Acta Agron Sin ›› 2011, Vol. 37 ›› Issue (04): 717-722.doi: 10.3724/SP.J.1006.2011.00717
• RESEARCH NOTES • Previous Articles Next Articles
TIAN Meng-Xiang1,2,CHEN Tao1,ZHANG YA-Dong1,ZHU Zhen1,ZHAO Qing-Yong1,ZHOU Li-Hui1,YAO Shu1,WANG Yan-Ping1,WANG Cai-Lin1,*
[1]Liu Q-Q(刘巧泉), Zhou L-H(周丽慧), Wang H-M(王红梅), Gu M-H(顾铭洪). Advances on biosynthesis of rice seed storage proteins in molecular biology. Mol Plant Breed (分子植物育种), 2008, 6(1): 1–15 (in Chinese with English abstract) [2]Yamagata H, Sugimoto T, Tanaka K, Kasai Z. Biosynthesis of storage proteins in developing rice seeds. Plant Physiol, 1982, 170: 1094–1100 [3]Sarker S C, Ogawa M, Takahashi M, Asada K. Processing of a 57-kD precursor peptide to subunits of rice glutelin. Plant Cell Physiol, 1986, 27: 1579–1586 [4]Kumamaru T, Uemura Y, Inoue Y, Takemoto Y, Siddiqui S U, Ogawa M, Hara-Nishimura I, Satoh H. Vacuolar processing enzyme plays an essential role in the crystalline structure of glutelin in rice seed. Plant Cell Physiol, 2010, 51: 38–46 [5]Kumamaru T, Satoh H, Iwata N, Omura T, Ogawa M, Tanaka K. Mutants for rice storage proteins: 1. Screening of mutants for rice storage proteins of protein bodies in the starchy endosperm. Theor Appl Genet, 1988, 76: 11–16 [6]Zheng T Q, Shen W B, Zhu S S, Zhai H Q, Wan J M. Status and perspectives on the researches of rice glutelin mutants. Agric Sci China, 2003, 2(3): 237–244 [7]Tian H-D(田怀东), Zhang B-X(张变香). Diversity of phenotypes of endosperm storage proteins of rice 57H mutants and their classification. Bull Bot Res (植物研究) 2010, 30(3): 283–288 (in English with Chinese abstract) [8]Kumamaru T, Satoh H, Iwata N, Omura T, Ogawa M. Mutants for rice storage proteins: III. Genetic analysis of mutants for storage proteins of protein bodies in the starchy endosperm. Jpn J Genet, 1987, 62: 333–339 [9]Satoh H, Kumamaru T, Yoshimura S, Ogawa M. New 57 kDa glutelin genes on chromosome 9 in rice. Rice Genet Newslett, 1994, 11: 158–161 [10]Kumamaru T, Uemura Y, Takemoto Y, Ogawa M, Satoh H. High-resolution mapping of glup3 gene accumulating high amount of glutelin precursor. Rice Genet Newslett, 2002, 19: 62–63 [11]Wang Y H, Zhu S S, Liu S J, Jiang L, Chen L M, Ren Y L, Han X H, Liu F, Ji S L, Liu X, Wan J M. The vacuolar processing enzyme OsVPE1 is required for efficient glutelin processing in rice. Plant J, 2009, 58: 606–617 [12]Sato M, Takemoto Y, Kumamaru T, Satoh H. Mapping of glup4 gene for highly accumulating glutelin precursor polypeptides in rice. Rice Genet Newslett, 2003, 20: 42–43 [13]Ueda Y, Satoh H, Satoh M, Takemoto Y, Kumamaru T, Ogawa M. Inheritance mode of Glup5 gene and the genetic relationships with other 57 mutant genes. Rice Genetics Newsletters, 2004, 21: 49–50 [14]Satoh M, Ishihara D, Tian H D, Takemoto Y, Kumamaru, T, Satoh H. Gene mapping and immunocytochemistry of rice glup6 mutant. Rice Genetics Newsletters, 2003, 20: 43–44 [15]Ueda Y, Sugino A, Takemoto Y, Satoh M, Kumamaru T, Ogawa M, Satoh H. A novel 57H mutant gene, glup7, located on chromosome 4. Rice Genet Newslett, 2004, 21: 51–54 [16]Takemoto Y, Coughlan S J, Okita T W, Satoh H, Ogawa M, Kumamaru T. The rice mutant esp-2 greatly accumulates the glutelin Precursor and deletes the protein disulfide isomerase. Plant Physiol, 2002, 4: 1212–1222 [17]Wang Y-P(王艳平), Tian M-X(田孟祥), Tang L-H(汤陵华), Fang X-W(方先文), Wang C-L(王才林). The glutelin content analysis of rice 57H glutelin mutants. Jiangsu Agric Sci (江苏农业科学),2009, (6): 34–36 (in Chinese) [18]Jiang S-M(江绍玫), Zhu S-S(朱速松), Shen W-B(沈文飚), Zheng T-Q(郑天清), Wang Y-H(王益华), Jiang L(江玲), Wang C-M(王春明), Xu L-L(徐朗莱), Wan J-M(万建民). Research on methods for screening