[1] |
赵正洪, 胡文斌, 汪丽, 等. 湖南省优质稻研发的历程、问题与展望[J]. 中国稻米, 2022, 28(5):117-123.
|
[2] |
王丰, 柳武革, 刘迪林, 等. 广东优质稻发展及稻米品牌建设与展望[J]. 中国稻米, 2021, 27(4):107-116.
|
[3] |
YU B S, LIN Z W, LI H X, et al. TAC1, a major quantitative trait locus controlling tiller angle in rice[J]. The Plant Journal, 2007, 52(5): 891-898.
|
[4] |
DONG H J, ZHAO H, XIE W B, et al. A novel tiller angle gene, TAC3, together with TAC1 and D2 largely determine the natural variation of tiller angle in rice cultivars[J]. PLoS Genetics, 2016, 12(11): e1006412.
|
[5] |
ASHIKARI M, SAKAKIBARA H, LIN S, et al. Cytokinin oxidase regulates rice grain production[J]. Science, 2005, 309: 741-745.
|
[6] |
HUO X, WU S, ZHU Z F, et al. NOG1 increases grain production in rice[J]. Nature Communications, 2017, 8: 1 497.
|
[7] |
KOMASTU M, MAEKAWA M, SHIMAMOTO K, et al. The LAX1 and FRIZZY PANICLE 2 genes determine the inflorescence architecture of rice by controlling rachis-branch and spikelet development[J]. Developmental Biology, 2001, 231: 364-373.
|
[8] |
WANG Y X, XIONG G S, HU J, et al. Copy number variation at the GL7 locus contributes to grain size diversity in rice[J]. Nature Genetics, 2015, 47(8): 944-948.
|
[9] |
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): 1 164-1 171.
|
[10] |
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): 1 266-1 269.
|
[11] |
TIAN Z X, QIAN Q, LIU Q Q, et al. Allelic diversities in rice starch biosynthesis lead to a diverse array of rice eating and cooking qualities[J]. Proceedings of the National Academy of Sciences of the United States of America, 2009, 106: 21 760-21 765.
|
[12] |
PENG B, KONG H L, LI Y B, et al. OsAAP6 functions as an important regulator of grain protein content and nutritional quality in rice[J]. Nature Communications, 2014, 5: 4 847.
|
[13] |
WANG Y H, LI J Y. Molecular basis of plant architecture[J]. Annual Review of Plant Biology, 2008, 59: 253-279.
|
[14] |
梁彦, 王永红. 水稻株型功能基因及其在育种上的应用[J]. 生命科学, 2016, 28(10):1156-1 167.
|
[15] |
陈宗祥, 冯志明, 王龙平, 等. 水稻分蘖角基因 TAC1的育种应用价值分析[J]. 中国水稻科学, 2017, 31(6):590-598.
|
[16] |
何汛锋, 李祖军, 田雪飞, 等. 双季直播晚稻品种筛选及抗倒伏能力研究[J]. 西南农业学报, 2020, 33(12):2745-2 754.
|
[17] |
陆展华, 王晓飞, 刘维, 等. 优质稻粤农丝苗抗倒伏影响因素和遗传分析[J]. 植物遗传资源学报, 2021, 22(3):638-645.
|