Your search keyword '"Barchi, L."' showing total 19 results

1. Irregular green netting of eggplant fruit peel: a domestication trait controlled by SmGLK2 with potential for fruit colour diversification.

Author

Arrones A, Manrique S, Gomis-Cebolla J, Baraja-Fonseca V, Plazas M, Prohens J, Portis E, Barchi L, Giuliano G, Gramazio P, and Vilanova S

Subjects

Pigmentation genetics, Chlorophyll metabolism, Color, Solanum melongena genetics, Fruit genetics, Domestication, Plant Proteins genetics, Plant Proteins metabolism

Abstract

The distribution of chlorophylls in eggplant (Solanum melongena) peel exhibits either a uniform pattern or an irregular green netting pattern. The latter, manifested as a gradient of dark green netting that is intensified in the proximal part of the fruit on a pale green background, is common in wild relatives and some eggplant landraces. Despite the selection of uniform chlorophylls during domestication, the netting pattern contributes to a greater diversity of fruit colours. Here, we used over 2300 individuals from different populations, including a multi-parent advanced generation inter-cross population for candidate genomic region identification, an F2 population for bulked segregant analysis by sequencing, and advanced backcrosses for edges-to-core fine-mapping, to identify SmGLK2 gene as responsible for the irregular netting in eggplant fruits. We also analysed the gene sequence of 178 S. melongena accessions and 22 wild relative species for tracing the evolutionary changes that the gene has undergone during domestication. Three different mutations were identified leading to the absence of netting. The main causative indel induces a premature stop codon disrupting the protein conformation and function, which was confirmed by western blot analysis and confocal microscopy observations. SmGLK2 has a major role in regulating chlorophyll biosynthesis in eggplant fruit peel., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published

2024

2. Analysis of >3400 worldwide eggplant accessions reveals two independent domestication events and multiple migration-diversification routes.

Author

Barchi L, Aprea G, Rabanus-Wallace MT, Toppino L, Alonso D, Portis E, Lanteri S, Gaccione L, Omondi E, van Zonneveld M, Schafleitner R, Ferrante P, Börner A, Stein N, Díez MJ, Lefebvre V, Salinier J, Boyaci HF, Finkers R, Brouwer M, Bovy AG, Rotino GL, Prohens J, and Giuliano G

Subjects

Domestication, Fruit genetics, Asia, Solanum melongena genetics, Solanum lycopersicum

Abstract

Eggplant (Solanum melongena) is an important Solanaceous crop, widely cultivated and consumed in Asia, the Mediterranean basin, and Southeast Europe. Its domestication centers and migration and diversification routes are still a matter of debate. We report the largest georeferenced and genotyped collection to this date for eggplant and its wild relatives, consisting of 3499 accessions from seven worldwide genebanks, originating from 105 countries in five continents. The combination of genotypic and passport data points to the existence of at least two main centers of domestication, in Southeast Asia and the Indian subcontinent, with limited genetic exchange between them. The wild and weedy eggplant ancestor S. insanum shows admixture with domesticated S. melongena, similar to what was described for other fruit-bearing Solanaceous crops such as tomato and pepper and their wild ancestors. After domestication, migration and admixture of eggplant populations from different regions have been less conspicuous with respect to tomato and pepper, thus better preserving 'local' phenotypic characteristics. The data allowed the identification of misclassified and putatively duplicated accessions, facilitating genebank management. All the genetic, phenotypic, and passport data have been deposited in the Open Access G2P-SOL database, and constitute an invaluable resource for understanding the domestication, migration and diversification of this cosmopolitan vegetable., (© 2023 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2023

3. Conventional and new genetic resources for an eggplant breeding revolution.

Author

Gramazio P, Alonso D, Arrones A, Villanueva G, Plazas M, Toppino L, Barchi L, Portis E, Ferrante P, Lanteri S, Rotino GL, Giuliano G, Vilanova S, and Prohens J

