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Acta Agron Sin ›› 2013, Vol. 39 ›› Issue (08): 1400-1408.doi: 10.3724/SP.J.1006.2013.01400

• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles     Next Articles

Cloning, Expression, and Activity Analysis of Ascorbate Peroxidase (APX) Gene from Winter Turnip Rape (Brassica campestris L.)

ZENG Xiu-Cun1,2,SUN Wan-Cang1,*,FANG Yan1,LIU Zi-Gang1,DONG Yun3,SUN Jia4,WU Jun-Yan1,ZHANG Peng-Fei1,SHI Peng-Hui1,KONG De-Jing1,ZHANG Teng-Guo5,HE Li1,ZHAO Cai-Xia1   

  1. 1 Agricultural College, Gansu Agricultural University, Lanzhou 730070, China; 2 College of Agronomy and Biotechnology, Hexi University, Zhangye 734000, China; 3 Crop Research Institute, Gansu Academy of Agricultural Sciences, Lanzhou 730070 China; 4 Department of Plant Sciences, University of Saskatchewan, Saskatoon, Saskatchewan, Canada. S7N5A8; 5 College of Life Science, Northwest Normal University, Lanzhou 730070, China
  • Received:2012-12-23 Revised:2013-04-22 Online:2013-08-12 Published:2013-05-22
  • Contact: 孙万仓, E-mail: wangcangsun@yahoo.com.cn

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Abstract:

Ascorbate Peroxidase (APX) is a key enzyme which eliminates oxygen free radicals and increases plant resistance in adverse circumstances. The complete open reading frame of APX gene was cloned from an extremely low temperature (–32℃) resistant winter turnip rape (Brassica campestris L.) cultivar Longyou 7 using the method of reverse transcription PCR (RT-PCR). The primers were designed according to the published APX cDNA sequences. The sequence of APX from B. campestris L. was 753 bp, encoding a protein of 250 amino acid residues with a predicted molecular weight of 27.7 kD and a theoretical pI of 5.58. Bioinformatics analysis showed that the predicted APX protein contained a conserved amino acid sequence corresponding to the plant peroxidase (POD) superfamily. The APX had no signal peptide and was a hydrophilic protein locating in cytoplasm. The prediction of the second structures indicated theAPX was a steady protein with more random coils and α-helices. The expression analysis of APX gene using real time RT-PCR and the activity of APX in response to lower temperature showed that the APX could be induced and the activity of APX could be changed by lower temperature. In conclusion, APX gene might play a role in cold tolerance of the B. campestris L. cultivar Longyou 7.

Key words: Winter rape (Brassica compestris L.), Lower temperature, APX gene cloning, Expression analysis, Activity of APX

[1]Li N(李娜), Lu H(陆海). Research progress in ascorbate peroxidase gene family in plants. J Chengdu Univ (Nat Sci Edn)(成都大学学报?自然科学版), 2011, 30(2): 97–101 (in Chinese with English abstract)



[2]Dat J, Vandenabeele S, Vranova E, Van Montagu M, Inze D, Van Breusegem F. Dual action of the active oxygen species during plant stress responses. Cell Mol Life Sci, 2000, 57: 779–795



[3]Asada K. Ascorbate peroxidase-a hydrogen peroxide scavenging enzyme in plants. Plant Physiol, 1992, 85: 235–241



[4]Sun X-C(孙学成), Tan Q-L(谭启玲), Hu C-X(胡承孝), Gan Q-Q(甘巧巧), Yi C-C(易长城). Effects of molybdenum on antioxidative enzymes in winter wheat under low temperature stress. Sci Agric Sin (中国农业科学), 2006, 39(5): 952–959 (in Chinese with English abstract)



[5]Sun W-H(孙卫红), Wang W-Q(王伟青), Meng Q-W(孟庆伟). Functional mechanism and enzymatic and molecular characteristic of ascorbate peroxidase in plants. Plant Physiol Commun (植物生理学通讯), 2005, 41(2): 143–147 (in Chinese)



[6]Zhang W-J(张维静), Lu H(陆海), Du X-H(杜希华). The function of ascorbate peroxidases in plant resistance to oxidative stress. J Shandong Norm Univ(Nat Sci)(山东师范大学学报?自然科学版), 2008, 23(4): 113–115 (in Chinese with English abstract)



[7]Ma C-L(马长乐), Wang P-P(王萍萍), Cao Z-Y(曹子谊), Zhao Y-X(赵彦修), Zhang H(张慧). cDNA cloning and gene expression of APX in Suaeda salsain response to salt stress. J Plant Physiol Mol Biol (植物生理与分子生物学学报), 2002, 28(4): 261–266 (in Chinese with English abstract)



[8]Wang C(王超),Yang C-P(杨传平),Wang Y-C(王玉成). Cloning and expression analysis of an APX gene from Betula platyphylla. J Northeast For Univ (东北林业大学学报), 2009, 37(3): 79–81 (in Chinese with English abstract)



