水稻体内镉离子代谢机制研究进展
|
摘要
镉离子在水稻体内的代谢是一个涉及到吸收、运输和积累三个基本环节的复杂生物学过程;水稻植株在遭受镉离子侵入后将从细胞学、酶学和基因表达与调控等层面启动一系列应答和阻滞镉积累的相关机制,以试图维持机体正常的生命活动。本综述首先简要概述了水稻响应镉离子胁迫机理机制;在此基础上,较系统地总结了编码自然抗性相关巨噬细胞蛋白、重金属ATP酶、铁转运调控蛋白和金属耐受蛋白等镉离子代谢的有关功能基因及其具体的调控作用;最后,指出了镉代谢研究领域中所存在的问题及其发展方向。本综述将为低镉水稻品种的定向培育提供有益的线索和启示。
The metabolism of cadmium in rice is a complex biological process involving three linked basic steps:absorption, transportation and accumulation. After the cadmium intrusion, rice plants will initiate a series of mechanisms related to the response and accumulation of cadmium, such as cytology, enzymology and gene expression and regulation, in an attempt to maintain normal life activities of the organism. In this paper, we first briefly summarized the mechanism of rice response to cadmium stress. Based on this, we systematically summarized functional genes related to cadmium ion metabolism, such as encoding natural resistance related macrophage proteins, heavy metal ATP enzymes, iron transport regulatory proteins, and metal tolerance proteins,and their specific regulatory roles. Finally, we pointed out the current problems and the development trend in the field of cadmium metabolism. This paper could provide beneficial clues and enlightenment for directional breeding of low cadmium rice varieties.
The metabolism of cadmium in rice is a complex biological process involving three linked basic steps:absorption, transportation and accumulation. After the cadmium intrusion, rice plants will initiate a series of mechanisms related to the response and accumulation of cadmium, such as cytology, enzymology and gene expression and regulation, in an attempt to maintain normal life activities of the organism. In this paper, we first briefly summarized the mechanism of rice response to cadmium stress. Based on this, we systematically summarized functional genes related to cadmium ion metabolism, such as encoding natural resistance related macrophage proteins, heavy metal ATP enzymes, iron transport regulatory proteins, and metal tolerance proteins,and their specific regulatory roles. Finally, we pointed out the current problems and the development trend in the field of cadmium metabolism. This paper could provide beneficial clues and enlightenment for directional breeding of low cadmium rice varieties.
引文
Alassimone J.,Roppolo D.,Geldner N.,and Vermeer J.E.,2011,The endodermis-development and diferentiation of the plant's inner skin,Protoplasma,249(3):433-443
Bughio N.,Yamaguchi H.,Nish izawa N.K.,Nakanishi H.,and Mori S.,2002,Cloning an iron-regulated metal transporter from rice,J.Exp.Bot.,53(374):1677-1682
Chen A.K.,Wang M.Y.,Liu X.H.,and Zeng X.L.,2013,Research progress on the effect of cadmium on rice and its absorption and tolerance mechanisms,Shengtai Kexue(Ecologic Science),32(4):514-522(陈爱葵,王茂意,刘晓海,曾小龙,2013,水稻对重金属镉的吸收及耐性机理研究进展,生态科学,32(4):514-522)
