Genetic diversity in morphological characters and phenolic acids content resulting from an interspecific cross between eggplant,Solanum melongena,and its wild ancestor (S. incanum)

Solanum incanum, the wild ancestor of eggplant, Solanum melongena, has been considered as a source of variation for high content of phenolic acid conjugates in breeding programmes aimed at improving the functional quality of eggplant. We have evaluated the morphological and phenolic acids content in an interspecific family including S. incanum (P1), S. melongena (P2), their interspecific hybrid (F1), progeny from the selfing of the F1 (F2) and the backcross of the F1 to P2 (BC1P2). Many morphological differences were found between parents, while the F1 was intermediate for most traits. However, F1 plants were taller and pricklier and presented higher fruit flesh browning than any of the parents. F2 and BC1P2 were morphologically highly variable and the results obtained suggest that a rapid recovery of the characteristic combination of S. melongena traits can be achieved in a few backcross generations. Segregation for prickliness was found to be compatible with simple genetic control, prickliness being dominant over non‐prickliness. A total of 16 phenolic acid conjugates were studied, of which chlorogenic acid (5‐O‐(E)‐caffeoylquinic acid) was the most common compound in all samples, averaging 77.8% of all hydroxycinnamic acid derivatives. Contents of total phenolic acid conjugates were much higher in S. incanum than in S. melongena fruit flesh, and no major differences were found in the profile of phenolic acids among parents. The interspecific hybrid (F1) was intermediate between the two parents in phenolic acids content. Non‐segregating generations presented considerable variation in phenolic acids content, but the range of variation was wider in segregating F2 and BC1P2 generations. Additive genetic effects were the most important in explaining the results obtained for the phenolic acids content. A number of BC1P2 plants presented a good combination of phenolic acids content and fruit weight or flesh browning. Overall, the results demonstrate that improvement of functional quality in S. melongena can be obtained using S. incanum as a donor of alleles for high phenolic acids content.     

Conservation of gene function in the solanaceae as revealed by comparative mapping of domestication traits in eggplant

Quantitative trait loci (QTL) for domestication-related traits were identified in an interspecific F(2) population of eggplant (Solanum linnaeanum x S. melongena). Although 62 quantitative trait loci (QTL) were identified in two locations, most of the dramatic phenotypic differences in fruit weight, shape, color, and plant prickliness that distinguish cultivated eggplant from its wild relative could be attributed to six loci with major effects. Comparison of the genomic locations of the eggplant fruit weight, fruit shape, and color QTL with the positions of similar loci in tomato, potato, and pepper revealed that 40% of the different loci have putative orthologous counterparts in at least one of these other crop species. Overall, the results suggest that domestication of the Solanaceae has been driven by mutations in a very limited number of target loci with major phenotypic effects, that selection pressures were exerted on the same loci despite the crops' independent domestications on different continents, and that the morphological diversity of these four crops can be explained by divergent mutations at these loci.     

Draft Genome Sequence of Eggplant (Solanum melongena L.): the Representative Solanum Species Indigenous to the Old World

Unlike other important Solanaceae crops such as tomato, potato, chili pepper, and tobacco, all of which originated in South America and are cultivated worldwide, eggplant (Solanum melongena L.) is indigenous to the Old World and in this respect it is phylogenetically unique. To broaden our knowledge of the genomic nature of solanaceous plants further, we dissected the eggplant genome and built a draft genome dataset with 33,873 scaffolds termed SME_r2.5.1 that covers 833.1 Mb, ca. 74% of the eggplant genome. Approximately 90% of the gene space was estimated to be covered by SME_r2.5.1 and 85,446 genes were predicted in the genome. Clustering analysis of the predicted genes of eggplant along with the genes of three other solanaceous plants as well as Arabidopsis thaliana revealed that, of the 35,000 clusters generated, 4,018 were exclusively composed of eggplant genes that would perhaps confer eggplant-specific traits. Between eggplant and tomato, 16,573 pairs of genes were deduced to be orthologous, and 9,489 eggplant scaffolds could be mapped onto the tomato genome. Furthermore, 56 conserved synteny blocks were identified between the two species. The detailed comparative analysis of the eggplant and tomato genomes will facilitate our understanding of the genomic architecture of solanaceous plants, which will contribute to cultivation and further utilization of these crops.     

