Chinese Journal OF Rice Science ›› 2020, Vol. 34 ›› Issue (3): 191-207.DOI: 10.16819/j.1001-7216.2020.9137
• Reviews and Special Topics • Next Articles
Wenjian SONG1,2,#, Zhong MEI1,#, Yu LI2, Wenhua XIA2, Xiaoli SHU2, Dianxing WU2, Shufang MEI1,*()
Received:
2019-12-24
Revised:
2020-01-31
Online:
2020-05-15
Published:
2020-05-10
Contact:
Shufang MEI
About author:
#These authors contributed equally to this work
宋文健1,2,#, 梅忠1,#, 李玉2, 夏雯华2, 舒小丽2, 吴殿星2, 梅淑芳1,*()
通讯作者:
梅淑芳
作者简介:
#共同第一作者
基金资助:
CLC Number:
Wenjian SONG, Zhong MEI, Yu LI, Wenhua XIA, Xiaoli SHU, Dianxing WU, Shufang MEI. Current Status on Research and Utilization of Colored Rice[J]. Chinese Journal OF Rice Science, 2020, 34(3): 191-207.
宋文健, 梅忠, 李玉, 夏雯华, 舒小丽, 吴殿星, 梅淑芳. 彩色水稻研究与利用现状[J]. 中国水稻科学, 2020, 34(3): 191-207.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.ricesci.cn/EN/10.16819/j.1001-7216.2020.9137
表型 Phenotype | 基因 Gene | 染色体 Chromosome | 生物学功能 Biological Functions | 参考文献 Reference | |
---|---|---|---|---|---|
亮绿叶 Bright green leaf | BGL11(t) | 11 | BGL11(t)调控水稻叶色 | [45] | |
黄绿叶 Yellow-green leaf | YGL138(t) | 11 | YGL138编码叶绿体信号识别颗粒 | [46] | |
黄绿叶 Yellow-green leaf | GRC1 | 6 | GRC1是叶绿素的生物合成和水稻叶绿体早期发育所必需的 | [47] | |
黄绿叶披叶 Yellow-green and droopy leaf | OsAld-Y | 6 | OsAld-Y通过影响水稻叶片光合速率和糖代谢,参与叶绿素积累、叶绿体发育以及植株生长 | [48] | |
黄绿叶 Yellow-green leaf | YGL1 | 5 | YGL1以单拷贝的形式存在于水稻基因组中,编码叶绿素合成酶,催化叶绿素酸酯植醇化,生成叶绿素a,这一合成步骤对叶绿素a辅基蛋白的翻译和积累,类囊体膜组分的稳定装配起重要作用 | [49] | |
黄绿叶 Yellow-green leaf | YGL8 | 1 | YGL8不仅是一个具有催化活性的亚基,还是参与叶绿素合成的FLU- YGL8-LCAA-POR复合体的核心组分 | [50] | |
黄绿叶 Yellow-green leaf | OsGluRS | 2 | 谷酰基tRNA合成酶OsGluRS可能在叶绿体和线粒体的增殖和发育中发挥关键作用 | [51] | |
黄绿叶 Yellow-green leaf | Chl1 | 3 | 编码Mg-原卟啉IX螯合酶亚基D,在叶绿素合成和叶绿体发育中发挥重要作用 | [52] | |
黄绿叶 Yellow-green leaf | Chl9 | 3 | 编码Mg-原卟啉IX螯合酶亚基CH1I,在叶绿素合成和叶绿体发育中发挥重要作用 | [52] | |
黄绿叶 Yellow-green leaf | OsDVR | 3 | 编码联乙烯还原酶(DVR)能将有关叶绿素生物合成的各类中间体的8-乙烯基还原成相应的单乙烯基 | [53] | |
淡黄绿叶 Virescent-yellow leaf | VYL | 3 | VYL基因表达量与光介导的叶绿体发育进程相关 | [33] | |
淡绿叶 Pale-green leaf | PGL10 | 10 | OsPORB在整个叶片发育过程中,尤其在高光照下,是维持依赖光的叶绿素合成所必需的 | [54] | |
淡绿叶 Pale-green leaf | PGL | 1 | 编码一个叶绿素a加氧酶,其突变体浅绿色,叶绿素含量降低,叶绿素a/叶绿素b比例增加 | [55] | |
淡绿叶 Pale-green leaf | OsHAP3A | 1 | 控制位于叶绿体的细胞核编码基因的表达,调节叶绿体发育 | [56] | |
黄化转绿 Young leaf chlorosis | YLC1 | 9 | YLC1编码DUF3353家族蛋白参与水稻早期叶片发育中叶绿素和叶黄素的积累以及叶绿体的发育 | [57] | |
黄叶Yellow leaf | LYL1 | 2 | LYL1基因参与了水稻叶绿素生物合成的最后一步,在水稻对强光响应上起着重要作用,能保护植物抵御脂质过氧化作用和活性氧伤害 | [58] | |
黄叶Yellow leaf | YL1 | 2 | 光诱导的基因,可能参与光调控的叶绿素形成、叶绿体发育和叶绿体ATP合酶的有效合成 | [59] | |
淡黄叶Light yellow leaf | cga1 | 2 | Cga1是细胞分裂素应答的GATA转录因子,调控水稻株型和叶绿体发育 | [60] | |
淡黄(3叶后死亡) Pale-yellow leaf | OsClpP5 | 3 | OsClpP5编码叶绿体蛋白酶,其功能不可被代替 | [61] | |
黄化 Etiolation | etl1 | 11 | 编码产物蛋白序列与拟南芥HCF152类似,HCF152参与了叶绿体RNA的加工 | [62] | |
黄化 Etiolation | etl2 | 12 | 编码产物蛋白序列与拟南芥HCF152类似,HCF152参与了叶绿体RNA的加工 | [62] | |
白化 Albino leaf | AL2; CRS1 | 9 | AL2编码叶绿体IIA型内含子剪接促进因子,参与叶绿体Ⅰ型和Ⅱ型内含子剪切,协调一系列叶绿体相关基因表达,调控水稻叶绿体发育 | [63] | |
白化 Albino leaf | OsChlH | 3 | 编码水稻Mg-螯合酶的最大亚基 | [64] | |
白化 Albino leaf | OsPPR1 | 9 | OsPPR1是核基因,编码PPR蛋白,可能参与叶绿体的形成 | [65] | |
白化 Albino leaf | OsPPR6 | 5 | PPR6通过参与质体基因编码的ndhB转录本编辑和ycf3转录本剪接,调控水稻早期叶绿体生物发生 | [66] | |
白化Albino leaf | OsOTP51 | 2 | OsOTP51的功能缺失影响一些质体基因的内含子剪接,该基因编码产物参与了光系统PSⅠ复合体的组装 | [67] | |
表型 Phenotype | 基因 Gene | 染色体 Chromosome | 生物学功能 Biological function | 参考文献 Reference | |
白化转绿 Young seedling albino | YSA | 3 | 编码PPR蛋白的YSA基因,突变后会导致水稻3叶期前叶片白化 | [30] | |
白化转绿 Young seedling albino | V1 | 3 | V1(virescent-1)编码一个定位在叶绿体上的蛋白质NUS1 | [28] | |
白化转绿 Young seedling albino | V2 | 3 | V2编码产物含有鸟苷酸激酶结构域,在叶绿体蛋白翻译机制中起重要作用 | [29] | |
白化转绿 Young seedling albino | V3 | 6 | 编码一个由814个氨基酸组成的核糖核酸还原酶大亚基,产物含有ATP 锥体结构域和RNR1结构域 | [20] | |
白化转绿 Young seedling albino | RNRS1 | 6 | 编码一个由339个氨基酸组成的核糖核酸还原酶小亚基,产物含有RNR2结构域 | [20] | |