Chen P.,Yu T.Y.,and Chen H.Y.,2002,The effects of Se on main physiological characteristics in leaves of rice seedling under Cd stress,Zhongkai Nongye Jishu Xueyuan Xuebao(Journal of Zhongkai Agrotechnical College),15(1):5-9(陈平,余土元,陈惠阳,2002,硒对镉胁迫下水稻幼苗部分生理特性的影响,仲恺农业技术学院学报,15(1):5-9)
Chen W.R.,Feng Y.,Chao Y.E.,and Chen W.R.,2008,Genomic analysis and expression pattern of Os ZIP1,Os ZIP3,and OsZIP4 in two rice(Oryza sativa L.)genotypes with different zinc efficiency,Russian Journal of Plant Physiology,55(3):400-409
Deng X.X.,Wang H.Z.,Xu X.B.,and Xue D.W.,2009,Research advances of heavy mental cadmium tolerance of rice(Oryza sativa L.),Hangzhou Shifan Daxue Xuebao(Journal of Hangzhou Normal University),8(6):457-462(邓湘雄,王慧中,徐祥彬,薛大伟,2009,水稻镉耐性研究进展,杭州师范大学学报,8(6):457-462)
Fan J.L.,Wei X.Z.,Wan L.C.,Zhang L.Y.,Zhao X.Q.,Liu W.Z.,Hao H.Q.,and Zhang H.Y.,2011,Disarangement of actin filaments and Ca2+gradient by Cd Cl2alters cell wall construction in Arabidopsis thaliana root hairs by inhibiting vesicular trafficking,J.Plant Physiol.,168(11):1157-1167
He J.Y.,Ren Y.F.,Wang Y.Y.,and Li Z.J.,2011,Root morphological and physiological responses of rice seedlings with different tolerance to cadmium stress,Shengtai Xuebao(Acta Ecologica Sinica),31(2):522-528(何俊瑜,任艳芳,王阳阳,李兆君,2011,不同耐性水稻幼苗根系对镉胁迫的形态及生理响应,生态学报,31(2):522-528)
Huang Y.S.,Luo G.H.,and Guan Q.W.,1997,Peroxidation damage of oxygen free radicals induced by cadmium to plant,Zhiwu Xuebao(Acta Botanica Sinica),39(6):522-526(黄玉山,罗广华,关棨文,1997,镉诱导植物的自由基过氧化损伤,植物学报,39(6):522-526)
Ishimaru Y.,Suzuki M.,Kobayashi T.,Takahashi M.,Nakanishi H.,Mori S.,and Nishizawa N.K.,2005,Os ZIP4,a novel zinc-regulated zinc transporter in rice,J.Exp.Bot.,56(422):3207-3214
Ishimaru Y.,Suzuki M.,Tsukamoto T.,Suzuki K.,Nakazono M.,Kobayashi T.,Wada Y.,Watanabe S.,Matsuhashi S.,Takahashi M.,Nakanishi H.,Mori S.,and Nishizawa N.K.,2006,Rice plants take up iron as an Fe3+-phytosiderophore and as Fe2+,The Plant Journal,45(3):335-346
Ishimaru Y.,Bashir K.,Nakanishi H.,and Nishizawa N.K.,2012a,Os NRAMP5,a major player for constitutive iron and manganese uptake in rice,Plant Signaling&Behavior,7(7):763-766
Ishimaru Y.,Takahashi R.,Bashir K.,Shimo H.,Senoura H.,Sugimoto K.,Ono K.,Yano M.,Ishikawa S.,Arao T.,Nakanishi H.,and Nishizawa N.K.,2012b,Characterizing the role of rice NRAMP5 in manganese,iron and cadmium transport,Scientific Reports,2:2-24
Ishikawa S.,Ishimaru Y.,Igura M.,Kuramata M.,Abe T.,Senoura T.,Hase Y.,Arao T.,Nishizawa N.K.,and Nakanishi H.,2012c,Ion-beam irradiation,gene identification,and marker-assisted breeding in the development of low-cadmium rice,Proc.Nat.Acad.Sci.USA,109(47):11-20
