莲藕PPO基因家族成员鉴定与分析

doi:10.3969/j.issn.1674-7968.2022.01.004

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (4852 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要多酚氧化酶(polyphenol oxidase, PPO)在植物、动物和昆虫中以多基因家族形式广泛存在。对园艺作物而言,PPO是导致果蔬采后褐变的关键酶。明确植株内PPO家族成员及其功能,是降低其基因表达水平和酶活性的有效手段。为揭示PPO基因家族成员在莲藕(Nelumbo nucifera)中功能,本研究利用生物信息学方法鉴定出莲藕中PPO基因家族成员：PPO1、PPO4、金鱼草素合酶1 (aureusidin synthase 1, AS-1)与AS-2,并对其理化性质、跨膜区、信号肽、亚细胞定位、基因结构、保守基序、二级与三级结构进行预测,通过qPCR方法分别检测PPO酶和基因在不同组织、不同生长时间、不同诱导因子下的活性及基因表达量。结果表明,4个基因CDS区全长在1 740~1 833 bp之间,编码氨基酸数目579~610,分子量66.21~68.65 kD,等电点在5.87~8.59,均属于亲水性不稳定蛋白;PPO1与PPO4无跨膜区、无信号肽,属膜外非分泌蛋白,AS-1无信号肽但有1个跨膜区,AS-2是具有1个跨膜区的分泌蛋白;PPO1与PPO4定位于叶绿体,AS-1定位于内质网,AS-2定位于细胞质;PPO1与PPO4没有内含子但都有12个保守基序,AS-1与AS-2分别具有1个内含子和10个保守基序;该4个蛋白结构非常相似,无规则卷曲是其主要结构元件,α-螺旋、β-转角以及延伸链分散于整个多肽链中;PPO活性与PPO1、PPO4基因表达量在幼芽中最高,AS-1在根中表达量最高,而AS-2在叶中表达量最高;PPO活性与PPO1、PPO4、AS-1基因表达量在不同诱导处理下均升高,而AS-2基因表达量无明显变化;PPO活性随着植株生长时间延长呈现出先增高后下降趋势,PPO1、PPO4与AS-1表达量在第30天左右快速上升,而AS-2无明显变化。本研究为阐明莲藕PPO基因家族成员功能提供了基础资料。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	李婷婷
	李玉蕊
	鄢敏丽
	张海星
	王瑞红
	柯卫东
	郭宏波

关键词 ：莲藕, 多酚氧化酶(PPO), 生物信息学, 基因表达

Abstract：Polyphenol oxidase (PPO) widely exits in plants, animals and insects with multigene family members. It is the key enzyme causing browning for fruits and vegetables. It will be an effective means to reduce PPO gene expression and enzyme activity through grasp of its family members and their function. In order to further understand the function of PPO gene family members in lotus (Nelumbo nucifera), bioinformatics methods were used to identify members of the PPO gene family: PPO1, PPO4, aureusidin synthase 1 (AS-1) and AS-2. Its physicochemical properties, transmembrane region, signal peptide, subcellular localization, gene structure, conserved motif, secondary and tertiary structures were predicted, and PPO activity and gene response in different tissues, growth time and induction factors were detected by kit and qPCR, respectively. The results showed that the length of the CDS region of the 4 genes was between 1 740 and 1 833 bp, the number of encoded amino acids was 579 to 610, the molecular weight was 66.21 to 68.65 kD, and the isoelectric point was 5.87 to 8.59, all of which belonged to hydrophilic unstable proteins. PPO1 and PPO4 had no transmembrane region and no signal peptide, which were non-secretory proteins. AS-1 had no signal peptide but one transmembrane region. AS-2 was a secreted protein with one transmembrane region. PPO1 and PPO4 were located in the chloroplast, AS-1 was located in the endoplasmic reticulum, and AS-2 was located in the cytoplasm. PPO1 and PPO4 had no introns but both had 12 conserved motifs. AS-1 and AS-2 had one intron and 10 conserved motifs, respectively. The 4 proteins were very similar in structure, and the random coil was the main structural element of the proteins. The α-helix, β-turn and extension chain were dispersed throughout the polypeptide chain. The activity of PPO and expression of PPO1 and PPO4 were the highest in relatively young tissue buds, those of AS-1 was the highest in roots, and those of AS-2 was the highest in leaves. The activity of PPO and expression of PPO1, PPO4, and AS-1 were increased under different induction treatments, but AS-2 had no significant change; with the change of growth time, the PPO activity tended to increase first and then decrease. The expression of PPO1, PPO4 and AS-1 increased rapidly in around 30 d, while AS-2 did not change significantly. This study laid the foundation for further exploration of the characteristics and functions of the lotus PPO gene family.

