Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/89528
標題: 氯化鈷促進水稻幼苗冠根發育機制之探討
Studies on the mechanism of cobalt chloride media crown root development in rice seedlings
作者: Pei-Yu Yu
游蓓渝
關鍵字: cobalt;nitric oxide;heme oxygenase;crown root;rice;氯化鈷;一氧化氮;血紅素氧化?;冠根;水稻
引用: 53 陸、參考文獻 蔡政杰。2012。氯化鈉對水稻幼苗根生長與發育之影響。國立中興大學農 藝學系碩士論文。 葉佳佳。2012。一氧化氮對水稻幼苗根鎘逆境之影響。國立中興大學農藝 學系碩士論文。 許雲雁。2012。水稻側根形成之研究:甲基茉莉酸鹽與氯化鈷之效應。國 立台灣大學農藝學系碩士論文。 Anber M (1995) Nitric oxide: a synchronizing chemical message. Cell Mol Life Sci 51: 545-550. Balestrasse KB, Noriega GO, Batlle A, Tomaro ML (2006) Heme oxygenase activity and oxidative stress signaling in soybean leaves. Plant Sci 170: 339-346. Beligni MV, Lamattina L (1999) Nitric oxide counteracts cytotoxic processes mediated by reactive oxygen species in plant tissues. Planta 208: 337-344. Beligni MV, Lamattina L (2001) Nitric oxide in plants: the history is just beginning . Plant Cell Environ 24: 267-278. Bethke PC, Badger MR, Jones RL (2004) Apoplastic synthesis of nitric oxide by plant tissues. Plant Cell 16: 332-341. Cao Z, Xuan W, Liu Z, Li X, Zhao N, Xu P, Wang Z, Guan R, Shen W (2007) Carbon monoxide promotes lateral root formation in rapeseed. J Integr Plant Biol 49:1070–1079. Cavusoglu K, Yalcin E (2010) Detection of lipid peroxidation and cytotoxicity induced by aluminium (Al) and cobalt (Co) ions in barbunia root tip cells. J Environ Biol 31: 661-666. Chen XY, Ding X, Xu S, Wang R, Xuan W, Cao ZY, Chen J, Wu HH, Ye MB, Shen WB (2009) Endogenous hydrogen peroxide plays a positive role in the upregulation of heme oxygenase and acclimation to oxidative stress in wheat seedling leaves. J Integr Plant Biol 51: 951–960. Chen YH, Chao YY, Hsu YY, Hong CY, Kao CH (2012) Heme oxygenase is involved in nitric oxide- and auxin-induced lateral root formation in rice. 54 Plant Cell Rep 31: 1085–1091. Crawford NM, Galli M, Tischnr R, Heimer YM, Okamoto M, Mack A (2006) Response to Zemojtel et al: Plant nitric oxide synthase: back to square one. Trends Plant Sci 11: 525-527. Correa-Aragunde N, Graziano M, Lamattina L (2004) Nitric oxide plays a central role in determining lateral root development in tomato. Planta 218: 900-905. Collins RN, Bakkaus E, Carri?re M, Khodja H, Proux O, Morel JL, Gouget B (2010) Uptake, localization, and speciation of cobalt in Triticum aestivum L.(wheat) and Lycopersicon esculentum M. (tomato). Environ Sci Technol 44: 2904-2910. Delledonne M (2005) NO news is good news for plants. Curr Opin Plant Bio 8: 390-396. Dean JV, Harper JE (1986) Nitric Oxide and Nitrous oxide production by soybean and winged bean during the in Vivo nitrate reductase assay. Plant Physiol 82: 718-723. Dubrovsky JG, Rost TL, Col?n-Carmona A, Doerner P (2001) Early primordium morphogenesis during lateral root initiation in Arabidopsis thaliana. Planta 214: 30-36. Dulak J, J?zkowicz A (2003) Carbon monoxide - a 'new' gaseous modulator of gene Expression. Acta Biochim Pol 50: 31-47. Emborg TJ, Walker JM, Noh B, Vierstra RD (2006) Multiple Heme Oxygenase Family Members Contribute to the Biosynthesis of the Phytochrome Chromophore in Arabidopsis. Plant physiol 140: 856-868. Elbaz A, Wei YY, Meng Q, Zheng Q, Yang ZM (2010) Mercury-induced oxidative stress and impact on antioxidant enzymes in Chlamydomonas reinhardtii. Ecotoxicology 19: 1285-1293. Ferrer MA, Ros-Barcelo A (1999) Differential effects of nitric oxide on peroxidase and H 2 O 2 production by the xylem of Zinnia elegans. Plant Cell Environ 22: 891–897. Galvan-Ampudia CS, Testerink C (2011) Salt stress signals shape the plant root. Plant Biol 14:296-302. 