Kavitha P.G.,Kuruvilla S.,and Mathew M.K.,2015,Functional characterization of a transition metal ion transporter,Os ZIP6from rice Oryza sativa L.,Plant Physiology and Biochemistry,97(6):165-174
Lan H.X.,Wang Z.F.,Wang Q.H.,Wang M.M.,Bao Y.M.,Huang J.,and Zhang H.S.,2013,Characterization of a vacuolar zinc transporter OZT1 in rice Oryza sativa L.,Molecular Biology Reports,40(2):1201-1210
Lee S.,and An G.,2009,Over-expression of Os IRT1 leads to increased iron and zinc accumulations in rice,Plant,Cell&Environment,32(4):408-416
Lee S.,Kim Y.Y.,Lee Y.,An G.,Sichul L.,Yu Y.K.,Youngsook L.,and Gynheung A.,2007,Rice P1B-type heavy-metal ATPase,Os HMA9,is a metal eflux protein,Plant Physiol.,1453:831-842
Liu M.H.,Chen G.H.,and Wang Y.,2015,Research progress on mechanisms of plant resistance to cadmium,Zuowu Yanjiu(Crop Research),29(1):101-105(刘明浩,陈光辉,王悦,2015,植物耐镉机制研究进展,作物研究,29(1):101-105)
Liu W.J.,Zhang X.K.,Yin J.,Liu Y.S.,and Zhang F.S.,2000,Cadmium bioavailability in rhizosphere of paddy soil,Nongye Huanjing Baohu(Agro-Environmental Protection),19(3):84-187(刘文菊,张西科,尹君,刘玉双,张福锁,2000,镉在水稻根际的生物有效性,农业环境保护,19(3):84-187)
Lin Y.F.,and Aarts M.,2012,The molecular mechanism of zinc and cadmium stress response in plants,Cellular and Molecular Life Sciences,69(19):3187-3206
Miyadate H.,Adachi S.,Hiraizumi A.,Tezuka K.,Nakazawa N.,Kawamoto T.,Katou K.,Kodama I.,Sakurai K.,Takahashi H.,Satoh-Nagasawa N.,Watanabe A.,Fujimura T.,and Akagi H.,2011,Os HMA3,a P1B-type of ATPase affects root-to-shoot cadmium translocation in rice by mediating efflux into vacuoles,New Phytologist,189(1):190-199
Nakanishi H.,Ogawa I.,Ishimaru Y.,Mori S.,and Nishizawa N.K.,2006,Iron deficiency enhances cadmium uptake and translocation mediated by the Fe2+transporters Os IRT1 and Os IRT2 in rice,Soil Science&Plant Nutrition,52(4):464-469
Satoh N.N.,Mori M.,Nakazawa N.,Kawamoto T.,Nagato Y.,Sakurai K.,Takahashi H.,Watanabe A.,and Akagi H.,2012,Mutations in rice(Oryza sativa)heavy metal ATPase2 Os HMA2 restrict the translocation of zinc and cadmium,Plant&Cell Physiology,53(1):213-224
Sasaki A.,Yamaji N.,and Ma J.F.,2014,Overexpression of Os HMA3 enhances Cd tolerance and expression of Zn transporter genes in rice,J.Exp.Bot.,65(20):6013-6021
Seregin I.V.,and Kozhevnikova A.D.,2008,Roles of root and shoot tisues in transport and acumulation of cadmium lead nickel and strontium,Rusian Journal of Plant Physiology,55(1):1-22
Shi M.,Wang F.R.,and Wang P.T.,2016,Research advances in the tolerance mechanism of plant response to heavy metal cadmium stress,Shengming Kexue(Chinese Bulletin of Life Sciences),28(4):504-512(时萌,王芙蓉,王棚涛,2016,植物响应重金属镉胁迫的耐性机理研究进展,生命科学,28(4):504-512)