温敏型白化 Temperature-sensitive albino | TCD5 | 5 | 低温下,TCD5影响叶绿体发育相关基因的转录 | [68] | |
白叶和穗 White leaf and panicle | WLP2 | 1 | WLP2及其同源蛋白OsFLN2,可与硫氧还蛋白OsTRXz互作形成TRX-FLN调控模块,不仅可调节PEP编码基因的转录,而且可维持高温胁迫下叶绿体的氧化还原平衡,参与热胁迫下水稻叶绿体的合成,保护水稻叶绿体发育免受高温胁迫影响 | [69] | |
白叶和穗 White leaf and panicle | WLP1 | 1 | WLP1参与叶绿体正常发育,特别是在低温下 | [70] | |
白化转绿 Green-reverible albino | OsABC18 | 11 | ATP结合盒转运蛋白,参与水稻中铁等过渡金属元素的转运和稳态维持,参与叶绿体发育和叶绿素合成,尤其是光照不好的条件下 | [71] | |
窄叶白化 Narrow albino leaf | CHR729 | 7 | 通过赤霉素途径控制幼苗发育 | [72] | |
白化中脉 Albino midrib1 | AM1 | 4 | 在前几片叶子中调控叶绿素生物合成、叶绿体发育和光合作用相关基因表达中起重要作用 | [73] | |
叶脉白化反巻叶 Abaxial rolling and vein-albino leaves | OsARVL4 | 4 | 可能参与调控水稻叶脉发育和叶片形态建成,参与调控叶绿素含量和光合效率,且可能受到如DNA甲基化的表观遗传调控 | [74] | |
白化Albino leaf1 | AL1 | 3 | 参与光合作用、核糖体以及代谢的平衡,以剂量介导形式调控叶绿体发育 | [75] | |
苗期白化致死 Albino seedling lethality | ASL2, RPL21c | 2 | 编码叶绿体50S核糖体蛋白L21,是叶绿体核糖体大亚基的一个组分,对水稻叶绿体的发育至关重要 | [76] | |
白色条纹叶 White stripe leaf 12 | Wsl12 | 12 | 编码OsNDPK2,通过调节相关基因的表达水平,在叶绿体发育和叶绿素合成中发挥重要作用 | [77] | |
白叶条纹和穗 White-stripe leaves and panicles | WSP1 | 4 | 参与水稻叶绿体发育 | [78] | |
幼苗条纹叶 Young seedling stripe | YSS1 | 4 | YSS1作为质体RNA聚合酶活性调控因子,对水稻幼苗阶段叶绿体发育十分重要 | [79] | |
紫叶Purple leaf | Pl | 4 | Plw由OsB1和OsB2两个基因构成,均编码包含bHLH结构的蛋白组成,该蛋白参与花青素的生物合成 | [80] | |
斑马叶Zebra leaf | ZEBRA2 | 11 | 在水稻叶绿素合成及叶绿体发育中起着重要作用。类胡萝卜素生物合成受阻,引起光氧化和ABA缺陷 | [43] | |
斑马叶Zebra leaf | Zl16 | 8 | 通过调控脂肪酸合成,从而参与水稻叶绿体发育过程 | [81] | |
斑马叶Zebra leaf | Zebra524 | 2 | ABA类胡萝卜素合成前体,参与活性氧的清除及PSⅡ的光氧化 | [82] |
Table 1 Cloned genes related to leaf color in rice.
表型 Phenotype | 基因 Gene | 染色体 Chromosome | 生物学功能 Biological Functions | 参考文献 Reference | |
---|---|---|---|---|---|
亮绿叶 Bright green leaf | BGL11(t) | 11 | BGL11(t)调控水稻叶色 | [45] | |
黄绿叶 Yellow-green leaf | YGL138(t) | 11 | YGL138编码叶绿体信号识别颗粒 | [46] | |
黄绿叶 Yellow-green leaf | GRC1 | 6 | GRC1是叶绿素的生物合成和水稻叶绿体早期发育所必需的 | [47] | |
黄绿叶披叶 Yellow-green and droopy leaf | OsAld-Y | 6 | OsAld-Y通过影响水稻叶片光合速率和糖代谢,参与叶绿素积累、叶绿体发育以及植株生长 | [48] | |
黄绿叶 Yellow-green leaf | YGL1 | 5 | YGL1以单拷贝的形式存在于水稻基因组中,编码叶绿素合成酶,催化叶绿素酸酯植醇化,生成叶绿素a,这一合成步骤对叶绿素a辅基蛋白的翻译和积累,类囊体膜组分的稳定装配起重要作用 | [49] | |
黄绿叶 Yellow-green leaf | YGL8 | 1 | YGL8不仅是一个具有催化活性的亚基,还是参与叶绿素合成的FLU- YGL8-LCAA-POR复合体的核心组分 | [50] | |
黄绿叶 Yellow-green leaf | OsGluRS | 2 | 谷酰基tRNA合成酶OsGluRS可能在叶绿体和线粒体的增殖和发育中发挥关键作用 | [51] | |
黄绿叶 Yellow-green leaf | Chl1 | 3 | 编码Mg-原卟啉IX螯合酶亚基D,在叶绿素合成和叶绿体发育中发挥重要作用 | [52] | |
黄绿叶 Yellow-green leaf | Chl9 | 3 | 编码Mg-原卟啉IX螯合酶亚基CH1I,在叶绿素合成和叶绿体发育中发挥重要作用 | [52] | |
黄绿叶 Yellow-green leaf | OsDVR | 3 | 编码联乙烯还原酶(DVR)能将有关叶绿素生物合成的各类中间体的8-乙烯基还原成相应的单乙烯基 | [53] | |
淡黄绿叶 Virescent-yellow leaf | VYL | 3 | VYL基因表达量与光介导的叶绿体发育进程相关 | [33] | |
淡绿叶 Pale-green leaf | PGL10 | 10 | OsPORB在整个叶片发育过程中,尤其在高光照下,是维持依赖光的叶绿素合成所必需的 | [54] | |
淡绿叶 Pale-green leaf | PGL | 1 | 编码一个叶绿素a加氧酶,其突变体浅绿色,叶绿素含量降低,叶绿素a/叶绿素b比例增加 | [55] | |
淡绿叶 Pale-green leaf | OsHAP3A | 1 | 控制位于叶绿体的细胞核编码基因的表达,调节叶绿体发育 | [56] | |
黄化转绿 Young leaf chlorosis | YLC1 | 9 | YLC1编码DUF3353家族蛋白参与水稻早期叶片发育中叶绿素和叶黄素的积累以及叶绿体的发育 | [57] | |
黄叶Yellow leaf | LYL1 | 2 | LYL1基因参与了水稻叶绿素生物合成的最后一步,在水稻对强光响应上起着重要作用,能保护植物抵御脂质过氧化作用和活性氧伤害 | [58] | |
黄叶Yellow leaf | YL1 | 2 | 光诱导的基因,可能参与光调控的叶绿素形成、叶绿体发育和叶绿体ATP合酶的有效合成 | [59] | |
淡黄叶Light yellow leaf | cga1 | 2 | Cga1是细胞分裂素应答的GATA转录因子,调控水稻株型和叶绿体发育 | [60] | |
淡黄(3叶后死亡) Pale-yellow leaf | OsClpP5 | 3 | OsClpP5编码叶绿体蛋白酶,其功能不可被代替 | [61] | |
黄化 Etiolation | etl1 | 11 | 编码产物蛋白序列与拟南芥HCF152类似,HCF152参与了叶绿体RNA的加工 | [62] | |
黄化 Etiolation | etl2 | 12 | 编码产物蛋白序列与拟南芥HCF152类似,HCF152参与了叶绿体RNA的加工 | [62] | |
白化 Albino leaf | AL2; CRS1 | 9 | AL2编码叶绿体IIA型内含子剪接促进因子,参与叶绿体Ⅰ型和Ⅱ型内含子剪切,协调一系列叶绿体相关基因表达,调控水稻叶绿体发育 | [63] | |
白化 Albino leaf | OsChlH | 3 | 编码水稻Mg-螯合酶的最大亚基 | [64] | |
白化 Albino leaf | OsPPR1 | 9 | OsPPR1是核基因,编码PPR蛋白,可能参与叶绿体的形成 | [65] | |
白化 Albino leaf | OsPPR6 | 5 | PPR6通过参与质体基因编码的ndhB转录本编辑和ycf3转录本剪接,调控水稻早期叶绿体生物发生 | [66] | |