55 Gisk B, Yasui Y, Kohchi T, Frankenberg-Dinkel N (2010) Characterization of the haem oxygenase protein family in Arabidopsis thaliana reveals a diversity of functions. Biochem J 425: 425-434. Gow AJ, Ischiropoulos H (2001) Nitric oxide chemistry and cellular signaling. J Cell Physiol 187: 277–282. Graziano M, Beligni MV, Lamattina L (2002) Nitric oxide improves internal iron availability in plants. Plant Physiol 130: 1852-1859. Guo FQ, Olamoto M, Crawford NM (2003) Identification of a plant nitric oxide synthase gene involved in hormonal signaling. Sci 302: 100-103. He H, He L (2014) Heme oxygenase1 and abiotic stresses in plants. Acta Physiol Plant 36: 581–588. Herder GD, Isterdael GV, Beckman T, Smet ID (2010) The roots of a new green revolution. Trends Plant Sci 5: 600-7. Hsu YY, Chao YY, Kao CH (2013) Cobalt chloride-induced lateral root formation in rice: The role of heme oxygenase. Plant physiol 170: 1075-1081. Inukai Y, Sakamoto T, Ueguchi-Tanaka M, Shibata Y, Gomi K, Umemura I, Hasegawa Y, Ashikari M, Kitana H, Matsuoka M (2005) Crown rootless, which is essential for crown root formation in rice, is a target of an AUXIN RESPONSE FACTOR in auxin signaling. Plant Cell 17: 1387-1396. Jasid S, Simontacchi M, Bartoli CG, Puntarulo S (2006) Chloroplasts as a nitric oxide cellular source. Effect of Reactive Nitrogen Species on Chloroplastic Lipids and Proteins. Plant Physiol 142: 1246–1255. Krishnamurthy P, Ranathunge K, Nayak S, Schreiber L, Mathew MK (2011) Root apoplastic barriers block Na + transport to shoots in rice (Oryza sativa L.) J Exp Bot 62: 4215-4228 Lazalt AM, Beligni MV, Lamattina L (1997) Nitric oxide preserves the level of chlorophyll in potato leaves in fected by phytophtora infestans. Eur J Plant Pathol 103: 643-651. Lamotte O, Courtois C, Barnavon L, Pugin A, Wendeheme D (2005) Nitric 56 oxide in plants: the biosynthesis and cell signaling properties of a fascinating molecule. Planta 221: 1–4. Liu J, Reid RJ, Smith FA (2000) The mechanism of cobalt toxicity in mung beans. Physiol Plant 110: 104-110. Liu Y , Xu S, Ling T, Xu L, Shen W (2010) Heme oxygenase/carbon monoxide system participates in regulating wheat seed germination under osmotic stress involving the nitric oxide pathway. J Plant Physiol 167: 1371-1379. Ling T, Zhang B, Cui W, Wu M, Lin J, Zhou W, Huang J, Shen WB (2009) Carbon monoxide mitigates salt-induced inhibition of root growth and suppresses programmed cell death in wheat primary roots by inhibiting superoxide anion overproduction. Plant Sci 177: 331–340. L?pez-Bucio J, Cruz-Ramiroz A, Herresra-Estrella L (2003) The role of nutrient availability in regulating root architecture. Curr Opin Plant Bio 5: 280-7. Marschner H (1995) Mineral nutrition of higher plants, 2nd edn. London: Academic Press. Plant Cell Environ 11: 147-148. Maines MD (1997) The heme oxygenase system: a regulator of second messenger gases. Annu Rev Pharmacol Toxicol 37: 517–554. Maksymiec W (2007) Signaling responses in plants to heavy metal stress. Acta Physiol Plant 29: 177-187. Meng DK, Chen J, Yang ZM (2011) Enhancement of tolerance of