基于水稻大粒染色体片段代换系Z255的粒型相关性状QTL定位及次级代换系选育

张记超; 母建妍; 陈文博; 王雨昕; 莫芸嫣; 郑中意; 莫倩; 朱小燕; 张长伟; 何光华; 赵芳明; 张婷

doi:10.13718/j.cnki.xdzk.2025.07.001

RAY D K, RAMANKUTTY N, MUELLER N D, et al. Recent Patterns of Crop Yield Growth and Stagnation[J]. Nature Communications, 2012(3): 1293.

SONG X J, ASHIKARI M. Toward an Optimum Return from Crop Plants[J]. Rice, 2008, 1(2): 135-143.

XING Y Z, ZHANG Q F. Genetic and Molecular Bases of Rice Yield[J]. Annual Review of Plant Biology, 2010, 61: 421-442.

ZUO J R, LI J Y. Molecular Genetic Dissection of Quantitative Trait Loci Regulating Rice Grain Size[J]. Annual Review of Genetics, 2014, 48: 99-118.

MAO H L, SUN S Y, YAO J L, et al. Linking Differential Domain Functions of the GS3 Protein to Natural Variation of Grain Size in Rice[J]. Proceedings of the National Academy of Sciences of the United States of America, 2010, 107(45): 19579-19584.

ZHANG X J, WANG J F, HUANG J, et al. Rare Allele of OsPPKL1 Associated with Grain Length Causes Extra-large Grain and a Significant Yield Increase in Rice[J]. Proceedings of the National Academy of Sciences of the United States of America, 2012, 109(52): 21534-21539.

FAN C C, XING Y Z, MAO H L, et al. GS3, a Major QTL for Grain Length and Weight and Minor QTL for Grain Width and Thickness in Rice, Encodes a Putative Transmembrane Protein[J]. Theoretical and Applied Genetics, 2006, 112(6): 1164-1171.

GAO X Y, ZHANG J Q, ZHANG X J, et al. Rice qGL3/OsPPKL1 Functions with the GSK3/SHAGGY-Like Kinase OsGSK3 to Modulate Brassinosteroid Signaling[J]. The Plant Cell, 2019, 31(5): 1077-1093.

QI P, LIN Y S, SONG X J, et al. The Novel Quantitative Trait Locus GL3.1 Controls Rice Grain Size and Yield by Regulating Cyclin-T1; 3[J]. Cell Research, 2012, 22(12): 1666-1680.

HU Z J, HE H H, ZHANG S Y, et al. A Kelch Motif-containing Serine/Threonine Protein Phosphatase Determines the Large Grain QTL Trait in Rice[J]. Journal of Integrative Plant Biology, 2012, 54(12): 979-990.

GAO X Y, ZHANG X J, LAN H X, et al. The Additive Effects of GS3 and qGL3 on Rice Grain Length Regulation Revealed by Genetic and Transcriptome Comparisons[J]. BMC Plant Biology, 2015, 15: 156.

LIU Q, HAN R X, WU K, et al. G-Protein β γ Subunits Determine Grain Size through Interaction with MADS-domain Transcription Factors in Rice[J]. Nature Communications, 2018(9): 852.

SONG X J, HUANG W, SHI M, et al. A QTL for Rice Grain Width and Weight Encodes a Previously Unknown RING-type E3 Ubiquitin Ligase[J]. Nature Genetics, 2007, 39(5): 623-630.

LI Y B, FAN C C, XING Y Z, et al. Natural Variation in GS5 Plays an Important Role in Regulating Grain Size and Yield in Rice[J]. Nature Genetics, 2011, 43(12): 1266-1269.

XU C J, LIU Y, LI Y B, et al. Differential Expression of GS5 Regulates Grain Size in rice[J]. Journal of Experimental Botany, 2015, 66(9): 2611-2623.

师翠兰. 水稻粒型调控基因OsUBP15的图位克隆与功能分析[D]. 北京: 中国农业科学院, 2019.

HUANG K, WANG D K, DUAN P G, et al. WIDE AND THICK GRAIN 1, which Encodes an Otubain-like Protease with Deubiquitination Activity, Influences Grain Size and Shape in Rice[J]. The Plant Journal, 2017, 91(5): 849-860.

REN D Y, DING C Q, QIAN Q. Molecular Bases of Rice Grain Size and Quality for Optimized Productivity[J]. Science Bulletin, 2023, 68(3): 314-350.

HU J, WANG Y X, FANG Y X, et al. A Rare Allele of GS2 Enhances Grain Size and Grain Yield in Rice[J]. Molecular Plant, 2015, 8(10): 1455-1465.

CHE R H, TONG H N, SHI B H, et al. Control of Grain Size and Rice Yield by GL2-mediated Brassinosteroid Responses[J]. Nature Plants, 2015(2): 15195.

WANG S K, LI S, LIU Q, et al. The OsSPL16-GW7 Regulatory Module Determines Grain Shape and Simultaneously Improves Rice Yield and Grain Quality[J]. Nature Genetics, 2015, 47(8): 949-954.

YING J Z, MA M, BAI C, et al. TGW3, a Major QTL that Negatively Modulates Grain Length and Weight in Rice[J]. Molecular Plant, 2018, 11(5): 750-753.