白化Albino leaf | OsOTP51 | 2 | OsOTP51的功能缺失影响一些质体基因的内含子剪接,该基因编码产物参与了光系统PSⅠ复合体的组装 | [67] | |
表型 Phenotype | 基因 Gene | 染色体 Chromosome | 生物学功能 Biological function | 参考文献 Reference | |
白化转绿 Young seedling albino | YSA | 3 | 编码PPR蛋白的YSA基因,突变后会导致水稻3叶期前叶片白化 | [30] | |
白化转绿 Young seedling albino | V1 | 3 | V1(virescent-1)编码一个定位在叶绿体上的蛋白质NUS1 | [28] | |
白化转绿 Young seedling albino | V2 | 3 | V2编码产物含有鸟苷酸激酶结构域,在叶绿体蛋白翻译机制中起重要作用 | [29] | |
白化转绿 Young seedling albino | V3 | 6 | 编码一个由814个氨基酸组成的核糖核酸还原酶大亚基,产物含有ATP 锥体结构域和RNR1结构域 | [20] | |
白化转绿 Young seedling albino | RNRS1 | 6 | 编码一个由339个氨基酸组成的核糖核酸还原酶小亚基,产物含有RNR2结构域 | [20] | |
温敏型白化 Temperature-sensitive albino | TCD5 | 5 | 低温下,TCD5影响叶绿体发育相关基因的转录 | [68] | |
白叶和穗 White leaf and panicle | WLP2 | 1 | WLP2及其同源蛋白OsFLN2,可与硫氧还蛋白OsTRXz互作形成TRX-FLN调控模块,不仅可调节PEP编码基因的转录,而且可维持高温胁迫下叶绿体的氧化还原平衡,参与热胁迫下水稻叶绿体的合成,保护水稻叶绿体发育免受高温胁迫影响 | [69] | |
白叶和穗 White leaf and panicle | WLP1 | 1 | WLP1参与叶绿体正常发育,特别是在低温下 | [70] | |
白化转绿 Green-reverible albino | OsABC18 | 11 | ATP结合盒转运蛋白,参与水稻中铁等过渡金属元素的转运和稳态维持,参与叶绿体发育和叶绿素合成,尤其是光照不好的条件下 | [71] | |
窄叶白化 Narrow albino leaf | CHR729 | 7 | 通过赤霉素途径控制幼苗发育 | [72] | |
白化中脉 Albino midrib1 | AM1 | 4 | 在前几片叶子中调控叶绿素生物合成、叶绿体发育和光合作用相关基因表达中起重要作用 | [73] | |
叶脉白化反巻叶 Abaxial rolling and vein-albino leaves | OsARVL4 | 4 | 可能参与调控水稻叶脉发育和叶片形态建成,参与调控叶绿素含量和光合效率,且可能受到如DNA甲基化的表观遗传调控 | [74] | |
白化Albino leaf1 | AL1 | 3 | 参与光合作用、核糖体以及代谢的平衡,以剂量介导形式调控叶绿体发育 | [75] | |
苗期白化致死 Albino seedling lethality | ASL2, RPL21c | 2 | 编码叶绿体50S核糖体蛋白L21,是叶绿体核糖体大亚基的一个组分,对水稻叶绿体的发育至关重要 | [76] | |
白色条纹叶 White stripe leaf 12 | Wsl12 | 12 | 编码OsNDPK2,通过调节相关基因的表达水平,在叶绿体发育和叶绿素合成中发挥重要作用 | [77] | |
白叶条纹和穗 White-stripe leaves and panicles | WSP1 | 4 | 参与水稻叶绿体发育 | [78] | |
幼苗条纹叶 Young seedling stripe | YSS1 | 4 | YSS1作为质体RNA聚合酶活性调控因子,对水稻幼苗阶段叶绿体发育十分重要 | [79] | |
紫叶Purple leaf | Pl | 4 | Plw由OsB1和OsB2两个基因构成,均编码包含bHLH结构的蛋白组成,该蛋白参与花青素的生物合成 | [80] | |
斑马叶Zebra leaf | ZEBRA2 | 11 | 在水稻叶绿素合成及叶绿体发育中起着重要作用。类胡萝卜素生物合成受阻,引起光氧化和ABA缺陷 | [43] | |
斑马叶Zebra leaf | Zl16 | 8 | 通过调控脂肪酸合成,从而参与水稻叶绿体发育过程 | [81] | |
斑马叶Zebra leaf | Zebra524 | 2 | ABA类胡萝卜素合成前体,参与活性氧的清除及PSⅡ的光氧化 | [82] |
叶色特征 Leaf color characteristics | 品种 Variety | 主要性状 Main trait | 研究单位 Research unit |
---|---|---|---|
斑马叶 Zebra leaf | 衡标807S | 移栽后5 d新抽出的叶片包括叶鞘会呈现出与叶脉垂直的黄绿相间的条纹,移栽后30 d叶片表现正常绿色 | 衡阳市农业科学研究所 |
武金4A | 移栽后7 d左右开始出现斑马叶纹,6叶期表现最为充分,移栽28 d斑马纹完全消失,稻株叶色恢复正常 | 襄樊市农业科学院 | |
淡绿叶 Pale-green leaf | M2S | 叶片淡绿色 | 中国水稻研究所 |
标1-A | 叶片淡绿色,叶鞘、稃尖、柱头均为紫色 | 中国水稻研究所 | |
TS1 | 叶片淡绿色,成株期颜色加深 | 浙江农业大学 | |
黄绿叶 Yellow-green leaf | 黄标A | 叶片及颖壳呈黄绿色,颖尖、叶鞘、叶耳及叶片边缘呈紫红色 | 四川省农业科学院 |
标泰S | 主茎叶片数11~14片,叶片淡黄绿色 | 怀化职业技术学院 | |
标88S | 全株叶色淡黄绿色,叶片挺直 | 怀化职业技术学院 | |
标CS | 中籼迟熟不育系,叶片淡黄绿色 | 湖南省怀化职业技术学院 | |
黄叶早A | 全生育期叶片淡绿色 | 江苏太湖农业科学研究所 | |
黄叶迟A | 全生育期叶片淡绿色 | 江苏太湖农业科学研究所 | |
黄叶 Yellow leaf | 黄玉A | 全生育期叶片黄化 | 浙江大学 |
安农标810S | 叶片淡黄绿色 | 怀化职业技术学院 | |
1166S | 淡黄叶 | 怀化职业技术学院 | |
509S | 淡黄叶 | 南京农业大学 | |
H159A | 淡黄叶 | 怀化职业技术学院 | |
金汇A | 全生育期淡黄色 | 上海交通大学 | |
紫叶 Purple leaf | 紫标S | 叶片紫色 | 贵州黔南州农业科学研究所 |
明紫02S | 叶鞘、稃尖、柱头及叶片均为紫色 | 三明市农业科学研究所 | |
中紫S | 苗期至成熟期全生育期叶色为紫色 | 中国水稻研究所 | |
先红A | 叶片紫红色,谷粒黄色,稃尖紫色 | 广西农业科学院 | |
紫ⅡA | 叶片、叶鞘、枝梗、叶耳、叶舌、颖尖、柱头为紫色 | 贵州省农业科学院 | |
桂紫1-S | 叶片生育前期紫色 | 广西农业科学院 | |
99H114紫S | 苗期至成熟期全生育期叶色为紫色 | 贵州大学 | |
白转绿 Young seedling albino | 玉兔S、白丰A、NHR111S、全龙A、NHR101A-107A | 苗期第1~3叶叶片白化或叶缘白化,第4新生叶开始逐渐转绿,至第6叶移栽前后整株恢复至正常绿色 | 浙江大学 |
云丰88A、云丰66A | 1~3叶期叶缘白化,第4叶起开始转绿 | 云南省农业科学院 | |
楠丰8S | 幼苗第1~4张叶片边缘失绿,形成黄白色叶色标记,第5叶后恢复正常绿色 | 温州市农业科学研究院 | |
黄转绿Young yellow leaf | 热农1A | 每一片叶都经历幼叶黄化,随后从叶尖向叶基部由黄转绿 | 中国热带农业科学院 |
白化转斑叶 Albino-zebra leaf | 高光A | 第1~6叶白化,第6叶后至成熟呈白化斑叶,幼穗白化带绿 | 江西省赣州市农业科学研究所 |
粉红Pink leaf | 浙大粉彩禾 | 芽叶鞘浅粉紫色,叶片抽穗前为鲜亮的粉红色,后期红紫色 | 浙江大学 |
银白Silvery white leaf | 浙大银彩禾 | 全生育期叶色、抽穗时的穗色和谷粒色为条纹状白色 | 浙江大学 |
黑色Black leaf | 浙大黑彩禾 | 叶片颜色抽穗前期为深紫黑色、后期为黑紫色 | 浙江大学 |
Table 2 Main three or two male-sterile rice lines functioning as leaf color indicator.