Indian mustard (Brassica juncea) to mercury by carbon monoxide. J Hazard Mater 186: 1823-1829. Moreno-Caselles J, P?rez-Espinosa A, P?rez-Murcia MD, Moral R, G?mez I (1997a) Effect of increased cobalt treatments on cobalt concentration and growth of tomato plants. J Plant Nutr 20: 8050-811. Moreno-Caselles J, P?rez-Espinosa A, P?rez-Murcia MD, Moral R, G?mez I (1997b) . Cobalt-induced stress in tomato plants: effect on yield, chlorophyll content, and nutrient evolution. J Plant Nutr 20: 1231–1237. Morrissey J, Baxter IR, Lee J, Li L, Lahner B, Grotz N, Kaplan J, Salt DE Guerinot ML (2009) The ferroportin metal ef?ux proteins function in 57 iron and cobalt homeostasis in Arabidopsis. Plant Cell 21: 3326-3338. Neill SJ, Desikan R, Hancock JT (2003) Nitric oxide signalling in plants. New Phytol 159: 11-35. Neill S, Bright J, Desikan R, Hancock J, Harrison J, Wilson I (2008) Nitric oxide evolution and perception. Journal of Experimental Botany 59: 25-35. Negi S, Ivanchenko MG, Muday GK (2008) Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana. Plant J 55: 175-187. Noriega GO, Balestrasse KB, Batlle AMC, Tomaro M.L (2004) Heme oxygenase exerts a protective role against oxidative stress in soybean leaves. Biochem Biophys Res Commun 323: 1003–1008. Noriega GO, Yannarelli GG, Balestrasse KB, Batlle A, Tomaro ML (2007) The effect of nitric oxide on heme oxygenase gene expression in soybean leaves. Planta 226: 1155-1163. Pagnussat GC, Simontacchi M, Puntarulo S, Lamattina L (2002) Nitric Oxide Is Required for Root Organogenesis. Plant Physiol 129: 954-956. Potters G, Pasternak TP, Guisez Y, Jansen M (2007) Stress-induced morphogenic response: integrating a plethora of pathways. Plant Cell Environ 32: 158-169. Rounds MA, Larsen PB (2008) Aluminum-dependent root growth inhibition in Arabidopsis results from AtATR-regulated cell-cycle arrest. Curr Biol 18: 1495 -1500. Ru?z-Herrera LF, L?pez-Bucio J (2013) Aluminum induces low phosphate adaptive responses and modulates primary and lateral root growth by differentially affecting auxin signaling in Arabidopsis seedlings. Plant Soil 371: 593-609. Schaaf G, Honsbein A, Meda AR, Kirchner S, Wipf D, Wir?n NV (2006) AtIREG2 encodes a tonoplast transport protein involved in iron-dependent nickel detoxification in Arabidopsis thaliana roots. J Biol Chem 281: 25532-25540. Shen Q, Jiang M, Li H, Che LL, and Yang ZM (2011) Expression of a 58 Brassica napus heme oxygenase confers plant tolerance to mercury toxicity. Plant Cell Environ 34: 752-763. Symeonidis L, Abou-Auda MM, Yupsanis T (2004) Aluminium toxicity effects on Cucumis melo and response of diphosphonucleoside kinases. Biol Bra 59: 133-139. Wang Y, Li K, Li X (2009) Auxin redistribution modulates plastic development of root system architecture under salt stress in Arabidopsis thaliana. J Plant Physiol 166: 1637-1645. Wendehenne D, Pugin A, Klessig DF, Durner J (2001) Nitric oxide: comparative synthesis and signaling in animal and plant cells. Trends Plant Sci 6: 177-183. Xuan W, Zhu FY, Xu S, Huang BK, Ling TF, Qi JY, Ye MB, Shen WB (2008) The heme oxygenase/carbon monoxide system is involved in the auxin-induced cucumber adventitious rooting process. Plant Physiol 148: 881–893. Xie YJ, Ling TF, Han Y, Liu KL, Zheng QS, Huang LQ, Yuan XX, He Z, Hu B, Fang L, Shen ZG, Yang Q, Shen WB (2008) Carbon monoxide