CHEN Jiabao,YAN Daoliang,ZHENG Bingsong.Research Progress of the Mechanism onAdventitious Root Induction in Plant[J].Northern Horticulture,2021,(06):129-137.[doi:10.11937/bfyy.20202408]
植物不定根诱导生成机制研究进展
- Title:
- Research Progress of the Mechanism onAdventitious Root Induction in Plant
- 文献标志码:
- A
- 摘要:
- 不定根诱导发生是研究植物发育和形态建成的一个重要理论课题,也是优良林木无性繁殖、成功实现转基因材料植株再生以及加速林业产品原料植物规模化栽培的关键问题。植物不定根的发生是一个十分复杂且多因素影响的过程,是植物体内的内源因素和体外的外源因子共同作用的过程。该研究通过归纳国内外关于不定根发生的形态解剖、生理生化、植物分子方面的研究进展,分析不定根发生过程中存在的不同影响因素及其影响效果,以期为植物不定根诱导研究提供有力的理论依据,并为实践中植物无性繁殖诱导不定根提供参考依据。
- Abstract:
- Rooting induction is an important theoretical subject in the study of plant development and morphogenesis.It is also a key issue in the asexual propagation of fine trees,the successful regeneration of transgenic plants and the acceleration of large-scale cultivation of forestry products.The occurrence of adventitious roots in plants is a complicated and complex process with multiple factors.Inducing plant adventitious roots has important practical significance in the asexual
参考文献/References:
[1]BLAKESLEY D.Auxin metabolism and adventitious root initiation[J].Biology of Adventitious Root Formation,1994,62:143-154.[2]黄有军,王正加,郑炳松,等.植物生长调节剂对薄壳山核桃硬枝杆插生根的影响[J].西南林学院学报,2006,26(5):42-44.[3]SHAMON L A,PEZZUTO J M,GRAVES J M,et al.Evaluation of the mutagenic,cytotoxic,and antitumor potential of Triptolide,a highly oxygenated diterpone isolated from Tripterygium wilfordii[J].Cancer Letter,1997,112(1):113-117.[4]KOYUNCU F,BALTA F.Adventitious root formation in leaf-bud cuttings of tea (Camellia sinensis).Pakistan Journal of Botany,2004,36(4):763-768.[5]董宁光.杨树嫩茎生根机理及调控激素的组织细胞原位分析[D].北京:北京林业大学,2012.[6]EDWARDS R A,THOMAS M B.Observations on physical barriers to root formation in cuttings[J].Plant Propagator,1980(5):6-8.[7]吕梅,方炎明,尹增芳.桤木插穗不定根发生与发育的解剖学观察[J].西北植物学报,2007(5):19-25.[8]韩碧文,李颖章.植物组织培养中器官建成的生理生化基础[J].植物学通报,1993,10(2):1-6.[9]PARK S H,ELHITI M,WANG H,et al.Adventitious root formation of in vitro peach shoots is regulated by auxin and ethylene[J].Scientia Horticulturae,2017,226:250-260.[10]卢善发.离体茎段嫁接体内IAA的免疫组织化学定位[J].科学通报,2000(8):856-860.[11]DHARMASIRI N.Auxin signaling and regulated protein degradation[J].Trends in Plant Science,2004,9(6):302-308.[12]STEFFEN V,IVE D S,LIES M.Auxin regulation of cell cycle and its role during lateral root initiation[J].Physiologia Plantarum,2005,123(2):139-146.[13]QIN G,GU H,ZHAO Y,et al.An indole-3-acetic acid carboxyl methyltransferase regulates Arabidopsis leaf development[J].The Plant Cell Online 2005,17(10):2693-2704.[14]DING X,CAO Y,HUANG L,et al.Activation of the indole-3-acetic acid-amido synthetase 〖STBX〗GH3-8 〖STBZ〗suppresses expansin expression and promotes salicylate-and jasmonate-independent basal immunity in rice[J].The Plant Cell Online,2008,20(1):228-240.[15]WU F T,BARNES M F.Hormone levels in stem cuttings of difficult-to-root and easy-to-root rhododendrons 1[J].Biohemie Und Physiologie Der Pflanzen,1981,176(1):13-22.[16]LIN基 Q,WU F,SHENG P,et al.The SnRK2-APC/CTE regulatory module mediates the antagonistic action of gibberellic acid and abscisic acid pathways[J].Nature Communications,2015(6):7981.