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梨果实中肉桂醇脱氢酶基因的克隆与序列分析 被引量:3

Cloning of Cinnamyl Alcohol Dehydrogenase Genes from Pear Fruit
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摘要 肉桂醇脱氢酶(CAD)是木质素生物合成过程中的一个关键酶。本研究分别提取了"砀山酥梨"及"幸水"梨果肉总RNA,并通过RT-PCR、克隆和测序,成功获得了2个CAD的大小为689bp的cDNA片段,并分别命名为PB-CAD(登录号:FJ478151)和PP-CAD(登录号:FJ478152)。在核苷酸水平上,这两个基因片段只有4个碱基的差异,编码相似性达99.6%的两个氨基酸序列,该序列由229个残基组成。通过蛋白质序列比较,发现梨果实CAD与许多植物中CAD氨基酸序列极为相似,与苹果Malus domestica(AAC06319)、梅Prunus mume(BAE48658)、枇杷Eriobotryajaponica(ABV44810)和葡萄Vitis vinifera(CAO21890)的相似性分别达到97.8%、95%、92.6%和83.4%。 Cinnamyl alcohol dehydrogenase (CAD) plays a key role in lignin biosynthesis. Two cD- NA fragments, designated as PB-CAD ( GenBank accession No. FJ478151) and PP-CAD ( Gen- Bank accession No. FJ478152), coding for CAD were cloned using RT-PCR from 'Dangshansuli' and 'Kousui' pear cultivars and sequenced, respectively. Both cDNAs were 689 bp in length, and differed by only 4 bp in nucleotide sequences. Theoretically, they would encode two peptides of 229 amino-acid residues that shared 99. 6% of identity with each other. Sequence alignment showed that the two deduced amino acid sequences were 97. 8% identical to CAD from Malus domestica (AAC06319), 95%to CAD from Prunusmume (BAE48658), 92. 6% to CAD from Eriobotryaja- ponica (ABV44810)and 83.4% to CAD from Vitis vinifera (CAO21890), respectively.
作者 陶书田 赵梅 张彪 Khanizadeh Shahrokh 张绍铃
机构地区 南京农业大学梨工程技术研究中心 Horticultural Research and Development Centre
出处 《中国南方果树》 北大核心 2012年第3期40-45,共6页 South China Fruits
基金 国家自然科学基金(31000888) 现代农业产业技术体系建设专项资金(CARS-29) 江苏省博士后科研基金(1002018B)资助
关键词 肉桂醇脱氢酶 RT-PCR pear (Pyrus) cinnamyl alcohol dehydrogenase RT-PCR
分类号 S661.2 [农业科学—果树学]
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参考文献23

  • 1张秀芬,王奎玲,刘庆华,丁彩真,张昕.PP_(333)对茌梨果实发育的影响[J].莱阳农学院学报,1996,13(2):124-128. 被引量:2
  • 2钱银才,顾志康,姚建祥,蒋小凡,王白坡.4种类型果袋套袋对梨不同品种果实品质的影响[J].浙江林学院学报,2000,17(3):276-279. 被引量:22
  • 3Sterling C. Sclereid development and the texture of Bart- lett pears [J]. Food Research, 1954, 19:433-443.
  • 4Ranadive A S, Haard N F. Chemical nature of stone cells from pear fruit [J]. Journal of Food Science, 1973, 38:331-333.
  • 5Anterola A M, Lewis N G. Trends in llgnin modifica- tion: a comprehensive analysis of the effects of genetic manipulations/mutations on lignification and vascular in- tegrity l-J], Phytochernistry, 2002, 61:221-294.
  • 6Baucb.er M, Halpln C, Petit-Conll M, et al. Lignln: genetic engineering and impact on pulping[J]. Criti- cal Reviews in Biochemistry and Molecular Biology, 2003, 38:305-350.
  • 7Sibout R, Eudes A, Mouille G,et el. Cinnamyl alco- hol dchydrogenase -C and -D are the primary genes involved in lignin biosynthesis in the floral stem of Arabidopsis[J]. The Plant Cell, 2005, 17: 2059-2076.
  • 8萨姆布鲁克 J,拉塞尔 D W 著,黄培堂等译.分子克隆实验指南(第三版)[M].北京:科学出版社,2002
  • 9Gross G G, Stocklgt J, Zenk M H. Three novel en- zymes involved in the reduction of ferulic acid to co- niferyl alcohol[J]. FEBS Letters, 1973, 31: 283-286.
  • 10Mansell R L , Gross G G, Zenk M H. Enzymic re- duction of pcoumaric acid via p-coumaroyl-CoA to p-coumaryl alcohol [J]. Phytochemistry, 1974, 13: 2427-2435.

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中国南方果树
2012年 第3期

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