[1]高逸飞,李波,郑聪,等.烟草烟碱代谢相关基因表达分析[J].江苏农业科学,2025,53(2):23-34.
 Gao Yifei,et al.Analysis of gene expression related to nicotine metabolism in tobacco[J].Jiangsu Agricultural Sciences,2025,53(2):23-34.
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烟草烟碱代谢相关基因表达分析()

《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第53卷
期数:
2025年第2期
页码:
23-34
栏目:
生物技术
出版日期:
2025-01-20

文章信息/Info

Title:
Analysis of gene expression related to nicotine metabolism in tobacco
作者:
高逸飞1李波2郑聪3陈小翔2谢可3刘亚冉4张智强1
1.河南农业大学烟草学院,河南郑州450002; 2.浙江中烟工业有限责任公司,浙江杭州310008; 3.福建省烟草公司南平市公司浦城分公司,福建浦城 353400; 4.河南烟草投资管理有限公司,河南郑州450002
Author(s):
Gao Yifeiet al
关键词:
烟碱合成基因转运基因调控基因荧光定量表达模式
Keywords:
-
分类号:
S572.01
DOI:
-
文献标志码:
A
摘要:
为了系统地研究烟草烟碱相关合成、运输、调控基因在不同组织器官的表达情况,以K326苗期7~75 d和盛花期的组织器官样品为材料,采用荧光定量PCR的方法,通过对烟碱合成、运输、调控基因表达量的测定,探究烟碱相关基因的表达模式。表达模式分析结果表明,烟碱合成基因NtAO、NtQS、NtQPT1、NtQPT2、NtADC、NtMPO1、NtMPO2、NtSPDS、NtBBLa,烟碱转运基因NtJAT1、NtJAT2、NtMATE1、NtMATE2、NtGEF,烟碱调控基因NtMYC2a、NtMYC2b、NtERF32、NtERF91、NtARF6、NtLNP1、Nt-miRNA2635为组成型表达,在各组织中均有表达;而烟碱合成基因NtPMTa1、NtA622,烟碱转运基因NtNUP1和烟碱调控基因NtERF189在根中特异高表达,在其他组织部位表达量极低或几乎不表达。
Abstract:
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参考文献/References:

[1]周正红,高孔荣,张水华. 烟草中化学成分对卷烟色香味品质的影响及其研究进展[J]. 烟草科技,1997,30(2):22-25.
[2]Lewis R S,Lopez H O,Bowen S W,et al. Transgenic and mutation-based suppression of a berberine bridge enzyme-like (BBL) gene family reduces alkaloid content in field-grown tobacco[J]. PLoS One,2015,10(2):e0117273.
[3]李文正,宋中邦,高玉龙,等. 烟碱合成分子调控研究进展[J]. 安徽农业科学,2013,41(14):6149-6151.
[4]蒲媛媛. 烟碱合成途径中关键酶活性对杂种优势形成的影响[D]. 贵阳:贵州大学,2020:2-4.
[5]Baldwin I T. Mechanism of damage-induced alkaloid production in wild tobacco[J]. Journal of Chemical Ecology,1989,15(5):1661-1680.
[6]Morita M,Shitan N,Sawada K,et al. Vacuolar transport of nicotine is mediated by a multidrug and toxic compound extrusion (MATE) transporter in Nicotiana tabacum[J]. Proceedings of the National Academy of Sciences of the United States of America,2009,106(7):2447-2452.
[7]招启柏,汤一卒,王广志. 烤烟烟碱合成及农艺调节效应研究进展[J]. 中国烟草科学,2005,26(4):19-22.
[8]Katoh A,Uenohara K,Akita M,et al. Early steps in the biosynthesis of NAD in Arabidopsis start with aspartate and occur in the plastid[J]. Plant Physiology,141 (3):851-857.
[9]Khan S,Pandey S S,Jyotshna,et al. Cloning and functional characterization of quinolinic acid phosphoribosyl transferase (QPT) gene of Nicotiana tabacum[J]. Physiologia Plantarum,2017,160(3):253-265.
[10]Apel K,Hirt H. Reactive oxygen species:metabolism,oxidative stress,and signal transduction[J]. Annual Review of Plant Biology,2004,55:373-399.
[11]Hidalgo Martinez D,Payyavula R S,Kudithipudi C,et al. Genetic attenuation of alkaloids and nicotine content in tobacco (Nicotiana tabacum)[J]. Planta,2020,251(4):92.
[12]Riechers D E,Timko M P. Structure and expression of the gene family encoding putrescine N-methyltransferase in Nicotiana tabacum:new clues to the evolutionary origin of cultivated tobacco[J]. Plant Molecular Biology,1999,41(3):387-401.
[13]Sato F,Hashimoto T,Hachiya A,et al. Metabolic engineering of plant alkaloid biosynthesis[J]. Proceedings of the National Academy of Sciences of the United States of America,2001,98(1):367-372.
[14]DeBoer K D,Lye J C,Aitken C D,et al. The A622 gene in Nicotiana glauca (tree tobacco):evidence for a functional role in pyridine alkaloid synthesis[J]. Plant Molecular Biology,2009,69(3):299-312.
[15]Kajikawa M,Hirai N,Hashimoto T. A PIP-family protein is required for biosynthesis of tobacco alkaloids[J]. Plant Molecular Biology,2009,69:287-298.
[16]徐秀红,刘金亮,李栋成,等. 不同类型烟草种质的烟碱含量变化与相关基因表达水平[J]. 浙江农业学报,2020,32(9):1555-1563.
[17]Kajikawa M,Shoji T,Kato A,et al. Vacuole-localized berberine bridge enzyme-like proteins are required for a late step of nicotine biosynthesis in tobacco[J]. Plant Physiology,2011,155(4):2010-2022.
[18]Hildreth S B,Gehman E A,Yang H B,et al. Tobacco nicotine uptake permease (NUP1) affects alkaloid metabolism[J]. Proceedings of the National Academy of Sciences of the United States of America,2011,108(44):18179-18184.
[19]Shitan N,Minami S,Morita M,et al. Involvement of the leaf-specific multidrug and toxic compound extrusion (MATE) transporter Nt-JAT2 in vacuolar sequestration of nicotine in Nicotiana tabacum[J]. PLoS One,2014,9(9):e108789.
[20]Tanaka Y,Iwaki S,Sasaki A,et al. Crystal structures of a nicotine MATE transporter provide insight into its mechanism of substrate transport[J]. FEBS Letters,2021,595(14):1902-1913.
[21]Shoji T,Inai K,Yazaki Y,et al. Multidrug and toxic compound extrusion-type transporters implicated in vacuolar sequestration of nicotine in tobacco roots[J]. Plant Physiology,2009,149(2):708-718.
[22]文柳璎. 烟草Rab5鸟苷酸交换因子GEF的鉴定与分析[C]//中国作物学会. 第六届全国小麦基因组学及分子育种大会论文集.杨凌,2015:95.
[23]Hildreth S B,Gehman E A,Yang H B,et al. Tobacco nicotine uptake permease (NUP1) affects alkaloid metabolism[J]. Proceedings of the National Academy of Sciences of the United States of America,2011,108(44):18179-18184.
[24]Chini A,Fonseca S,Chico J M,et al. The ZIM domain mediates homo-and heteromeric interactions between Arabidopsis JAZ proteins[J]. Plant Journal,2009,59(1):77-87.
[25]Zhang H B,Bokowiec M T,Rushton P J,et al. Tobacco transcription factors NtMYC2a and NtMYC2b form nuclear complexes with the NtJAZ1 repressor and regulate multiple jasmonate-inducible steps in nicotine biosynthesis[J]. Molecular Plant,2012,5(1):73-84.
[26]Liu H W,Carvalhais L C,Kazan K,et al. Development of marker genes for jasmonic acid signaling in shoots and roots of wheat[J]. Plant Signaling & Behavior,2016,11(5):e1176654.
[27]Sui X Y,Zhang H B,Song Z B,et al. Ethylene response factor NtERF91 positively regulates alkaloid accumulations in tobacco (Nicotiana tabacum L.)[J]. Biochemical and Biophysical Research Communications,2019,517(1):164-171.
[28]Kato K,Shoji T,Hashimoto T. Tobacco nicotine uptake permease regulates the expression of a key transcription factor gene in the nicotine biosynthesis pathway[J]. Plant Physiology,2014,166(4):2195-2204.
[29]Hu M Y,Zhang H B,Wang B W,et al. Transcriptomic analysis provides insights into the AUXIN RESPONSE FACTOR 6-mediated repression of nicotine biosynthesis in tobacco (Nicotiana tabacum L.)[J]. Plant Molecular Biology,2021,107(1/2):21-36.
[30]Mizusaki S,Kisaki T,Tamaki E. Phytochemical studies on the tobacco alkaloids:Part Ⅸ. Question for nornicotine as a precursor of nicotine[J]. Agricultural and Biological Chemistry,1965,29(8):719-723.
[31]Hayashi S,Watanabe M,Kobayashi M,et al. Genetic manipulation of transcriptional regulators alters nicotine biosynthesis in tobacco[J]. Plant & Cell Physiology,2020,61(6):1041-1053.
[32]Wen L Y,Fukuda M,Sunada M,et al. Guanine nucleotide exchange factor 2 for Rab5 proteins coordinated with GLUP6/GEF regulates the intracellular transport of the proglutelin from the Golgi apparatus to the protein storage vacuole in rice endosperm[J]. Journal of Experimental Botany,2015,66(20):6137-6147.
[33]孔维松,向海英,宋春满,等. 一种敲除烟草NtLNP1基因获得叶形改变且低烟碱含量烟草的方法及应用:CN116217685A[P]. 2023-06-06.
[34]许亚龙,陈千思,谢小东,等. 烟草烟碱相关miRNA筛选及验证[J]. 烟草科技,2021,54(2):10-17.

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备注/Memo

备注/Memo:
收稿日期:2023-12-29
基金项目:福建省烟草公司南平市公司项目(编号:2022350700240103);浙江中烟工业有限责任公司项目(编号:2023330000340127、ZJZY2021B009)。
作者简介:高逸飞(1997—),女,河南郑州人,硕士研究生,主要从事烟草遗传育种与品种改良研究。E-mail:15637184739@163.com。
通信作者:张智强,博士,讲师,主要从事烟草遗传育种与品质改良研究。E-mail:xiao_qiang8866@163.com。
更新日期/Last Update: 2025-01-20