[17]YIN C C,MA B,COLLINGE D P,et al.Ethylene responses in rice roots and coleoptiles are differentially regulated by a carotenoid isomerase-mediated abscisic acid pathway[J].The Plant Cell,2015,27(4):1061-1081.[18]李晓冰.生长素、乙烯利对大豆生根及茎伸长的调控作用[D].哈尔滨:东北农业大学,2018.[19]迟彦,侯义龙,于亚军,等.芽变毛白杨及其亲缘种扦插生根过程中内源激素含量的动态变化[J].安徽农业科学,2007(27):8438-8439.[20]JING G,HONG C,HUIFANG Y,et al.A brassinosteroid responsive miRNA-target module regulates gibberellin biosynthesis and plant development[J],New Phytologist,2018(1):220.[21]TONG H,XIAO Y,LIU D,et al.Brassinosteroid regulates cell elongation by modulating gibberellin metabolism in rice[J].The Plant Cell Online,2014,26(11):4376-4393.[22]LYU P T,ZHANG C,LIU J,et al.〖STBX〗RhHB1 〖STBZ〗mediates the antagonism of gibberellins to ABA and ethylene during rose (Rosa hybrida) petal senescence[J].Plant Journal,2014,78(4):578-590.[23]HU Y,ZHOU L,HUANG M,et al.Gibberellins play an essential role in late embryogenesis of Arabidopsis[J].Nature Plants,2018,4(5):289-298.[24]TAN H,MAN C,XIE Y,et al.A crucial role of GA-regulated flavonol biosynthesis in root growth of Arabidopsis[J].Molecular Plant,2019,12(4):521-537.[25]OKORO O O,GRACE J.The Physiology of rooting populus cuttings,2:Cytokinin activity in leafless hardwood cuttings[J].Physiologia Plantarum,1978,44(3):167-170.[26]PELOSI A,CHOW E K F,LEE M C S,et al.Effects of phytohormones on lateral root differentiation in Eucalyptus globulus and transgenic Nicotiana tabacum seedlings[C].New York:Current Issues in Plant Molecular and Cellular Biology,1995.[27]唐玉林,陈婉芬.烟草叶块分化根和芽过程中内源激素水平的变化[J].南京农业大学学报,1996,19(2):12-16.[28]孙贝贝.生长素和细胞分裂素的內源合成控制根从头发生的机制研究[D].上海:上海师范大学,2017.[29]ZOU X,SHAO J,WANG Q,et al.Supraoptimal cytokinin content inhibits rice seminal root growth by reducing root meristem size and cell length via increased ethylene content[J].International Journal of Molecular Sciences,2018,19(12):1-16.[30]STASWICK P E,SU W,HOWELL S H.Methyl jasmonate inhibition of root growth and induction of a leaf protein are decreased in an Arabidopsis thaliana mutant[J].Proceedings of the National Academy of Sciences,1992,89(15):6837-6840.[31]FATTORINI L,FALASCA G,KEVERS C,et al.Adventitious rooting is enhanced by methyl jasmonate in tobacco thin cell layers[J].Planta,2009,231(1):155-168.[32]张培安,左倩倩,董天宇,等.茉莉酸甲酯对葡萄植株不定根发育的影响[J].园艺学报,2018,45(12):60-75.[33]CHEN Q,SUN J,ZHAI Q,et al.The basic helix-loop-helix transcription factor MYC2 directly represses PLETHORA expression during jasmonate-mediated modulation of the root stem cell niche in Arabidopsis[J].The Plant Cell,2011,23(9):3335-3352.[34]REN基 C,HAN C,PENG W,et al.A leaky mutation in DWARF4 reveals an antagonistic role of brassinosteroid in the inhibition of root growth by jasmonate in Arabidopsis[J].Plant Physiol,2009,151(3):1412-1420.[35]LU J,JU H,ZHOU G,et al.An EAR-motif-containing ERF transcription factor affects herbivore-induced signaling,defense and resistance in rice[J].Plant Journal,2011,68(4):583-596.[36]XU L,ZHAO H,RUAN W,et al.Abnormal inflorescence meristemi 1 functions in salicylic acid biosynthesis to maintain proper reactive oxygen species levels for root meristem activity in rice[J].The Plant Cell,2017,29(3):560-574.[37]GUO P,LI Z,HUANG P,et al.A tripartite amplification loop involving the transcription factor WRKY75,salicylic acid,and reactive oxygen species accelerates leaf senescence[J].The Plant Cell,2017,29(11):2854-2870.