Studies on plant growth-regulating substances LV. The Plant growth-promoting properties of some β-aryl-propionic acids

Severe diseases of pepper (Capsicum annuum), tomato (Lycopersicon esculentum), eggplant (Solanum melongena) and tomato eggplant (Solanum integrifolium) in West Africa were induced by pepper veinal mottle virus (PVMV). Five selected virus isolates were serologically similar and readily transmissible by aphids in the non-persistent manner, but they differed in host range and/or symptoms induced in some susceptible species. One isolate from eggplant failed to infect pepper, Chenopodium quinoa and C. amaranticolor, and induced only local infections in tomato. An isolate from tomato failed to infect eggplant, and an isolate from tomato eggplant induced severe stunting in Physalis floridana. The type strain, like the isolate from tomato, failed to infect Nicotiana tabacum systemically, but each caused severe systemic leaf and stem necrosis in tomato. None of the isolates infected S. melongena cv. Long Purple, suggesting that PVMV might be controlled in this and perhaps other crop species by the use of immune or tolerant cultivars. All five isolates were serologically related to potato virus Y and some to six of 12 other potyviruses.     

Isolation and Characterization of Cuticular Polyester from the Leaf of Nicotiana tabacum

Cuticular membranes (ca.0.04mg/cm²) were isolated from fresh and flue-cured tobacco leaves (Nicotiana tabacum) as clear, colorless and thin films by oxalic ammonium treatment and successive cellulase-pectinase digestion. GC-MS analyses, after hydrogenolysis and trimethylsilylation, revealed that the membranes are mainly built up of 10,16-dihydroxy hexadecanoic acid in a polyester network structure which survives postharvest-treatments.

The fruit skins of solanaceaes; sweet pepper (Capsicum annuum), eggplant (Solanum melongena) and tomato (Solanum lycopersicum), have similar membranes which are essentially composed of 9,16- and 10,16-dihydroxy hexadecanoic acid.     

Asymmetric somatic hybrid plants between an interspecific Lycopersicon hybrid and Solanum melongena

Summary Asymmetric somatic hybrid plants were obtained by a modified PEG/DMSO fusion procedure between protoplasts derived from suspension cells of an interspecific tomato hybrid, Lycopersicon esculentum x L. pennellii, and mesophyll protoplasts of Solanum melongena, eggplant. The tomato hybrid was previously transformed with Agrobacterium tumefaciens and contained the kanamycin-resistance marker gene. Prior to fusion, the donor protoplasts of the tomato hybrid were gamma irradiated at 9.0 krad. Thus, non-division of irradiated tomato hybrid protoplasts coupled with kanamycin sensitivity of eggplant enabled selection of somatic cell hybrids. Forty-nine calli selected post-fusion regenerated leaf-like structures in the presence of 50 mg/l kanamycin. However, only four of the 49 calli regenerated intact shoots which rooted in the presence of 50 mg/l kanamycin and were later transferred to the greenhouse. Analysis of phosphoglucoisomerase and peroxidase isozymes, and Southern hybridization with a nuclear-specific pea 45 S ribosomal RNA gene confirmed somatic hybrid status. Cytology revealed that the four hybrid plants had chromosome numbers of 45, 60, 42 and 57, respectively; they were all sterile.     

Association Mapping for Fruit,Plant and Leaf Morphology Traits in Eggplant

An eggplant (Solanum melongena) association panel of 191 accessions, comprising a mixture of breeding lines, old varieties and landrace selections was SNP genotyped and phenotyped for key breeding fruit and plant traits at two locations over two seasons. A genome-wide association (GWA) analysis was performed using the mixed linear model, which takes into account both a kinship matrix and the sub-population membership of the accessions. Overall, 194 phenotype/genotype associations were uncovered, relating to 30 of the 33 measured traits. These associations involved 79 SNP loci mapping to 39 distinct chromosomal regions distributed over all 12 eggplant chromosomes. A comparison of the map positions of these SNPs with those of loci derived from conventional linkage mapping showed that GWA analysis both validated many of the known controlling loci and detected a large number of new marker/trait associations. Exploiting established syntenic relationships between eggplant chromosomes and those of tomato and pepper recognized orthologous regions in ten eggplant chromosomes harbouring genes influencing breeders’ traits.     

