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1. Genome-wide association study reveals the genetic architecture of 27 agronomic traits in tomato

   https://doi.org/10.1093/plphys/kiab230  

   Ye, Jie; Wang, Xin; Wang, Wenqian; Yu, Huiyang; Ai, Guo; Li, Changxing; Sun, Pengya; Wang, Xianyu; Li, Hanxia; Ouyang, Bo; et al (June 2021, Plant Physiology)

   Abstract Tomato (Solanum lycopersicum) is a highly valuable fruit crop, and yield is one of the most important agronomic traits. However, the genetic architecture underlying tomato yield-related traits has not been fully addressed. Based on ∼4.4 million single nucleotide polymorphisms obtained from 605 diverse accessions, we performed a comprehensive genome-wide association study for 27 agronomic traits in tomato. A total of 239 significant associations corresponding to 129 loci, harboring many previously reported and additional genes related to vegetative and reproductive development, were identified, and these loci explained an average of ∼8.8% of the phenotypic variance. A total of 51 loci associated with 25 traits have been under selection during tomato domestication and improvement. Furthermore, a candidate gene, Sl-ACTIVATED MALATE TRANSPORTER15, that encodes an aluminum-activated malate transporter was functionally characterized and shown to act as a pivotal regulator of leaf stomata formation, thereby affecting photosynthesis and drought resistance. This study provides valuable information for tomato genetic research and breeding. 

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2. Natural Genetic Diversity in Tomato Flavor Genes

   https://doi.org/10.3389/fpls.2021.642828  

   Pereira, Lara; Sapkota, Manoj; Alonge, Michael; Zheng, Yi; Zhang, Youjun; Razifard, Hamid; Taitano, Nathan K.; Schatz, Michael C.; Fernie, Alisdair R.; Wang, Ying; et al (June 2021, Frontiers in Plant Science)

   null (Ed.)

   Fruit flavor is defined as the perception of the food by the olfactory and gustatory systems, and is one of the main determinants of fruit quality. Tomato flavor is largely determined by the balance of sugars, acids and volatile compounds. Several genes controlling the levels of these metabolites in tomato fruit have been cloned, including LIN5 , ALMT9 , AAT1 , CXE1 , and LoxC . The aim of this study was to identify any association of these genes with trait variation and to describe the genetic diversity at these loci in the red-fruited tomato clade comprised of the wild ancestor Solanum pimpinellifolium , the semi-domesticated species Solanum lycopersicum cerasiforme and early domesticated Solanum lycopersicum . High genetic diversity was observed at these five loci, including novel haplotypes that could be incorporated into breeding programs to improve fruit quality of modern tomatoes. Using newly available high-quality genome assemblies, we assayed each gene for potential functional causative polymorphisms and resolved a duplication at the LoxC locus found in several wild and semi-domesticated accessions which caused lower accumulation of lipid derived volatiles. In addition, we explored gene expression of the five genes in nine phylogenetically diverse tomato accessions. In general, the expression patterns of these genes increased during fruit ripening but diverged between accessions without clear relationship between expression and metabolite levels. 

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3. Super-pangenome analyses highlight genomic diversity and structural variation across wild and cultivated tomato species

   https://doi.org/10.1038/s41588-023-01340-y  

   Li, Ning; He, Qiang; Wang, Juan; Wang, Baike; Zhao, Jiantao; Huang, Shaoyong; Yang, Tao; Tang, Yaping; Yang, Shengbao; Aisimutuola, Patiguli; et al (April 2023, Nature Genetics)

   Abstract Effective utilization of wild relatives is key to overcoming challenges in genetic improvement of cultivated tomato, which has a narrow genetic basis; however, current efforts to decipher high-quality genomes for tomato wild species are insufficient. Here, we report chromosome-scale tomato genomes from nine wild species and two cultivated accessions, representative of Solanum section Lycopersicon , the tomato clade. Together with two previously released genomes, we elucidate the phylogeny of Lycopersicon and construct a section-wide gene repertoire. We reveal the landscape of structural variants and provide entry to the genomic diversity among tomato wild relatives, enabling the discovery of a wild tomato gene with the potential to increase yields of modern cultivated tomatoes. Construction of a graph-based genome enables structural-variant-based genome-wide association studies, identifying numerous signals associated with tomato flavor-related traits and fruit metabolites. The tomato super-pangenome resources will expedite biological studies and breeding of this globally important crop. 

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4. Exploring Pan-Genomes: An Overview of Resources and Tools for Unraveling Structure, Function, and Evolution of Crop Genes and Genomes

   https://doi.org/10.3390/biom13091403  

   Naithani, Sushma; Deng, Cecilia H; Sahu, Sunil Kumar; Jaiswal, Pankaj (September 2023, Biomolecules)

   The availability of multiple sequenced genomes from a single species made it possible to explore intra- and inter-specific genomic comparisons at higher resolution and build clade-specific pan-genomes of several crops. The pan-genomes of crops constructed from various cultivars, accessions, landraces, and wild ancestral species represent a compendium of genes and structural variations and allow researchers to search for the novel genes and alleles that were inadvertently lost in domesticated crops during the historical process of crop domestication or in the process of extensive plant breeding. Fortunately, many valuable genes and alleles associated with desirable traits like disease resistance, abiotic stress tolerance, plant architecture, and nutrition qualities exist in landraces, ancestral species, and crop wild relatives. The novel genes from the wild ancestors and landraces can be introduced back to high-yielding varieties of modern crops by implementing classical plant breeding, genomic selection, and transgenic/gene editing approaches. Thus, pan-genomic represents a great leap in plant research and offers new avenues for targeted breeding to mitigate the impact of global climate change. Here, we summarize the tools used for pan-genome assembly and annotations, web-portals hosting plant pan-genomes, etc. Furthermore, we highlight a few discoveries made in crops using the pan-genomic approach and future potential of this emerging field of study. 

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5. Genome of Solanum pimpinellifolium provides insights into structural variants during tomato breeding

   https://doi.org/10.1038/s41467-020-19682-0  

   Wang, Xin; Gao, Lei; Jiao, Chen; Stravoravdis, Stefanos; Hosmani, Prashant S.; Saha, Surya; Zhang, Jing; Mainiero, Samantha; Strickler, Susan R.; Catala, Carmen; et al (December 2020, Nature Communications)

   null (Ed.)

   Abstract Solanum pimpinellifolium (SP) is the wild progenitor of cultivated tomato. Because of its remarkable stress tolerance and intense flavor, SP has been used as an important germplasm donor in modern tomato breeding. Here, we present a high-quality chromosome-scale genome sequence of SP LA2093. Genome comparison identifies more than 92,000 structural variants (SVs) between LA2093 and the modern cultivar, Heinz 1706. Genotyping these SVs in ~600 representative tomato accessions identifies alleles under selection during tomato domestication, improvement and modern breeding, and discovers numerous SVs overlapping genes known to regulate important breeding traits such as fruit weight and lycopene content. Expression quantitative trait locus (eQTL) analysis detects hotspots harboring master regulators controlling important fruit quality traits, including cuticular wax accumulation and flavonoid biosynthesis, and SVs contributing to these complex regulatory networks. The LA2093 genome sequence and the identified SVs provide rich resources for future research and biodiversity-based breeding. 

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