Shimo H.,Ishimaru Y.,An G.,Yamakawa T.,Nakanishi H.,and Nishizawa N.K.,2011,Low cadmium(LCD),a novel gene related to cadmium tolerance and accumulation in rice,J.Exp.Bot.,62(15):5727-5734
Song W.Y.,Lee H.S.,Jin S.R.,Ko D.,Martinoia E.,Lee Y.,An G.,and Ahn S.N.,2015,Rice PCR1 influences grain weight and Zn accumulation in grains,Plant Cell&Environment,38(11):2327-2339
Takahashi R.,Ishimaru Y.,and Nakanishi H.,2011,Role of the iron transporter Os NRAMP1 in cadmium uptake and acumulation in rice,Plant Signal&Behavior,6(11):1813-1816
Takahashi R.,Ishimaru Y.,Shimo H.,Ogo Y.,Senoura T.,Nishizaw a N.K.,and Nakanishi H.,2012,The Os HMA2transporter is involved in root-to-shoot translocation of Zn and Cd in rice,Plant,Cell&Environment,35(11):1948-1957
Tang D.M.,Wu J.,Tang Y.,Zong G.Y.,and Zeng R.,2008,The research advance in toxic hazard of heavy metal stress on plant and its resistance mechanism,Sichuan Huanjing(Sichuan Environment),27(5):79-83(唐东民,伍钧,唐勇,宗贵仪,曾容,2008,重金属胁迫对植物的毒害及其抗性机理研究进展,四川环境,27(5):79-83)
Tan S.,and Yin L.P.,2017,Research of the iron-regulated transporter 1(IRT1)in the past decades and its latest development,Kexue Tongbao(Science Bulletin),62(5):350-359(谭松,印莉萍,2017,二价铁转运体IRT1的研究历程及最新进展,科学通报,62(5):350-359)
Teng Z.N.,Fang B.H.,Liu Y.,He Y.,Yang J.,He X.E.,and Zhang Y.Z.,2016,Effects of Cd on photosynthesis of different rice varieties,Zhongguo Nongye Qixiang(Chinese Journal of Agrometeorology),37(5):538-544(滕振宁,方宝华,刘洋,何洋,杨坚,何小娥,张玉烛,2016,镉对不同品种水稻光合作用的影响,中国农业气象,37(5):538-544)
Wei Y.Y.,Meng M.,Huang X.F.,Long H.Y.,Ying C.Z.,and Wang W.S.,2016,Tolerance mechanisms of Cu and Cd by Eucalyptus in mine contaminated soil,Jiyinzuxue Yu Yingy ong Shengwuxue(Genomics and Applied Biology),36(1):227-234(韦月越,蒙敏,黄雪芬,龙海洋,应成璋,王维生,2016,桉树对矿区污染土壤中Cu和Cd的耐受机制,基因组学与应用生物学,36(1):227-234)
Yan J.L.,Wang P.T.,Wang P.,Yang M.,Lian X.M.,Tang Z.,Huang C.F.,Salt D.E.,and Zhao F.J.,2016,A loss-of-function allele of Os HMA3 associated with high cadmium accumulation in shoots and grain of Japonica rice cultivars,Plant,Cell&Environment,39(9):1941-1954
Yuan L.Y.,Yang S.G.,Liu B.X.,Zhang M.,and Wu K.Q.,2012,Molecular characterization of a rice metal tolerance protein,Os MTP1,Plant Cell Reports,31(1):67-79
Yang M.,Zhang Y.Y.,Zhang L.J.,Hu J.T.,Zhang X.,Lu K.,Dong H.X.,Wang D.J.,Zhao F.J.,Huang C.F.,and Lian X.M.,2014,Os NRAMP5 contributes to manganese translocation and distribution in rice shoots,J.Exp.Bot.,65(17):4849-4861
Zhang J.H.,and Li M.,1999,Cadmium absorption,distribution and its influencing factors in plants,Guangzhou Huanjing Kexue(Guangzhou Environmental Sciences),14(3):28-32(章金鸿,李玫,1999,植物对金属镉的吸收,分配及其影响因素,广州环境科学,14(3):28-32)
Bughio N.,Yamaguchi H.,Nish izawa N.K.,Nakanishi H.,and Mori S.,2002,Cloning an iron-regulated metal transporter from rice,J.Exp.Bot.,53(374):1677-1682