enhances salt tolerance by nitric oxide-mediated maintenance of ion homeostasis and up-regulation of antioxidant defense in wheat seedling root. Plant Cell Environ 31: 1864–1881. Xiong J, Lu H, Lu K, Duan Y, An L, Zhu C (2009) Cadmium decreases crown root number by decreasing endogenous nitric oxide, which is indispensable for crown root primordia initiation in rice seedlings. Planta 230: 599–610. Xu S, Zhang B, Cao ZY, Ling TF, Shen WB (2011) Heme oxygenase is involved in cobalt chloride-induced lateral root development in tomato. Biometals 24: 181-191. Yamasaki H (2000) Nitrite-dependent nitric oxide production pathway: implications for involvement of active nitrogen species in photoinhibition in vivo. Philos Trans R Soc Lond B Biol Sci 355: 1477-1488. Yu CZ, Benkai H, Ya WQ, Wei X, Fang LT, Bo Z, Xi C, Li N, Shen WB 59 (2007) Involvement of carbon monoxide produced by heme oxygenase in ABA induced stomatal closure in Vicia faba and its proposed signal transduction pathway. Chin Sci Bull 52: 2365–2373. Zeller S, Feller U (1998) Redistribution of cobalt and nickel in detached wheat shoots: effects of steam-girdling and of cobalt and nickel supply. Biol Plant 41: 427-434. Zengin FK (2006) The effects of Co 2+ and Zn 2+ on the contents of protein, abscisic acid, proline and chlorophyll in bean (Phaseolus vulgaris cv. Strike) seedlings. Environ Bio 17: 97-106. Zhou SZ, Huang SQ, Guo K, Mehta SK, Zhang PC, Yang ZM (2006) Metabolic adaptations to mercury-induced oxidative stress in roots of Medicago sativa L. J Inorg Biochem 101: 1-9. Zolla, G, Heimer YM, Barak S (2010) Mild salinity stimulates a stress-induced morphogenic response in Arabidopsis thaliana roots. J Exp Bot 6: 211-224.
摘要: 
本論文係利用台中在來一號(Oryza sativa L. cv. Taichung Native 1,
TN1)為材料,探討氯化鈷(CoCl 2 )對水稻冠根形成之影響,同時探討一
氧化氮(NO)、血紅素氧化?(HO)於其中所扮演的角色。CoCl 2 處理可增
加水稻冠根數目,在不同時間處理下皆有促進冠根數目的趨勢,進一步
用石蠟切片技術發現冠根原基發育與上述的結果並沒有明顯的關係,顯
示 CoCl 2 並不是藉由影響冠根原基的發育而促使水稻冠根數目的增加。
而處理 CoCl 2 後發現其 NO 的螢光探針(4-amino-5-methylamino-2',
7'-difluorofluorescein diacetate, DAF-FM DA)顯影程度和處理一氧化氮
釋放劑sodium nitroprusside (SNP)時相類似,表示CoCl 2 可提升NO含量。
以 SNP 處理後結果發現 HO 的活性亦有上升的情形,且同時都具有促
進冠根生長的效果,推測 CoCl 2 會藉由影響 NO 及 HO 來影響冠根的發
育。當處理一氧化氮清除劑 2-(4-Carboxyphenyl)-4,4,5,5-tetramethylimida
-zoline-1-oxyl-3-oxide potassium salt (cPTIO)和 HO 抑制劑 Zinc protopor
-phyrin IX (ZnPPIX)則會抑制 CoCl 2 促進冠根形成的狀況,並且降低根
部 HO 活性,顯示在 CoCl 2 處理下,會藉由提升 NO 含量及 HO 活性促
進冠根生長的情形。

蔡政杰。2012。氯化鈉對水稻幼苗根生長與發育之影響。國立中興大學農藝學系碩士論文。
葉佳佳。2012。一氧化氮對水稻幼苗根鎘逆境之影響。國立中興大學農藝學系碩士論文。
許雲雁。2012。水稻側根形成之研究:甲基茉莉酸鹽與氯化鈷之效應。國立台灣大學農藝學系碩士論文。
Anber M (1995) Nitric oxide: a synchronizing chemical message. Cell Mol Life Sci 51: 545-550.
Balestrasse KB, Noriega GO, Batlle A, Tomaro ML (2006) Heme oxygenase activity and oxidative stress signaling in soybean leaves. Plant Sci 170: 339-346.
Beligni MV, Lamattina L (1999) Nitric oxide counteracts cytotoxic processes mediated by reactive oxygen species in plant tissues. Planta 208: 337-344.
Beligni MV, Lamattina L (2001) Nitric oxide in plants: the history is just beginning . Plant Cell Environ 24: 267-278.
Bethke PC, Badger MR, Jones RL (2004) Apoplastic synthesis of nitric oxide by plant tissues. Plant Cell 16: 332-341.
Cao Z, Xuan W, Liu Z, Li X, Zhao N, Xu P, Wang Z, Guan R, Shen W (2007) Carbon monoxide promotes lateral root formation in rapeseed. J Integr Plant Biol 49:1070–1079.
