兰州百合鳞茎发育及低温解除休眠过程中内源激素的变化

以兰州百合为试材,研究了鳞茎发育过程中以及2、6、10℃条件下保湿贮藏101 d内母鳞茎与新鳞茎中内源激素的变化。结果表明：鳞茎发育过程中内源ABA含量以及母鳞茎的GA₃与ZR含量增加,而内源IAA含量以及新鳞茎的GA₃与ZR含量下降。低温贮藏期间,母鳞茎与新鳞茎的GA₃、IAA含量均有升高过程,而ABA含量呈下降趋势;新鳞茎的ZR含量呈下降趋势,母鳞茎的ZR含量也有升高过程。低温处理初期的34 d内,内源激素变化最为显著。不同贮藏温度相比较,ABA含量差异不大,GA₃含量随温度升高而下降。在富含淀粉的新鳞茎中,GA₃和ABA表现出极显著的负相关关系,而在淀粉含量较低的母鳞茎中GA₃和ABA无相关性。通径分析结果表明,母鳞茎与新鳞茎的物质代谢机制不同,母鳞茎的物质变化受内源GA₃的调控,新鳞茎主要是ABA作用的结果。     

平阴玫瑰花芽分化期叶片内源激素的变化

对平阴玫瑰花芽分化期叶片甲醇提取物进行IAA、ZR、GA₃、ABA的分离、纯化和测定。结果发现,所测的几种激素均表现出明显的变化规律,其中IAA和GA₃在花芽分化期含量逐渐下降,且在分化临界期出现一低峰,而ZR和ABA则完全相反。同时经比较分析得出ABA/GA₃, ABA/IAA,ZR/GA₃,ZR/IAA也表现明显的变化规律,即比值总体趋势是逐渐提高,且均在分化临界期含量出现一飞跃,显然ABA/GA3,ABA/IAA,ZR/GA₃,ZR/IAA在平阴玫瑰的花芽分化过程中起着重要的调控作用,由此推测,增加植物体内的ABA、ZR的含量或降低IAA、GA₃的含量,都可以促进玫瑰的花芽分化;反之则抑制其花芽分化。     

大气二氧化碳浓度升高对银杏叶片内源激素的影响

采用开顶箱系统,研究了银杏叶片内源激素脱落酸(ABA)、吲哚乙酸(IAA)、玉米素核苷(ZR)和赤霉素(GA₃)对大气CO₂浓度升高(环境CO₂浓度+350 μmol·mol^-1,EC)的响应.结果表明,EC处理能使ABA含量降低,与对照(CK)相比, ABA含量最大降低63.0%(处理后120 d).EC处理使叶片IAA和ZR含量增加,而且随着处理时间的延长,差异均达显著水平;IAA含量在处理后100 d为CK的2倍,ZR含量在处理后80 d时为CK的2.5倍.EC处理使叶片GA₃峰值提前出现. (IAA+GA₃+ZR)/ABA比值随着银杏的生长逐渐降低,在处理后期(处理后40～120 d)明显高于CK,表明大气CO₂浓度升高可促进银杏的生长发育.     

修剪措施对紫叶紫薇花蕾中内源激素和碳氮营养含量的影响

为探讨修剪措施对二次开花的紫叶紫薇花蕾中内源激素和碳氮营养含量的影响,为指导紫叶紫薇花期调控提供理论依据,该研究以‘丹红紫叶’为试验材料,在一次花的末花期对主花枝进行重度修剪,以不进行修剪为对照(CK),分析不同处理下紫叶紫薇花蕾中主要花发育时期的吲哚乙酸(IAA)、脱落酸(ABA)、赤霉素(GA₃)、玉米素核苷(ZR)、可溶性糖、淀粉、全氮含量的变化。结果表明：(1)修剪处理后,紫叶紫薇花蕾中内源ZR含量在各花发育时期显著升高;内源GA₃含量在花芽分化期降低,在初花期至末花期显著升高;内源IAA含量在花芽分化期显著升高,在初花期至末花期降低;内源ABA含量变化不显著。(2)修剪处理后,紫叶紫薇花蕾可溶性糖含量较对照组先升高后降低,在末花期变化达到显著水平;其淀粉、全氮含量增加但未达到显著水平。(3)紫叶紫薇花蕾中碳氮比总体呈上升趋势,修剪处理后其碳氮比值小幅度提高。研究认为,修剪措施能够影响紫叶紫薇内源激素水平变化,并通过调控碳水化合物与全氮含量影响花蕾中碳氮营养代谢,从而促进了紫叶紫薇二次成花、花期延长。     

