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Research Article

Fine Mapping and Candidate Gene Analysis of Small Round Grain Mutant in Rice

Plant Breeding and Biotechnology 2017;5(4):354-362.
Published online: December 1, 2017

1Department of Plant Science, Plant Genomics and Breeding Institute, Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul 08826, Korea

*Corresponding author: Hee-Jong Koh, heejkoh@snu.ac.kr, Tel: +82-2-880-4541, Fax: +82-2-873-2056

These authors contributed equally.


Present address: Department of Biology, Texas State University, San Marcos, TX, U.S.A


Present address: Statistics team, Data Analysis Department, Macrogen Inc., Seoul 08511, Korea

• Received: November 19, 2017   • Revised: November 22, 2017   • Accepted: November 22, 2017

Copyright © 2017 The Korean Society of Breeding Science

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • QTL Analysis of Rice Grain Size Using Segregating Populations Derived from the Large Grain Line
    Ja-Hong Lee, Jeonghwan Seo, San Mar Lar, Seong-Gyu Jang, Hongjia Zhang, Ah-Rim Lee, Fang-Yuan Cao, Na-Eun Kim, Joohyun Lee, Soon-Wook Kwon
    Agriculture.2021; 11(6): 565.     CrossRef
  • Mutagenesis in Rice: The Basis for Breeding a New Super Plant
    Vívian Ebeling Viana, Camila Pegoraro, Carlos Busanello, Antonio Costa de Oliveira
    Frontiers in Plant Science.2019;[Epub]     CrossRef
  • Whole Genome Resequencing from Bulked Populations as a Rapid QTL and Gene Identification Method in Rice
    Workie Anley Zegeye, Yingxin Zhang, Liyong Cao, Shihua Cheng
    International Journal of Molecular Sciences.2018; 19(12): 4000.     CrossRef

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Fine Mapping and Candidate Gene Analysis of Small Round Grain Mutant in Rice
Plant Breed. Biotech.. 2017;5(4):354-362.   Published online December 1, 2017
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Fine Mapping and Candidate Gene Analysis of Small Round Grain Mutant in Rice
Plant Breed. Biotech.. 2017;5(4):354-362.   Published online December 1, 2017
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Fine Mapping and Candidate Gene Analysis of Small Round Grain Mutant in Rice
Image Image Image Image Image
Fig. 1 Phenotype of wild type and dep2–3 mutant. Phenotype of grain (A), brown rice (B, D), plant (C) and panicle (E) at the mature grain stage.
Fig. 2 Histological analysis of wild type and dep2–3 mutant. (A) Scanning electron microscopic view of the surface of glumes. (B) Cross section of the peduncle. Arrows showing inner large vascular bundle and outer small vascular bundle in wild type and dep2–3, respectively. (C) Comparison of the number outer, inner and total vascular bundles. **indicates significant at 1% probability level.
Fig. 3 Frequency distribution of grain length and length width ratio in F2 population derived from cross between dep2–3 mutant and Milyang 23. P1 and P2 indicate the value of parents; dep2–3 (P1) and Milyang 23 (P2), respectively.
Fig. 4 Genetic mapping of dep2–3 mutant. Location of dep2–3 was found on BAC clone AP005198. Sequencing result of LOC_Os07g42410 revealed point mutation (G to A) at the 5′ end splicing site of first intron.
Fig. 5 Candidate gene analysis of dep2–3. (A) Co-segregation test wild and mutant type plants from F3 population using CAPS marker with NruI restriction enzyme. (B) RT-PCR analysis of wild type and mutant using primers designed on first exon and second exon. Size of first intron is 82 bp and expected PCR product size using wild type cDNA is 115 bp.
Fine Mapping and Candidate Gene Analysis of Small Round Grain Mutant in Rice

STS markers used in fine mapping of the dep2–3.

Marker Forward primer (5′-3′) Reverse primer (5′-3′) Product size (bp)
S02458 CAAGCTCTCTATGCATGGCTAA GCTGTTCCATGAGATACACTACAAA 140
S02468 ACGGCGAGAAGGATAAGGAT GCTAGCCTACACTCCGTTGG 194
S02471 CGGGTCGTTGTCTTCTTCAT TGTGGCGGCTAATCTGATCT 179
S02497 CCGCAAGATGATGGTAACCT TCGGATCCTCGGATGTAAAG 201
S02519 TTCCTGTCAATATGCGGTATCA AATATCGAACGAAGCACATCC 138
S02535 GCGTTGTCAGCTGTCCTCTT TCGGGCATCACTAGATACCA 195
S02541 CTTTGCACTCTCAGCCCATT CAAGTTTGGTGGTGCATTTG 159
S02548 CCCTACGAGGAGGAGATGAG AGGTAACCGAGCAGCAACAT 213
S02552 CCCAGAACTGGATGATGGTT TGCCCATACGGAGAGAAAAG 186

Statistical analysis of agronomic traits and grain characteristics of wild type, mutant and F1.

Traits CL z) (cm) PL (cm) PN SF (%) TGW (g) GW (mm) GL (mm) GT (mm) LWR
Wild-type 87.00 ± 4.92 19.00 ± 0.94 9.50 ± 2.12 96.61 ± 0.95 23.30 ± 0.02 3.29 ± 0.09 5.73 ± 0.22 2.08 ± 0.06 1.74 ± 0.09
Mutant 72.50 ± 3.85 14.10 ± 1.45 8.50 ± 1.5 90.45 ± 2.45 21.00 ± 0.03 3.47 ± 0.13 4.83 ± 0.14 2.20 ± 0.1 1.39 ± 0.06
F1 86.00 ± 2.2 16.62 ± 0.98 9.30 ± 1.5 96.00 ± 1.0 21.93 ± 0.02 3.39 ± 0.12 5.47 ± 0.23 2.15 ± 0.06 1.61 ± 0.08
Difference
 WT vs Mutant ** ** NS ** ** ** ** ** **
 WT vs F1 NS ** NS NS ** ** ** ** **
 Mutant vs F1 ** ** NS ** * * ** * **

z)Abbreviations indicate CL: Culm Length, PL: Panicle Length, PN: Panicle Number per plant, SF: Spikelet Fertility, TGW: 1000 Grain Weight, GW: Grain Width, GL: Grain Length, GT: Grain Thickness, LWR: Length Width Ratio of grain.

* and **indicate significant at 5% and 1% probability level, respectively.

Table 1 STS markers used in fine mapping of the dep2–3.
Table 2 Statistical analysis of agronomic traits and grain characteristics of wild type, mutant and F1.

Abbreviations indicate CL: Culm Length, PL: Panicle Length, PN: Panicle Number per plant, SF: Spikelet Fertility, TGW: 1000 Grain Weight, GW: Grain Width, GL: Grain Length, GT: Grain Thickness, LWR: Length Width Ratio of grain.

indicate significant at 5% and 1% probability level, respectively.