[1]曹庆丰,向太和,孟莎莎,等.长期培养的黄瓜毛状根中外源基因遗传稳定性分析[J].园艺学报,2012,39(8):1583-1588.[2]陈宇,董瑜,张楷燕,等.白英毛状根的培养与薯蓣皂苷元的测定[J].中草药,2016,47(7):1199-1203.[3]姚庆收,陈向明,马玉娥,等.蒙古黄芪毛状根的高效诱导及毛状根生物量和总黄酮含量的比较分析[J].中药材,2017,8(40):1353-1357.[4]张良,王发德,金朝霞,等.金铁锁毛状根皂苷的薄层色谱分析及抑菌活性[J].分子植物育种,2017,12(15):5155-5160.[5]LIOSHINA L G,BULKO O V.Plant regeneration from hairy roots and calluses of periwinkle Vinca mnor L and foxglove purple Digitalis purpurea L[J].Cytol Gen,2014,48:302-307.[6]徐艳.麻疯树毛状根培养体系建立及诱导子对其有效成分含量的影响[D].徐州:江苏师范大学,2013.[7]CHEN Y M,LIU J Y,ZHANG T,et al.Induction of hairy roots in heavy metal hyperaccumulator Sedum alfredii[J].Journal of Tropical and Subtropical Botany,2017,25(2):136-140.[8]刘莉莉,李昌禹.毛状根发展现状研究[J].北方园艺,2014(24):178-182.[9]GUO S H,WANG J D,MA H G.Inducement of hairy roots and establishment of culture system in Glycyrrhiza uralensis Fisch[J].Acta Agriculturae Boreali-occidentalis Sinica,2012,21(12):138-141,157.[10]MAO Y P,MA Y,BU J L,et al.Study on construction of RNAi hairy roots system of Salvia miltiorrhiza plants by in situ infection and its jamming effects[J].World Chinese Medicine February,2018,2(13):256-258,263.[11]孔卫青,杨金宏,卢从德.发根农杆菌诱导桑树毛状根体系的建立[J].西北植物学报,2010,30(11):2317-2320.[12]胡忠,杨军,郭光沁,等.宁夏枸杞发根农杆菌转化系的建立及影响转化因素的研究[J].西北植物学报,2000,20(5):767-771.[13]JIA S S,WANG Y Y,YU F,et al.Ultrasound-assisted enhancement of hair induction efficiency and transgenic hairy root construction of Catharanthus roseus[J].Bulletin of Botanical Research,2018,38(4):604-610.[14]王丽,刘琪,罗志文,等.龙葵毛状根诱导及其抑茵活性的研究[J].安徽农业科学,2015,43(20):63-65,97.[15]HU J,MAO M Q,YANG J,et al.Four kinds of agrobacterium rhizogenes on sterile leaves induction of ardisia crenata sims[J].Acta Bot Boreal,2016,36(2):411-418.[16]LI L X,WEI K H,YAO S C,et al.Establishment and optimization of Sophora tonkinensis hairy root culture[J].Guizhou Agricultural Sciences,2016,44(1):27-31.[17]CHEN W Q,ZHANG H,WANG J F,et al.Optimal cultivation of Rabdosia rubescens hairy roots and the inhibition test of its extract on tumor cell growth[J].Biotechnology Bulletin,2018,34(10):122-128.[18]王成龙.苦荞毛状根的诱导及高频再生体系的建立[D].雅安:四川农业大学,2015.[19]姚庆收,陈向明,丁斐,等.甘草毛状根遗传转化体系的建立及甘草酸和总黄酮含量的测定[J].中药材,2018,9(41):1783-1786.[20]刘传飞,李玲,潘瑞炽,等.发根农杆菌T-DNA基因对3种葛属植物毛状根形态和葛根素含量的影响[J].应用与环境生物学报,2001,7(2):143-146.[21]刘峻,丁家宜,周倩耘,等.真菌诱导子对人参毛状根皂苷生物合成和生长的影响[J].中国中药杂志,2004,29(4):302-305.[22]HAMILL J D,PAR A J,RHODES M J C.New routes to plant secondary products[J].Biotechnology,1987,5:800-804.[23]李林轩.越南槐的毛状根诱导技术研究[D].南宁:广西大学,2016.[24]索艳飞.地黄毛状根诱导体系的建立及毛蕊花糖苷合成关键基因的鉴定[D].郑州:河南农业大学,2016.[25]张淑丽.水飞蓟发状根培养体系的建立及其有效成分的评价[D].长春:吉林农业大学,2014.[26]杜苏瑞.三叶青转基因毛状根的诱导繁殖及其分析[D].杭州:杭州师范大学,2013.