Cavusoglu K, Yalcin E (2010) Detection of lipid peroxidation and cytotoxicity induced by aluminium (Al) and cobalt (Co) ions in barbunia root tip cells. J Environ Biol 31: 661-666.
Chen XY, Ding X, Xu S, Wang R, Xuan W, Cao ZY, Chen J, Wu HH, Ye MB, Shen WB (2009) Endogenous hydrogen peroxide plays a positive role in the upregulation of heme oxygenase and acclimation to oxidative stress in wheat seedling leaves. Integr Plant Biol 51: 951–960.
Chen YH, Chao YY, Hsu YY, Hong CY, Kao CH (2012) Heme oxygenase is involved in nitric oxide- and auxin-induced lateral root formation in rice. Plant Cell Rep 31: 1085–1091.
Crawford NM, Galli M, Tischnr R, Heimer YM, Okamoto M, Mack A (2006) Response to Zemojtel et al: Plant nitric oxide synthase: back to square one. Trends Plant Sci 11: 525-527.
Correa-Aragunde N, Graziano M, Lamattina L (2004) Nitric oxide plays a central role in determining lateral root development in tomato. Planta 218: 900-905.
Collins RN, Bakkaus E, Carri?re M, Khodja H, Proux O, Morel JL, Gouget B (2010) Uptake, localization, and speciation of cobalt in Triticum aestivum L.(wheat) and Lycopersicon esculentum M. (tomato). Environ Sci Technol 44: 2904-2910.
Delledonne M (2005) NO news is good news for plants. Curr Opin Plant Bio 8: 390-396.
Dean JV, Harper JE (1986) Nitric Oxide and Nitrous oxide production by soybean and winged bean during the in Vivo nitrate reductase assay. Plant Physiol 82: 718-723.
Dubrovsky JG, Rost TL, Col?n-Carmona A, Doerner P (2001) Early primordium morphogenesis during lateral root initiation in Arabidopsis thaliana. Planta 214: 30-36.
Dulak J, J?zkowicz A (2003) Carbon monoxide - a 'new' gaseous modulator of gene Expression. Acta Biochim Pol 50: 31-47.
Emborg TJ, Walker JM, Noh B, Vierstra RD (2006) Multiple Heme Oxygenase Family Members Contribute to the Biosynthesis of the Phytochrome Chromophore in Arabidopsis. Plant physiol 140: 856-868.
Elbaz A, Wei YY, Meng Q, Zheng Q, Yang ZM (2010) Mercury-induced oxidative stress and impact on antioxidant enzymes in Chlamydomonas reinhardtii. Ecotoxicology 19: 1285-1293.
Ferrer MA, Ros-Barcelo A (1999) Differential effects of nitric oxide on peroxidase and H 2 O 2 production by the xylem of Zinnia elegans. Plant Cell Environ 22: 891–897.
Galvan-Ampudia CS, Testerink C (2011) Salt stress signals shape the plant root. Plant Biol 14:296-302.
Gisk B, Yasui Y, Kohchi T, Frankenberg-Dinkel N (2010) Characterization of the haem oxygenase protein family in Arabidopsis thaliana reveals a diversity of functions. Biochem J 425: 425-434.
Gow AJ, Ischiropoulos H (2001) Nitric oxide chemistry and cellular signaling. J Cell Physiol 187: 277–282.
Graziano M, Beligni MV, Lamattina L (2002) Nitric oxide improves internal iron availability in plants. Plant Physiol 130: 1852-1859.
Guo FQ, Olamoto M, Crawford NM (2003) Identification of a plant nitric oxide synthase gene involved in hormonal signaling. Sci 302: 100-103.
He H, He L (2014) Heme oxygenase1 and abiotic stresses in plants. Acta Physiol Plant 36: 581–588.
Herder GD, Isterdael GV, Beckman T, Smet ID (2010) The roots of a new green revolution. Trends Plant Sci 5: 600-7.
Hsu YY, Chao YY, Kao CH (2013) Cobalt chloride-induced lateral root formation in rice: The role of heme oxygenase. Plant physiol 170: 1075-1081.
Inukai Y, Sakamoto T, Ueguchi-Tanaka M, Shibata Y, Gomi K, Umemura I, Hasegawa Y, Ashikari M, Kitana H, Matsuoka M (2005) Crown rootless, which is essential for crown root formation in rice, is a target of an AUXIN RESPONSE FACTOR in auxin signaling. Plant Cell 17: 1387-1396.