Subjects

Plant Breeding, Phenotype, Solanum melongena genetics, Solanum genetics

Abstract

Eggplant (Solanum melongena) is a major vegetable crop with great potential for genetic improvement owing to its large and mostly untapped genetic diversity. It is closely related to over 500 species of Solanum subgenus Leptostemonum that belong to its primary, secondary, and tertiary genepools and exhibit a wide range of characteristics useful for eggplant breeding, including traits adaptive to climate change. Germplasm banks worldwide hold more than 19 000 accessions of eggplant and related species, most of which have yet to be evaluated. Nonetheless, eggplant breeding using the cultivated S. melongena genepool has yielded significantly improved varieties. To overcome current breeding challenges and for adaptation to climate change, a qualitative leap forward in eggplant breeding is necessary. The initial findings from introgression breeding in eggplant indicate that unleashing the diversity present in its relatives can greatly contribute to eggplant breeding. The recent creation of new genetic resources such as mutant libraries, core collections, recombinant inbred lines, and sets of introgression lines will be another crucial element and will require the support of new genomics tools and biotechnological developments. The systematic utilization of eggplant genetic resources supported by international initiatives will be critical for a much-needed eggplant breeding revolution to address the challenges posed by climate change., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2023

4. A Genomic BSAseq Approach for the Characterization of QTLs Underlying Resistance to Fusarium oxysporum in Eggplant.

Author

Tassone MR, Bagnaresi P, Desiderio F, Bassolino L, Barchi L, Florio FE, Sunseri F, Sirangelo TM, Rotino GL, and Toppino L

Subjects

Genomics, Plant Diseases genetics, Fusarium genetics, Solanum melongena genetics

Abstract

Eggplant ( Solanum melongena L.), similar to many other crops, suffers from soil-borne diseases, including Fusarium oxysporum f. sp. melongenae ( Fom ), causing wilting and heavy yield loss. To date, the genetic factors underlying plant responses to Fom are not well known. We previously developed a Recombinant Inbred Lines (RILs) population using as a female parent the fully resistant line '305E40' and as a male parent the partially resistant line '67/3'. The fully resistant trait to Fom was introgressed from the allied species S. aethiopicum . In this work, the RIL population was assessed for the responses to Fom and by using a genomic mapping approach, two major QTLs on chromosomes CH02 and CH11 were identified, associated with the full and partial resistance trait to Fom , respectively. A targeted BSAseq procedure in which Illumina reads bulks of RILs grouped according to their resistance score was aligned to the appropriate reference genomes highlighted differentially enriched regions between resistant/susceptible progeny in the genomic regions underlying both QTLs. The characterization of such regions allowed us to identify the most reliable candidate genes for the two resistance traits. With the aim of revealing exclusive species-specific contigs and scaffolds inherited from the allied species and thus associated with the full resistance trait, a draft de-novo assembly of available Illumina sequences of the '305E40' parent was developed to better resolve the non-recombining genomic region on its CH02 carrying the introgressed Fom resistance locus from S. aethiopicum .

Published

2022

5. Improved genome assembly and pan-genome provide key insights into eggplant domestication and breeding.

Author

Barchi L, Rabanus-Wallace MT, Prohens J, Toppino L, Padmarasu S, Portis E, Rotino GL, Stein N, Lanteri S, and Giuliano G

Subjects

Chromosome Mapping, Genes, Plant genetics, Genetic Variation, Polymorphism, Single Nucleotide genetics, Quantitative Trait, Heritable, Solanum melongena growth & development, Whole Genome Sequencing, Domestication, Genome, Plant genetics, Plant Breeding, Solanum melongena genetics

Abstract

Eggplant (Solanum melongena L.) is an important horticultural crop and one of the most widely grown vegetables from the Solanaceae family. It was domesticated from a wild, prickly progenitor carrying small, round, non-anthocyanic fruits. We obtained a novel, highly contiguous genome assembly of the eggplant '67/3' reference line, by Hi-C retrofitting of a previously released short read- and optical mapping-based assembly. The sizes of the 12 chromosomes and the fraction of anchored genes in the improved assembly were comparable to those of a chromosome-level assembly. We resequenced 23 accessions of S. melongena representative of the worldwide phenotypic, geographic, and genetic diversity of the species, and one each from the closely related species Solanum insanum and Solanum incanum. The eggplant pan-genome contained approximately 51.5 additional megabases and 816 additional genes compared with the reference genome, while the pan-plastome showed little genetic variation. We identified 53 selective sweeps related to fruit color, prickliness, and fruit shape in the nuclear genome, highlighting selection leading to the emergence of present-day S. melongena cultivars from its wild ancestors. Candidate genes underlying the selective sweeps included a MYBL1 repressor and CHALCONE ISOMERASE (for fruit color), homologs of Arabidopsis GLABRA1 and GLABROUS INFLORESCENCE STEMS2 (for prickliness), and orthologs of tomato FW2.2, OVATE, LOCULE NUMBER/WUSCHEL, SUPPRESSOR OF OVATE, and CELL SIZE REGULATOR (for fruit size/shape), further suggesting that selection for the latter trait relied on a common set of orthologous genes in tomato and eggplant., (© 2021 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2021

6. A New Intra-Specific and High-Resolution Genetic Map of Eggplant Based on a RIL Population, and Location of QTLs Related to Plant Anthocyanin Pigmentation and Seed Vigour.