[9]Hu L X, Li H Y, Pang H C, Fu J M. Responses of antioxidant gene, protein and enzymes to salinity stress in two genotypes of perennial ryegrass (Lolium perenne) differing in salt tolerance. J Plant Physiol, 2012, 169: 146–156



[10]Wang Y J, Wisniewski M, Meilan R. Overexpression of cytosolic ascorbate peroxidase in tomato confers tolerance to chilling and salt stress. J Am Soc Hort Sci, 2005, 130: 167–173



[11]Prasad T K. Role of catalase in inducing chilling tolerance in pre-emergent maize seedlings. Plant Physiol, 1997, 114: 1369–1376



[12]Gechev T, Willekens H, Montagu M V, Inze D, Camp W V, Toneva V, Minkov I. Different responses of tobacco antioxidant enzymes to light and chilling stress. J Plant Physiol, 2003, 160: 509–515



[13]Livak K J, Schmittgen T D. Analysis of relative gene expression data using real-time quantitative PCR and the 2–ΔΔCt method. Methods, 2001, 25: 402–408



[14]Zou Q(邹琦). Experimental guidance for plant physiology. Beijing: China Agriculture Press, 2000. pp 171–172 (in Chinese)



[15]Mittler R, Vanderauwera S, Suzuki N, Miller G, Tognetti V B, Vandepoele K, Gollery M, Shulaev V, Van Breusegem F. ROS signaling: the new wave? Trends Plant Sci, 2011, 16: 300–309



[16]Mittler R, Vanderauwera S, Gollery M, Van Breusegem F. Reactive oxygen gene network of plants. Trends Plant Sci, 2004, 9: 490–498



[17]Miao Y-C(苗雨晨), Bai L(白玲), Miao C(苗琛), Chen J(陈珈), Song C-P(宋纯鹏). Progress in plant glutathione peroxidase. Chin Bull Bot (植物学通报), 2005, 22(3): 350–356 (in Chinese with English abstract)



[18]Yabuta Y, Motoki T, Yoshimura K. Thylakoid membrane-bound ascorbate peroxidase is a limiting factor of antioxidative systems under photooxidative stress. Plant J, 2002, 32: 915–925



[19]Jing M, Herbette S, Vandame M, Kositsup B, Kasemsap P, Cavaloc E, Julien J L, Améglio T, Roeckel-Drevet P. Effect of chilling on photosynthesis and antioxidant enzymes in hevea brasiliensis muell. Arg Biomedical Life Sci, 2009, 23: 863–874 (in Chinese)



[20]Zhang J-J(张俊杰), Sun W-C(孙万仓), Li X-C(李学才), Fang Y(方彦), Zhang P-F(张朋飞), Jiang H-Y(姜海杨), Chen J-R(陈娇荣). Growth and development features and physiology and biochemistry base of winter rapeseed in suitable population in northwest drought and cold regions. Acta Agric Boreali-occident Sin (西北农业学报), 2011, 20(8): 82–88 (in Chinese with English abstract)



[21]Wang F-H(王凤华), Li G-Y(李光远), Liu B-G(刘宝国), Guo X-B(郭旭彬). Influences of low temperature on APX of eggplant seedlings and cDNA clone of APX. J Anhui Agric Sci (安徽农业科学), 2008, 36(13): 5272–5677 (in Chinese with English abstract)



[22]Li H-H(李惠华), Lai Z-X(赖钟雄). A review of progress in ascorbate peroxidase in plants. Subtrop Plant Sci (亚热带植物科学), 2006, 35(2): 66–69 (in Chinese with English abstract)



[23]Chen G-Q(陈国强), Meng P(孟鹏), Liu L-L(刘李黎), Chen G(陈刚), Wang P(王萍). In silico cloning and characterization of sorghum APX gene. China J Bioinform (生物信息学), 2011, 9(2): 125–130 (in Chinese with English abstract)



[24]Baek K H, Skinner D Z. Alteration of antioxidant enzyme gene expression during cold acclimation of near is oganic wheat lines. Plant Sci, 2003, 165: 1221–1227



[25]Kuk Y I, Shin J S, Burgos N R, Hwang T E, Han O, Cho B H, Jung S Y, Guh J O. Antioxidative enzymes offer protection from chilling damage in rice plants. Crop Sci, 2003, 43: 2109–2117



[26]Yu M(喻敏), Chen Y-J(陈跃进), Xiao H-D(萧洪东), Wang H-Z(王惠珍), Wang F(王芳), Sun X-H(孙秀华). Influences of boron and molybdenum on active oxygen species in turfgrass Seashore Paspalum under Low temperature. Acta Agron Sin (作物学报), 2005, 31(6): 755–759 (in Chinese with English abstract)
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