A Novel Rice Gene, NRR Responds to Macronutrient Deficiency and Regulates Root Growth 被引量：4

A Novel Rice Gene, NRR Responds to Macronutrient Deficiency and Regulates Root Growth

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摘要 To better understand the response of rice to nutrient stress, we have taken a systematic approach to identify rice genes that respond to deficiency of macronutrients and affect rice growth. We report here the expression and bio- logical functions of a previously uncharacterized rice gene that we have named NRR （nutrition response and root growth）. NRR is alternatively spliced, producing two 5＇-coterminal transcripts, NRRa and NRRb, encoding two proteins of 308 and 223 aa, respectively. Compared to NRRb, NRRa possesses an additional CCT domain at the C-terminus. Expression of NRR in rice seedling roots was significantly influenced by deficiency of macronutrients. Knock-down of expression of NRRa or NRRb by RNA interference resulted in enhanced rice root growth. By contrast, overexpression of NRRa in rice exhibited significantly retarded root growth. These results revealed that both NRRa and NRRb played negative regulatory roles in rice root growth. Our findings suggest that NRRa and NRRb, acting as the key components, modulate the rice root archi- tecture with the availability of macronutrients. To better understand the response of rice to nutrient stress, we have taken a systematic approach to identify rice genes that respond to deficiency of macronutrients and affect rice growth. We report here the expression and bio- logical functions of a previously uncharacterized rice gene that we have named NRR （nutrition response and root growth）. NRR is alternatively spliced, producing two 5＇-coterminal transcripts, NRRa and NRRb, encoding two proteins of 308 and 223 aa, respectively. Compared to NRRb, NRRa possesses an additional CCT domain at the C-terminus. Expression of NRR in rice seedling roots was significantly influenced by deficiency of macronutrients. Knock-down of expression of NRRa or NRRb by RNA interference resulted in enhanced rice root growth. By contrast, overexpression of NRRa in rice exhibited significantly retarded root growth. These results revealed that both NRRa and NRRb played negative regulatory roles in rice root growth. Our findings suggest that NRRa and NRRb, acting as the key components, modulate the rice root archi- tecture with the availability of macronutrients.

作者 Yu-Man Zhang Yong-Sheng Yan Li-Na Wang Kun Yang Na Xiao Yun-Feng Liu Ya-Ping Fu Zong-Xiu Sun Rong-Xiang Fang Xiao-Ying Chen

机构地区 State Key Laboratory of Plant Genomics National Plant Gene Research Center Graduate School of the Chinese Academy of Sciences Department of Ornamental Horticulture and Landscape Architecture Current address:School of Life Science and Technology State Key Laboratory of Rice Biology

出处《Molecular Plant》 SCIE CAS CSCD 2012年第1期63-72,共10页 分子植物（英文版）

关键词 Nutrient stress alternative splicing root growth rice. Nutrient stress alternative splicing root growth rice.

分类号 S511 [农业科学—作物学] TS201.4 [轻工技术与工程—食品科学]

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参考文献7

1Ballachanda N. Devaiah Ramaiah Madhuvanthi Athikkattuvalasu S. Karthikeyan Kashchandra G. Raghothama.Phosphate Starvation Responses and Gibberellic Acid Biosynthesis Are Regulated by the MYB62 Transcription Factor in Arabidopsis[J].Molecular Plant,2009,2(1):43-58. 被引量：69
2朱丽,傅亚萍,刘文真,胡国成,斯华敏,唐克轩,孙宗修.利用共转化和花药培养技术快速获得无选择标记的三价转基因水稻[J].中国水稻科学,2007,21(5):475-481. 被引量：13
3Yong-Sheng Yan,Xiao-Ying Chen,Kun Yang,Zong-Xiu Sun,Ya-Ping Fu,Yu-Man Zhang,Rong-Xiang Fang.Overexpression of an F-box Protein Gene Reduces Abiotic Stress Tolerance and Promotes Root Growth in Rice[J].Molecular Plant,2011,4(1):190-197. 被引量：16
4Zefeng Yang,Qingsong Gao,Changsen Sun,Wenjuan Li,Shiliang Gu,Chenwu Xu.Molecular evolution and functional divergence of HAK potassium transporter gene family in rice(Oryza sativa L.)[J].Journal of Genetics and Genomics,2009,36(3):161-172. 被引量：25
5Min Jung Kim,Silvano Ciani,Daniel P. Schachtman.A Peroxidase Contributes to ROS Production during Arabidopsis Root Response to Potassium Deficiency[J].Molecular Plant,2010,3(2):420-427. 被引量：34
6Li, KP Xu, CZ Zhang, KW Yang, AF Zhang, JR.Proteomic analysis of roots growth and metabolic changes under phosphorus deficit in maize （Zea mays L.） plants[J].中国生物学文摘,2007,21(11):24-24. 被引量：16
7Steffen Rietz,Georgi Dermendjiev,Esther Oppermann,Fikadu Getah Tafesse,Yunus Effendi,Andre Holk,Jane E. Parker,Markus Teige,Gunther F.E. Scherer.Roles of Arabidopsis Patatin-Related Phospholipases A in Root Development Are Related to Auxin Responses and Phosphate Deficiency[J].Molecular Plant,2010,3(3):524-538. 被引量：7