Chen A.K.,Wang M.Y.,Liu X.H.,and Zeng X.L.,2013,Research progress on the effect of cadmium on rice and its absorption and tolerance mechanisms,Shengtai Kexue(Ecologic Science),32(4):514-522(陈爱葵,王茂意,刘晓海,曾小龙,2013,水稻对重金属镉的吸收及耐性机理研究进展,生态科学,32(4):514-522)
Chen P.,Yu T.Y.,and Chen H.Y.,2002,The effects of Se on main physiological characteristics in leaves of rice seedling under Cd stress,Zhongkai Nongye Jishu Xueyuan Xuebao(Journal of Zhongkai Agrotechnical College),15(1):5-9(陈平,余土元,陈惠阳,2002,硒对镉胁迫下水稻幼苗部分生理特性的影响,仲恺农业技术学院学报,15(1):5-9)
Chen W.R.,Feng Y.,Chao Y.E.,and Chen W.R.,2008,Genomic analysis and expression pattern of Os ZIP1,Os ZIP3,and OsZIP4 in two rice(Oryza sativa L.)genotypes with different zinc efficiency,Russian Journal of Plant Physiology,55(3):400-409
Deng X.X.,Wang H.Z.,Xu X.B.,and Xue D.W.,2009,Research advances of heavy mental cadmium tolerance of rice(Oryza sativa L.),Hangzhou Shifan Daxue Xuebao(Journal of Hangzhou Normal University),8(6):457-462(邓湘雄,王慧中,徐祥彬,薛大伟,2009,水稻镉耐性研究进展,杭州师范大学学报,8(6):457-462)
Fan J.L.,Wei X.Z.,Wan L.C.,Zhang L.Y.,Zhao X.Q.,Liu W.Z.,Hao H.Q.,and Zhang H.Y.,2011,Disarangement of actin filaments and Ca2+gradient by Cd Cl2alters cell wall construction in Arabidopsis thaliana root hairs by inhibiting vesicular trafficking,J.Plant Physiol.,168(11):1157-1167
He J.Y.,Ren Y.F.,Wang Y.Y.,and Li Z.J.,2011,Root morphological and physiological responses of rice seedlings with different tolerance to cadmium stress,Shengtai Xuebao(Acta Ecologica Sinica),31(2):522-528(何俊瑜,任艳芳,王阳阳,李兆君,2011,不同耐性水稻幼苗根系对镉胁迫的形态及生理响应,生态学报,31(2):522-528)
Huang Y.S.,Luo G.H.,and Guan Q.W.,1997,Peroxidation damage of oxygen free radicals induced by cadmium to plant,Zhiwu Xuebao(Acta Botanica Sinica),39(6):522-526(黄玉山,罗广华,关棨文,1997,镉诱导植物的自由基过氧化损伤,植物学报,39(6):522-526)
Ishimaru Y.,Suzuki M.,Kobayashi T.,Takahashi M.,Nakanishi H.,Mori S.,and Nishizawa N.K.,2005,Os ZIP4,a novel zinc-regulated zinc transporter in rice,J.Exp.Bot.,56(422):3207-3214
Ishimaru Y.,Suzuki M.,Tsukamoto T.,Suzuki K.,Nakazono M.,Kobayashi T.,Wada Y.,Watanabe S.,Matsuhashi S.,Takahashi M.,Nakanishi H.,Mori S.,and Nishizawa N.K.,2006,Rice plants take up iron as an Fe3+-phytosiderophore and as Fe2+,The Plant Journal,45(3):335-346
Ishimaru Y.,Bashir K.,Nakanishi H.,and Nishizawa N.K.,2012a,Os NRAMP5,a major player for constitutive iron and manganese uptake in rice,Plant Signaling&Behavior,7(7):763-766
Ishimaru Y.,Takahashi R.,Bashir K.,Shimo H.,Senoura H.,Sugimoto K.,Ono K.,Yano M.,Ishikawa S.,Arao T.,Nakanishi H.,and Nishizawa N.K.,2012b,Characterizing the role of rice NRAMP5 in manganese,iron and cadmium transport,Scientific Reports,2:2-24