叶色特征 Leaf color characteristics | 品种 Variety | 主要性状 Main trait | 研究单位 Research unit |
---|---|---|---|
斑马叶 Zebra leaf | 衡标807S | 移栽后5 d新抽出的叶片包括叶鞘会呈现出与叶脉垂直的黄绿相间的条纹,移栽后30 d叶片表现正常绿色 | 衡阳市农业科学研究所 |
武金4A | 移栽后7 d左右开始出现斑马叶纹,6叶期表现最为充分,移栽28 d斑马纹完全消失,稻株叶色恢复正常 | 襄樊市农业科学院 | |
淡绿叶 Pale-green leaf | M2S | 叶片淡绿色 | 中国水稻研究所 |
标1-A | 叶片淡绿色,叶鞘、稃尖、柱头均为紫色 | 中国水稻研究所 | |
TS1 | 叶片淡绿色,成株期颜色加深 | 浙江农业大学 | |
黄绿叶 Yellow-green leaf | 黄标A | 叶片及颖壳呈黄绿色,颖尖、叶鞘、叶耳及叶片边缘呈紫红色 | 四川省农业科学院 |
标泰S | 主茎叶片数11~14片,叶片淡黄绿色 | 怀化职业技术学院 | |
标88S | 全株叶色淡黄绿色,叶片挺直 | 怀化职业技术学院 | |
标CS | 中籼迟熟不育系,叶片淡黄绿色 | 湖南省怀化职业技术学院 | |
黄叶早A | 全生育期叶片淡绿色 | 江苏太湖农业科学研究所 | |
黄叶迟A | 全生育期叶片淡绿色 | 江苏太湖农业科学研究所 | |
黄叶 Yellow leaf | 黄玉A | 全生育期叶片黄化 | 浙江大学 |
安农标810S | 叶片淡黄绿色 | 怀化职业技术学院 | |
1166S | 淡黄叶 | 怀化职业技术学院 | |
509S | 淡黄叶 | 南京农业大学 | |
H159A | 淡黄叶 | 怀化职业技术学院 | |
金汇A | 全生育期淡黄色 | 上海交通大学 | |
紫叶 Purple leaf | 紫标S | 叶片紫色 | 贵州黔南州农业科学研究所 |
明紫02S | 叶鞘、稃尖、柱头及叶片均为紫色 | 三明市农业科学研究所 | |
中紫S | 苗期至成熟期全生育期叶色为紫色 | 中国水稻研究所 | |
先红A | 叶片紫红色,谷粒黄色,稃尖紫色 | 广西农业科学院 | |
紫ⅡA | 叶片、叶鞘、枝梗、叶耳、叶舌、颖尖、柱头为紫色 | 贵州省农业科学院 | |
桂紫1-S | 叶片生育前期紫色 | 广西农业科学院 | |
99H114紫S | 苗期至成熟期全生育期叶色为紫色 | 贵州大学 | |
白转绿 Young seedling albino | 玉兔S、白丰A、NHR111S、全龙A、NHR101A-107A | 苗期第1~3叶叶片白化或叶缘白化,第4新生叶开始逐渐转绿,至第6叶移栽前后整株恢复至正常绿色 | 浙江大学 |
云丰88A、云丰66A | 1~3叶期叶缘白化,第4叶起开始转绿 | 云南省农业科学院 | |
楠丰8S | 幼苗第1~4张叶片边缘失绿,形成黄白色叶色标记,第5叶后恢复正常绿色 | 温州市农业科学研究院 | |
黄转绿Young yellow leaf | 热农1A | 每一片叶都经历幼叶黄化,随后从叶尖向叶基部由黄转绿 | 中国热带农业科学院 |
白化转斑叶 Albino-zebra leaf | 高光A | 第1~6叶白化,第6叶后至成熟呈白化斑叶,幼穗白化带绿 | 江西省赣州市农业科学研究所 |
粉红Pink leaf | 浙大粉彩禾 | 芽叶鞘浅粉紫色,叶片抽穗前为鲜亮的粉红色,后期红紫色 | 浙江大学 |
银白Silvery white leaf | 浙大银彩禾 | 全生育期叶色、抽穗时的穗色和谷粒色为条纹状白色 | 浙江大学 |
黑色Black leaf | 浙大黑彩禾 | 叶片颜色抽穗前期为深紫黑色、后期为黑紫色 | 浙江大学 |
[1] | 宋克堡, 宋泽观. 水稻淡黄叶突变体安农标810S的发现及初步研究[J]. 杂交水稻, 2007, 22(6): 71-73. |
Song K B, Song Z G.Discovery and preliminary research of the yellowish leaf mutant Annongbiao 810S in rice[J]. Hybrid Rice, 2007, 22(6): 71-73. (in Chinese with English abstract) | |
[2] | 刘少奎, 张启军, 漆庆明, 赖东, 廖慧敏, 颜文飞, 张斌, 吕川根. 水稻白条纹新基因st9(t)的初步定位[J]. 江苏农业学报, 2012, 28(5): 928-932. |
Liu S Q, Zhang Q J, Qi Q M, Lai D, Liao H M, Yan W F, Zhang B, Lü C G.Mapping a novel rice white stripe gene, st9(t)[J]. Jiangsu Journal of Agricultural Science, 2012, 28(5): 928-932. (in Chinese with English abstract) | |
[3] | 张毅, 吕俊, 李云峰, 杨昆, 沈福成, 张茂玲, 彭巧玲, 彭其莲, 周亚林, 何光华. 水稻白化转绿基因对农艺性状和外观米质的影响[J]. 作物学报, 2008, 34(2): 284-289. |
Zhang Y, Lü J, Li Y F, Yang K, Shen F C, Zhang M L, Peng Q L, Peng Q L, Zhou Y L, He G H.Effects of green-revertible albino gene on the agronomic traits and appearance quality in rice[J]. Acta Agronomica Sinica, 2008, 34(2): 284-289. (in Chinese with English abstract) | |
[4] | Chen T, Zhang Y, Zhao L, Zhu Z, Lin J, Zhang S, Wang C.Physiological character and gene mapping in a new green-revertible albino mutant in rice[J]. Journal of Genet Genomics, 2007, 34(4): 331-338. |
[5] | 郑静. 一份水稻白化突变体的遗传分析及其基因定位[D]. 雅安: 四川农业大学, 2008. |
Zheng J.Genetic analysis and gene mapping on a rice albino mutant XGS[D]. Yaan: Sichuan Agricultural University, 2008. (in Chinese with English abstract) | |
[6] | 夏九成. 水稻白化突变体和云南软米的超微结构观察及相关基因的遗传分析和分子标记定位[D]. 雅安: 四川农业大学, 2006. |
Xia J C.Ultrastructure, genetic analysis and gene mapping of albino mutant rice and soft rice in Yunnan China[D]. Yaan: Sichuan Agricultural University, 2006. (in Chinese with English abstract) | |
[7] | 牟同敏, 李春海, 杨国才, 卢兴桂. 紫叶水稻苗期叶色的遗传研究[J]. 中国水稻科学, 1995, 9(1): 45-48. |
Mou T M, Li C H, Yang G C, Lu X G.Genetical studies on seedling leaf color in purple rice[J]. Chinese Journal of Rice Science, 1995, 9(1): 45-48. (in Chinese with English abstract) | |
[8] | 曹立勇, 钱前, 朱旭东, 曾大力, 闵绍楷, 熊振民. 紫叶标记籼型光-温敏核不育系中紫S的选育及其配组的杂种优势[J]. 作物学报, 1999, 25(1): 44-49. |
Cao L Y, Qian Q, Zhu X D, Zeng D L, Min S K, Xiong Z M.Breeding of a photo-thermo sensitive genic male sterile Indica rice Zhongzi S with a purple-leaf marker and the hoterosis of its hybrid rice produced with it[J]. Acta Agronomica Sinica, 1999, 25(1): 44-49. (in Chinese with English abstract) | |
[9] | 周维永, 梁世荣, 周萌, 邓国富, 戴高兴, 高利军. 水稻不育系先红A紫叶性状的遗传行为及其应用前景[J]. 种子, 2010, 29(8): 23-26. |
Zhou W Y, Liang S R, Zhou M, Deng G F, Dai G X, Gao L J.Genetic behavior of purple-leaf characteristics of rice CMS line Xianhong A and its application prospect[J]. Seed, 2010, 29(8): 23-26. (in Chinese) | |
[10] | 施勇烽, 魏彦林, 奉保华, 王惠梅, 徐霞, 黄奇娜, 吕向光, 张晓波, 吴建利. 水稻淡绿叶突变体HM14的遗传分析与基因定位[J]. 中国水稻科学, 2013, 27(6): 585-590. |
Shi Y F, Wei Y L, Feng B H, Wang H M, Xu X, Huang Q N, Lü X G, Zhang X B, Wu J L.Genetic analysis and gene mapping of pale green leaf mutant HM14 in rice[J]. Chinese Journal of Rice Science, 2013, 27(6): 585-590. (in Chinese with English abstract) | |
[11] | 刘梦梦, 桑贤春, 凌英华, 杜鹏, 赵芳明, 杨正林, 何光华. 水稻黄绿叶基因YGL4的遗传分析和分子定位[J]. 作物学报, 2009, 35(8): 1405-1409. |
Liu M M, Sang X C, Ling Y H, Du P, Zhao F M, Yang Z L, He G H.Genetic analysis and molecular mapping of a yellow green leaf gene(YGL4) in rice(Oryza sativa L.)[J]. Acta Agronomica Sinica, 2009, 35(8): 1405-1409. (in Chinese with English abstract) | |
[12] | 陈善福, 舒庆尧, 吴殿星, 崔海瑞, 夏英武. 利用γ射线辐照诱发水稻龙特甫B叶色突变[J]. 浙江大学学报: 农业与生命科学版, 1999, 25(6): 569-572. |
Chen S F, Shu Q Y, Wu D X, Cui H R, Xia Y W.Preliminary study on adding to leaf color marker for rice cytoplasmic male sterile(CMS) line Longtefu A by mutation technology[J]. Journal of Zhejiang University: Agriculture & Life Science, 1999, 25(6): 569-572. (in Chinese with English abstract) | |
[13] | 董青, 张迎信, 张振华, 周全, 秦亚芝, 王宏, 程式华,曹立勇, 沈希宏. 水稻黄绿叶突变体w390的遗传分析和基因定位[J]. 中国水稻科学, 2015, 29(3): 241-249. |