[27]SHAO J F,ZHU H W,ZHANG Z,et al.Effects of several factors on hairy root inducement and flavone content of Ginkgo biloba[J].Heilongjiang Agricultural Sciences,2008,6:10-12.[28]李金亭,张元昊,郭晓双,等.怀牛膝毛状根诱导及培养体系的建立[J].河南师范大学学报(自然科学版),2013,5(41):111-114.[29]施和平,王蓓,杨树楠,等.五寸石竹毛状根诱导及其植株再生[J].植物学报,2016,51:363-368.[30]REN R Y,XUE J K,GUO H Y,et al.Induction of hairy root s of Scrophularia buergeriana and its plant regeneration[J].Chinese Bulletin of Botany,2017,52(6):783-787.[31]付春祥,金治平,杨謇,等.新疆雪莲毛状根的诱导及其植株再生体系的建立[J].生物工程学报,2004,20(3):366-371.[32]施和平,朱远锋,曾宝强,等.美洲商陆毛状根诱导及其离体培养的影响因素[J].生物工程学报,2017,33(2):272-283.[33]LI L X,WEI K H,YAO S C,et al.Establishment and optimization of Sophora tonkinensis hairy root culture[J].Guizhou Agricultural Sciences,2016,44(1):27-31.[34]姚庆收,姜吉刚,武玉永,等.培养基种类对花生毛状根株系生物量和白藜芦醇含量的影响[J].生物技术通报,2014(5):174-178.[35]毛莹,袁媛,何希荣,等.不同元素对丹参毛状根生长及丹参酮类成分积累的影响[J].中国实验方剂学杂志,2009,15(11):6-8.[36]芦韦华,潘颀,王芳,等.培养条件对新疆紫草毛状根生长及紫草素含量的影响[J].西北植物学报,2012,32(8):1686-1691.[37]施和平,齐莹,张悦,等.黄瓜毛状根的诱导及细胞分裂素6-BA对其生长和形态的影响[J].生物工程学报,2006,3(22):514-520.[38]刘冬青.不同品系丹参毛状根诱导发生及生产效率的比较研究[D].成都:电子科技大学,2016.[39]XIONG B Q,LIU D Q,LIAO X J,et al.Effects of methyl jasmonate on active ingredient content in hairy roots of Salvia miltiorrhiza[J].Biotechnology Bulletin,2018,34(7):8l-84.[40]邹凯,刘泽波,陈继光,等.甜叶菊毛状根的诱导培养及茉莉酸甲酯对其绿原酸类物质积累的影响[J].食品科学,2017,38(12):89-95.[41]HUANG B Q,LIU M X.The effects of inducers from fungi on several oxidases in salvia miltiorrhiza[J].J HuLazhong Univ.of Sci & Tech,2001,8(29):111-113.[42]韩名宇.矿质元素对丹参次生代谢物积累的影响与调控[D].杭州:浙江理工大学,2015.[43]边丽华,邹琳,周冰谦,等.稀土元素镧对丹参活性物质积累及其合成途径中酶基因表达的影响[J].中国中药杂志,2016,23(41):4345-4349.[44]刘佳,卢克欢,郭双,等.诱导子对颠茄毛状根生长及托品烷类生物碱质量分数的影响[J].西南大学学报(自然科学版),2018,40(5):75-80.[45]GUO S,YANG Y,LIU X,et al.Mechanism exploration on nitrogen metabolism and secondary metabolism in Atropa belladonna hairy roots treated with yeast extract[J].Chinese Traditional and Herbal Drugs WU,2018,43(8):1610-1617.[46]GE S N,ZHANG S X,WANG F,et al.Effects of exogenous substances on the content of secondary metabolites in Arnebiaeuchroma johnst hairy roots[J].Food Science,2016,37(9):160-164.[47]SHI W K,SUN Y Y,SHU Z N,et al.Cloning of polyphenol oxidase gene from salvia miltiorrhiza hairy roots and its expression analysis[J].Acta Bot Boreal Occident Sin,2016,36(9):1735-1742.[48]郭晨,刘春朝,叶和春,等.温度对青蒿毛状根生长和青蒿素生物合成的影响[J].西北植物学报,2004,24(10):1828-1831.[49]齐香君,李雅,施春阳.光质对黄芩毛状根生长及黄芩苷含量的影响[J].安徽农业科学,2012,40(6):3334-3411.[50]QIU D Y,SONG J Y,MA X J,et al.Studies on the mass culture of the hairy roots of Salvia mihiorrhiza with bioreactor[J].Molecular Plant Breeding,2004,2(5):699-703.[51]尤红,普倩,文芳,等.ACC脱氨酶菌株的分离筛选及对丹参毛状根的影响[J].