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Expression in Pichia pastoris and Functional Identification of Soybean GmCAT4 Gene(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2014年03期
Page:
313-320
Research Field:
Publishing date:

Info

Title:
Expression in Pichia pastoris and Functional Identification of Soybean GmCAT4 Gene
Author(s):
CHEN Jin-feng HAN Yan-xiaJIAO Chan
Chemical Engineering College of Kaifeng University,Kaifeng 475004,China
Keywords:
SoybeanCatalase genePichia pastorisExpression
PACS:
S565.1
DOI:
10.11861/j.issn.1000-9841.2014.03.0315
Abstract:
Bioinformatics analysis were conducted on the structure of soybean GmCAT4 protein,which encoded 492 amino acids.The molecular weight of the enzyme was 56.7 kD,and the pI was 6.80,the secondary and tertiary structures of the protein were predicted.After digested by both enzymes from pMD19-T-GmCAT4,the target gene was inserted into expression vector pPIC9K,and the yease strain Pichia pastoris was transformed by electrophoration with pPIC9K-GmCAT4.It was confirmed that oybean GmCAT4 ?gene was integrated into the yeast genome by PCR.After 96 h induction by methanol,the proteins in supernatant and cell lysates were measured by SDS-PAGE,and the activity of the crude liquid enzyme from the supernatant reached 124.3 kU. L-1.The transgene yeast strengthened its ability of salt and hydrogen peroxide tolerance.

References:


[1]Lariguet P,Dunand C.Plant photoreceptors:phylogeneticoverview[J].Journal of Molecular Evolution,2005,61:559-569.
[2]Tomohiro K,Masamitsu W.LKP1.LOV Kelch protein 1:afactor involved in the regulation of flowering time in Arabidopsis[J].Plant Journal,2000,23:807-815.
[3]Ogura Y,Komatsu A,Zikihara K,et al.Blue light diminishes interaction of PAS/LOV proteins,putative blue light receptors in Arabidopsis thaliana,with their interacting partners[J].Journal of Plant Research,2008,121:97-105.
[4]Ogura Y,Tokutomi S,Wada M,et al.PAS/LOV proteins:A proposed new class of plant blue light receptor[J].Plantsign Behavior,2008,3:966-968.
[5]Sansom S.Role of Arabidopsis thaliana PAS/LOV Protein in salt and dehydration stress conditions[J].Department of Plant Cellular and Molecular Biology Honors Theses,2008.?
[6]王关林,方宏筠.植物基因工程[M].北京:科学出版社,2002:744.(Wang G L,Fang H J.Plant genetic engineering [M].Beijing:Science Press,2002:744.)
[7]Higo K,Ugawa Y,Iwamoto M,et al.Plant cis acting regulatory DNA elements(PLACE)database[J].Nucleic Acids Research,1999,27(1):297-300.
[8]Prestridge D S.SIGNAL SCAN:A computer program that scans DNA sequences for eukaryotic transcriptional elements[J].Computer Applications in the Biosciences,1997,7:203-206.
[9]Muller A J,Mendel R R,Schiemann J,et al.High meiotic stability of a foreign gene introduced into tobacco by Agrobacterium mediated transformation[J].Molecular and General Genetics,1987,207:171-175.
[10]Bradford M M.A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of proteindye binding[J].Analytical Biochemisty,1976,72:248-254.
[11]〖Copik A J,Webb M S,Miller A L,et al.Activation function 1 of glucocorticoid receptor binds TATAbinding protein in vitro and in vivo[J].Molecular Endocrinology,2006,20:1218-1230.
[12]Stlberg K,Ellerstm M,Ezcurra I,et al.Disruption of an overlapping Ebox/ABRE motif abolished high transcription of the nap A storageprotein promoter in transgenic Brassica napusseeds[J].Planta,1996,4:515-519.
[13]李杰,张福城,王文泉,等.高等植物启动子的研究进展[J].生物技术通讯,2006,17(4):658-661.(Li J,Zhang F C,Wang W Q,et al.Advance in the study of higher plant promote[J].Letters in Biotechnology,2006,17(4):658-661.)
[14]李新锋,赵淑清.转基因植物中报道基因GUS的活性检测及其应用[J].生命的化学,2004,24( l):7173.(Li X F,Zhao S Q.Reporter gene GUS activity detection and its application in transgenic plant[J].Chemistry of Life,2004,24(l):71-73.)
[15]Pattanaik S,Dey N,Bhattacharyya S,et al.Isolation of full length transcript promoter from the strawberry vein banjding virus(SVBV)and expression analysis by protoplasts transient assays and in transgenic plants[J].Plant Science,2004,167:427-438.

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Last Update: 2014-08-01