[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7740/kjcs.2015.60.4.448

Agronomic and Genetic Evaluation on a Dull Mutant Line Derived from the Sodium Azide Treated 'Namil', a Non-Glutinous Japonica Rice

Chun, Jae-Buhm (Crop Breeding Division, National Institute of Crop Science, RDA)
Jeung, Ji-Ung (Crop Breeding Division, National Institute of Crop Science, RDA)
Cho, Seong-Woo (Crop Breeding Division, National Institute of Crop Science, RDA)
Kim, Woo-Jae (Crop Breeding Division, National Institute of Crop Science, RDA)
Ha, Ki-Young (Crop Breeding Division, National Institute of Crop Science, RDA)
Kang, Kyung-Ho (Crop Breeding Division, National Institute of Crop Science, RDA)
Ko, Jae-Kwon (Crop Breeding Division, National Institute of Crop Science, RDA)
Kim, Hyun-Soon (Crop Breeding Division, National Institute of Crop Science, RDA)
Kim, Bo-Kyeong (Crop Breeding Division, National Institute of Crop Science, RDA)

Publication Information

KOREAN JOURNAL OF CROP SCIENCE / v.60, no.4, 2015 , pp. 448-457 More about this Journal

Abstract

Developing rice lines with various amylose contents is necessary to diverse usages of rice in terms of raw materials for processed food production, and thereby to promote rice consumption in Korea. A rice mutant line, 'Namil(SA)-dull1' was established through sodium azide mutagenesis on 'Namil', a non-glutinous Korean Japonica rice cultivar. Namil(SA)-dull1' had dull endosperm characteristics and the evaluated amylose content was 12.2%. A total of 94 F2 progenies from a cross between 'Namil(SA)-dull1' and 'Milyang23', a non-glutinous Tongil-type rice cultivar, was used for genetic studies on the endosperm amylose content. Association analyses, between marker genotypes of 53 SSR anchor markers and evaluated amylose contents of each 94 F2:3 seeds, initially localized rice chromosome 6 as the harboring place for the modified allele(s) directing low amylose content of 'Namil(SA)-dull1'. By increasing SSR marker density on the putative chromosomal region followed by association analyses, the target region was narrowed down 0.94 Mbp segment, expanding from 28.95 Mbp to 29.89 Mbp, on rice chromosome 6 pseudomolecule. Among the SSR loci, RM7555 explained 84.2% of total variation of amylose contents in the $F_2$ population. Further physical mapping on the target region directing low amylose content of 'Namil(SA)-dull1' would increase the breeding efficiency in developing promising rice cultivars with various endosperm characteristics.

다양한 가공제품을 개발하여 쌀 소비를 확대시키기 위하여 가공용도에 적합한 물성을 지닌 벼 품종을 개발하려는 노력이 계속되고 있는데, 특히 중간찰은 현미밥, 떡, 과자, 식혜, 술 등 다양한 가공식품 소재로 이용성이 높다. 국립식량과학원에서는 조생, 다수성 품종인 '남일'에 돌연변이원으로 아지드화나트륨을 처리하여 다수의 배유변이 계통을 확보한바 있다. 본 연구는 중간찰 특성을 발현하는 'Namil(SA)-dull1'의 작물학적 특성을 평가하고 아밀로스 함량을 지배하는 주동유전자위의 염색체상 위치를 규명하고자 수행되었다. 주요 결과는 아래와 같다. 1. 생산력 시험을 통해 'Namil(SA)-dull1'의 주요 작물학적 특성을 평가한 결과, 원품종인 '남일'에 비해 출수는 약 9일정도 늦은 중생종으로 간장과 수당립수가 유의하게 증가하였으나, 수수와 천립중은 다소 감소하여 수량성은 다소 낮게 평가되었다. 2. 'Namil(SA)-dull1'과 통일형인 '밀양23호'와의 교잡에서 유래한 94개 $F_2$ 개체로 구성된 유전분석집단에 대해 53개 SSR 마커의 유전자형을 검정하고, $F_{2:3}$ 종자의 아밀로스 함량을 조사하여 연관성분석(association analysis)를 수행한 결과 목표 유전자위는 염색체 6번 하단으로 추정되었다. 3. 염색체 6번 하단부위의 분자표지 밀도를 높이기 위하여 8개 SSR 마커를 추가로 배치하여 연관성분석을 수행한 결과, 염색체 6번 하단을 표지하는 RM7555의 유전자형변이가 유전분석집단의 아밀로스 함량변이의 81%를 설명한다는 것을 확인하였다. 4. 유전자지도 작성에 사용된 분자표지들이 표지하는 염색체 부위를 벼 전장유전체정보(rice pseudomolecule)에서 확인한 결과, 중간찰 특성을 지배하는 유전자위를 염색체 6번 28.95~29.89 Mbp 영역에 해당하는 약 0.94 Mbp 절편으로 제한할 수 있었으며, 향후 추가분리집단을 이용하여 목표 유전자를 동정하고 다양한 아밀로스 함량을 지니는 벼 신품종 육성의 효율성을 제고할 수 있는 초정밀분자표지를 개발할 계획이다.