Author

Toppino L, Barchi L, Mercati F, Acciarri N, Perrone D, Martina M, Gattolin S, Sala T, Fadda S, Mauceri A, Ciriaci T, Carimi F, Portis E, Sunseri F, Lanteri S, and Rotino GL

Subjects

Anthocyanins genetics, Disease Resistance, Fusarium pathogenicity, Pigmentation, Seeds growth & development, Seeds metabolism, Solanum melongena microbiology, Solanum melongena physiology, Anthocyanins biosynthesis, Chromosomes, Plant genetics, Genetic Linkage, Quantitative Trait Loci, Seeds genetics, Solanum melongena genetics

Abstract

Eggplant is the second most important solanaceous berry-producing crop after tomato. Despite mapping studies based on bi-parental progenies and GWAS approaches having been performed, an eggplant intraspecific high-resolution map is still lacking. We developed a RIL population from the intraspecific cross '305E40', (androgenetic introgressed line carrying the locus Rfo-Sa1 conferring Fusarium resistance) x '67/3' (breeding line whose genome sequence was recently released). One hundred and sixty-three RILs were genotyped by a genotype-by-sequencing (GBS) approach, which allowed us to identify 10,361 polymorphic sites. Overall, 267 Gb of sequencing data were generated and ~773 M Illumina paired end (PE) reads were mapped against the reference sequence. A new linkage map was developed, including 7249 SNPs assigned to the 12 chromosomes and spanning 2169.23 cM, with iaci@liberoan average distance of 0.4 cM between adjacent markers. This was used to elucidate the genetic bases of seven traits related to anthocyanin content in different organs recorded in three locations as well as seed vigor. Overall, from 7 to 17 QTLs (at least one major QTL) were identified for each trait. These results demonstrate that our newly developed map supplies valuable information for QTL fine mapping, candidate gene identification, and the development of molecular markers for marker assisted selection (MAS) of favorable alleles., Competing Interests: The authors declare that they have no conflict of interest.

Published

2020

7. Identification of a new R3 MYB type repressor and functional characterization of the members of the MBW transcriptional complex involved in anthocyanin biosynthesis in eggplant (S. melongena L.).

Author

Moglia A, Florio FE, Iacopino S, Guerrieri A, Milani AM, Comino C, Barchi L, Marengo A, Cagliero C, Rubiolo P, Toppino L, Rotino GL, Lanteri S, and Bassolino L

Subjects

Amino Acid Sequence, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Gene Expression Regulation, Plant, Genes, Plant, Genes, Regulator, Multigene Family, Phylogeny, Plants, Genetically Modified, Recombinant Proteins genetics, Recombinant Proteins metabolism, Nicotiana genetics, Nicotiana metabolism, Anthocyanins biosynthesis, Plant Proteins genetics, Plant Proteins metabolism, Repressor Proteins genetics, Repressor Proteins metabolism, Solanum melongena genetics, Solanum melongena metabolism

Abstract

Here we focus on the highly conserved MYB-bHLH-WD repeat (MBW) transcriptional complex model in eggplant, which is pivotal in the transcriptional regulation of the anthocyanin biosynthetic pathway. Through a genome-wide approach performed on the recently released Eggplant Genome (cv. 67/3) previously identified, and reconfirmed by us, members belonging to the MBW complex (SmelANT1, SmelAN2, SmelJAF13, SmelAN1) were functionally characterized. Furthermore, a regulatory R3 MYB type repressor (SmelMYBL1), never reported before, was identified and characterized as well. Through a qPCR approach, we revealed specific transcriptional patterns of candidate genes in different plant tissue/organs at two stages of fruit development. Two strategies were adopted for investigating the interactions of bHLH partners (SmelAN1, SmelJAF13) with MYB counterparts (SmelANT1, SmelAN2 and SmelMYBL1): Yeast Two Hybrid (Y2H) and Bimolecular Fluorescent Complementation (BiFC) in A. thaliana mesophylls protoplast. Agro-infiltration experiments highlighted that N. benthamiana leaves transiently expressing SmelANT1 and SmelAN2 showed an anthocyanin-pigmented phenotype, while their co-expression with SmelMYBL1 prevented anthocyanin accumulation. Our results suggest that SmelMYBL1 may inhibits the MBW complex via the competition with MYB activators for bHLH binding site, although this hypothesis requires further elucidation., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