Dong Q, Zhang Y X, Zhang Z H, Zhou Q, Qin Y Z, Wang H, Cheng S H, Cao L Y, Shen X H.Genetic analysis and gene mapping of a yellow-green leaf mutant w390 in rice(Oryza sativa L.)[J]. Chinese Journal of Rice Science, 2015, 39(3): 241-249. (in Chinese with English abstract) | |
[14] | 富昊伟. 水稻伽玛射线辐射诱变: 突变体质量保证与若干重要突变性状的研究[D]. 杭州: 浙江大学, 2008 |
Fu H W.Mutation induction by gamma rays in rice: quality assurance of induction mutants and studies on several important mutant traits[D]. Hangzhou: Zhejiang University, 2008. (in Chinese with English abstract) | |
[15] | 赵海军, 吴殿星, 舒庆尧, 沈圣泉, 马传喜. 携带白化转绿型叶色标记光温敏核不育系玉兔S的选育及其特征特性[J]. 中国水稻科学, 2004, 18(6): 515-521. |
Zhao H J, Wu D X, Shu Q Y, Shen S Q, Ma C X.Breeding and characteristics of photo-thermo sensitive genic male sterile rice Yutu S labeled with green-revertible albino leaf marker[J]. Chinese Journal of Rice Science, 2004, 28(6): 515-521. (in Chinese with English abstract) | |
[16] | 吴殿星, 黄佳佳, 朱张士昌, 沈易. 一种粉红色叶片水稻品种的选育方法: 2017100191408.8[P].[2017-02-20] |
Wu D X, Huang J J, Zhu Z S C, Shen Y. Breeding method for rice variety having pink leaves: 2017100191408.8[P]. [2017-02-20].(in Chinese) | |
[17] | 吴殿星, 徐艺如, 黄婧, 任一意, 诸方宁, 曾嘉乐. 一种紫黑色特用水稻的选育方法: 201810047050.3[P].[2018-01-18]. |
Wu D X, Xu Y R, Huang J, Ren Y Y, Zhu F N, Zeng J L.Method for breeding purple-black special rice: 201810047050.3[P]. [2018-01-18].(in Chinese) | |
[18] | Jung K H.Characterization of a rice chlorophyll-deficient mutant using the T-DNA gene-trap system[J]. Plant and Cell Physiology, 2003, 44(5): 463-472. |
[19] | Miyao A, Tanaka K, Murata K.Target site specificity of the Tos17 retrotransposon shows a preference for insertion within genes and against insertion in retrotransposon-rich regions of the genome[J]. Plant Cell, 2003, 15(8): 1771-1780. |
[20] | Yoo S C, Cho S H, Sugimoto H, Li J, Kusumi K, Koh H J.Rice Virescent3 and Stripe1 encoding the large and small subunits of ribonucleotide reductase are required for chloroplast biogenesis during early leaf development[J]. Plant Physiology, 2009, 150(1): 388-401. |
[21] | Awan M A, Konzak C F, Rutger J N, Nilan R A.Mutagenic effects of sodium azide in rice[J]. Crop Science, 1980, 20(5): 663-668. |
[22] | Nasyrov S Y.Genetic control of photosynthesis and improving of crop productivity[J]. Annual Review of Plant Physiology, 1978, 29(1): 215-237. |
[23] | Somerville R C.Analysis of Photosynthesis with mutants of higher plants and algae[J]. Annual Review of Plant Physiology, 1986, 37(1): 467-506. |
[24] | 吴殿星, 舒庆尧, 夏英武. 60Co-γ射线辐照诱发水稻温度调控叶色白化突变基因表达突变系[J]. 中国农业科学, 1997, 30(3): 95. |
Wu D X, Shu Q Y, Xia Y W, Liu G F.60Co-γ induced temperature-regulatory leaf color albino mutant gene expression mutant line in rice(Oryza sativa L.)[J]. Scientia Agricultural Sinica, 1997, 30(3): 95. (in Chinese with English abstract) | |
[25] | Masuda T, Fujita Y.Regulation and evolution of chlorophy II metabolism[J]. Photochemical & Photobiological Sciences, 2008, 7: 1131-1149. |
[26] | Harborne J B, Williams C A.ChemInform Abstract: Anthocyanins and other flavonoids[J]. Cheminform, 2010, 30(22): 310-333. |
[27] | Liu Y, Tikunov Y, Schouten R E, Marcelis L F M, Visser R G F, Bovy A. Anthocyanin biosynthesis and degradation mechanisms in Solanaceous vegetables: A review[J/OL]. Frontiers in Chemistry, 2018: doi.org/10.3389/fchem.2018.00052 |
[28] | Kusumi K, Sakata C, Nakamura T, Kawasaki S, Yoshimura A, Iba K.A plastid protein NUS1 is essential for build-up of the genetic system for early chloroplast development under cold stress conditions[J]. Plant Journal, 2011, 68(6): 1039-1050. |
[29] | Sugimoto H, Kusumi K, Noguchi K, Yano M.The rice nuclear gene, VIRESCENT 2, is essential for chloroplast development and encodes a novel type of guanylate kinase targeted to plastids and mitochondria[J]. Plant Journal, 2007, 52(3): 512-527. |
[30] | Su N, Hu M L, Wu D X, Wu F Q, Fei G L.Disruption of a rice pentatricopeptide repeat protein causes a seedling-specific albino phenotype and its utilization to enhance seed purity in hybrid rice production[J]. Plant Physiology, 2012, 159(1): 227-238. |
[31] | 郭涛, 黄永相, 黄宣, 刘永柱, 张建国, 陈志强. 水稻叶色白化转绿及多分蘖矮秆基因hw-1(t)的图位克隆[J]. 作物学报, 2012, 38(8): 1397-1406. |
Guo T, Huang Y X, Huang X, Liu Y Z, Zhang J G, Chen Z Q.Map-based cloning of a green-revertible albino and high tillering dwarf gene hw-t(t) in rice[J]. Acta Agronomica Sinica, 2012, 38(8): 1397-1406. (in Chinese with English abstract) | |
[32] | Wu Z, Zhang X, He B, Diao L.A chlorophyll-deficient rice mutant with impaired chlorophyllide esterification in chlorophyll biosynthesis[J]. Plant Physiology, 2007, 145(1): 29-40. |
[33] | Dong H, Fei G L, Wu C Y, Wu F Q, Sun Y Y, Chen M.A rice virescent-yellow leaf mutant reveals new insights into the role and assembly of plastid caseinolytic protease in higher plants[J]. Plant Physiology, 2013, 162(4): 1867-1880. |
[34] | Parham R, Rebeiz C A.Chloroplast biogenesis: [4-vinyl] chlorophyllide a reductase is a divinyl chlorophyllide a-specific, NADPH-dependent enzyme[J]. Biochemistry, 1992, 31(36): 8460-8464. |
[35] | Wang P, Wan C, Xu Z, Wang P, Wang W, Sun C.One divinyl reductase reduces the 8-vinyl groups in various intermediates of chlorophyll biosynthesis in a given higher plant species, but the isozyme differs between species[J]. Plant Physiology, 2013, 161(1): 521-534. |
[36] | 王丹霞, 权瑞党, 黄荣峰. 水稻yl1黄叶突变体的基因克隆与功能分析. 中国农业科技导报, 2015, 17(2): 41-48. |
Wang D X, Quan R D, Huang R F.Map-based cloning and function analysis of rice yellow leaf mutant yl1[J]. Journal of Agricultural Science and Technology, 2015, 17(2): 41-48. (in Chinese with English abstract) | |
[37] | 王聪田, 王国槐, 青先国, 郭清泉, 宋克堡, 李必湖, 严明理. 水稻淡黄叶突变体安农标810S基因表达量的初步研究[J]. 杂交水稻, 2007, 22(4): 67-70. |