[38]NAJAFABADI A S,KHANAHMADI M,EBRAHIMI M,et al.Effect of different quality of light on growth and production of secondary metabolites in adventitious root cultivation of Hypericum perforatum[J].Plant Signaling & Behavior,2019,14(9):1-9.[39]黄滔,高文远,王娟,等.离体培养条件对人参不定根生长及其活性成分合成的影响[J].中国中药杂志,2010(1):15-19.[40]BAQUE M A,SHIN Y K,ELSHMARI T,et al.Effect of light quality,sucrose and coconut water concentration on the microporpagation of Calanthe hybrids (‘Bukduseong’× ‘Hyesung’ and ‘Chunkwang’בHyesung’)[J].Australian Journal of Crop Science,2011,5(10):1247-1254.[41]CUI X H,MURTHY H N,WU C H,et al.Adventitious root suspension cultures of Hypericum perforatum:Effect of nitrogen source on production of biomass and secondary metabolites[J].In Vitro Cellular & Developmental Biology Plant,2010,46(5):437-444.[42]HUANG T,GAO W Y,WANG J,et al.Cultivation and quality assessment of tissue cultures in Panax ginseng C.A.Meyer[J].Minerva Biotecnologica,2010,22(2):39-45.[43]LEE E J,PAEK K Y.Effect of nitrogen source on biomass and bioactive compound production in submerged cultures of Eleutherococcus koreanum nakai adventitious roots[J].Biotechnology Progress,2012,28(2):508-514.[44]尹双双,高文远,王娟,等.药用植物不定根培养的影响因素[J].中国中药杂志,2012(24):20-23.[45]袁媛,吕冬梅,黄璐琦,等.苍术不定根诱导培养的研究[J].中国中药杂志,2007,32(1):65.[46]陈家龙,王广东,郝日明.冬青的组织培养与快速繁殖技术[J].温州农业科技,2007(4):37-40.[47]GRAAFF E V D,LAUX T,RENSING S A.The WUS homeobox-containing (WOX) protein family[J].Genome Biology,2009,10(12):248.[48]LI J,ZHANG J,JIA H,et al.The WUSCHEL-related homeobox 5a 〖STBX〗(PtoWOX5a) 〖STBZ〗is involved in adventitious root development in poplar[J].Tree Physiology,2018,38(1):139-153.[49]XU M,XIE W,HUANG M.Two WUSCHEL-related HOMEOBOX genes,〖STBX〗PeWOX11a 〖STBZ〗and 〖STBX〗PeWOX11b〖STBZ〗,are involved in adventitious root formation of poplar[J].Physiologia Plantarum,2015,155(4):446.[50]HU X,XU L.Transcription factors 〖STBX〗WOX11/12 〖STBZ〗directly activate 〖STBX〗WOX5/7 〖STBZ〗to promote root primordia initiation and organogenesis[J].Plant Physiology,2016,172(4):2363.[51]GALWEILER L,GUAN C,MULLER A,et al.Regulation of polar auxin transport by 〖STBX〗AtPIN1 〖STBZ〗in Arabidopsis vascular tissue[J].Science,1998,282,5397:2226-2230.[52]MARKUS S,OLGA S,DOREEN S,et al.D′orenone blocks polarized tip growth of root hairs by interfering with the PIN2-mediated auxin transport network in the root apex[J].The Plant Journal,2008,55(4):709-717.[53]SMITH RS,GUYOMARCH S,MANDEL T,et al.A plausible model of the floral phyllotaxis of sunflower[J].Proc Natl Acad Sci USA,2008,103(5):1301-1306.[54]王芳芳.蓝光通过影响PIN3介导的生长素运输调控植物不定根产生的机理研究[D].武汉:武汉大学,2018.[55]SHAUNI M.Investigating a feed-forward loop of transcription factors that acts in plant vascular development[D].Durham:Durham University (master′s thesis),2018.[56]石玉,沈诗雅,张倩茹,等.LBD基因家族研究进展[J].中国细胞生物学学报,2019,41(4):738-745.[57]GUTIERREZ L,BUSSELL J D,PACURAR D I,et al.Phenotypic plasticity of adventitious rooting in arabidopsis is controlled by complex regulation of auxin response factor transcripts and Micro RNA abundance[J].Plant Cell,2009,21(10):3119-3132.[58]GUILFOYLE G,HAGEN G G.Auxin response factors[J].Current Opinion in Plant Biology,2007(10):453-460.