二级参考文献62

1Ming-XiaCAO,Jian-QiuHUANG,Zhi-MingWEI,Quan-HongYAO,Chang-ZhaoWAN,Jia-AnLU.Agrobacterium-Mediated Multiple Gene Transformation in Rice Using a Single Vector[J].Journal of Integrative Plant Biology,2005,47(2):233-242. 被引量：7
2于恒秀,刘巧泉,王玲,赵志鹏,徐丽,黄奔立,龚志云,汤述翥,顾铭洪.无抗性选择标记转AP1基因抗病水稻新品系的选育[J].中国农业科学,2005,38(12):2373-2379. 被引量：9
3唐俐,刘巧泉,邓晓湘,武小金,辛世文.无抗性选择标记的转高赖氨酸蛋白(LRP)基因籼稻恢复系的获得[J].作物学报,2006,32(8):1248-1251. 被引量：19
4张秀春,彭明,吴坤鑫,郭丽琼,林俊扬,林俊芳.利用双T-DNA载体系统培育无选择标记转基因大豆[J].大豆科学,2006,25(4):369-372. 被引量：11
5Ahn, S.J., Shin, R., and Schachtman, D.P. (2004). Expression of KT/KUP genes in Arabidopsis and the role of root hairs in K^+ uptake. Plant Physiol. 134:1135-1145.
6Amrutha, R.N., Sekhar, P.N., Varshney, R.K., and Kishor, P.B.K. (2007). Genome-wide analysis and identification of genes related to potassium transporter families in rice (Oryza sativa L.). Plant Sci. 172: 708-721.
7Ashley, M.K., Grant, M., and Grabov, A. (2006). Plant responses to potassium deficiencies: A role for potassium transport proteins. J. Exp. Bot. 57: 425-436.
8Bai, J., Pennill, L.A., Ning, J., Lee, S.W., Ramalingam, J., Webb, C.A., Zhao, B., Sun, Q., Nelson, J.C., Leach, J.E., and Hulbert, S.H. (2002). Diversity in nucleotide binding site-leucine-rich repeat genes in cereals. Genome Res. 12: 1871-1884.
9Banuelos, M.A., Garciadeblas, B., Cubero, B., and Rodriguez-Navarro, A. (2002). Inventory and functional characterization of the HAK potassium transporters of rice. Plant Physiol. 130: 784-795.
10Chenna, R., Sugawara, H., Koike, T., Lopez, R., Gibson, T.J., Higgins, D.G., and Thompson, J.D. (2003). Multiple sequence alignment with the Clustal series of programs. Nucleic Acids Res. 31: 3497-3500.

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1柴薇薇,王文颖,崔彦农,王锁民.植物钾转运蛋白KUP/HAK/KT家族研究进展[J].植物生理学报,2019,55(12):1747-1761. 被引量：12
2付亚萍,刘文真,胡国成,斯华敏,孙宗修.关于转基因技术应用于水稻育种研究的思考[J].中国农业科学,2007,40(12):2659-2666. 被引量：9
3赵黎明,陈春丽.水稻2个F-box基因及其启动子的表达特性分析[J].湖北农业科学,2013,52(1):203-207. 被引量：1
4GAO Xue1,ZHANG XueLi1,ZHENG JunJie1 & HE FuChu1,2 1 State Key Laboratory of Proteomics,Beijing Proteome Research Center,Beijing Institute of Radiation Medicine,Beijing 102206,China,2 Institutes of Biomedical Sciences,Fudan University,Shanghai 200032,China.Proteomics in China:Ready for prime time[J].Science China(Life Sciences),2010,53(1):22-33. 被引量：10
5张可炜,李坤朋,刘存辉,刘志刚,王贤丽,张举仁.来自细胞工程技术的不同低磷耐受性玉米自交系磷营养特性分析[J].应用与环境生物学报,2008,14(2):158-162. 被引量：1
6吴超,傅亚萍,朱丽,胡国成,斯华敏,孙宗修.转高赖氨酸蛋白基因脆茎水稻的收获指数及秸秆赖氨酸含量的研究[J].浙江农业学报,2008,20(4):225-230. 被引量：7
7魏进民,李标,王伯初,唐坤,梁亦龙,舒坤贤.声波刺激对铁皮石斛过氧化物酶同工酶基因表达的影响[J].应用声学,2008,27(6):462-468. 被引量：12
8汪秀志,张红宇,汪旭东,吴先军.农杆菌介导的水稻双基因共转化初步研究[J].核农学报,2009,23(1):28-32. 被引量：3
9杨泽峰,张丹,敖雁.植物蔗糖转运基因家族功能分化的生物信息学分析[J].安徽农业科学,2009,37(29):14061-14065.
10王益军,吕燕萍,谢秦,邓德祥,卞云龙.高粱全基因组生长素原初响应基因Aux/IAA的序列特征分析[J].作物学报,2010,36(4):688-694. 被引量：20