Wang C T, Wang G H, Qing X G, Guo Q Q, Song K B, Li B H, Yang M L.Gene expression analysis of yellowish leaf mutant(Annong Biao 810S) in rice[J]. Hybrid Rice, 2007, 22(4): 67-70. (in Chinese with English abstract) | |
[38] | Kinoshita T, Takahashi M.The one hundredth report of genetical studies on the rice plant: Linkage studies and future prospects[J]. Journal of the Faculty of Agriculture, 1991, 65(1): 1-61. |
[39] | 赵鹏, 向珣朝, 姚嫣萍, 韩新成, 胡孝伟, 易良. 水稻紫叶突变体PLM的表型与遗传研究[J]. 中国种业, 2009(4): 38-40. |
Zhao P, Xiang X C, Yao Y P, Han X C, Hu X W, Yi L.Phenotype and genetic study of rice purple leaf mutant PLM[J]. China Seed Industry, 2009(4): 38-40. (in Chinese with English abstract) | |
[40] | 刘永柱, 罗文龙, 黄翠红, 陈立凯, 王慧, 陈志强, 郭涛. 水稻花色素苷合成调节基因hrd1(t)的鉴定[J]. 中国农业科学, 2013, 46(19): 3955-3964. |
Liu Y Z, Luo W L, Huang C H, Cheng L K, Wang H, Chen Z Q, Guo T.Characterization of the regulatory gene hrd1(t) involved in anthocyanin biosynthesis[J]. Scientia Agricultural Sinica, 2013, 46(19): 3955-3964. (in Chinese with English abstract) | |
[41] | 张毅. 水稻两个芽鞘紫线相关基因的图位克隆与应用研究[D]. 重庆: 西南大学, 2009. |
Zhang Y.Map-based cloning and application research of two coleoptile purple line related genes in rice(Oryza sativa L. ssp. indica)[D]. Chongqing: Xinan University, 2009. (in Chinese with English abstract) | |
[42] | Kusumi K, Komori H, Satoh H, Iba K.Characterization of a zebra mutant of rice with increased susceptibility to light stress[J]. Plant & Cell Physiology, 2000, 41(2): 158-164. |
[43] | Chai C, Fang J, Liu Y, Tong H, Gong Y, Wang Y.ZEBRA2, encoding a carotenoid isomerase, is involved in photoprotection in rice[J]. Plant Molecular Biology, 2011, 75(3): 211-221. |
[44] | 刘胜, 魏祥进, 邵高能, 唐绍清, 胡培松. 一个黄绿相间水稻叶色突变体的图位克隆[C]//2012年中国作物学会学术年会论文摘要集. 南昌: 中国作物学会, 2012. |
Liu S, Wei X J, Shao G N, Tang S Q, Hu P S.Map-based cloning of a rice stripe mutant[C]//Abstracts of Crop Science Society of China Annual Symposium. Nanchang: Crop Science Society of China, 2012. (in Chinese) | |
[45] | Wang Z K, Huang Y X, Miao Z D.Identification and characterization of BGL11(t), a novel gene regulating leaf-color mutation in rice(Oryza sativa L.). Gene Genome, 2013, 35(4): 491-499. |
[46] | Zhang F, Luo X, Hu B, Wan Y, Xie J.YGL138(t), encoding a putative signal recognition particle 54 kDa protein, is involved in chloroplast development of rice[J]. Rice, 2013, 6(1): 1-10. |
[47] | Li J, Wang Y, Chai J, Wang L, Wang C. Green-revertible Chlorina 1(grc1) is required for the biosynthesis of chlorophyll and the early development of chloroplasts in rice[J]. Journal of Plant Biology, 2013, 56(5): 326-335. |
[48] | Zhang F, Zhang P, Zhang Y, Wang S, Qu L.Identification of a peroxisomal-targeted aldolase involved in chlorophyll biosynthesis and sugar metabolism in rice[J]. Plant Science, 2016, 250: 205-215. |
[49] | 吴自明. 水稻黄绿叶基因ygl1的图位克隆及功能分析[D]. 南京: 南京农业大学, 2007. |
Wu Z M.Map-based cloning and functional study of the rice mutant gene ygl1 controlling yellow-green leaf[D]. Nanjing: Nanjing Agricultural University, 2007. (in Chinese with English abstract) | |
[50] | Zhu X, Guo S, Wang Z, Du Q, Xin G Y.Map-based cloning and functional analysis of YGL8, which controls leaf colour in rice(Oryza sativa)[J]. BMC Plant Biology, 2016, 16(1): 134-149. |
[51] | Liu W, Fu Y, Hu G, Si H, Zhu L.Identification and fine mapping of a thermo-sensitive chlorophyll deficient mutant in rice(Oryza sativa L.)[J]. Planta, 2007, 226(3): 785-795. |
[52] | Zhang H, Li J, Yoo J H, Yoo S C, Cho S H, Koh H J, Seo H S, Paek N C.Rice Chlorina-1 and Chlorina-9 encode ChlD and ChlI subunits of Mg-chelatase, a key enzyme for chlorophyll synthesis and chloroplast development[J]. Plant Molecular Biology, 2006, 62(3): 325-337. |
[53] | 王平荣. 水稻824ys黄绿叶突变基因的图位克隆及功能分析[D]. 雅安: 四川农业大学, 2010. |
Wang P R.Map-based cloning and functional analysis of the 824ys mutant gene controlling yellow-green leaf in rice[D]. Yaan: Sichuan Agricultural University, 2010. (in Chinese with English abstract) | |
[54] | Yang Y L, Xu J, Rao Y C.Cloning and functional analysis of pale-green leaf(PGL10) in rice(Oryza sativa L.)[J]. Plant Growth Regulation, 2016, 78(1): 69-77. |
[55] | Orcheski B, Parker R, Brown S.Pale green lethal disorder in apple(Malus) is caused by a mutation in the PHYLLO gene which is essential for phylloquinone (vitamin K1) biosynthesis[J]. Tree Genet Genomes, 2015, 11(6): 131-142. |
[56] | Miyoshi K, Ito Y, Serizawa A.OsHAP3 genes regulate chloroplast biogenesis in rice[J]. Plant Journal, 2003, 36(4): 532-540. |
[57] | Zhou K, Ren Y, Lü J, Wang Yin, Liu F.Young Leaf Chlorosis 1, a chloroplast-localized gene required for chlorophyll and lutein accumulation during early leaf development in rice[J]. Planta, 2013, 237(1): 279-292. |
[58] | Zhou Y, Gong Z, Yang Z, Yuan Y, Zhu J, Wang M, Yuan F, Wu S, Wang Z, Yi C, Xu T, Ryom M, Gu M, Liang G.Mutation of the light-induced yellow leaf 1 gene, which encodes a geranylgeranyl reductase, affects chlorophyll biosynthesis and light sensitivity in rice[J/OL].PloS One, 2013, 8(9): e75299. |
[59] | Chen F, Dong G, Wu L, Wang F, Yang X, Ma X, Wang H, Wu J, Zhang Y, Wang H, Qian Q, Yu Y.A nucleus-encoded chloroplast protein YL1 is involved in chloroplast development and efficient biogenesis of chloroplast ATP synthase in rice[J/OL].Scientific Reports, 2016, 6: 32295. |
[60] | Hudson D, Guevara D R, Hand A J, Xu Z, Hao L.Rice cytokinin GATA transcription factor1 regulates chloroplast development and plant architecture[J]. Plant Physiology, 2013, 162(1): 132-144. |