8. A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution.

Author

Barchi L, Pietrella M, Venturini L, Minio A, Toppino L, Acquadro A, Andolfo G, Aprea G, Avanzato C, Bassolino L, Comino C, Molin AD, Ferrarini A, Maor LC, Portis E, Reyes-Chin-Wo S, Rinaldi R, Sala T, Scaglione D, Sonawane P, Tononi P, Almekias-Siegl E, Zago E, Ercolano MR, Aharoni A, Delledonne M, Giuliano G, Lanteri S, and Rotino GL

Subjects

Ethylenes metabolism, Gene Regulatory Networks, MicroRNAs genetics, Solanum melongena metabolism, Chromosomes, Plant, Evolution, Molecular, Genome, Plant, Solanum melongena genetics

Abstract

With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10% to 15% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.

Published

2019

9. A spiking strategy facilitates housekeeping selection for RT-qPCR analysis under different biotic stresses in eggplant.

Author

Barbierato V, Sala T, Rinaldi P, Bassolino L, Barchi L, Rotino GL, and Toppino L

Subjects

Gene Expression Regulation, Plant, Genes, Essential, Genes, Plant, Plant Diseases microbiology, Plant Roots metabolism, Plant Roots microbiology, Real-Time Polymerase Chain Reaction, Reference Standards, Reverse Transcriptase Polymerase Chain Reaction, Solanum melongena metabolism, Solanum melongena microbiology, Stress, Physiological, Gene Expression Profiling standards, Plant Roots genetics, Solanum melongena genetics

Abstract

Endogenous housekeeping genes are traditionally employed to normalize the expression of target genes in RT-qPCR studies. Assuming that a perfect housekeeping suitable for every condition does not exist, expression stability of the chosen reference gene should be evaluated at every new experiment. The housekeeping selection process reveals furthermore complicated and time-consuming when different conditions have to be compared in the same experimental dataset. As an alternative strategy, we spiked an external reference transcript (ERT) into all RNA samples of our dataset (eggplant roots subjected to different biotic stresses), and used it to normalize the expression levels of native candidate housekeeping. ERT expression resulted highly stable across all samples and enabled to indicate glyceraldehyde 3-phosphate dehydrogenase (GAPDH) as the most stable endogenous housekeeping. This result was confirmed by the use of GeNorm, Normfinder, and BestKeeper algorithms. This method might be generally applied to expedite the selection process of the best reference gene.

Published

2017

10. Coding SNPs analysis highlights genetic relationships and evolution pattern in eggplant complexes.

Author

Acquadro A, Barchi L, Gramazio P, Portis E, Vilanova S, Comino C, Plazas M, Prohens J, and Lanteri S

Subjects

Genotype, Polymorphism, Single Nucleotide genetics, Species Specificity, Evolution, Molecular, Genetic Variation, Solanum melongena genetics

Abstract

Brinjal (Solanum melongena), scarlet (S. aethiopicum) and gboma (S. macrocarpon) eggplants are three Old World domesticates. The genomic DNA of a collection of accessions belonging to the three cultivated species, along with a representation of various wild relatives, was characterized for the presence of single nucleotide polymorphisms (SNPs) using a genotype-by-sequencing approach. A total of 210 million useful reads were produced and were successfully aligned to the reference eggplant genome sequence. Out of the 75,399 polymorphic sites identified among the 76 entries in study, 12,859 were associated with coding sequence. A genetic relationships analysis, supported by the output of the FastSTRUCTURE software, identified four major sub-groups as present in the germplasm panel. The first of these clustered S. aethiopicum with its wild ancestor S. anguivi; the second, S. melongena, its wild progenitor S. insanum, and its relatives S. incanum, S. lichtensteinii and S. linneanum; the third, S. macrocarpon and its wild ancestor S. dasyphyllum; and the fourth, the New World species S. sisymbriifolium, S. torvum and S. elaeagnifolium. By applying a hierarchical FastSTRUCTURE analysis on partitioned data, it was also possible to resolve the ambiguous membership of the accessions of S. campylacanthum, S. violaceum, S. lidii, S. vespertilio and S. tomentsum, as well as to genetically differentiate the three species of New World Origin. A principal coordinates analysis performed both on the entire germplasm panel and also separately on the entries belonging to sub-groups revealed a clear separation among species, although not between each of the domesticates and their respective wild ancestors. There was no clear differentiation between either distinct cultivar groups or different geographical provenance. Adopting various approaches to analyze SNP variation provided support for interpretation of results. The genotyping-by-sequencing approach showed to be highly efficient for both quantifying genetic diversity and establishing genetic relationships among and within cultivated eggplants and their wild relatives. The relevance of these results to the evolution of eggplants, as well as to their genetic improvement, is discussed.