Key words： Lotus Polyphenol oxidase (PPO) Bioinformatics Gene expression

收稿日期: 2021-07-17

ZTFLH:

S645.1

基金资助:国家重点研发计划(2016YFD0100204-29); 国家级杨凌农业高新技术产业示范区科技攻关计划(2018SF-08)

通讯作者: *hbguo@nwsuaf.edu.cn

引用本文:

李婷婷, 李玉蕊, 鄢敏丽, 张海星, 王瑞红, 柯卫东, 郭宏波. 莲藕PPO基因家族成员鉴定与分析[J]. 农业生物技术学报, 2022, 30(1): 38-49.
LI Ting-Ting, LI Yu-Rui, YAN Min-Li, ZHANG Hai-Xing, WANG Rui-Hong, KE Wei-Dong, GUO Hong-Bo. Identification and Analysis of PPO Gene Family Members in Lotus (Nelumbo nucifera). 农业生物技术学报, 2022, 30(1): 38-49.

链接本文:

http://journal05.magtech.org.cn/Jwk_ny/CN/10.3969/j.issn.1674-7968.2022.01.004 或 http://journal05.magtech.org.cn/Jwk_ny/CN/Y2022/V30/I1/38

[1] 程婷婷. 2021. 病毒诱导PPO基因沉默在莲中的应用[D]. 硕士学位论文, 西北农林科技大学, 导师: 郭宏波, pp. 29-31.
(Cheng T T.2021. Virus-induced gene silence was used to investigate the function of polyphenol oxidase in lotus leaves[D]. Thesis for M.S., Northwest A & F University, Supervisor: Guo H B, pp.29-31)
[2] 代丽, 宫长荣, 史霖, 等. 2007. 植物多酚氧化酶研究综述[J]. 中国农学通报, 23(6): 312-316.
(Dai L, Gong C R, Shi L, et al.2007. Polyphenol oxidase in plants[J]. Chinese Agricultural Science Bulletin, 23(6): 312-316.)
[3] 高愿军, 郝亚勤, 南海娟, 等. 2006. 莲藕多酚氧化酶酶学性质的研究[J]. 食品研究与开发, 27(7): 17-19.
(Gao Y J, Hao Y Q, Nan H J, et al.2006. Studies on the enzymatic reaction dynamics of fresh-cut lotus root[J]. Food Research and Development, 27(7): 17-19.)
[4] 郭宏波, 孙奕玥, 舒志明, 等. 2016. 管状花目中多酚氧化酶的序列分析与功能预测[J]. 北方园艺, (12): 85-91.
( Guo H B, Sun Y Y, Shu Z M, et al. 2016. Sequence analysis of polyphenol oxidase in Tubiflorae plants and function prediction[J]. Northern Horticulture, (12): 85-91.)
[5] 郝晓燕. 2011. 莲藕多酚氧化酶基因的克隆与表达分析[D]. 硕士学位论文, 西北农林科技大学, 导师: 郭宏波, pp. 10-11.
(Hao X Y.2011. PPO gene clone from lotus rhizome and its expression[D]. Thesis for M.S., Northwest A&F University, Supervisor: Guo H B, pp.10-11)
[6] 胡广隆, 陈亚娟, 魏建华, 等. 2017. 兰花磷酸肌醇特异性磷脂酶C基因家族生物信息学分析[J]. 西南农业学报, 30(10): 2218-2223.
(Hu G L, Chen Y J, Wei J H, et al.2017. Bioinformatics analysis of phosphoinositide-specific phospholipase C gene family in Orchid [Phalaenopsis equestris (Schauer) Rchb.f.][J]. Southwest China Journal of Agricultural Sciences, 30(10): 2218-2223. )
[7] 胡婉峰, 赵洪雷, 万琼红, 等. 2009. 莲藕多酚氧化酶的纯化方法研究[J]. 食品科学, 30(1): 173-176.
(Hu W F, Zhao H L, Wan Q H, et al.2009. Purification of polyphenol oxidase from lotus roots[J]. Food Science, 30(01): 173-176)
[8] 焦鹏. 2016. 苹果NPR1基因家族的全基因组鉴定与表达分析[D]. 硕士学位论文, 西北农林科技大学, 导师: 徐凌飞, pp. 16-19.
(Jiao P.2016. Genome-wide identification and expression analysis of NPR1 gene family in apple[D]. Thesis for M.S., Northwest A&F University, Supervisor: Xu L F, pp. 16-19.)
[9] 李琼, 王雪云, 宋卫武, 等. 2018. 普通烟草PPO基因家族的鉴定与表达分析[J]. 烟草科技, 51(8): 9-13.
(Li Q, Wang X Y, Song W W, et al.2018. Identification and expression analysis of PPO gene family in Nicotiana tabacum[J]. Tobacco Science & Technology, 51(8): 9-13. )
[10] 刘敬卫. 2009. 茶树多酚氧化酶的基因克隆与原核表达[D]. 硕士学位论文, 华中农业大学, 导师: 黄友谊, pp.1-4.
(Liu J W.2009. Gene cloning and prokaryotic expression of Camellia sinenisis polyphenol oxidase[D]. Thesis for M.S., Huazhong Agricultural University, Supervisor: Huang Y Y, pp.1-4.)