Ishikawa S.,Ishimaru Y.,Igura M.,Kuramata M.,Abe T.,Senoura T.,Hase Y.,Arao T.,Nishizawa N.K.,and Nakanishi H.,2012c,Ion-beam irradiation,gene identification,and marker-assisted breeding in the development of low-cadmium rice,Proc.Nat.Acad.Sci.USA,109(47):11-20
Kavitha P.G.,Kuruvilla S.,and Mathew M.K.,2015,Functional characterization of a transition metal ion transporter,Os ZIP6from rice Oryza sativa L.,Plant Physiology and Biochemistry,97(6):165-174
Lan H.X.,Wang Z.F.,Wang Q.H.,Wang M.M.,Bao Y.M.,Huang J.,and Zhang H.S.,2013,Characterization of a vacuolar zinc transporter OZT1 in rice Oryza sativa L.,Molecular Biology Reports,40(2):1201-1210
Lee S.,and An G.,2009,Over-expression of Os IRT1 leads to increased iron and zinc accumulations in rice,Plant,Cell&Environment,32(4):408-416
Lee S.,Kim Y.Y.,Lee Y.,An G.,Sichul L.,Yu Y.K.,Youngsook L.,and Gynheung A.,2007,Rice P1B-type heavy-metal ATPase,Os HMA9,is a metal eflux protein,Plant Physiol.,1453:831-842
Liu M.H.,Chen G.H.,and Wang Y.,2015,Research progress on mechanisms of plant resistance to cadmium,Zuowu Yanjiu(Crop Research),29(1):101-105(刘明浩,陈光辉,王悦,2015,植物耐镉机制研究进展,作物研究,29(1):101-105)
Liu W.J.,Zhang X.K.,Yin J.,Liu Y.S.,and Zhang F.S.,2000,Cadmium bioavailability in rhizosphere of paddy soil,Nongye Huanjing Baohu(Agro-Environmental Protection),19(3):84-187(刘文菊,张西科,尹君,刘玉双,张福锁,2000,镉在水稻根际的生物有效性,农业环境保护,19(3):84-187)
Lin Y.F.,and Aarts M.,2012,The molecular mechanism of zinc and cadmium stress response in plants,Cellular and Molecular Life Sciences,69(19):3187-3206
Miyadate H.,Adachi S.,Hiraizumi A.,Tezuka K.,Nakazawa N.,Kawamoto T.,Katou K.,Kodama I.,Sakurai K.,Takahashi H.,Satoh-Nagasawa N.,Watanabe A.,Fujimura T.,and Akagi H.,2011,Os HMA3,a P1B-type of ATPase affects root-to-shoot cadmium translocation in rice by mediating efflux into vacuoles,New Phytologist,189(1):190-199
Nakanishi H.,Ogawa I.,Ishimaru Y.,Mori S.,and Nishizawa N.K.,2006,Iron deficiency enhances cadmium uptake and translocation mediated by the Fe2+transporters Os IRT1 and Os IRT2 in rice,Soil Science&Plant Nutrition,52(4):464-469
Satoh N.N.,Mori M.,Nakazawa N.,Kawamoto T.,Nagato Y.,Sakurai K.,Takahashi H.,Watanabe A.,and Akagi H.,2012,Mutations in rice(Oryza sativa)heavy metal ATPase2 Os HMA2 restrict the translocation of zinc and cadmium,Plant&Cell Physiology,53(1):213-224
Sasaki A.,Yamaji N.,and Ma J.F.,2014,Overexpression of Os HMA3 enhances Cd tolerance and expression of Zn transporter genes in rice,J.Exp.Bot.,65(20):6013-6021
Seregin I.V.,and Kozhevnikova A.D.,2008,Roles of root and shoot tisues in transport and acumulation of cadmium lead nickel and strontium,Rusian Journal of Plant Physiology,55(1):1-22
Shi M.,Wang F.R.,and Wang P.T.,2016,Research advances in the tolerance mechanism of plant response to heavy metal cadmium stress,Shengming Kexue(Chinese Bulletin of Life Sciences),28(4):504-512(时萌,王芙蓉,王棚涛,2016,植物响应重金属镉胁迫的耐性机理研究进展,生命科学,28(4):504-512)