Published

2017

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

Author

Portis E, Cericola F, Barchi L, Toppino L, Acciarri N, Pulcini L, Sala T, Lanteri S, and Rotino GL

Subjects

Breeding, Genomics, Phenotype, Polymorphism, Single Nucleotide, Synteny, Chromosome Mapping, Fruit genetics, Plant Leaves genetics, Solanum melongena genetics

Abstract

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.

Published

2015

12. Linkage disequilibrium and genome-wide association analysis for anthocyanin pigmentation and fruit color in eggplant.

Author

Cericola F, Portis E, Lanteri S, Toppino L, Barchi L, Acciarri N, Pulcini L, Sala T, and Rotino GL

Subjects

Chromosome Mapping, Genome, Plant genetics, Genotype, Microsatellite Repeats genetics, Polymorphism, Single Nucleotide genetics, Synteny genetics, Anthocyanins metabolism, Fruit metabolism, Genomics, Linkage Disequilibrium, Pigmentation genetics, Solanum melongena genetics, Solanum melongena metabolism

Abstract

Background: The genome-wide association (GWA) approach represents an alternative to biparental linkage mapping for determining the genetic basis of trait variation. Both approaches rely on recombination to re-arrange the genome, and seek to establish correlations between phenotype and genotype. The major advantages of GWA lie in being able to sample a much wider range of the phenotypic and genotypic variation present, in being able to exploit multiple rounds of historical recombination in many different lineages and to include multiple accessions of direct relevance to crop improvement., Results: A 191 accessions eggplant (Solanum melongena L.) association panel, comprising a mixture of breeding lines, old varieties and landrace selections originating from Asia and the Mediterranean Basin, was SNP genotyped and scored for anthocyanin pigmentation and fruit color at two locations over two years. The panel formed two major clusters, reflecting geographical provenance and fruit type. The global level of linkage disequilibrium was 3.4 cM. A mixed linear model appeared to be the most appropriate for GWA. A set of 56 SNP locus/phenotype associations was identified and the genomic regions harboring these loci were distributed over nine of the 12 eggplant chromosomes. The associations were compared with the location of known QTL for the same traits., Conclusion: The GWA mapping approach was effective in validating a number of established QTL and, thanks to the wide diversity captured by the panel, was able to detect a series of novel marker/trait associations.

Published

2014

13. QTL mapping in eggplant reveals clusters of yield-related loci and orthology with the tomato genome.

Author

Portis E, Barchi L, Toppino L, Lanteri S, Acciarri N, Felicioni N, Fusari F, Barbierato V, Cericola F, Valè G, and Rotino GL

Subjects

Chromosomes, Plant, Epistasis, Genetic, Fruit anatomy & histology, Genes, Plant, Genetic Association Studies, Hybridization, Genetic, Phenotype, Solanum melongena anatomy & histology, Synteny, Fruit genetics, Solanum lycopersicum genetics, Quantitative Trait Loci, Solanum melongena genetics

Abstract

In spite of its widespread cultivation and nutritional and economic importance, the eggplant (Solanum melongena L.) genome has not been extensively explored. A lack of knowledge of the patterns of inheritance of key agronomic traits has hindered the exploitation of marker technologies to accelerate its genetic improvement. An already established F2 intraspecific population of eggplant bred from the cross '305E40' x '67/3' was phenotyped for 20 agronomically relevant traits at two sites. Up to seven quantitative trait loci (QTL) per trait were identified and the percentage of the phenotypic variance (PV) explained per QTL ranged from 4 to 93%. Not all the QTL were detectable at both sites, but for each trait at least one major QTL (PV explained ≥ 10%) was identified. Although no detectable QTL x environment interaction was found, some QTL identified were location-specific. Many of the fruit-related QTL clustered within specific chromosomal regions, reflecting either linkage and/or pleiotropy. Evidence for putative tomato orthologous QTL/genes was obtained for several of the eggplant QTL. Information regarding the inheritance of key agronomic traits was obtained. Some of the QTL, along with their respective linked markers, may be useful in the context of marker-assisted breeding.