[11] 刘芳, 赵金红, 朱明慧, 等. 2015. 多酚氧化酶结构及褐变机理研究进展[J]. 食品研究与开发, 36(06): 113-119.
(Liu F, Zhao J H, Zhu M H, et al.2015. Advances in research of the structure and browning mechanism of polyphenol oxidase[J]. Food Research and Development, 36(6): 113-119. )
[12] 时王珂, 孙奕玥, 舒志明, 等. 2016. 丹参多酚氧化酶基因的克隆及表达分析[J]. 西北植物学报, 36(9): 1735-1742.
(Shi W K, Sun Y Y, Shu Z M, et al.2016. Cloning of polyphenol oxidase gene from Salvia miltiorrhiza hairy roots and its expression analysis[J]. Acta Botanica Boreali Occidentalia Sinica, 36(9): 1735-1742.)
[13] 王曼玲, 胡中立, 周明全, 等. 2005. 植物多酚氧化酶的研究进展[J]. 植物学通报, 22(2): 215-222.
(Wang M L, Hu Z L, Zhou M Q, et al.2005. Advances in research of polyphenol oxidase in plants[J]. Chinese Bulletin of Botany, 22(2): 215-222.)
[14] 吴进菊. 2010. 双孢蘑菇多酚氧化酶的研究[D]. 博士学位论文, 南昌大学, 导师: 陈红兵, pp.6.
(Wu J J.2010. Investigations on polyphenol oxidase from Agaricus bisporus[D]. Thesis for Ph.D., Nanchang University, Supervisor: Chen H B, pp.6.)
[15] 许莉娟. 2018. 茶树中多酚氧化酶的基因克隆及功能探究[D]. 硕士学位论文, 安徽农业大学, 导师: 夏涛, pp. 11.(Xu L J. 2018. Genes cloning and function identification of polyphenol oxidase in Camellia sinensis[D]. Thesis for M.S., Anhui Agricultural University, Supervisor: Xia T, pp.11)
[16] 鄢敏丽. 2019. 莲藕多酚氧化酶互作蛋白的筛选及验证[D]. 硕士学位论文, 西北农林科技大学, 导师: 郭宏波, pp. 23-35.
(Yan M L.2019. Screening and verification of polyphenol oxidase interacting protein in lotus[D]. Thesis for M.S., Northwest A & F University, Supervisor: Guo H B, pp. 23-35.)
[17] 易婷, 张志硕, 汤冰倩, 等. 2020. 辣椒β-酮脂酰辅酶A合酶基因家族的鉴定与表达分析[J]. 园艺学报, 47(2): 370-380.
(Yi T, Zhang Z S, Tang B Q, et al.2020. Identification and expression analysis of the KCS gene family in pepper[J]. Acta Horticulturae Sinica, 47(2): 370-380.)
[18] 原新博, 程婷婷, 惠小涵, 等. 2020. 莲藕多酚氧化酶互作蛋白的筛选及验证[J]. 中国农业科学, 53(18): 3777-3791.
(Yuan X B, Cheng T T, Xi X H, et al.2020. Screening of polyphenol oxidase interation proteins from Nelumbo nucifera and their verification[J]. Scientia Agricultura Sinica, 53(18): 3777-3791.)
[19] 于威, 郝天龙. 2014. 几种防御性酶在植物抗病方面的研究进展[J]. 北京农业, (36): 133-134.
(Yu W, Hao T L. 2014. Research progress of several defensive enzymes in plant resistance[J]. Beijing Agriculture, (36): 133-134.)
[20] 曾泽媛, 罗勇, 郑楚楚, 等. 2018. 茶树PPO基因家族的鉴定与分[J]. 茶叶科学, 38(4): 385-395.
(Zeng Z Y, Luo Y, Zheng C C, et al.2018. The identification and analysis of polyphenol oxidase gene family in tea plant (Camellia sinensis)[J]. Journal of Tea Science, 38(4): 385-395.)
[21] 赵友兴. 2001. 鲜切莲藕酶促褐变机理与控制的研究[D]. 硕士学位论文, 南京农业大学, 导师: 郁志芳, pp.2.
(Zhao Y X.2001. Study on enzymatic browning mechanism of fresh-cut lotus roots[D]. Thesis for M.S., Nanjing Agricultural University, Supervisor: Yu Z F, pp.2.)
[22] 张海星, 时王珂, 郭蓉, 等. 2020. 丹参多酚氧化酶互作的蛋白筛选与验证[J]. 中国中药杂志, 45(11): 2523-2532.
(Zhang H X, Shi W K, Guo R, et al.2020. Screening proteins interacting with Salvia miltiorrhiza polyphenol oxidase using yeast two-hybrid[J]. China Journal of Chinese Materia Medica, 45(11): 3523-3532.)
[23] 朱海生, 康娟, 刘建汀, 等. 2018. 丝瓜多酚氧化酶PPO基因家族的克隆与表达分析[J]. 核农学报, 32(08): 1502-1512.