浙江理工大学学报(自然科学版),2017,37(5):720-726.[52]ZHU X L,LI P.Induction of hairy roots of fragaria ananassa duch by agrobactrium rhizogene[J].Journal of Anhui Agri Sci,2016,44(12):121-122,135.[53]宗晓秋,张东升,黄文坤,等.发根农杆菌诱导大豆毛状根体系的建立[J].华中农业大学学报,2012,6(31):699-703.[54]YAN C Y,ZHANG Z,YU R M,et al.Studies on biotransformation of arbutin by 4-hydroxy phenol in hairy root of Polygonum multiflorum[J].China Journal of Chinese Materia Medica,2007,32(3):192-195.[55]罗婉娇.甘草转基因毛状根培养体系的建立与IFS基因功能验证[D].保定:河北农业大学,2015.[56]WANG L Q,YUAN B C,MA Y S,et al.Induction and culture of Glycyrrhiza uralensis hairy roots overexpressing 3-Hydroxy-3-Methylglutaryl-CoA reductase gene[J].Letters in Biotechnology,2016,1(27):96-100.[57]ZHOU S,YUAN B C,MA Y S,et al.Culture system establishment of Glycyrrhiza uralensis hairy roots over-expressing squalene synthase 1 gene root-specifically[J].Letters in Biotechnology,2016,5(27):638-642.[58]齐梦蝶,王健,马晓晶,等.丹参〖STHX〗CYP76AH1〖STBZ〗转基因毛状根的建立及其蛋白的分离[J].中国中药杂志,2017,20(42):3901-3905.[59]ZHENG X Y,ZHAO S J.Quantification of mi RNAs in zmC1-modified danshen hairy roots with stem-loop real-time PCR[J].Actauniver Sitatistr Aditionis Medicalis Sinensis Pharmacologiaeque Sanghai,2016,30(2):82-86.[60]李晓丽.转gshB基因油菜毛状根的诱导[D].北京:北京交通大学,2016.[61]ZHANG T,LU Q Y,CHEN Y M,et al.Comparison of responses of three cd-hyperaccumulator hairy roots system under Cd stress[J].Asian Journal of Eco-toxicology,2017,12(4):367-376.[62]李翠芳,王芳,麻浩,等.新疆紫草毛状根提取物的抗氧化活性研究[J].新疆农业科学,2010,47(2):291-295.[63]张良,王发德,金朝霞,等.金铁锁毛状根皂苷的薄层色谱分析及抑菌活性[J].分子植物育种,2017,12(15):5155-5160.[64]欧少云.南美蟛蜞菊毛状根乙醇提取液对种子萌发的影响[J].中国农学通报,2013,29(24):58-61.[65]张继栋,杨雪清,乔爱民,等.木本曼陀罗毛状根植株再生体系的建立[J].热带亚热带植物学报,2008,16(5):480-485.[66]徐洪伟,周晓馥.玉米毛状根再生植株对水分胁迫的响应[J].农业工程学报,2009,11(25):80-84.[67]周晓馥,杨艺,刘培源,等.氮高效玉米毛状根再生植株的光合特性分析[J].分子植物育种,2017,12(15):5248-5252.[68]TAN Y,MI Y,HUANG J,et al.Anatomical comparison of the hairy roots induced by agrobacterium rhizogenes and the seedling roots of Cassia obtusifolial[J].Journal of Sichuan University(Natural Science Edition),2015,2(52):383-387.[69]田思迪,李云芳,张宗申,等.影响金铁锁毛状根生长及皂苷积累的因素[J].时珍国医国药,2012,4(23):824-826.[70]施陆,程诺,潘苗苗,等.金铁锁多倍体毛状根的诱导及性质[J].大连工业大学学报,2017,36(1):14-18.[71]ZHU Y,CHU S S,ZHANG P P,et al.An R2R3-MYB transcription factor GmMYB184 regulates soybean isoflavone synthesis[J].Acta Agronomica Sinica 2018,44(2):185-196.[72]LI L,CHENG C,WU X F,et al.Construction of hairy root induction system and functional analysis of TTG1 gene in Brassica juncea[J].Acta Agronomica Sinica,2018,44(10):1468-1476.[73]李隆.茉莉酸和TTG1(TESTA GLABRA1)对芥菜型油菜毛状根中原花青素合成的影响研究[D].湘潭:湖南科技大学,2019.[74]卢倩云.转基因油菜毛状根对重金属镉胁迫响应及其转录组学研究[D].北京:北京交通大学,2019.