Published

2014

14. The population structure and diversity of eggplant from Asia and the Mediterranean Basin.

Author

Cericola F, Portis E, Toppino L, Barchi L, Acciarri N, Ciriaci T, Sala T, Rotino GL, and Lanteri S

Subjects

Asia, Breeding, Genetics, Population, Genome, Plant genetics, Genotype, Mediterranean Region, Phenotype, Principal Component Analysis, Solanum melongena classification, Species Specificity, Genetic Variation, Microsatellite Repeats genetics, Solanum melongena anatomy & histology, Solanum melongena genetics

Abstract

A collection of 238 eggplant breeding lines, heritage varieties and selections within local landraces provenanced from Asia and the Mediterranean Basin was phenotyped with respect to key plant and fruit traits, and genotyped using 24 microsatellite loci distributed uniformly throughout the genome. STRUCTURE analysis based on the genotypic data identified two major sub-groups, which to a large extent mirrored the provenance of the entries. With the goal to identify true-breeding types, 38 of the entries were discarded on the basis of microsatellite-based residual heterozygosity, along with a further nine which were not phenotypically uniform. The remaining 191 entries were scored for a set of 19 fruit and plant traits in a replicated experimental field trial. The phenotypic data were subjected to principal component and hierarchical principal component analyses, allowing three major morphological groups to be identified. All three morphological groups were represented in both the "Occidental" and the "Oriental" germplasm, so the correlation between the phenotypic and the genotypic data sets was quite weak. The relevance of these results for evolutionary studies and the further improvement of eggplant are discussed. The population structure of the core set of germplasm shows that it can be used as a basis for an association mapping approach.

Published

2013

15. A RAD tag derived marker based eggplant linkage map and the location of QTLs determining anthocyanin pigmentation.

Author

Barchi L, Lanteri S, Portis E, Valè G, Volante A, Pulcini L, Ciriaci T, Acciarri N, Barbierato V, Toppino L, and Rotino GL

Subjects

Chromosomes, Plant genetics, Genes, Plant genetics, Genetic Markers genetics, Solanum lycopersicum genetics, Solanum lycopersicum metabolism, Plant Proteins genetics, Plant Proteins metabolism, Polymorphism, Single Nucleotide, Solanum melongena metabolism, Synteny, Anthocyanins biosynthesis, Chromosome Mapping methods, Quantitative Trait Loci genetics, Solanum melongena genetics

Abstract

Both inter- and intra-specific maps have been developed in eggplant (Solanum melongena L.). The former benefit from an enhanced frequency of marker polymorphism, but their relevance to marker-assisted crop breeding is limited. Combining the restriction-site associated DNA strategy with high throughput sequencing has facilitated the discovery of a large number of functional single nucleotide polymorphism (SNP) markers discriminating between the two eggplant mapping population parental lines '305E40' and '67/3'. A set of 347 de novo SNPs, together with 84 anchoring markers, were applied to the F(2) mapping population bred from the cross '305E40' x '67/3' to construct a linkage map. In all, 415 of the 431 markers were assembled into twelve major and one minor linkage group, spanning 1,390 cM, and the inclusion of established markers allowed each linkage group to be assigned to one of the 12 eggplant chromosomes. The map was then used to discover the genetic basis of seven traits associated with anthocyanin content. Each of the traits proved to be controlled by between one and six quantitative trait loci (QTL), of which at least one was a major QTL. Exploitation of syntenic relationships between the eggplant and tomato genomes facilitated the identification of potential candidate genes for the eggplant QTLs related to anthocyanin accumulation. The intra-specific linkage map should have utility for elucidating the genetic basis of other phenotypic traits in eggplant.

Published

2012

16. Identification of SNP and SSR markers in eggplant using RAD tag sequencing.

Author

Barchi L, Lanteri S, Portis E, Acquadro A, Valè G, Toppino L, and Rotino GL

Subjects

Binding Sites, Chromosome Mapping, Genomics, Molecular Sequence Annotation, DNA Restriction Enzymes metabolism, DNA, Plant genetics, DNA, Plant metabolism, Minisatellite Repeats genetics, Polymorphism, Single Nucleotide genetics, Sequence Analysis, DNA methods, Solanum melongena genetics