相似文献/References:
[1]马玲玲,王 鹏,王淑安,等.取材时间和激素对“豫楸1号”腋芽诱导的影响[J].北方园艺,2014,38(13):84.
MA Ling-ling,WANG Peng,WANG Shu-an,et al.Effect of Sampling Time and Hormones on Axillary Buds Induction of ‘Yuqiu No.1’[J].Northern Horticulture,2014,38(06):84.
[2]鲍林文,陈哲皓,钟丹,等.不同激素组合对黄瓜“露地二号”离体子叶再生芽诱导的影响[J].北方园艺,2013,37(13):100.
BAO Lin-wen,CHEN Zhe-hao,ZHONG Dan,et al.Effects of Different Hormones on Buds Regeneration Induction from ?Cotyledons in Cucumber ‘Ludi No.2’[J].Northern Horticulture,2013,37(06):100.
[3]黄俊轩,刘艳军,李建科,等.以花椰菜花球为外植体的离体再生体系的建立[J].北方园艺,2014,38(05):88.
HUANG Jun-xuan,LIU Yan-jun,LI Jian-ke,et al.Regeneration of Cauliflower by in vitro Flower Bulb[J].Northern Horticulture,2014,38(06):88.
[4]韦善君,武运芳,杨林,等.新疆雪莲叶片高效再生植株体系的建立[J].北方园艺,2014,38(05):98.
WEI Shan-jun,WU Yun-fang,YANG Lin,et al.Establishment of High Frequency Plant Regeneration System From the Leaf of Saussurea involucrate[J].Northern Horticulture,2014,38(06):98.
[5]郭朋伟,高晔华,高日,等.“贝吉佳”草莓脱毒苗增殖的研究[J].北方园艺,2013,37(10):110.
GUO Peng-wei,GAO Ye-hua,GAO Ri,et al.Study on Proliferation of Virusfree Strawberry ‘Bechika’[J].Northern Horticulture,2013,37(06):110.
[6]高 婷.桂花嫩枝扦插繁殖技术[J].北方园艺,2013,37(18):78.
GAO Ting.Technology of Softwood Cuttings Propagation in Osmanthus fragrans (Thunb) Lour.[J].Northern Horticulture,2013,37(06):78.
[7]邵元健,周蒋陈.一品红组培苗快繁技术的研究[J].北方园艺,2012,36(02):127.
SHAO Yuan-jian,ZHOU Jiang-chen.Study on the Tissue Culture Technology of the Seedling Propagation in Euphorbia pulcherrima Wild[J].Northern Horticulture,2012,36(06):127.
[8]金亚征,姚太梅,丁丽梅,等.果树花芽分化机理研究进展[J].北方园艺,2013,37(07):193.
JIN Ya-zheng,YAO Tai-mei,DING Li-mei,et al.Research Progress on the Mechanism of Flower Bud Differentiation of Fruit Trees[J].Northern Horticulture,2013,37(06):193.
[9]高晔华,郭朋伟,高 日,等.黑果腺肋花楸组培苗生根培养及驯化的研究[J].北方园艺,2013,37(09):105.
GAO Ye-hua,GUO Peng-wei,GAO Ri,et al.Study on Rooting and Acclimatization in the Process of Tissue Culture of Aronia melanocarpa [J].Northern Horticulture,2013,37(06):105.
[10]高晔华,郭朋伟,吴荣哲.黑果腺肋花楸组培苗增殖的初步研究[J].北方园艺,2012,36(17):119.
GAO Ye-hua,GUO Peng-wei,WU Rong-zhe.Primary Study on Tissue Culture Proliferation of Aronia melanocarpa[J].Northern Horticulture,2012,36(06):119.
备注/Memo
第一作者简介:陈佳宝(1997-),女,硕士研究生,研究方向为林业资源开发利用。E-mail:769024304@qq.com.责任作者:郑炳松(1972-),男,博士,教授,现主要从事经济林培育与利用、植物生理生化等研究工作。E-mail:bszheng@zafu.edu.cn.基金项目:国家林业和草原局林业科技发展资助项目(KJZXSA2019034)。收稿日期:2020-06-10