Multi-omics resources for targeted agronomic improvement of pigmented rice

被引:13
|
作者
Sedeek, Khalid [1 ,2 ]
Zuccolo, Andrea [2 ,3 ]
Fornasiero, Alice [2 ]
Weber, Annika M. [4 ]
Sanikommu, Krishnaveni [1 ,2 ]
Sampathkumar, Sangeetha [1 ,2 ]
Rivera, Luis F. [2 ]
Butt, Haroon [1 ,2 ]
Mussurova, Saule [2 ]
Alhabsi, Abdulrahman [1 ,2 ]
Nurmansyah, Nurmansyah [5 ]
Ryan, Elizabeth P. [4 ]
Wing, Rod A. [2 ,6 ,7 ]
Mahfouz, Magdy M. [1 ,2 ]
机构
[1] King Abdullah Univ Sci & Technol, Div Biol Sci, Lab Genome Engn & Synthet Biol, Thuwal, Saudi Arabia
[2] King Abdullah Univ Sci & Technol, Ctr Desert Agr, Biol & Environm Sci & Engn Div, Thuwal, Saudi Arabia
[3] St Anna Sch Adv Studies, Crop Sci Res Ctr, Pisa, Italy
[4] Colorado State Univ, Dept Environm & Radiol Hlth Sci, Ft Collins, CO USA
[5] Univ Gadjah Mada, Fac Agr, Dept Agron, Yogyakarta, Indonesia
[6] Univ Arizona, Arizona Genom Inst, Sch Plant Sci, Tucson, AZ USA
[7] Int Rice Res Inst, Strateg Innovat, Los Banos, Philippines
来源
NATURE FOOD | 2023年 / 4卷 / 05期
关键词
NATURAL VARIATION; GENOME ANALYSIS; YIELD; ANNOTATION; JAPONICA; GENES; DNA;
D O I
10.1038/s43016-023-00742-9
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Pigmented rice (Oryza sativa L.) is a rich source of nutrients, but pigmented lines typically have long life cycles and limited productivity. Here we generated genome assemblies of 5 pigmented rice varieties and evaluated the genetic variation among 51 pigmented rice varieties by resequencing an additional 46 varieties. Phylogenetic analyses divided the pigmented varieties into four varietal groups: Geng-japonica, Xian-indica, circum-Aus and circum-Basmati. Metabolomics and ionomics profiling revealed that black rice varieties are rich in aromatic secondary metabolites. We established a regeneration and transformation system and used CRISPR-Cas9 to knock out three flowering time repressors (Hd2, Hd4 and Hd5) in the black Indonesian rice Cempo Ireng, resulting in an early maturing variety with shorter stature. Our study thus provides a multi-omics resource for understanding and improving Asian pigmented rice. Genome assemblies, genetic variations, and metabolome and metal ion profiles were generated for diverse pigmented Asian rice varieties. An early maturing, shorter-stature black rice variety was created using CRISPR-Cas9-mediated genome editing, providing insights for improving Asian pigmented rice.
引用
收藏
页码:366 / 371
页数:6
相关论文
共 50 条
  • [41] Multi-Omics and Integrative Approach towards Understanding Salinity Tolerance in Rice: A Review
    Muthuramalingam, Pandiyan
    Jeyasri, Rajendran
    Rakkammal, Kasinathan
    Satish, Lakkakula
    Shamili, Sasanala
    Karthikeyan, Adhimoolam
    Valliammai, Alaguvel
    Priya, Arumugam
    Selvaraj, Anthonymuthu
    Gowri, Pandiyan
    Wu, Qiang-Sheng
    Pandian, Shunmugiah Karutha
    Shin, Hyunsuk
    Chen, Jen-Tsung
    Baskar, Venkidasamy
    Thiruvengadam, Muthu
    Akilan, Manoharan
    Ramesh, Manikandan
    BIOLOGY-BASEL, 2022, 11 (07):
  • [42] Multi-Omics Factor Analysis-a framework for unsupervised integration of multi-omics data sets
    Argelaguet, Ricard
    Velten, Britta
    Arnol, Damien
    Dietrich, Sascha
    Zenz, Thorsten
    Marioni, John C.
    Buettner, Florian
    Huber, Wolfgang
    Stegle, Oliver
    MOLECULAR SYSTEMS BIOLOGY, 2018, 14 (06)
  • [43] Multi-omics Pathways Workflow (MOPAW): An Automated Multi-omics Workflow on the Cancer Genomics Cloud
    Nguyen, Trinh
    Bian, Xiaopeng
    Roberson, David
    Khanna, Rakesh
    Chen, Qingrong
    Yan, Chunhua
    Beck, Rowan
    Worman, Zelia
    Meerzaman, Daoud
    CANCER INFORMATICS, 2023, 22
  • [44] Multi-omics Pathways Workflow (MOPAW): An Automated Multi-omics Workflow on the Cancer Genomics Cloud
    Nguyen, Trinh
    Bian, Xiaopeng
    Roberson, David
    Khanna, Rakesh
    Chen, Qingrong
    Yan, Chunhua
    Beck, Rowan
    Worman, Zelia
    Meerzaman, Daoud
    CANCER INFORMATICS, 2023, 22
  • [45] Lipid Metabolism and Improvement in Oilseed Crops: Recent Advances in Multi-Omics Studies
    Bu, Mengjia
    Fan, Wei
    Li, Ruonan
    He, Bing
    Cui, Peng
    Eisenreich, Wolfgang
    METABOLITES, 2023, 13 (12)
  • [46] Stress-omics: A non-targeted multi-omics approach to discriminate stress states in a marine mammal
    Deyarmin, J.
    Mccormley, M.
    Champagne, C.
    Stephan, A.
    Houser, D.
    Crocker, D.
    Khudyakov, J.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2018, 58 : E51 - E51
  • [47] Current Progress, Applications and Challenges of Multi-Omics Approaches in Sesame Genetic Improvement
    Li, Huan
    ul Qamar, Muhammad Tahir
    Yang, Li
    Liang, Junchao
    You, Jun
    Wang, Linhai
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2023, 24 (04)
  • [48] Biotechnological studies towards improvement of finger millet using multi-omics approaches
    Mane, Rushikesh Sanjay
    Prasad, Bishun Deo
    Sahni, Sangita
    Quaiyum, Zeba
    Sharma, V. K.
    FUNCTIONAL & INTEGRATIVE GENOMICS, 2024, 24 (05)
  • [49] Harnessing Knowledge from Plant Functional Genomics and Multi-Omics for Genetic Improvement
    Wang, Yaqiong
    Zeng, Jian
    Yang, Guangxiao
    Wan, Yongfang
    Li, Yin
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2023, 24 (12)
  • [50] Multi-omics analysis reveals improvement of tomato quality by grafting on goji rootstock
    Wang, Ruiting
    Yang, Yang
    Xu, Kexin
    Wang, Tingjin
    A. Elsadek, Mohamed
    Yuan, Lu
    Hu, Zhongyuan
    Lv, Yongping
    Yuan, Xin
    Chen, Xiangfu
    Wang, Yiting
    Chen, Liping
    FOOD QUALITY AND SAFETY, 2024, 8
12345