Abstract

Background: The eggplant (Solanum melongena L.) genome is relatively unexplored, especially compared to those of the other major Solanaceae crops tomato and potato. In particular, no SNP markers are publicly available; on the other hand, over 1,000 SSR markers were developed and publicly available. We have combined the recently developed Restriction-site Associated DNA (RAD) approach with Illumina DNA sequencing for rapid and mass discovery of both SNP and SSR markers for eggplant., Results: RAD tags were generated from the genomic DNA of a pair of eggplant mapping parents, and sequenced to produce ~17.5 Mb of sequences arrangeable into ~78,000 contigs. The resulting non-redundant genomic sequence dataset consisted of ~45,000 sequences, of which ~29% were putative coding sequences and ~70% were in common between the mapping parents. The shared sequences allowed the discovery of ~10,000 SNPs and nearly 1,000 indels, equivalent to a SNP frequency of 0.8 per Kb and an indel frequency of 0.07 per Kb. Over 2,000 of the SNPs are likely to be mappable via the Illumina GoldenGate assay. A subset of 384 SNPs was used to successfully fingerprint a panel of eggplant germplasm, producing a set of informative diversity data. The RAD sequences also included nearly 2,000 putative SSRs, and primer pairs were designed to amplify 1,155 loci., Conclusion: The high throughput sequencing of the RAD tags allowed the discovery of a large number of DNA markers, which will prove useful for extending our current knowledge of the genome organization of eggplant, for assisting in marker-aided selection and for carrying out comparative genomic analyses within the Solanaceae family.

Published

2011

17. Segregation distortion and linkage analysis in eggplant (Solanum melongena L.).

Author

Barchi L, Lanteri S, Portis E, Stàgel A, Valè G, Toppino L, and Rotino GL

Subjects

Chromosome Mapping, Chromosomes, Plant genetics, Crosses, Genetic, Genetic Markers physiology, Genotype, Quantitative Trait Loci, Sequence Alignment, Chromosome Segregation genetics, Genetic Linkage, Solanum melongena genetics

Abstract

An anther-derived doubled haploid (DH) population and an F2 mapping population were developed from an intraspecific hybrid between the eggplant breeding lines 305E40 and 67/3. The former incorporates an introgressed segment from Solanum aethiopicum Gilo Group carrying the gene Rfo-sa1, which confers resistance to Fusarium oxysporum; the latter is a selection from an intraspecific cross involving two conventional eggplant varieties and lacks Rfo-sa1. Initially, 28 AFLP primer combinations (PCs) were applied to a sample of 93 F2 individuals and 93 DH individuals, from which 170 polymorphic AFLP fragments were identified. In the DH population, the segregation of 117 of these AFLPs as well as markers closely linked to Rfo-sa1 was substantially distorted, while in the F2 population, segregation distortion was restricted to just 10 markers, and thus the latter was chosen for map development. A set of 141 F2 individuals was genotyped with 73 AFLP PCs (generating 406 informative markers), 32 SSRs, 4 tomato RFLPs, and 3 CAPS markers linked to Rfo-sa1. This resulted in the assignment of 348 markers to 12 major linkage groups. The framework map covered 718.7 cM, comprising 238 markers (212 AFLPs, 22 SSRs, 1 RFLP, and the Rfo-sa1 CAPS). Marker order and inter-marker distances in this eggplant map were largely consistent with those reported in a recently published SSR-based map. From an eggplant breeding perspective, DH populations produced by anther culture appear to be subject to massive segregation distortion and thus may not be very efficient in capturing the full range of genetic variation present in the parental lines.

Published

2010

18. Improved genome assembly and pan-genome provide key insights into eggplant domestication and breeding

Author

Mark Timothy Rabanus-Wallace, Sergio Lanteri, Giuseppe Leonardo Rotino, Sudharsan Padmarasu, Nils Stein, Laura Toppino, Giovanni Giuliano, Lorenzo Barchi, Ezio Portis, Jaime Prohens, Barchi, L., Rabanus-Wallace, M. T., Prohens, J., Toppino, L., Padmarasu, S., Portis, E., Rotino, G. L., Stein, N., Lanteri, S., and Giuliano, G.

Subjects

0106 biological sciences, 0301 basic medicine, pan‐plastome, Nuclear gene, pan-plastome, whole-genome resequencing, Plant Science, whole‐genome resequencing, Genes, Plant, 01 natural sciences, pan‐genome, Polymorphism, Single Nucleotide, 03 medical and health sciences, domestication, Quantitative Trait, Heritable, single nucleotide polymorphism, Genetic variation, Genetics, Solanum incanum, Solanum melongena, Gene, 2. Zero hunger, Genetic diversity, eggplant wild relatives, biology, Whole Genome Sequencing, food and beverages, Chromosome Mapping, Genetic Variation, Cell Biology, Original Articles, biology.organism_classification, indel, eggplant wild relatives, 02.- Poner fin al hambre, conseguir la seguridad alimentaria y una mejor nutrición, y promover la agricultura sostenible, Plant Breeding, GENETICA, 030104 developmental biology, indel, genome assembly, Original Article, pan-genome, Solanum, domestication, genome assembly, indel, eggplant wild relatives, pan-genome, pan-plastome, single nucleotide polymorphism, Solanum melongena, whole-genome resequencing, Solanaceae, Genome, Plant, 010606 plant biology & botany, Reference genome

