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      A High-Quality Melon Genome Assembly Provides Insights into Genetic Basis of Fruit Trait Improvement

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          Summary

          Accurate reference genomes have become indispensable tools for characterization of genetic and functional variations. Here we generated a high-quality assembly of the melon Payzawat using a combination of short-read sequencing, single-molecule real-time sequencing, Hi-C, and a high-density genetic map. The final 12 chromosome-level scaffolds cover ∼94.13% of the estimated genome (398.57 Mb). Compared with the published DHL92 genome, our assembly exhibits a 157-fold increase in contig length and remarkable improvements in the assembly of centromeres and telomeres. Six genes within STHQF12.4 on pseudochromosome 12, identified from whole-genome comparison between Payzawat and DHL92, may explain a considerable proportion of the skin thickness. In addition, our population study showed that melon domesticated at multiple times from whole-genome perspective and melons in China are introduced from different routes. Selective sweeps underlying the genes related to desirable traits, haplotypes of alleles associated with agronomic traits, and the variants from resequencing data enable efficient breeding.

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          Highlights

          • Provides a high-quality assembly for melon genome

          • Explains a considerable proportion of epidermis thickness

          • Melons in China are introduced from different routes

          • Haplotypes of alleles associated with agronomic traits enable efficient breeding

          Abstract

          Biological Sciences; Genetics; Plant Genetics; Plant Evolution

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          The genome of Chenopodium quinoa

          David Jarvis, Yung Ho, Damien Lightfoot (2017)
          Constructing a reference genome for quinoa (Chenopodium quinoa) allows for genetic diversity during the evolution of sub-genomes in quinoa to be characterized and markers that may be used to develop sweet commercial varieties are identified.
          Article 0 comments Cited 262 times – based on 0 reviews     Review now
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            The genome of melon (Cucumis melo L.).

            J. Garcia-Mas, A Benjak, W. Sanseverino (2012)
            We report the genome sequence of melon, an important horticultural crop worldwide. We assembled 375 Mb of the double-haploid line DHL92, representing 83.3% of the estimated melon genome. We predicted 27,427 protein-coding genes, which we analyzed by reconstructing 22,218 phylogenetic trees, allowing mapping of the orthology and paralogy relationships of sequenced plant genomes. We observed the absence of recent whole-genome duplications in the melon lineage since the ancient eudicot triplication, and our data suggest that transposon amplification may in part explain the increased size of the melon genome compared with the close relative cucumber. A low number of nucleotide-binding site-leucine-rich repeat disease resistance genes were annotated, suggesting the existence of specific defense mechanisms in this species. The DHL92 genome was compared with that of its parental lines allowing the quantification of sequence variability in the species. The use of the genome sequence in future investigations will facilitate the understanding of evolution of cucurbits and the improvement of breeding strategies.
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              Enhancement of the gut barrier integrity by a microbial metabolite through the Nrf2 pathway

              Rajbir Singh, Sandeep Chandrashekharappa, Sobha Bodduluri (2019)
              The importance of gut microbiota in human health and pathophysiology is undisputable. Despite the abundance of metagenomics data, the functional dynamics of gut microbiota in human health and disease remain elusive. Urolithin A (UroA), a major microbial metabolite derived from polyphenolics of berries and pomegranate fruits displays anti-inflammatory, anti-oxidative, and anti-ageing activities. Here, we show that UroA and its potent synthetic analogue (UAS03) significantly enhance gut barrier function and inhibit unwarranted inflammation. We demonstrate that UroA and UAS03 exert their barrier functions through activation of aryl hydrocarbon receptor (AhR)- nuclear factor erythroid 2–related factor 2 (Nrf2)-dependent pathways to upregulate epithelial tight junction proteins. Importantly, treatment with these compounds attenuated colitis in pre-clinical models by remedying barrier dysfunction in addition to anti-inflammatory activities. Cumulatively, the results highlight how microbial metabolites provide two-pronged beneficial activities at gut epithelium by enhancing barrier functions and reducing inflammation to protect from colonic diseases.
              Article 0 comments Cited 223 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Hongkun Zheng
                Hongping Yi
                Journal
                Journal ID (nlm-ta): iScience
                Journal ID (iso-abbrev): iScience
                Title: iScience
                Publisher: Elsevier
                ISSN (Electronic): 2589-0042
                Publication date PMC-release: 31 October 2019
                Publication date Collection: 20 December 2019
                Publication date (Electronic): 31 October 2019
                Volume: 22
                Pages: 16-27
                Affiliations
                [1 ]Hami Melon Research Center, Xinjiang Academy of Agricultural Sciences, Urumqi, Xinjiang 830091, China
                [2 ]The Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing 100081, China
                [3 ]Biomarker Technologies Corporation, Beijing 101200, China
                Author notes
                []Corresponding author zhenghk@ 123456biomarker.com.cn
                [∗∗ ]Corresponding author hpyi1223@ 123456163.com
                [4]

                These authors contributed equally

                [5]

                Lead Contact

                Article
                Publisher ID: S2589-0042(19)30430-4
                DOI: 10.1016/j.isci.2019.10.049
                PMC ID: 6864349
                PubMed ID: 31739171
                SO-VID: 6360b444-2728-4f74-93ec-f67f0ebc9a38
                Copyright © © 2019 The Author(s)
                License:

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                Date received : 24 July 2019
                Date revision received : 23 September 2019
                Date accepted : 24 October 2019
                Categories
                Subject: Article

                Keywords: biological sciences,genetics,plant genetics,plant evolution
                Data availability:
                Keywords: biological sciences, genetics, plant genetics, plant evolution

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