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1陈群,曾因明.Anisodamine protects against neuronal death following cerebral ischemia in gerbils[J].Chinese Medical Journal,2000(7):60-63. 被引量：11
2Dong-Lei Yang,Qun Li,Yi-Wen Deng,Yong-Gen Lou,Mu-Yang Wang,Guo-Xing Zhou,Ying-Ying Zhang,Zu-Hua He.Altered Disease Development in the eui Mutants and Eui Overexpressors Indicates that Gibberellins Negatively Regulate Rice Basal Disease Resistance[J].Molecular Plant,2008,1(3):528-537. 被引量：30
3王伶俐,詹丽英,吴晓静,夏中元.Effects of penehyclidine hydrochloride on apoptosis of lung tissues in rats with traumatic acute lung injury[J].Chinese Journal of Traumatology,2010,13(1):15-19. 被引量：19
4何双双,林春水,古妙宁,陈冬婷,宗士兰,陈莺.盐酸戊乙奎醚对失血性休克-内毒素二次打击大鼠肾损伤的保护作用[J].南方医科大学学报,2011,31(5):899-902. 被引量：7
5Fengying An,Xing Zhang,Ziqiang Zhu,Yusi Ji,Wenrong He,Zhiqiang Jiang,Mingzhe Li,Hongwei Guo.Coordinated regulation of apical hook development by gibberellins and ethylene in etiolated Arabidopsis seedlings[J].Cell Research,2012,22(5):915-927. 被引量：38
6陈佑源,楼兵干,高其康,林福呈.印度梨形孢诱导油菜抗旱性机理的初步研究[J].农业生物技术学报,2013,21(3):272-281. 被引量：29
7Yuman Zhang,Ge Zhang,Na Xiao,Lina Wang,Yaping Fu,Zongxiu Sun,Rongxiang Fang,Xiaoying Chen.The Rice＇NUTRITION RESPONSE AND ROOT GROWTH＇（NRR） Gene Regulates Heading Date[J].Molecular Plant,2013,6(2):585-588. 被引量：6
8洪法水,魏正贵,赵贵文.菠菜叶绿素的浸提和协同萃取反应[J].应用化学,2001,18(7):532-535. 被引量：32
9Jean-Michel Daviere,Patrick Achard.A Pivotal Role of DELLAs in Regulating Multiple Hormone Signals[J].Molecular Plant,2016,9(1):10-20. 被引量：49
10Hao Liu,Yuduan Ding,Yanqing Zhou,Wenqi Jin,Kabin Xie,Ling-Ling Chen.3RISPR-P 2.0： An Improved CRISPR-Cas9 Too For Genome Editing in Plants[J].Molecular Plant,2017,10(3):530-532. 被引量：65

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1黄德社.如何治疗庄稼的缺硼症[J].农业科技与信息,1989(11):9-9.
2吕飞,江新社.关于微量元素肥料在农业生产中的应用[J].南阳农业科技,1998(6):8-8.
3邹汉玄,杨先跃,曹斌,孙定国,陈桂合.石灰性紫色土壤柑桔缺铁症及其防治[J].湖南农业科学,1992(3):33-35.
4乔荣林.硼肥的合理施用方法[J].吉林农业,2005(2):27-27. 被引量：2
5任军.怎样防治农作物微量元素缺乏症[J].农村未来,1991(11):32-32.
6熊道源,肖修林.柑桔微量元素缺乏症及其防治[J].四川农业科技,1993(3):29-29.
7戚克耀,姜东峰,刘继春.大豆微量元素缺乏症的主要症状与预防[J].大豆通报,2000(2):16-16. 被引量：1
8王智广,刘金环,常金梅.棉花施微肥低本高效益[J].北京农业,2004(4):34-34.
9董蕴芝,刘春红,王亚平.棚室蔬菜营养素缺乏的症状及其改善[J].现代化农业,2007(3):19-19.
10孙丽敏.邢台市常见棚菜营养素缺乏症及其补救措施[J].河北农业,2011(12):37-37.

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