Literature DB >> 34251582

High-quality genome assembly of Huazhan and Tianfeng, the parents of an elite rice hybrid Tian-you-hua-zhan.

Hui Zhang1,2, Yuexing Wang3, Ce Deng1,4, Sheng Zhao1, Peng Zhang1,5, Jie Feng1,5, Wei Huang2, Shujing Kang1,3, Qian Qian3, Guosheng Xiong6, Yuxiao Chang7.   

Abstract

High-quality rice reference genomes have accelerated the comprehensive identification of genome-wide variations and research on functional genomics and breeding. Tian-you-hua-zhan has been a leading hybrid in China over the past decade. Here, de novo genome assembly strategy optimization for the rice indica lines Huazhan (HZ) and Tianfeng (TF), including sequencing platforms, assembly pipelines and sequence depth, was carried out. The PacBio and Nanopore platforms for long-read sequencing were utilized, with the Canu, wtdbg2, SMARTdenovo, Flye, Canu-wtdbg2, Canu-SMARTdenovo and Canu-Flye assemblers. The combination of PacBio and Canu was optimal, considering the contig N50 length, contig number, assembled genome size and polishing process. The assembled contigs were scaffolded with Hi-C data, resulting in two "golden quality" rice reference genomes, and evaluated using the scaffold N50, BUSCO, and LTR assembly index. Furthermore, 42,625 and 41,815 non-transposable element genes were annotated for HZ and TF, respectively. Based on our assembly of HZ and TF, as well as Zhenshan97, Minghui63, Shuhui498 and 9311, comprehensive variations were identified using Nipponbare as a reference. The de novo assembly strategy for rice we optimized and the "golden quality" rice genomes we produced for HZ and TF will benefit rice genomics and breeding research, especially with respect to uncovering the genomic basis of the elite traits of HZ and TF.
© 2022. Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.

Entities:  

Keywords:  Nanopore; PacBio; de novo genome assembly; high-quality; rice; variation

Mesh:

Year:  2021        PMID: 34251582     DOI: 10.1007/s11427-020-1940-9

Source DB:  PubMed          Journal:  Sci China Life Sci        ISSN: 1674-7305            Impact factor:   6.038


  62 in total

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Journal:  Science       Date:  2017-02-02       Impact factor: 47.728

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Journal:  Nat Plants       Date:  2018-11-02       Impact factor: 15.793

5.  Capturing chromosome conformation.

Authors:  Job Dekker; Karsten Rippe; Martijn Dekker; Nancy Kleckner
Journal:  Science       Date:  2002-02-15       Impact factor: 47.728

6.  Sequencing of Cultivated Peanut, Arachis hypogaea, Yields Insights into Genome Evolution and Oil Improvement.

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Journal:  Mol Plant       Date:  2019-03-19       Impact factor: 13.164

7.  MAKER-P: a tool kit for the rapid creation, management, and quality control of plant genome annotations.

Authors:  Michael S Campbell; MeiYee Law; Carson Holt; Joshua C Stein; Gaurav D Moghe; David E Hufnagel; Jikai Lei; Rujira Achawanantakun; Dian Jiao; Carolyn J Lawrence; Doreen Ware; Shin-Han Shiu; Kevin L Childs; Yanni Sun; Ning Jiang; Mark Yandell
Journal:  Plant Physiol       Date:  2013-12-04       Impact factor: 8.340

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Journal:  Cell       Date:  2020-06-17       Impact factor: 66.850

Review 9.  Opportunities and challenges in long-read sequencing data analysis.

Authors:  Shanika L Amarasinghe; Shian Su; Xueyi Dong; Luke Zappia; Matthew E Ritchie; Quentin Gouil
Journal:  Genome Biol       Date:  2020-02-07       Impact factor: 13.583

10.  Mapping and phasing of structural variation in patient genomes using nanopore sequencing.

Authors:  Mircea Cretu Stancu; Markus J van Roosmalen; Ivo Renkens; Marleen M Nieboer; Sjors Middelkamp; Joep de Ligt; Giulia Pregno; Daniela Giachino; Giorgia Mandrile; Jose Espejo Valle-Inclan; Jerome Korzelius; Ewart de Bruijn; Edwin Cuppen; Michael E Talkowski; Tobias Marschall; Jeroen de Ridder; Wigard P Kloosterman
Journal:  Nat Commun       Date:  2017-11-06       Impact factor: 14.919
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  4 in total

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Journal:  Front Plant Sci       Date:  2022-05-09       Impact factor: 6.627

2.  The telomere-to-telomere gap-free genome of four rice parents reveals SV and PAV patterns in hybrid rice breeding.

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3.  Chromosome-Level Genome Assembly of a Fragrant Japonica Rice Cultivar 'Changxianggeng 1813' Provides Insights into Genomic Variations between Fragrant and Non-Fragrant Japonica Rice.

Authors:  Ruisen Lu; Jia Liu; Xuegang Wang; Zhao Song; Xiangdong Ji; Naiwei Li; Gang Ma; Xiaoqin Sun
Journal:  Int J Mol Sci       Date:  2022-08-26       Impact factor: 6.208

4.  De novo assembly of two chromosome-level rice genomes and bin-based QTL mapping reveal genetic diversity of grain weight trait in rice.

Authors:  Weilong Kong; Xiaoxiao Deng; Zhenyang Liao; Yibin Wang; Mingao Zhou; Zhaohai Wang; Yangsheng Li
Journal:  Front Plant Sci       Date:  2022-08-22       Impact factor: 6.627
  4 in total

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