rice mutant s of storage proteins. J Nanjing Agric Univ (南京农业大学学报), 2003, 26(4): 17–20 (in Chinese with English abstract) [19]Tian M-X(田孟祥), Chen T(陈涛), Zhang Y-D(张亚东), Zhu Z(朱镇), Zhao L(赵凌), Zhao Q-Y(赵庆勇), Zhou L-H(周丽慧), Wang Y-P(王艳平), Wang C-L(王才林). Design and validation of two indel markers for low glutelin content gene (lgc1) in rice. Mol Plant Breed (分子植物育种), 2010, 8(2): 340–344 (in Chinese with English abstract) [20]Dellaport S L, Wood J, Hicks J B. A plant DNA minipreparation: Plant Mol Biol Rep, 1983, 1: 19–21 [21]Zhao Q-Y(赵庆勇), Zhu Z(朱镇), Zhang Y-D(张亚东), Zhao L(赵凌), Chen T(陈涛), Zhang Q-F(张巧凤), Wang C-L(王才林). Analysis on correlation between heterosis and genetic distance based on simple sequence repeat markers in japonica rice. Chin J Rice Sci (中国水稻科学), 2009, 23(2): 141–147 (in Chinese with English abstract) [22]Temnykh S, Declerck G, Lukashova A, Lipovich L, Cartinhour S, Mccouch S. Computational and experimental analysis of microsatellites in rice (Oryza sativa L.): frequency, length variation, transposon association, and genetic marker potential. Genome Res, 2001, 11: 1441–1452 [23]Satoh H, Kumamaru T, Ogawa M, Shiraishi M, Im B G, Son M Y, Takemoto Y. Spontaneous 57 kDa mutant in rice. Rice Genet Newslett, 1995, 12: 194–196 [24]Satoh H, Li W X, Takemoto Y, Ito T, Kumamaru T, Qu L Q, Ogawa M. glup4 controlling a 57H character was located on chromosome 12 in rice. Rice Genet Newslett, 1999, 16: 98–100 [25]Tian H D, Kumamaru T, Takemoto Y, Ogawa M, Satoh H. Gene analysis of new 57H mutant gene, glup6, in rice. Rice Genet Newsl, 2001, 18: 48–50 [26]Ahmed S U, Bar-Peled M, Raikhel N V. Cloning and subcellular location of an Arabidopsis receptor-like protein that shares common features with protein-sorting receptors of eukaryotic cells. Plant Physiol, 1997, 114: 325–336 [27]Shimada T, Fuji K, Tamura K, Kondo M, Nishimura M, Hara-Nishimura I. Vacuolar sorting receptor for seed storage proteins in Arabidopsis thaliana. Proc Natl Acad Sci USA, 2003, 100: 16095–16100 [28]Kim H, Kang H, Jang M, Chang J H, Miao Y S, Jiang L W, Hwang I. Homomeric interaction of AtVSR1 is essential for its function as a vacuolar sorting receptor. Plant Physiol, 2010, 154: 134–148 [29]Shimada T, Koumoto Y, Li L X, Yamazaki M, Kondo M, Nishimura M, Hara-Nishimura I. AtVPS29, a putative component of a retromer complex, is required for the efficient sorting of seed storage proteins. Plant Cell Physiol, 2006, 47: 1187–1194 [30]Li L X, Shimada T, Takahashi H, Ueda Y, Fukao Y, Kondo M, Nishimura M, Hara-Nishimura I. MAIGO2 is involved in exit of seed storage proteins from the endoplasmic reticulum in Arabidopsis thaliana. Plant Cell, 2006, 18: 3535–3547 [31]Tamura K, Takahashi H, Kunieda T, Fuji K, Shimada T, Hara-Nishimura I. Arabidopsis KAM2/GRV2 is required for proper endosome formation and functions in vacuolar sorting and determination of the embryo growth axis. Plant Cell, 2007, 19: 320–332 [32]Shimada T, Yamada K, Kataoka, M, Nakaune S, Koumoto Y, Kuroyanagi M, Tabata S, Kato T, Shinozaki K, Seki M, Kobayashi M, Kondo M, Nishimura M, Hara-Nishimura I. Vacuolar processing enzymes are essential for proper processing of seed storage proteins in Arabidopsis thaliana. J Biol Chem, 2003, 278: 32292–32299 |
[1] | TIAN Tian, CHEN Li-Juan, HE Hua-Qin. Identification of rice blast resistance candidate genes based on integrating Meta-QTL and RNA-seq analysis [J]. Acta Agronomica Sinica, 2022, 48(6): 1372-1388. |
[2] | ZHENG Chong-Ke, ZHOU Guan-Hua, NIU Shu-Lin, HE Ya-Nan, SUN wei, XIE Xian-Zhi. Phenotypic characterization and gene mapping of an early senescence leaf H5(esl-H5) mutant in rice (Oryza sativa L.) [J]. Acta Agronomica Sinica, 2022, 48(6): 1389-1400. |