Shimo H.,Ishimaru Y.,An G.,Yamakawa T.,Nakanishi H.,and Nishizawa N.K.,2011,Low cadmium(LCD),a novel gene related to cadmium tolerance and accumulation in rice,J.Exp.Bot.,62(15):5727-5734
Song W.Y.,Lee H.S.,Jin S.R.,Ko D.,Martinoia E.,Lee Y.,An G.,and Ahn S.N.,2015,Rice PCR1 influences grain weight and Zn accumulation in grains,Plant Cell&Environment,38(11):2327-2339
Takahashi R.,Ishimaru Y.,and Nakanishi H.,2011,Role of the iron transporter Os NRAMP1 in cadmium uptake and acumulation in rice,Plant Signal&Behavior,6(11):1813-1816
Takahashi R.,Ishimaru Y.,Shimo H.,Ogo Y.,Senoura T.,Nishizaw a N.K.,and Nakanishi H.,2012,The Os HMA2transporter is involved in root-to-shoot translocation of Zn and Cd in rice,Plant,Cell&Environment,35(11):1948-1957
Tang D.M.,Wu J.,Tang Y.,Zong G.Y.,and Zeng R.,2008,The research advance in toxic hazard of heavy metal stress on plant and its resistance mechanism,Sichuan Huanjing(Sichuan Environment),27(5):79-83(唐东民,伍钧,唐勇,宗贵仪,曾容,2008,重金属胁迫对植物的毒害及其抗性机理研究进展,四川环境,27(5):79-83)
Tan S.,and Yin L.P.,2017,Research of the iron-regulated transporter 1(IRT1)in the past decades and its latest development,Kexue Tongbao(Science Bulletin),62(5):350-359(谭松,印莉萍,2017,二价铁转运体IRT1的研究历程及最新进展,科学通报,62(5):350-359)
Teng Z.N.,Fang B.H.,Liu Y.,He Y.,Yang J.,He X.E.,and Zhang Y.Z.,2016,Effects of Cd on photosynthesis of different rice varieties,Zhongguo Nongye Qixiang(Chinese Journal of Agrometeorology),37(5):538-544(滕振宁,方宝华,刘洋,何洋,杨坚,何小娥,张玉烛,2016,镉对不同品种水稻光合作用的影响,中国农业气象,37(5):538-544)
Wei Y.Y.,Meng M.,Huang X.F.,Long H.Y.,Ying C.Z.,and Wang W.S.,2016,Tolerance mechanisms of Cu and Cd by Eucalyptus in mine contaminated soil,Jiyinzuxue Yu Yingy ong Shengwuxue(Genomics and Applied Biology),36(1):227-234(韦月越,蒙敏,黄雪芬,龙海洋,应成璋,王维生,2016,桉树对矿区污染土壤中Cu和Cd的耐受机制,基因组学与应用生物学,36(1):227-234)
Yan J.L.,Wang P.T.,Wang P.,Yang M.,Lian X.M.,Tang Z.,Huang C.F.,Salt D.E.,and Zhao F.J.,2016,A loss-of-function allele of Os HMA3 associated with high cadmium accumulation in shoots and grain of Japonica rice cultivars,Plant,Cell&Environment,39(9):1941-1954
Yuan L.Y.,Yang S.G.,Liu B.X.,Zhang M.,and Wu K.Q.,2012,Molecular characterization of a rice metal tolerance protein,Os MTP1,Plant Cell Reports,31(1):67-79
Yang M.,Zhang Y.Y.,Zhang L.J.,Hu J.T.,Zhang X.,Lu K.,Dong H.X.,Wang D.J.,Zhao F.J.,Huang C.F.,and Lian X.M.,2014,Os NRAMP5 contributes to manganese translocation and distribution in rice shoots,J.Exp.Bot.,65(17):4849-4861
Zhang J.H.,and Li M.,1999,Cadmium absorption,distribution and its influencing factors in plants,Guangzhou Huanjing Kexue(Guangzhou Environmental Sciences),14(3):28-32(章金鸿,李玫,1999,植物对金属镉的吸收,分配及其影响因素,广州环境科学,14(3):28-32)