Keywords

rice; mutant; amylose; dull; DNA marker;

Citations & Related Records

Times Cited By KSCI : 6 (Citation Analysis)

Reference
Cited By KSCI

1	Choi, H. C. 2002. Current status and perspectives in varietal improvement of rice cultivars for high-quality and value-added products. Kor. J. Crop Sci. 47 : 15-32.
2	Choi, H. C., H. G. Hwang, H. C. Hong, Y. G. Kim, H. P. Moon, I. S. Choi, H. Y. Kim, J. H. Lee, J. D. Yea, K. Y. Ryu, K. H. Kang, Y. S. Shin, Y. H. Choi, C. I. Yang, Y. C. Cho, M. K. Beak, T. Y. Kim, K. J. Kim, K. H. Jung, E. G. Jeong, O. Y. Jeong, and Y. H. Jeon. 2005. A new non dietary starch and high amylose rice cultivar, "Goamy 2". Korean J. Breed. 37 : 131-132.
3	Consuelo, M. Perez, Evelyn P. Palmiano, Lyda C. Baun, and Bienvenido O. Juliano 1971. Starch Metabolism in the Leaf Sheaths and Culm of Rice. Plant Physol. 47 : 404-408. DOI
4	Hong, H. C., H. P. Moon, H. C. Choi, H. G. Hwang, Y. G. Kim, H. Y. Kim, J. D. Yea, Y. S. Shin, K. H. Kang, Y. H. Choi, Y. C. Cho, M. K. Baek, C. I. Yang, I. S. Choi, S. N. Ahn, and S. J. Yang. 2011. New cultivar developed: A lodging tolerant, opaque rice cultivar "Seolgaeng". Kor. J. Breed. Sci. 43 : 532-537.
5	Hong, H. C., Y. G. Kim, Y. H. Choi, S. J. Yang, K. S. Lee, J. H. Lee, O. Y. Jung, C. I. Yang, Y. C. Cho, I. S. Choi, M. K. Baek, M. K. Kim, J. D. Yea, H. G. Hwang, J. H. Roh, S. R. Kim, H. C. Choi, Y. T. Lee, and S. H. Lee. 2012a. A medium-maturing, giant-embryo, and germination brown rice cultivar "Keunnun". Kor. J. Breed. Sci. 44 : 160-164.
6	Hong, H. C., Y. H. Choi, H. G. Hwang, Y. G. Kim, H. P. Mun, H. Y. Kim, J. D. Yea, Y. S. Shin, Y. H. Choi, Y. C. Cho, M. K. Baek, J. H. Lee, C. I. Yang, K. H. Jeong, S. N. Ahn, and S. J. Yang. 2012b. New cultivar developed: A lodging-tolerance and dull rice cultivar "Baegjinju". Kor. J. Breed. Sci. 44 : 51-56.
7	Hong, H. C., S. J. Yang, J. H. Lee, O. Y. Jung, C. I. Yang, Y. H. Choi, Y. G. Kim, K. S. Lee, I. S. Choi, Y. C. Cho, M. K. Kim, J. I. Lee, E. K. Jeong, J. H. Roh, K. J. Kim, H. G. Hwang, H. P. Moon, and Y. T. Lee. 2012c. A Medium-Maturing, Dull Cultivar 'Baegjinju 1' Kor. J. Breed. Sci. 44 : 57-61.
8	Isshiki, M., M. Nakajima, H. satoh, and K. Shimanoto, 2000. dull: rice mutants with tissue-specific effects on the splicing of the waxy pre-mRNA. The Plant Journal 23(4) : 451-460. DOI
9	Jeung, J. U., B. R. Kim, Y. C. Cho, S. S. Han, H. P. Moon, Y. T. Lee, and K. K. Jena. 2007. A novel gene, Pi40(t), linked to the DNA markers derived from NBS-LRR motifs confers broad spectrum of blast resistance in rice. Theor. Appl. Genet. 115 : 1163-1177. DOI
10	Jeung, J. U., B. J. Choi, K. H. Kang, Y. J. Mo, S. B. Lee, S. K. Oh, and B. K. Kim. 2011. Genetic analysis on the bacterial blight resistance gene from a wild relative, Oryza minuta.. Kor. J. Breed. Sci. 46 : 17-27.
11	Jeung, J. U., T. H. Roh, K. H. Kang, Y. S. Shin, and Y. G. Kim. 2011b. Genetic analysis on the bacterial blight resistance gene from a wild relative, Oryza minuta. Korean J. Crop Sci. 56(2) : 124-133. DOI
12	Kaushik, R. P. and G. S. Khush. 1991. Genetic analysis of endosperm mutants in rice Oryza sativa L.. Theor. Appl. Genet. 83 : 146-152.