(Zhu H S, Kang J, Liu J T, et al.2018. Cloning and expression analysis of polyphenol oxidase (PPO) gene family from Luffa cylindrical[J]. Journal of Nuclear Agriculture Sciences, 32(08): 1502-1512.)
[24] Ali S, Khan A S, Anjum M A, et al.2020. Effect of postharvest oxalic acid application on enzymatic browning and quality of lotus (Nelumbo nucifera Gaertn.) root slices[J]. Food Chemistry, 312: 126051.
[25] An N, Guo H B, Ke W D.2009. Genetic variation in rhizome lotus (Nelumbo nucifera Gaertn. ssp. nucifera) germplasms from China assessed by RAPD markers[J]. Agricultural Sciences in China, 8(1): 31-39.
[26] Anderson J V, Morris C F.2003. Purification and analysis of wheat grain polyphenol oxidase (PPO) protein[J]. Cereal Chemistry, 80(2): 135-143.
[27] Bansal R, Srivastava J P.2012. Antioxidative defense system in pigeonpea roots under waterlogging stress[J]. Acta Physiologiae Plantarum, 34(2): 515-522.
[28] Boss P K, Gardner R C, Janssen B J, et al.1995. An apple polyphenol oxidase cDNA is up-regulated in wounded tissues[J]. Plant Molecular Biology, 27(2): 429-433.
[29] Constabel C P, Lindroth R L.2010. Plant Genetics and Genomics: Crops and Models[M]. Springer Publishers, Berlin, pp. 279-305.
[30] Gerdemann C, Eicken C, Krebs B.2002. The crystal structure of catechol oxidase: New insight into the function of type-3 copper proteins[J]. Accounts of Chemical Research, 35(3): 183-191.
[31] Lax A R, Vaughn K C.1991. Colocalization of polyphenol oxidase and photosystemⅡ proteins[J]. Plant Physiology, 96(1): 26-31.
[32] Pierella-Karlusich J J, Carrillo N.2017. Evolution of the acceptor side of photosystemⅠ: Ferredoxin, flavodoxin, and ferredoxin-NADP+ oxidoreductase[J]. Photosynthesis Research, 134(3): 235-250.
[33] Fox P F (Ed.). 1991. Food Enzymology[M]. Elsevier Science Publishers, New York, pp. 373-398.
[34] Nakayama T, Sato T, Fukui Y, et al.2001. Specificity analysis and mechanism of aurone synthesis catalyzed by aureusidin synthase, a polyphenol oxidase homolog responsible for flower coloration[J]. FEBS Letters, 499(1): 107-111.
[35] Newman S M, Tantasawat P, Steffens J C.2011. Tomato polyphenol oxidase B is spatially and temporally regulated during development and in response to ethylene[J]. Molecules (Basel, Switzerland), 16(1): 493-517.
[36] Sheptovitsky Y G, Brudvig G W.1996. Isolation and characterization of spinach photosystemⅡ membrane-associated catalase and polyphenol oxidase[J]. Biochemistry, 35(50): 16255-16263.
[37] Thipyapong P, Hunt M D, Steffens J C.2004. Antisense down regulation of polyphenol oxidase results in enhanced disease susceptibility[J]. Planta, 220(1): 105-117.
[38] Thygesen P W, Dry I B, Robinson S P.1995. Polyphenol oxidase in potato-a multigene family that exhibits differential expression patterns[J]. Plant Physiology, 109(2): 525-531.
[39] Tran L T, Constabel C P.2011. The polyphenol oxidase gene family in poplar: Phylogeny, differential expression and identification of a novel, vacuolar isoform[J]. Planta, 234(4): 799-813.
[40] Yu O, Shi J, Hession A O, et al.2003. Metabolic engineering to increase isoflavone biosynthesis in soybean seed[J]. Phytochemistry, 63(7): 753-763.