Leaf cuticular n-alkanes as markers in the chemotaxonomy of the eggplant (Solanum melongena L.) and related species

The complex of species formed by eggplant (Solanum melongena L.) and its wild and weedy relatives (mainly S. incanum L. and S. insanum L.) is characterised by an extreme morphological divergence that is not always associated with genetic variation. The taxonomy of so‐called ‘spiny Solanum’ species (subgenus Leptostemonum) is therefore extremely unclear. Cultivated eggplant lacks resistance to pests that frequently occur among the wild forms and species. As these wild plants are a potential gene pool for improvement of eggplant cultivars, knowledge of the characteristics of taxonomic relations between plants of different origin is crucial. We suggest using the leaf cuticular n‐alkane chain length distribution pattern as an alternative taxonomic marker for eggplant and related species. The results are in good agreement with current knowledge of the systematics of these plants; at the same time, the method developed here is useful for verifying plant identification based on morphological traits. Analysis of 13 eggplant cultivars, five accessions of S. incanum and two lines of S. macrocarpon enabled the intraspecific variation within eggplant to be assessed as low. There was wide variability among S. incanum accessions, probably because plants described as S. incanum are members of a number of different species. Some Asian accessions (sometimes described as S. insanum) were found to be almost identical to S. melongena, while a truly wild African S. incanum plant showed extensive similarity. The usefulness of the chemotaxonomic approach in dealing with the S. melongena–S. incanum complex is discussed.     

Genetic Diversity,Population Structure,and Resistance to Phytophthora capsici of a Worldwide Collection of Eggplant Germplasm

Eggplant (Solanum melongena L.) is an important solanaceous crop with high phenotypic diversity and moderate genotypic diversity. Ninety-nine genotypes of eggplant germplasm (species (S. melongena, S. incanum, S. linnaeanum and S. gilo), landraces and heirloom cultivars) from 32 countries and five continents were evaluated for genetic diversity, population structure, fruit shape, and disease resistance to Phytophthora fruit rot. Fruits from each line were measured for fruit shape and evaluated for resistance to two Phytophthora capsici isolates seven days post inoculation. Only one accession (PI 413784) was completely resistant to both isolates evaluated. Partial resistance to Phytophthora fruit rot was found in accessions from all four eggplant species evaluated in this study. Genetic diversity and population structure were assessed using 22 polymorphic simple sequence repeats (SSRs). The polymorphism information content (PIC) for the population was moderate (0.49) in the population. Genetic analyses using the program STRUCTURE indicated the existence of four genetic clusters within the eggplant collection. Population structure was detected when eggplant lines were grouped by species, continent of origin, country of origin, fruit shape and disease resistance.     

Allozyme variation in the eggplant,Solanum melongena L. (Solanaceae)

Enzyme electrophoretic studies were made in cultivated Solanum melongena L. (eggplant) and similar wild and weedy forms, several of which have been thought to be different species/taxa. Twenty-nine accessions of S. melongena, 33 accessions of weedy forms (referred to as insanum) and 2 accessions of wild forms (referred to as incanum) were surveyed for 29 isozyme loci. In S. melongena, 22 of the 29 loci were monomorphic, and nearly all of its genes were either also monomorphic or in similar frequencies in insanum and incanum. The results demonstrate that the three taxa have a very close genetic relationship. The high genetic identities between them (0.913–0.967) suggests that they are conspecific even though they include extensive morphological diversity.     

Transfer of fungal tolerance through interspecific somatic hybridisation between Solanum melongena and S. torvum

Tolerance to Verticillium wilt is found in a wild relative of eggplant, Solanum torvum. To transfer this tolerance to eggplant (S. melongena), protoplast fusions between eggplant and irradiated S. torvum protoplasts were performed. Putative hybrids were regenerated and evaluated for Verticillium tolerance and field value. A total of 12 plants were eventually selected to be incorporated into the breeding program, as they showed a high degree of Verticillium tolerance under field conditions combined with the morphological characters of eggplant, including normal seed set. DNA analysis showed one of these tolerant plants to have a changed pattern, with some changes corresponding to specific pattern characteristics of S. torvum. Received: 12 April 1998 / Revision received: 9 September 1998 / Accepted: 29 November 1998     

Population growth potential of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) on tomato,potato, and eggplant

The influence of host plant on population dynamics of an invasive pest, Tuta absoluta was studied on three economically important solanaceous crops. Experiments were conducted in laboratory (29 ± 0.5°C, 75 ± 5% RH and a photoperiod of 14:10 hr [L:D]) using tomato (Solanum lycopersicum L.), potato (Solanum tuberosum L.) and eggplant (Solanum melongena L.). Results indicated that intrinsic rate of increase (r), finite rate of increase (λ) and net reproductive rate (R₀) were higher, and mean generation time (T) was the shortest on tomato. Results suggested that T. absoluta developed on all the three plants, and tomato plant was most preferred one. Results suggested that T. absoluta has a potential to become a serious pest on potato and even on eggplant under favourable conditions. We used the life tables of 0.025th and 0.975th percentiles of bootstraps to project the uncertainty of population growth, a new concept.     