Abstract

Summary Eggplant (Solanum melongena L.) is an important horticultural crop and one of the most widely grown vegetables from the Solanaceae family. It was domesticated from a wild, prickly progenitor carrying small, round, non‐anthocyanic fruits. We obtained a novel, highly contiguous genome assembly of the eggplant ‘67/3’ reference line, by Hi‐C retrofitting of a previously released short read‐ and optical mapping‐based assembly. The sizes of the 12 chromosomes and the fraction of anchored genes in the improved assembly were comparable to those of a chromosome‐level assembly. We resequenced 23 accessions of S. melongena representative of the worldwide phenotypic, geographic, and genetic diversity of the species, and one each from the closely related species Solanum insanum and Solanum incanum. The eggplant pan‐genome contained approximately 51.5 additional megabases and 816 additional genes compared with the reference genome, while the pan‐plastome showed little genetic variation. We identified 53 selective sweeps related to fruit color, prickliness, and fruit shape in the nuclear genome, highlighting selection leading to the emergence of present‐day S. melongena cultivars from its wild ancestors. Candidate genes underlying the selective sweeps included a MYBL1 repressor and CHALCONE ISOMERASE (for fruit color), homologs of Arabidopsis GLABRA1 and GLABROUS INFLORESCENCE STEMS2 (for prickliness), and orthologs of tomato FW2.2, OVATE, LOCULE NUMBER/WUSCHEL, SUPPRESSOR OF OVATE, and CELL SIZE REGULATOR (for fruit size/shape), further suggesting that selection for the latter trait relied on a common set of orthologous genes in tomato and eggplant., Significance Statement Chromosome conformation capture (Hi‐C) was applied for improving a short read‐based genome assembly of eggplant (Solanum melongena). The enhanced assembly, combined with resequencing data of accessions representing the genetic and phenotypic diversity of the species and of its closest wild relatives, allowed the construction of the first eggplant pan‐genome and pan‐plastome and the identification of selective sweeps and candidate genes likely involved in eggplant domestication and breeding.

Published

2021

19. A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution

Author

Laura Toppino, Andrea Minio, G. Aprea, T. Sala, Paola Tononi, Efrat Almekias-Siegl, Sebastian Reyes-Chin-Wo, Elisa Zago, Louise Chappell Maor, Lorenzo Barchi, Asaph Aharoni, Giuseppe Andolfo, Marco Pietrella, Maria Raffaella Ercolano, Giuseppe Leonardo Rotino, Cinzia Comino, Luca Venturini, Riccardo Rinaldi, Giovanni Giuliano, Alberto Acquadro, Sergio Lanteri, Alberto Ferrarini, C. Avanzato, Ezio Portis, Prashant D. Sonawane, Davide Scaglione, Alessandra Dal Molin, Laura Bassolino, Massimo Delledonne, Barchi, L., Pietrella, M., Venturini, L., Minio, A., Toppino, L., Acquadro, A., Andolfo, G., Aprea, G., Avanzato, C., Bassolino, L., Comino, C., Molin, A. D., Ferrarini, A., Maor, L. C., Portis, E., Reyes-Chin-Wo, S., Rinaldi, R., Sala, T., Scaglione, D., Sonawane, P., Tononi, P., Almekias-Siegl, E., Zago, E., Ercolano, M. R., Aharoni, A., Delledonne, M., Giuliano, G., Lanteri, S., Rotino, G. L., and Ercolano, M.

Subjects

0301 basic medicine, Science, Biology, Genome, Chromosomes, Plant, Article, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, eggplant genome, Sequencing, Gene Regulatory Networks, Solanum melongena, Gene, Synteny, Whole genome sequencing, Genetics, Multidisciplinary, fungi, Chromosome, food and beverages, Genomics, Ethylenes, biology.organism_classification, MicroRNAs, 030104 developmental biology, Paleopolyploidy, Medicine, Solanum, 030217 neurology & neurosurgery, Solanaceae, Genome, Plant

Abstract

With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10% to 15% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.

Published

2019