CRISPR/CAS9-mediated Editing of the Fragrant Gene Badh2 in Rice

doi:10.16819/j.1001-7216.2017.6098

Abstract

Abstract:

【Objective】Fragrant rice, which is favored because of its quality characteristics of faint scent and tastiness, is a special rice type. Fragrance in rice is mainly controlled by the gene encoding betaine aldehyde dehydrogenase on chromosome 8.【Method】The fragrant gene Badh2 in Zhonghua 11 was edited by CRISPR/CAS9.【Result】Twenty T₁ individuals derived from T₀ generation were genotyped. One plant, which contains an additional T base in the first exon of Badh2 without the vector skeleton, was finally produced. qRT-PCR result suggested that Badh2 RNA level was decreased in the mutant. Compared with the wild type, the mutant increased 2-acetyl-1-pyrroline content by the GC-MS method. Furthermore, two rice yield-related traits including tiller numbers and seed-setting rate showed significant difference at the 0.05 level among five traits related to yield and three traits related to cooking and eating quality.【Conclusion】We succeed editing the Badh2 by CRISPR-CAS9 technical in rice, and it would provide abundant theoretical guidance and accelerate the breeding process of fragrant rice.

Key words: rice, Badh2, CRISPR/CAS9, fragrance

摘要：

目的香稻作为一类特殊的水稻群体,以其清香可口的品质特性备受消费者的欢迎。到目前为止,水稻中的香味主要受第8染色体上编码甜菜碱醛脱氢酶基因Badh2控制。方法通过CRISPR/CAS9技术对中花11的香味基因Badh2进行编辑。结果获得转基因T₀代植株并对其所衍生的T₁代20个单株进行了鉴定分析,获得了一个剔除了载体骨架且第1外显子上插入一个碱基T 的突变体材料。该材料中Badh2 RNA水平显著下调;利用GC-MS技术测定野生型及突变体材料籽粒2-乙酰-1-吡咯啉含量,结果表明突变体材料中的香味物质显著增加;此外,我们还对野生型及T₂代香型植株水稻产量及稻米蒸煮食味品质进行了考查及测定分析,发现除分蘖数及结实率呈现出显著差异外（P<0.05）,其余各项指标在两组材料间都无显著差异。结论通过CRISPR/CAS9技术成功地对水稻香味基因进行了编辑,可为香稻育种提供丰富的理论指导,加快香稻的育种进程。

关键词: 水稻, Badh2, CRISPR/CAS9, 香味

Gaoneng SHAO, Lihong XIE, Guiai JIAO, Xiangjin WEI, Zhonghua SHENG, Shaoqing TANG, Peisong HU. CRISPR/CAS9-mediated Editing of the Fragrant Gene Badh2 in Rice[J]. Chinese Journal OF Rice Science, 2017, 31(2): 216-222.

邵高能, 谢黎虹, 焦桂爱, 魏祥进, 圣忠华, 唐绍清, 胡培松. 利用CRISPR/CAS9技术编辑水稻香味基因Badh2[J]. 中国水稻科学, 2017, 31(2): 216-222.