Comparison between Solanum torvum Sw. and S. melongena L. after Ralstonia solanacearum inoculation

Bacterial wilt, caused by Ralstonia solanacearum, is one of the most devastating plant diseases, affecting some economically important Solanaceae crops. In contrast, Solanum torvum, also known as wild eggplant, does not wilt when infested with R. solanacearum. In order to describe the mechanism underlying the response of S. torvum, it was compared with the cultivated eggplant, S. melongena, when both were infected with the same R. solanacearum strain. No wilting occurred in S. torvum, although the bacteria colonised roots and stems in both species within the first 24 h. There were marked differences beyond 24 h, consisting of high bacterial mortality in S. torvum. Using the calli model, our investigations revealed an increase in cell wall monoamine oxidase activity in S. torvum after R. solanacearum inoculation, which did not occur in S. melongena.     

The role of irradiation dose and DNA content of somatic hybrid calli in producing asymmetric plants between an interspecific tomato hybrid and eggplant

Highly asymmetric somatic hybrid plants were obtained by PEG/DMSO fusion of gamma-irradiated mesophyll protoplasts of the kanamycin-resistant (KmR⁺) interspecific hybrid Lycopersicon esculentum x L. pennellii (EP) with mesophyll protoplasts of Solanum melongena (eggplant, E). Elimination of the EP chromosomes was obtained by irradiating the donor genome with different doses of gamma rays (100, 250, 500, 750 and 1000 Gy). The selection of somatic hybrid calli was based on kanamycin resistance; EP and E protoplasts did not divide due to the irradiation treatment and sensitivity to kanamycin, respectively. KmR⁺ calli were recovered following all irradiation doses of donor EP protoplasts. The hybrid nature of the recovered calli was confirmed by PCR amplification of the NptII gene, RAPD patterns and Southern hybridizations using potato ribosomal DNA and pTHG2 probes. Ploidy levels of calli confirmed as hybrid were further analyzed by flow cytometry. Such analyses revealed that the vast majority of hybrid calli that did not regenerate shoots were 5–9n polyploids. The three asymmetric somatic hybrid plants obtained were regenerated only from callus with a ploidy level close to 4n, and such calli occurred only when the donor EP had been exposed to 100 Gy. The amount of DNA in somatic hybrid calli, from 100-Gy exposure, was found by dot blot hybridization with the species-specific probe, pTHG2, to be equivalent with 3.1–25.8% of the tomato genome. Thus, DNA contained in 3.8–13.2 average-size tomato chromosomes was present in these hybrid calli. The asymmetric somatic hybrid plants had the eggplant morphology and were regenerated from one hybrid callus that contained an amount of tomato DNA equivalent to 6.29 average-size tomato chromosomes.     

Infectivity of Tomato Leaf Curl Hainan Virus in Tomato and Tobacco in China

Tomato leaf curl Hainan virus (ToLCHnV) was previously reported as a distinct begomovirus infecting tomato in Hainan, China. To investigate the infectivity of ToLCHnV, an infectious clone of ToLCHnV‐[CN: HaNHK7] was constructed and agro‐inoculated into Solanum lycopersicum, Nicotiana benthamiana, Nicotiana glutinosa, Petunia hybrida, Cucumis sativus, Solanum melongena and Capsicum annuum plants; it induced severe leaf curling and crinkling symptoms in these plant species except C. sativus, S. melongena and C. annuum. The induced symptoms were compared with those induced by Papaya leaf curl China virus.     

Random amplified polymorphic DNA variation in the eggplant,Solanum melongena L. (Solanaceae)

RAPD analysis was carried out on 52 accessions of Solanum melongena (eggplant) and related weedy forms known as insanum. Twenty-two primers amplified 130 fragments. Solanum melongena exhibited 117 of the fragments, all of which were also present in insanum. Insanum displayed an additional 13 fragments not found in S. melongena. Overall, the insanum accessions were more diverse than those of S. melongena. The calculated similarity between them was 0.947. The RAPD results were closely concordant with the results of an electrophoretic isozyme survey performed on the same accessions. The concordance of the results shows that even though S. melongena and insanum are highly diverse morphologically, it is no longer appropriate to distinguish them taxonomically.