13	Kim, H. Y., K. H. Kang, H. G. Hwang, H. P. Moon, and I. S. Choi. 2003. A semi-early maturing, high yielding and processing japonica rice cultivar "Namilbyeo". Treat. Of Crop Res. 4 : 141-148.
14	Kiswara, G., J. H. Lee, Y. J. Hur, J. H. Cho, J. Y. Lee, S. Y. Kim, Y. B. Sohn, Y. C. Song, M. H. Nam, B. W. Yun, and K. M. Kim. 2014. Genetic analysis and molecular mapping of low amylose gene du12(t) in rice (Oryza sativa L.). Theor. Appl. Genet. 127 : 51-57. DOI
15	KOSTAT 2014. Food Grain Consumption Survey. Statistics Korea.
16	Kum, J. S. 2010. Nutrition of rice and rice processing food. Food Preservation and Processing Industry 9 : 38-54.
17	Lincoln, S., M. Daly, and E. S. Lander. 1992. Constructing Genetic Maps with MAPMAKER/EXP 3.0. Whitehead Institute Technical Report, Cambridge, Massachusetts.
18	Mo, Y. J., J. U. Jeung, K. H. Kang, J. S. Lee, and B. K. Kim. 2013a Genetic Analysis on Floury Endosperm Characteristics of 'Namil(SA)-flo1', a Japonica Rice Mutant Line. Kor. J. Crop. Sci. 58 : 283-291. DOI
19	McCouch, S. R., L. Teytelman, Y. Xu, K. B. Lobos, K. Clare, M. Walton, B. Fu, R. Maghirang, Z. Li, Y. Xing, Q. Zhang, I. Kono, M. Yano, R. Fjellstrom, G. DeClerck, D. Schneider, S. Cartinhour, D. Ware, and L. Stein. 2002. Development and Mapping of 2240 New SSR Markers for Rice (Oryza sativa L.). DNA Res. 9 : 199-207. DOI
20	Mo, Y. J., J. U. Jeung, Y. S. Shin, C. S. Park, K. H. Kang, and B. K. Kim. 2013b Agronomic and genetic analysis of Suweon 542, a rice floury mutant line suitable for dry milling. Rice 6 : 37. DOI
21	Shin, Y. S., Y. J. Won, E. K. Ahn, Y. G. Kim, M. K. Kim, H. G. Hwang, Y. H. Yoon, J. H. Lee, I. S. Choi, K. S. Yoon, S. K. Oh, K. H. Kang, J. Y. Shon, Y. H. Jeon, and J. C. Shin. 2012. An Early-Maturing, Blast Resistant and Low Amylose Rice Variety 'Seolbaek'. Kor. J. Breed. Sci. 44 : 597-601. DOI
22	Song, Y. C., J. S. Lee, W. G. Ha, H. G. Hwang, S. J. Lim, U. S. Yeo, N. B. Park, D. Y. Kwak, J. K. Jang, J. H. Lee, D. S. Park, K. H. Jung, E. K. Jeong, M. H. Nam, Y. D. Kim, M. K. Kim, O. K. Kwon, and B. G. Oh. 2010. A New Early Maturing Blackish Purple Pigmented Glutinous Rice Variety, 'Josaengheugchal'. Kor. J. Breed. Sci. 42 : 262-266.
23	Yano, M., K. Okuno, H. Satoh, and T. Omura. 1988. Chromosomal location of genes conditioning low amylose content of endosperm starches in rice, Oryza sativa L. Theor. Appl. Genet. 76 : 183-189.
24	You, S. Y., E. J. Lee, and H. J. Chung. 2014. Study of Molecular and Crystalline Structure and Physicochemical Properties of Rice Starch with Varying Amylose Content. Korean J. Food Sci. Technol. 46 : 682-688. DOI
25	Zeng, D., M. Yan, Y. Wang, X. Liu, Q. Qian, and J. Li. 2007. Du1, encoding a novel Prp1 protein, regulates starch biosynthesis through affecting the splicing of Wx b pre-mRNAs in rice (Oryza sativa L.). Plant Mol. Biol. 65 : 501-509. DOI

KSCI

Agronomic and Genetic Evaluation on a Dull Mutant Line Derived from the Sodium Azide Treated 'Namil', a Non-Glutinous Japonica Rice 남일벼 돌연변이 유래 중간찰 계통의 작물학적 특성 및 배유특성 지배유전자위 표지

Agronomic and Genetic Evaluation on a Dull Mutant Line Derived from the Sodium Azide Treated 'Namil', a Non-Glutinous Japonica Rice