Jasid S, Simontacchi M, Bartoli CG, Puntarulo S (2006) Chloroplasts as a nitric oxide cellular source. Effect of Reactive Nitrogen Species onChloroplastic Lipids and Proteins. Plant Physiol 142: 1246–1255.
Krishnamurthy P, Ranathunge K, Nayak S, Schreiber L, Mathew MK (2011) Root apoplastic barriers block Na+ transport to shoots in rice (Oryza sativa L.) J Exp Bot 62: 4215-4228.
Lazalt AM, Beligni MV, Lamattina L (1997) Nitric oxide preserves the level of chlorophyll in potato leaves in fected by phytophtora infestans. Eur J Plant Pathol 103: 643-651.
Lamotte O, Courtois C, Barnavon L, Pugin A, Wendeheme D (2005) Nitric oxide in plants: the biosynthesis and cell signaling properties of a fascinating molecule. Planta 221: 1–4.
Liu J, Reid RJ, Smith FA (2000) The mechanism of cobalt toxicity in mung beans. Physiol Plant 110: 104-110.
Liu Y , Xu S, Ling T, Xu L, Shen W (2010) Heme oxygenase/carbon monoxide system participates in regulating wheat seed germination under osmotic stress involving the nitric oxide pathway. J Plant Physiol 167: 1371-1379.
Ling T, Zhang B, Cui W, Wu M, Lin J, Zhou W, Huang J, Shen WB (2009) Carbon monoxide mitigates salt-induced inhibition of root growth and suppresses programmed cell death in wheat primary roots by inhibiting superoxide anion overproduction. Plant Sci 177: 331–340.
L?pez-Bucio J, Cruz-Ramiroz A, Herresra-Estrella L (2003) The role of nutrient availability in regulating root architecture. Curr Opin Plant Bio 5: 280-7.
Marschner H (1995) Mineral nutrition of higher plants, 2nd edn. London: Academic Press. Plant Cell Environ 11: 147-148.
Maines MD (1997) The heme oxygenase system: a regulator of second messenger gases. Annu Rev Pharmacol Toxicol 37: 517–554.
Maksymiec W (2007) Signaling responses in plants to heavy metal stress. Acta Physiol Plant 29: 177-187.
Meng DK, Chen J, Yang ZM (2011) Enhancement of tolerance of Indian mustard (Brassica juncea) to mercury by carbon monoxide. J Hazard Mater 186: 1823-1829.
Moreno-Caselles J, P?rez-Espinosa A, P?rez-Murcia MD, Moral R, G?mez I (1997a) Effect of increased cobalt treatments on cobalt concentration and growth of tomato plants. J Plant Nutr 20: 8050-811.
Moreno-Caselles J, P?rez-Espinosa A, P?rez-Murcia MD, Moral R, G?mez I (1997b) . Cobalt-induced stress in tomato plants: effect on yield, chlorophyll content, and nutrient evolution. J Plant Nutr 20: 1231–1237.
Morrissey J, Baxter IR, Lee J, Li L, Lahner B, Grotz N, Kaplan J, Salt DE Guerinot ML (2009) The ferroportin metal ef?ux proteins function in iron and cobalt homeostasis in Arabidopsis. Plant Cell 21: 3326-3338. signalling in plants.
Neill SJ, Desikan R, Hancock JT (2003) Nitric oxide New Phytol 159: 11-35.
Neill S, Bright J, Desikan R, Hancock J, Harrison J, Wilson I (2008) Nitric oxide evolution and perception. Journal of Experimental Botany 59: 25-35.
Negi S, Ivanchenko MG, Muday GK (2008) Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana. Plant J 55: 175-187.
Noriega GO, Balestrasse KB, Batlle AMC, Tomaro M.L (2004) Heme oxygenase exerts a protective role against oxidative stress in soybean leaves. Biochem Biophys Res Commun 323: 1003–1008.
Noriega GO, Yannarelli GG, Balestrasse KB, Batlle A, Tomaro ML (2007) The effect of nitric oxide on heme oxygenase gene expression in soybean leaves. Planta 226: 1155-1163.
Pagnussat GC, Simontacchi M, Puntarulo S, Lamattina L (2002) Nitric Oxide Is Required for Root Organogenesis. Plant Physiol 129: 954-956.