ALONSO-BLANCO C, KOORNNEEF M. Naturally Occurring Variation in Arabidopsis: An Underexploited Resource for Plant Genetics[J]. Trends in Plant Science, 2000, 5(1): 22-29.

YANO M. Genetic and Molecular Dissection of Naturally Occurring Variation[J]. Current Opinion in Plant Biology, 2001, 4(2): 130-135.

PARRY M A J, MADGWICK P J, BAYON C, et al. Mutation Discovery for Crop Improvement Free[J]. Journal of Experimental Botany, 2009, 60(10): 2817-2825.

ZHANG G Q. Target Chromosome-segment Substitution: A Way to Breeding by Design in Rice[J]. The Crop Journal, 2021, 9(3): 658-668.

张桂权. 基于SSSL文库的水稻设计育种平台[J]. 遗传, 2019, 41(8): 754-760.

赵芳明, 郭超, 魏霞, 等. 日本晴与5个优良恢复系的多态性标记筛选及遗传差异分析[J]. 西南大学学报(自然科学版), 2016, 38(11): 1-7. doi: 10.13718/j.cnki.xdzk.2016.11.001

ZHAO F M, TAN Y, ZHENG L Y, et al. Identification of Rice Chromosome Segment Substitution Line Z322-1-10 and Mapping QTLS for Agronomic Traits from the F3 Population[J]. Cereal Research Communications, 2016, 44(3): 370-380.

ZHOU K, LI Y, WANG S M, et al. Identification of Rice Chromosome Segment Substitution Line Z519 with Pur-Ple Sheath and Candidate Gene Analysis of PSH1[J]. Acta Agronomica Sinica, 2017, 43(7): 974.

PATERSON A H, DAMON S, HEWITT J D, et al. Mendelian Factors Underlying Quantitative Traits in Tomato: Comparison across Species, Generations, and Environments[J]. Genetics, 1991, 127(1): 181-197.

MURRAY M G, THOMPSON W F. Rapid Isolation of High Molecular Weight Plant DNA[J]. Nucleic Acids Research, 1980, 8(19): 4321-4325.

WANG M L, LU X D, XU G Y, et al. OsSGL, a Novel Pleiotropic Stress-related Gene Enhances Grain Length and Yield in Rice[J]. Scientific Reports, 2016, 6: 38157.

刘金艳, 张朔语, 宗涵颖, 等. 基于水稻大粒染色体片段代换系Z29的鉴定及QTL定位[J]. 西南大学学报(自然科学版), 2024, 46(2): 13-23. doi: 10.13718/j.cnki.xdzk.2024.02.002

SONG X J, KUROHA T, AYANO M, et al. Rare Allele of a Previously Unidentified Histone H4 Acetyltransferase Enhances Grain Weight, Yield, and Plant Biomass in Rice[J]. Proceedings of the National Academy of Sciences of the United States of America, 2015, 112(1): 76-81.

JIANG Y H, BAO L, JEONG S Y, et al. XIAO Is Involved in the Control of Organ Size by Contributing to the Regulation of Signaling and Homeostasis of Brassinosteroids and Cell Cycling in Rice[J]. The Plant Journal, 2012, 70(3): 398-408.

SHI C L, REN Y L, LIU L L, et al. Ubiquitin Specific Protease 15 Has an Important Role in Regulating Grain Width and Size in Rice[J]. Plant Physiology, 2019, 180(1): 381-391.

SI L Z, CHEN J Y, HUANG X H, et al. OsSPL13 Controls Grain Size in Cultivated Rice[J]. Nature Genetics, 2016, 48(4): 447-456.

HEANG D, SASSA H. Antagonistic Actions of HLH/bHLH Proteins are Involved in Grain Length and Weight in Rice[J]. Public Library of Science ONE, 2012, 7(2): e31325.

LIU L C, TONG H N, XIAO Y H, et al. Activation of Big Grain1 Significantly Improves Grain Size by Regulating Auxin Transport in Rice[J]. Proceedings of the National Academy of Sciences of the United States of America, 2015, 112(35): 11102-11107.

王大川, 汪会, 马福盈, 等. 增加穗粒数的水稻染色体代换系Z747鉴定及相关性状QTL定位[J]. 作物学报, 2020, 46(1): 140-146.

SHE K C, KUSANO H, KOIZUMI K, et al. A Novel Factor FLOURY ENDOSPERM2 is Involved in Regulation of Rice Grain Size and Starch Quality[J]. The Plant Cell, 2010, 22(10): 3280-3294.

LIU T Z, ZHANG X, ZHANG H, et al. Dwarf and High Tillering1 Represses Rice Tillering through Mediating the Splicing of D14 Pre-mRNA[J]. The Plant Cell, 2022, 34(9): 3301-3318.

XU X Y, E Z G, ZHANG D P, et al. OsYUC11-mediated Auxin Biosynthesis is Essential for Endosperm Development of Rice[J]. Plant Physiology, 2021, 185(3): 934-950.

LU W Y, DENG M J, GUO F, et al. Suppression of OsVPE3 Enhances Salt Tolerance by Attenuating Vacuole Rupture during Programmed Cell Death and Affects Stomata Development in Rice[J]. Rice, 2016, 9(1): 65.