[3] | ZHOU Wen-Qi, QIANG Xiao-Xia, WANG Sen, JIANG Jing-Wen, WEI Wan-Rong. Mechanism of drought and salt tolerance of OsLPL2/PIR gene in rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1401-1415. |
[4] | ZHENG Xiao-Long, ZHOU Jing-Qing, BAI Yang, SHAO Ya-Fang, ZHANG Lin-Ping, HU Pei-Song, WEI Xiang-Jin. Difference and molecular mechanism of soluble sugar metabolism and quality of different rice panicle in japonica rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1425-1436. |
[5] | YAN Jia-Qian, GU Yi-Biao, XUE Zhang-Yi, ZHOU Tian-Yang, GE Qian-Qian, ZHANG Hao, LIU Li-Jun, WANG Zhi-Qin, GU Jun-Fei, YANG Jian-Chang, ZHOU Zhen-Ling, XU Da-Yong. Different responses of rice cultivars to salt stress and the underlying mechanisms [J]. Acta Agronomica Sinica, 2022, 48(6): 1463-1475. |
[6] | YANG Jian-Chang, LI Chao-Qing, JIANG Yi. Contents and compositions of amino acids in rice grains and their regulation: a review [J]. Acta Agronomica Sinica, 2022, 48(5): 1037-1050. |
[7] | DENG Zhao, JIANG Nan, FU Chen-Jian, YAN Tian-Zhe, FU Xing-Xue, HU Xiao-Chun, QIN Peng, LIU Shan-Shan, WANG Kai, YANG Yuan-Zhu. Analysis of blast resistance genes in Longliangyou and Jingliangyou hybrid rice varieties [J]. Acta Agronomica Sinica, 2022, 48(5): 1071-1080. |
[8] | YANG De-Wei, WANG Xun, ZHENG Xing-Xing, XIANG Xin-Quan, CUI Hai-Tao, LI Sheng-Ping, TANG Ding-Zhong. Functional studies of rice blast resistance related gene OsSAMS1 [J]. Acta Agronomica Sinica, 2022, 48(5): 1119-1128. |
[9] | ZHU Zheng, WANG Tian-Xing-Zi, CHEN Yue, LIU Yu-Qing, YAN Gao-Wei, XU Shan, MA Jin-Jiao, DOU Shi-Juan, LI Li-Yun, LIU Guo-Zhen. Rice transcription factor WRKY68 plays a positive role in Xa21-mediated resistance to Xanthomonas oryzae pv. oryzae [J]. Acta Agronomica Sinica, 2022, 48(5): 1129-1140. |
[10] | WANG Xiao-Lei, LI Wei-Xing, OU-YANG Lin-Juan, XU Jie, CHEN Xiao-Rong, BIAN Jian-Min, HU Li-Fang, PENG Xiao-Song, HE Xiao-Peng, FU Jun-Ru, ZHOU Da-Hu, HE Hao-Hua, SUN Xiao-Tang, ZHU Chang-Lan. QTL mapping for plant architecture in rice based on chromosome segment substitution lines [J]. Acta Agronomica Sinica, 2022, 48(5): 1141-1151. |
[11] | WANG Ze, ZHOU Qin-Yang, LIU Cong, MU Yue, GUO Wei, DING Yan-Feng, NINOMIYA Seishi. Estimation and evaluation of paddy rice canopy characteristics based on images from UAV and ground camera [J]. Acta Agronomica Sinica, 2022, 48(5): 1248-1261. |
[12] | KE Jian, CHEN Ting-Ting, WU Zhou, ZHU Tie-Zhong, SUN Jie, HE Hai-Bing, YOU Cui-Cui, ZHU De-Quan, WU Li-Quan. Suitable varieties and high-yielding population characteristics of late season rice in the northern margin area of double-cropping rice along the Yangtze River [J]. Acta Agronomica Sinica, 2022, 48(4): 1005-1016. |
[13] | CHEN Yue, SUN Ming-Zhe, JIA Bo-Wei, LENG Yue, SUN Xiao-Li. Research progress regarding the function and mechanism of rice AP2/ERF transcription factor in stress response [J]. Acta Agronomica Sinica, 2022, 48(4): 781-790. |
[14] | LIU Lei, ZHAN Wei-Min, DING Wu-Si, LIU Tong, CUI Lian-Hua, JIANG Liang-Liang, ZHANG Yan-Pei, YANG Jian-Ping. Genetic analysis and molecular characterization of dwarf mutant gad39 in maize [J]. Acta Agronomica Sinica, 2022, 48(4): 886-895. |
[15] | WANG Lyu, CUI Yue-Zhen, WU Yu-Hong, HAO Xing-Shun, ZHANG Chun-Hui, WANG Jun-Yi, LIU Yi-Xin, LI Xiao-Gang, QIN Yu-Hang. Effects of rice stalks mulching combined with green manure (Astragalus smicus L.) incorporated into soil and reducing nitrogen fertilizer rate on rice yield and soil fertility [J]. Acta Agronomica Sinica, 2022, 48(4): 952-961. |
|