[61] | Tsugane K, Maekawa M, Takagi K, Takahara H, Qian Q.An active DNA transposon nDart causing leaf variegation and mutable dwarfism and its related elements in rice[J]. Plant Journal, 2010, 45(1): 46-57. |
[62] | Mao D, Yu H, Liu T, Yang G, Xing Y.Two complementary recessive genes in duplicated segments control etiolation in rice[J]. Theoretical and Applied Genetics, 2011, 122(2): 373-383. |
[63] | Liu C, Zhu H, Xing Y, Tan J, Chen X.Albino Leaf 2 is involved in the splicing of chloroplast group I and II introns in rice[J]. Journal of Experiment Botany, 2016, 67(18): 5339-5347. |
[64] | Goh C H, Satoh K, Kikuchi S, Kim S C, Ko S M.Mitochondrial activity in illuminated leaves of chlorophyll-deficient mutant rice(OsCHLH) seedlings[J]. Plant Biotechnology Reports, 2010, 4(4): 281-291. |
[65] | Gothandam K M, Kim E S, Cho H.OsPPR1, a pentatricopeptide repeat protein of rice is essential for the chloroplast biogenesis[J]. Plant Molecular Biology, 2005, 58(3): 421-433. |
[66] | Tang J, Zhang W, Wen K, Chen G, Sun J.OsPPR6, a pentatricopeptide repeat protein involved in editing and splicing chloroplast RNA, is required for chloroplast biogenesis in rice[J]. Plant Molecular Biology, 2017(4-5): 1-13. |
[67] | Ye J W, Gong Z Y, Chen C G, Mi H L.A mutation of OSOTP 51 leads to impairment of PSI complex assembly and serious photo-damage in rice[J]. Journal of Integrative Plant Biology, 2011, 54(2): 87-98. |
[68] | Wang Y, Zhang J, Shi X, Yu P, Ping L.Temperature-sensitive albino gene TCD5, encoding a monooxygenase, affects chloroplast development at low temperatures[J]. Journal of Experiment Botany, 2016, 67(17): 5187-5202. |
[69] | Lü Y, Shao G, Qiu J, Jiao G, Sheng Z, Xie L, Wu Y, Tang S, Wei X, Hu P.White Leaf and Panicle 2, encoding a PEP-associated protein, is required for chloroplast biogenesis under heat stress in rice[J]. Journal of Experiment Botany, 2017, 68(18): 5147-5160. |
[70] | Song J, Wei X, Shao G, Shen Z, Chen D.The rice nuclear gene WLP1 encoding a chloroplast ribosome L13 protein is needed for chloroplast development in rice grown under low temperature conditions[J]. Plant Molecular Biology, 2014, 84(3): 301-314. |
[71] | Zeng X, Tang R, Guo H, Ke S, Teng B, Hung Y, Xu Z, Xie X, Hsieh T, Zhang X.A naturally occurring conditional albino mutant in rice caused by defects in the plastid-localized OsABCI8 transporter[J]. Plant Molecular Biology, 2017, 94(1-2): 137-148. |
[72] | Ma X, Ma J, Zhai H, Xin P, Chu J, Qiao Y, Han L.CHR729 is a CHD3 protein that controls seedling development in rice[J/OL].PLoS ONE, 2015, 10(9): e0138934 |
[73] | Sheng P, Tan J, Jin M, Wu F, Zhou K, Ma W, Heng Y, Wang J, Guo X, Zhang X, Cheng Z, Liu L, Wang C, Liu X, Wan J.Albino midrib 1, encoding a putative potassium efflux antiporter, affects chloroplast development and drought tolerance in rice[J]. Plant Cell Reports, 2014, 33(9): 1581-1594. |
[74] | Wang L, Xu J, Nian J, Shen N, Lai K, Hu J, Zeng D, Ge C, Fang Y, Zhu L, Qian Q, Zhang G.Characterization and fine mapping of the rice gene OsARVL4 regulating leaf morphology and leaf vein development[J]. Plant Growth Regulation, 2016, 78(3): 345-356. |
[75] | Zhang Z, Tan J, Shi Z, Xie Q, Xing Y, Liu C, Chen Q, Zhu H, Wang J, Zhang J, Zhang G.Albino Leaf1 that encodes the sole octotricopeptide repeat protein is responsible for chloroplast development[J]. Plant Physiology, 2016, 171(2): 1182-1191. |
[76] | Lin D, Jiang Q, Zheng K, Chen S, Zhou H, Gong X, Xu J, Teng S, Dong Y.Mutation of the rice ASL2 gene encoding plastid ribosomal protein L21 causes chloroplast developmental defects and seedling death[J]. Plant Biology, 2015, 17(3): 599-607. |
[77] | Ye W, Hu S, Wu L, Ge C, Cui Y, Chen P, Wang X, Xu J, Ren D, Dong G, Qian Q, Guo L.White stripe leaf 12(WSL12), encoding a nucleoside diphosphate kinase 2(OsNDPK2), regulates chloroplast development and abiotic stress response in rice(Oryza sativa L.)[J]. Molecular Breeding, 2016, 36: 57. |
[78] | Zhang Z, Cui X, Wang Y, Wu J, Gu X, Lu T.The RNA editing factor WSP1 is essential for chloroplast development in rice[J]. Molecular Plant, 2017, 10(1): 86-98. |
[79] | Zhou K, Ren Y, Zhou F, Wang Y, Zhang L.Young Seedling Stripe1 encodes a chloroplast nucleoid- associated protein required for chloroplast development in rice seedlings[J]. Planta, 2017, 245(1): 45-60. |
[80] | Sakamoto W, Ohmori T, Kageyama K, Miyazaki C, Saito A.The Purple leaf(Pl) locus of rice: The Plw allele has a complex organization and includes two genes encoding basic helix-loop-helix proteins involved in anthocyanin biosynthesis[J]. Plant and Cell Physiology, 2001, 89(516): 474-476. |
[81] | Liu Z W, Wang Z Y, Gu H, You J, Hu M M, Zhang Y J, Zhu Z, Wang Y H, Liu S J, Chen L M, Liu X, Tian Y L, Zhou S R, Jiang L, Liu L L, Wan J M.Identification and phenotypic characterization ofZEBRA LEAF16 encoding a β-hydroxyacyl-ACP dehydratase in rice[J/OL]. Frontiers in Plant Science, 2018, 9: 782. |
[82] | Fang J, Chai C, Qian q, Li C, Tang J, Sun L, Huang Z, Guo X, Sun C, Liu M, Zhang Y, Lu Q, Wang Y, Lu C, Han B, Chen F, Cheng Z, Chu C. Mutations of genes in synthesis of the carotenoid precursors of ABA lead to pre-harvest sprouting and photo-oxidation in rice[J]. the Plant Journal, 2008, 54(2): 177-189. |
[83] | Parnellf R.The inheritance of characters in rice[J]. Memoirs of the Department of Agriculture in India, 1922, 11(8): 185-208. |
[84] | 从夕汉, 阮新民, 罗志祥, 白一松, 杨联松, 罗玉祥, 施伏芝. 水稻白穗突变体wp6的发现及研究[J]. 安徽农业科学, 2018, 46(36): 29-31. |
Cong X H, Ruan X M, Luo Z X, Bai YS, Yang L S, Luo Y X, Shi F Z.Discovery and study of white panicle mutant wp6 in rice[J]. Journal of Anhui Agricultural Science, 2018, 46(36): 29-31. (in Chinese with English abstract) | |