Potters G, Pasternak TP, Guisez Y, Jansen M (2007) Stress-induced morphogenic response: integrating a plethora of pathways. Plant Cell Environ 32: 158-169.
Rounds MA, Larsen PB (2008) Aluminum-dependent root growth inhibition in Arabidopsis results from AtATR-regulated cell-cycle arrest. Curr Biol 18: 1495 -1500.
Ru?z-Herrera LF, L?pez-Bucio J (2013) Aluminum induces low phosphate adaptive responses and modulates primary and lateral root growth by differentially affecting auxin signaling in Arabidopsis seedlings. Plant Soil 371: 593-609.
Schaaf G, Honsbein A, Meda AR, Kirchner S, Wipf D, Wir?n NV (2006) AtIREG2 encodes a tonoplast transport protein involved in iron-dependent nickel detoxification in Arabidopsis thaliana roots. J Biol Chem 281: 25532-25540
Shen Q, Jiang M, Li H, Che LL, and Yang ZM (2011) Expression of a Brassica napus heme oxygenase confers plant tolerance to mercury toxicity. Plant Cell Environ 34: 752-763
Symeonidis L, Abou-Auda MM, Yupsanis T (2004) Aluminium toxicity effects on Cucumis melo and response of diphosphonucleoside kinases. Biol Bra 59: 133-139.
Wang Y, Li K, Li X (2009) Auxin redistribution modulates plastic development of root system architecture under salt stress in Arabidopsis thaliana. J Plant Physiol 166: 1637-1645.
Wendehenne D, Pugin A, Klessig DF, Durner J (2001) Nitric oxide: comparative synthesis and signaling in animal and plant cells. Trends Plant Sci 6: 177-183.
Xuan W, Zhu FY, Xu S, Huang BK, Ling TF, Qi JY, Ye MB, Shen WB (2008) The heme oxygenase/carbon monoxide system is involved in the auxin-induced cucumber adventitious rooting process. Plant Physiol 148: 881–893.
Xie YJ, Ling TF, Han Y, Liu KL, Zheng QS, Huang LQ, Yuan XX, He Z, Hu B, Fang L, Shen ZG, Yang Q, Shen WB (2008) Carbon monoxide enhances salt tolerance by nitric oxide-mediated maintenance of ion homeostasis and up-regulation of antioxidant defense in wheat seedling root. Plant Cell Environ 31: 1864–1881.
Xiong J, Lu H, Lu K, Duan Y, An L, Zhu C (2009) Cadmium decreases crown root number by decreasing endogenous nitric oxide, which is indispensable for crown root primordia initiation in rice seedlings. Planta 230: 599–610.
Xu S, Zhang B, Cao ZY, Ling TF, Shen WB (2011) Heme oxygenase is involved in cobalt chloride-induced lateral root development in tomato. Biometals 24: 181-191.
Yamasaki H (2000) Nitrite-dependent nitric oxide production pathway: implications for involvement of active nitrogen species in photoinhibition in vivo. Philos Trans R Soc Lond B Biol Sci 355: 1477-1488.
Yu CZ, Benkai H, Ya WQ, Wei X, Fang LT, Bo Z, Xi C, Li N, Shen WB (2007) Involvement of carbon monoxide produced by heme oxygenase in ABA induced stomatal closure in Vicia faba and its proposed signal transduction pathway. Chin Sci Bull 52: 2365–2373.
Zeller S, Feller U (1998) Redistribution of cobalt and nickel in detached wheat shoots: effects of steam-girdling and of cobalt and nickel supply. Biol Plant 41: 427-434.
Zengin FK (2006) The effects of Co2+ and Zn2+ on the contents of protein, abscisic acid, proline and chlorophyll in bean (Phaseolus vulgaris cv. Strike) seedlings. Environ Bio 17: 97-106.
Zhou SZ, Huang SQ, Guo K, Mehta SK, Zhang PC, Yang ZM (2006) Metabolic adaptations to mercury-induced oxidative stress in roots of Medicago sativa L. J Inorg Biochem 101: 1-9.
Zolla, G, Heimer YM, Barak S (2010) Mild salinity stimulates a stress-induced morphogenic response in Arabidopsis thaliana roots. J Exp Bot 6: 211-224.
URI: http://hdl.handle.net/11455/89528
其他識別: U0005-2811201416195149
Rights: 同意授權瀏覽/列印電子全文服務,2017-08-31起公開。
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