GA3和IAA对慈竹综纤维和叶绿素含量动态积累的调控效应

以慈竹为材料,研究不同浓度和配比的GA₃和IAA对综纤维和叶绿素含量动态积累的调控效应,为纸浆用竹的遗传改良研究提供理论依据。研究结果表明, GA₃和IAA处理对慈竹综纤维动态积累调控作用具有差异。处理前30 d内,GA₃50IAA200处理慈竹综纤维积累强度高于GA₃200IAA50处理,40~50 d时,则反之。GA₃和IAA处理的综纤维最终水平明显高于空白对照,差异达极显著水平。GA₃和IAA处理能提高慈竹叶绿素含量,GA₃200IAA50处理慈竹叶绿素含量高于GA₃50IAA200处理。相关分析结果表明,叶绿素含量与综纤维含量间呈不显著正相关关系。     

GA3和IAA对慈竹木质素生物合成相关酶活性调控及与木质素含量和S/G的关系

以慈竹为材料,通过叶面喷洒赤霉素（GA₃）和吲哚乙酸（IAA）,研究GA₃和IAA对慈竹木质素生物合成相关酶活性调控效应,以及相关酶活性与木质素含量和S/G比值的关系,为慈竹优质栽培和遗传改良提供理论依据。结果表明,GA-350IAA200处理对4CL酶活性具有促进作用;而GA-3200IAA50在处理后50天时对4CL酶活性起到明显的抑制作用,而且改变了4CL酶活性的动态变化趋势。GA₃和IAA对慈竹CAD酶活性具有促进作用;对PAL酶活性具有明显的抑制作用。相关分析结果表明,经过GA₃和IAA处理后,4CL酶活性与木质素含量和S/G比值呈不显著的负相关关系;PAL酶活性与木质素含量呈不显著的正相关关系;CAD酶活性与木质素含量和S/G比值呈不显著的正相关或负相关关系。结论,GA₃和IAA对慈竹木质素生物合成相关酶活性具有调控效应,而且这种调控作用与GA₃和IAA的浓度和配比有关。     

芍药花开放与衰老过程中生理指标的变化

以芍药品种‘红峰’为材料,对芍药花开放与衰老过程中不同发育时期的膜脂过氧化水平和内源激素(IAA、GA3、iPA、ZR、ABA、Eth)含量的动态变化进行了比较研究。结果显示,芍药花开放过程花瓣SOD活性先升高后下降,而丙二醛含量和细胞膜透性显著增加;随着花开放和衰老花瓣中IAA、iPA含量迅速下降而后小幅回升出现一峰值,开放后又下降;GA3、ZR含量迅速下降维持在较低水平,而衰老后ABA含量和Eth释放量显著增加。结果表明,芍药花开放与衰老过程受内源激素平衡的调节,ABA的积累促进了内源Eth的增加,ABA和Eth与IAA/ABA比率在芍药花的衰老过程中起着关键作用,细胞膜脂过氧化损伤可能是芍药花衰老的重要生理原因。     

Interactive effects of α-NAA and UV-B radiation on the endogenous hormone contents and growth of Trichosanthes kirilowii Maxim seedlings

