Despite normal chromosome pairing and a diploid behaviour, the microspores in some of the fusion hybrids segregated for the recessive amf-locus. This anomalous segregation of a recessive character in these hybrids was shown not to be due to chromosome elimination or to the absence of the wild-type tomato Amf gene. Although all fusion hybrids were totally sterile, the hexaploid produced stainable pollen and berries with badly developed seeds. Embryo rescue has so far failed to produce backcross progeny.     

Localization by restriction fragment length polymorphism mapping in potato of a major dominant gene conferring resistance to the potato cyst nematode Globodera rostochiensis

Summary A major dominant locus conferring resistance against several pathotypes of the root cyst nematode Globodera rostochiensis was mapped on the linkage map of potato using restriction fragment length polymorphism (RFLP) markers. The assessment of resistance versus susceptibility of the plants in the experimental population considered was based on an in vivo (pot) and an in vitro (petri dish) test. By linkage to nine RFLP markers the resistance locus Gro1 was assigned to the potato linkage group IX which is homologous to the tomato linkage group 7. Deviations from the additivity of recombination frequencies between Gro1 and its neighbouring markers in the pot test led to the detection of a few phenotypic misclassifications of small plants with poor root systems that limited the observation of cysts on susceptible roots. Pooled data from both tests provided better estimates of recombination frequencies in the linkage interval defined by the markers flanking the resistance locus.     

Origin of an alien disomic addition with an aberrant homologue of chromosome-10 of tomato and its meiotic behaviour in a potato background revealed through GISH

 While characterising potato (Solanum tuberosum, 2n=4x=48) clones with alien tomato (Lycopersicon esculentum) chromosome additions, a single addition for chromosome-10 of tomato was identified through restriction fragment length polymorphism (RFLP) analysis. This plant, 2101–1, was a BC₂ derivative from a cross between a potato (+) tomato fusion hybrid backcrossed to potato. Cytological analysis of its somatic chromosomes through genomic in situ hybridisation (GISH) indicated the presence of four genomes of potato with two alien tomato chromosomes, of which one was much smaller than the other. Analysis of chromosome pairing at the pachytene and metaphase-I stages of microsporogenesis indicated that the large and small chromosomes were homologues. Thus, it was a disomic addition for chromosome-10 of tomato. The size difference was found to be due to a deletion. Fluorescent in situ hybridisation (FISH) experiments, using the telomeric repeat pAtT4 from Arabidopsis thaliana and the sub-telomeric repeat TGRI, showed intact telomeres and sub-telomeres for both alien chromosomes. Thus, the deletion that the smaller of the homologues suffered was interstitial and most probably occurred in the centromeric heterochromatic region of the long arm. The pattern of distribution of large and small chromosomes to telophase-II nuclei during microsporogenesis indicated that the deletion did not affect the meiotic behaviour of the smaller chromosome. In contrast, the frequencies of transmission of the large and the small chromosomes through the female parent, estimated in 96 BC₃ progeny of plants by RFLP and GISH analyses, appeared to be very different, 69.2% and 3.8% respectively. This study also provides evidence that two different chromatids of a pair of homologues, rather than two chromatids of a single chromosome, are most likely to be involved in the origin of a disomic. The aberrant chromosome can be used for the physical mapping of chromosome-10. Received: 9 June 1998 / Accepted: 28 October 1998     

不同寄主植物对马铃薯甲虫的引诱作用

随着马铃薯甲虫不断扩展其分布范围,其对寄主的适应性也在发生变化。在我国,马铃薯甲虫的主要寄主植物是马铃薯、茄子、番茄和天仙子。为进一步明确马铃薯甲虫对不同寄主植物的嗜食程度,研究了以上4种寄主植物对马铃薯甲虫的引诱作用,以及取食量的影响,同时进行了田间寄主选择性的调查。选择性试验结果表明:不同寄主植物对马铃薯甲虫的引诱作用差异显著,其中马铃薯、天仙子引诱作用显著高于茄子和番茄;取食量研究结果表明:马铃薯甲虫各龄期对不同寄主24 h取食量的大小依次为:马铃薯>茄子>天仙子>番茄;1—2龄幼虫取食量小,3—4龄幼虫及成虫暴食寄主叶片,是马铃薯甲虫造成危害的主要阶段。     

Two CAPS markers predict Verticillium wilt resistance in wild Solanum species

Verticillium wilt of potato is a persistent problem in the USA and worldwide. The disease, which is caused primarily by the fungus Verticillium dahliae, is difficult to manage, causes yield losses, and contaminates soil for subsequent plantings. Control strategies based on host resistance are seen as long-term, stable solutions, but difficult to achieve given the genetic nature of the host and the challenges associated with resistance evaluations. To provide breeders with marker-assisted selection opportunities, we generated a pair of cleaved amplified polymorphic sequence molecular markers within the coding region of Ve2, a potato gene with homology to the tomato Ve1 gene that confers resistance to V. dahliae. The position of the marker was determined according to the consensus sequences of Ve2 homologs of wild Solanum species with resistance to V. dahliae. Marker testing indicated their broad applicability, being able to track the resistance to V. dahliae in progeny containing genetic information derived from species S. chacoense, S. brevicaule, S. berthaultii, S. tarijense, and S. tuberosum. Furthermore, the two isolates of V. dahliae used in our inoculation experiments differed in virulence and demonstrated specificity for some wild potato species. Experimentation leading to the development of the markers and tests of their usefulness against a wide range of diploid potato germplasm is presented.     

Domestication and Breeding of Tomatoes: What have We Gained and What Can We Gain in the Future?

Background

It has been shown that a large variation is present and exploitable from wild Solanum species but most of it is still untapped. Considering the thousands of Solanum accessions in different gene banks and probably even more that are still untouched in the Andes, it is a challenge to exploit the diversity of tomato. What have we gained from tomato domestication and breeding and what can we gain in the future?

Scope

This review summarizes progress on tomato domestication and breeding and current efforts in tomato genome research. Also, it points out potential challenges in exploiting tomato biodiversity and depicts future perspectives in tomato breeding with the emerging knowledge from tomato-omics.

Conclusions

From first domestication to modern breeding, the tomato has been continually subjected to human selection for a wide array of applications in both science and commerce. Current efforts in tomato breeding are focused on discovering and exploiting genes for the most important traits in tomato germplasm. In the future, breeders will design cultivars by a process named ‘breeding by design’ based on the combination of science and technologies from the genomic era as well as their practical skills.Key words: Breeding, domestication, genomics, Solanum lycopersicum     

The tomato ubiquitin-conjugating enzyme variant Suv,but not SlUev1C and SlUev1D regulates Fen-mediated programmed cell death in Nicotiana benthamiana

The unconventional, lysine-63-linked ubiquitination has been shown to play a central role in regulating human and animal innate and adaptive immunity. By contrast, the role and mechanism of K63-linked ubiquitination in plant biology remain largely unexplored. The tomato (Solanum lycopersicum) Fni3 ubiquitin-conjugating enzyme and its co-factor, Suv ubiquitin E2 variant (Uev) were shown recently to catalyze K63-linked ubiquitination and are essential for protein Fen and other resistance protein-mediated plant immunity. In this study we detected the subcellular localization of Fen, Fni3 and Suv and confirmed the interaction of Fni3 with Suv in tomato protoplasts. Additionally, we identified 2 tomato Uev1 homologs, SlUev1C and SlUev1D, respectively and showed they are not required for Fen-mediated programmed cell death in Nicotiana benthamiana, suggesting Uev homologs play differential role in the cell.