[85] | Nagao S, Takahashi M, Kino-Shita T.Genetical studies on rice plant, XXV: Inheritance of three morphological characters, pubescence of leaves and floral glumes, and deformation of empty glumes[J]. Journal of the Faculty of Agriculture Kyushu University, 1960, 51(2): 299-314. |
[86] | Maekawa M.Geographical distribution of the genes for black hull coloration[J]. Rice Genetics Newsletter, 1984, 1: 104-105. |
[87] | Zhu B F, Si L, Wang Z.Genetic control of a transition from black to straw-white seed hull in rice domestication[J]. Plant Physiology, 2011, 155(3): 1301-1311. |
[88] | 邓伟, 周家武, 李静, 胡凤益, 徐鹏, 邓先能. 长雄野生稻黑壳基因的分子定位及遗传研究[J]. 西南师范大学学报: 自然科学版, 2010, 35(3): 186-190. |
Deng W, Zhou J W, Li J, Hu F Y, Xu P, Deng X N, Wang L, Tao D Y.Genetic research and mapping of gene controlling black hull inOryza longistaminata[D]. Journal of Southwest China Normal University: Natural Sceince Edition, 2010, 35(3): 186-890. (in Chinese with English abstract) | |
[89] | Shao T, Qian Q, Tang D, Chen J, Li M, Cheng Z K, Luo Q.A novel gene IBF1 is required for the inhibition of brown pigment deposition in rice hull furrows[J]. Theoretical and Applied Genetics, 2012, 125(2): 381-390. |
[90] | Zhang K W, Qian Q, Huang Z J, Wang Y Q, Li M, Hong L L, Zeng D L, Gu M H, Chu C C, Cheng Z K.Gold hull and internode2 encodes a primarily multifunctional cinnamyl-alcohol dehydrogenase in rice[J]. Plant Physiology, 2006, 140: 974-983. |
[91] | Chow T E K. Structure of the cinnamyl-alcohol dehydrogenase gene family in rice and promoter activity of a member associated with lignification[J]. Planta, 2005, 220(5): 678-688. |
[92] | Hong L L, Qian Q, Tang D, Wang K J, Li M, Cheng Z K.A mutation in the rice chalcone isomerase gene causes the golden hull and internode 1 phenotype[J]. Planta, 2012, 236(1): 141-151. |
[93] | Yang C C, Zeng D D, Qin R, Alamin M, Jin X L, Shi C H.Rice gene, BBH/Lsi1, regulates the color of rice hull by reducing the absorption and deposition of silicon and accumulating excess flavonoid[J]. Plant Growth Regulation, 2018, 85: 133-142. |
[94] | 宋克堡, 肖建平. 水稻淡黄叶隐性标记不育系育种进展[J]. 杂交水稻, 2012, 27(2): 15-17. |
Song K B, Xiao J P.Progress in breeding of male sterile lines with recessive yellowish leaf color marker in rice[J]. Hybrid Rice, 2012, 27(2): 15-17. (in Chinese with English abstract) | |
[95] | 陈益海, 王建平, 朱勇良, 谢裕林, 乔中英. 粳稻淡黄绿叶标记不育系选育初报[J]. 云南农业大学学报, 2005, 20(5): 739-741. |
Chen Y H, Wang J P, Zhu Y L, Xie Y L, Qiao Z Y.Preliminary study on development of sterile line of keng rice markered by light yellow-green leaves[J]. Journal of Yunnan Agricultural University, 2005, 20(5): 739-741. (in Chinese with English abstract) | |
[96] | 刘国民, 高必军, 文绍山. 带有黄绿叶色标记的香型籼稻不育系形态特征及开花习性[J]. 分子植物育种, 2009, 7(5): 916-921. |
Liu G M, Gao B J, Wen S S.Morphological characters and flowering habits of sterile lines of aromatic indica rice with yellow green leaf marker[J]. Molecular Plant Breeding, 2009, 7(5): 916-921. (in Chinese with English abstract) | |
[97] | 董凤高, 朱旭东, 熊振民, 程式华, 孙宗修, 闵绍楷. 以淡绿叶为标记的籼型光-温敏核不育系M2S的选育[J]. 中国水稻科学, 1995, 9(2): 65-70. |
Dong F G, Zhu X D, Xiong Z M, Chen S H, Sun Z X, Min S K.Breeding of a photo-thermoperiod sensitive genic male sterile indica rice with a pale-green-leaf marker[J]. Chinese Journal of Rice Science, 1995, 9(2): 65-70. (in Chinese with English abstract) | |
[98] | 余新桥, 罗利军, 梅捍卫, 王一平, 钟代彬. 水稻标记不育系标-1A的选育与利用[J]. 西南农业学报, 2000, 13(4): 6-9. |
Yu X Q, Luo L J, Mei H W, Wang Y P, Zhong D B, Guo L B, Ying C S.The breeding and uses of marker CMS line, Biao-1A in rice[J]. Southwest China Journal of Agricultural Sciences, 2000, 13(4): 6-9. (in Chinese with English abstract) | |
[99] | 吴殿星, 舒庆尧, 夏英武, 景晓阳, 刘贵付. 60Co-γ射线诱发的籼型温敏核不育水稻叶色突变系变异分析[J]. 作物学报, 1999, 25(1): 64-69. |
Wu D X, Shu Q Y, Xia Y W, Jing X Y, Liu G F.Analysis of variation in thermos-sensitive genic male sterile leaf color mutant lines induced from indica rice(Oryza sativa L.) by 60Co-γ irradiation[J]. Acta Agronomica Sinica, 1999, 25(1): 64-69. (in Chinese with English abstract) | |
[100] | 沈圣泉, 周祥胜, 吴殿星, 舒小丽, 叶红霞, 舒庆尧. 水稻黄叶标记不育系的诱变选育及其应用[J]. 核农学报, 2007, 21(2): 107-110. |
Shen S Q, Zhou X S, Wu D X, Shu X L, Ye H X, Shu Q Y.The breeding of a rice Xantha leaf marker CMS line by gamma rays mutation[J]. Journal of Nuclear Agricultural Sciences, 2007, 21(2): 107-110. (in Chinese with English abstract) | |
[101] | 罗治靖, 沈卫平, 陈明姣, 梁婉琪, 陆建忠, 张建中, 刘康, 张大兵, 袁政. 淡黄叶优质粳稻不育系金汇A的选育[J]. 杂交水稻, 2013, 28(3): 12-14. |
Luo Z J, Shen W P, Chen M J, Liang W Q, Lu J Z, Zhang J Z, Liu K, Zhang D B, Yuan Z.Breeding of japonica CMS line Jinhui A with yellowish leaf and fine grain quality in rice[J]. Hybrid Rice, 2013, 28(3): 12-14. (in Chinese with English abstract) | |
[102] | 张红林, 程建峰, 刘跃清, 钟晓英, 张瑞祥, 刘海平. 白化转斑叶籼型水稻不育系高光A的创制及特征特性[J]. 中国水稻科学, 2010, 24(6): 587-594. |
Zhang H L, Cheng J F, Liu Y Q, Zhong X Y, Zhang R X, Liu H P, Zhang P.Creation and characteristics of indica type cytoplasmic male sterile rice line Gaoguang A labeled with albino-to-zebra leaf marker[J]. Chinese Journal of Rice Science, 2010, 24(6): 587-594. (in Chinese with English abstract) |
[1] | LIU Min, WANG Zhong*, GU Yun-Jie. Caryopsis Development and Anthocyanidin Accumulation of Colored Rice [J]. Chinese Journal of Rice Science, 2011, 25(4): 392-398. |
[2] |
DENG Shan#,LI Hua-juan#,FENG Fang-jun,XU Xiao-yan,HUANG Zhi-cheng,LUO Li-jun,MEI Han-wei*.
evelopment and Identification of Mutants Induced by γray Irradiation from an Upland Rice Variety IRAT109 [J]. Chinese Journal of Rice Science, 2010, 24(5): 523-526 . |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||