Figures/Tables 6

References 15

[1]	胡培松, 唐绍清, 魏兴华. 泰国香米事件及启示. 中国稻米, 2006, 12(4): 1-2.
	Hu P S, Tang S Q, Wei X H.Thailand's aromatic rice incident and its revelation. China Rice, 2006, 12(4): 1-2. (in Chinese)
[2]	Ahn S N, Bollich, C N, Tanksley S D. RFLP tagging of a gene for aroma in rice. Theor Appl Genet, 1992, 84: 825-828.
[3]	Pinson S.Inheritance of aroma in six rice cultivars. Crop Sci, 1994, 34: 1151-1157.
[4]	Sakthivel K, Sundaram R M, Shobha Rani N, Balachandran S M, Neeraja C N.Genetic and molecular basis of fragrance in rice.Biotechnol Adv, 2009, 27: 468-473.
[5]	Chen S H, Yang Y, Shi W W, Ji Q, He F, Zhang Z D, Cheng Z K, Liu X N.Badh2, encoding betaine aldehyde dehydrogenase, inhibits the biosynthesis of 2-acetyl-1- pyrroline, a major component in rice fragrance. Plant Cell, 2008, 20: 1850-1861.
[6]	Bradbury L M, Fitzgerald T L, Henry R J, Jin Q S, Waters D L.The gene for fragrance in rice.Plant Biotechnol J, 2005, 3: 363-370.
[7]	Bradbury L M, Gillies S A, Brushett D J, Waters D L, Henry R J.Inactivation of an aminoaldehyde dehydrogenase is responsible for fragrance in rice.Plant Mol Biol, 2008, 68: 439-449.
[8]	Kovach M J, Calingacion M N, Fitzgerald M A, McCouch S R. The origin and evolution of fragrance in rice (Oryza sativa L.). Proc Natl Acad Sci U S A, 2009, 106: 14444-14449.
[9]	Shao G N, Tang S Q, Chen M L, Wei X J, He J W, Luo J, Jiao G A, Hu Y C, Xie L H, Hu P S.Haplotype variation atBadh2, the gene determining fragrance in rice. Genomics, 2013, 101: 157-162.
[10]	Shao G N, Tang A, Tang S Q, Luo J, Jiao G A, Wu J L, Hu P S.A new deletion mutation of fragrant gene and the development of three molecular markers for fragrance in rice.Plant Breeding, 2011, 130: 172-176.
[11]	Shi W W, Yang Y, Chen S H, Xu M L.Discovery of a new fragrance allele and the development of functional markers for the breeding of fragrant rice varieties. Mol Breed, 2008, 22: 185-192.
[12]	Niu X L, Tang W, Huang W Z, Ren G J, Wang Q L, Luo D, Xiao Y Y, Yang S M, Wang F, Lu B R, Gao F Y, Lu T G, Liu Y S.RNAi-directed downregulation of OsBADH2 results in aroma (2-acetyl-1-pyrroline) production in rice (Oryza sativa L.). BMC Plant Biol, 2008, 8: 100.
[13]	Chen M L, Wei X J, Shao, G N, Tang S Q, Luo J, Hu P S. Fragrance of the rice grain achieved via artificial microRNA-induced down-regulation of OsBADH2.Plant Breeding, 2012, 131: 584-590.
[14]	Shan Q W, Zhang Y, Chen K L, Zhang K, Gao C X.Creation of fragrant rice by targeted knockout of the OsBADH2 gene using TALEN technology.Plant Biotechnol J, 2015, 13: 791-800.
[15]	余亚莹, 邵高能, 圣忠华, 蒋汉伟,贺记外,孙园园,蔡怡聪,胡培松,唐绍清. 国内外香稻资源遗传多样性研究. 植物分类与资源学报, 2015, 37(6): 871-880.
	Yu Y Y, Shao G N, Sheng Z H, Jiang H W, He J W, Sun Y Y, Cai Y C, Hu P S, Tang S Q.Genetic diversity of global aromatic rice varieties.Plant Div&Resour, 2015, 37(6): 871-880. (in Chinese with English abstract)

引物名称 Primer name	引物序列 Primer sequence
Target1-F	CAGTGGCCACGGCGATCCCGCAG
Target1-R	AACCTGCGGGATCGCCGTGGCCA
Vector identify-F	AAAACCTCACCAAAATACGA
Vector identify-R	TTGCTCCCAACAATTCTTAA
Seq-F	TCTCCCACCACCACTCCACA
Seq-R	TCAGCCATGCTTCCAACTTATTC
Badh2-Q-F	TCCGGGCCAAGTACCTCC
Badh2-Q-R	CGTCCATGTCCCATGCTG
Ubi-Q-F	AACCAGCTGAGGCCCAAGA
Ubi-Q-R	ACGATTGATTTAACCAGTCCATGA

引物名称 Primer name	引物序列 Primer sequence
Target1-F	CAGTGGCCACGGCGATCCCGCAG
Target1-R	AACCTGCGGGATCGCCGTGGCCA
Vector identify-F	AAAACCTCACCAAAATACGA
Vector identify-R	TTGCTCCCAACAATTCTTAA
Seq-F	TCTCCCACCACCACTCCACA
Seq-R	TCAGCCATGCTTCCAACTTATTC
Badh2-Q-F	TCCGGGCCAAGTACCTCC
Badh2-Q-R	CGTCCATGTCCCATGCTG
Ubi-Q-F	AACCAGCTGAGGCCCAAGA
Ubi-Q-R	ACGATTGATTTAACCAGTCCATGA