The impact of UV-B radiation on endogenous hormones in plants has recently drawn attention from researchers. The mechanism for reduced stem elongation by UV-B might be due to changes in the phytohormone levels, especially IAA, which plays a role in stem elongation. In this study, effects of UV-B radiation on Trichosanthes kirilowii Maxim (T. kirilowii) seedlings in greenhouse-grown plants were investigated. The results indicated that: (1) In comparison to controls, exposure to 0.029 Jm^?2 s^?1. UV-B radiation led to accumulation of endogenous abscisic acid (ABA) and zeatinriboside (ZR) in the plant contents, and decreased contents of endogenous indole-3-acetic acid (IAA) and gibberellic acid (GA_1/3). Exposure to UV-B radiation reduced the height and leaf area of plants. As a result, total biomass (plant dry weight) was lower. (2) In comparison to controls, addition of 2 mg l^?1 α-naphthaleneacetic acid (α-NAA) slightly increased the contents of IAA, GA_1/3 and ZR, and decreased the content of ABA in leaves. This addition of α-NAA significantly increased plant height and leaf area, but only slightly increased total biomass. (3) Addition of α-NAA to UV-B-exposed plants: increased the content of endogenous IAA, GA_1/3 and ZR; decreased accumulation of endogenous ABA; and increased plant height and leaf area in comparison to plants that only were exposed to UV-B. Moreover, total biomass increased slightly. This suggests that addition of α-NAA may compensate to a certain extent for the lack of IAA resulting from UV-B radiation; it also increases the content of GA_1/3 and ZR, decreases the accumulation of ABA, and promotes the growth of plants.     

Interactive effects of α-NAA and UV-B radiation on the endogenous hormone contents and growth of Trichosanthes kirilowii Maxim seedlings

The impact of UV-B radiation on endogenous hormones in plants has recently drawn attention from researchers. The mechanism for reduced stem elongation by UV-B might be due to changes in the phytohormone levels, especially IAA, which plays a role in stem elongation. In this study, effects of UV-B radiation on Trichosanthes kirilowii Maxim (T. kirilowii) seedlings in greenhouse-grown plants were investigated. The results indicated that: (1) In comparison to controls, exposure to 0.029 Jm^?2 s^?1. UV-B radiation led to accumulation of endogenous abscisic acid (ABA) and zeatinriboside (ZR) in the plant contents, and decreased contents of endogenous indole-3-acetic acid (IAA) and gibberellic acid (GA_1/3). Exposure to UV-B radiation reduced the height and leaf area of plants. As a result, total biomass (plant dry weight) was lower. (2) In comparison to controls, addition of 2 mg l^?1 α-naphthaleneacetic acid (α-NAA) slightly increased the contents of IAA, GA_1/3 and ZR, and decreased the content of ABA in leaves. This addition of α-NAA significantly increased plant height and leaf area, but only slightly increased total biomass. (3) Addition of α-NAA to UV-B-exposed plants: increased the content of endogenous IAA, GA_1/3 and ZR; decreased accumulation of endogenous ABA; and increased plant height and leaf area in comparison to plants that only were exposed to UV-B. Moreover, total biomass increased slightly. This suggests that addition of α-NAA may compensate to a certain extent for the lack of IAA resulting from UV-B radiation; it also increases the content of GA_1/3 and ZR, decreases the accumulation of ABA, and promotes the growth of plants.     

薇甘菊花芽分化前后内源激素及相关基因表达的研究

以云南省瑞丽市勐秀林场扦插种植的薇甘菊为试材,采用液相色谱串联质谱(LC-MS/MS)技术对花芽未分化期和花序原基分化期花芽中的生长素(IAA)、赤霉素(GA)、脱落酸(ABA)、反式玉米素(tZ)、异戊烯腺嘌呤(IP)、1-氨基环丙烷羧酸(ACC)、茉莉酸(JA)和水杨酸(SA)含量进行定量分析,同时基于转录组基因功能注释数据对内源激素合成、代谢及信号转导途径相关基因进行表达分析,以探讨不同内源激素对薇甘菊花芽形成的调控作用,以及内源激素合成和信号转导途径相关基因调控薇甘菊花芽分化的机制,为后期通过外源激素调控薇甘菊内源激素水平的方式来控制薇甘菊的有性繁殖提供理论和技术支持。结果表明：(1)薇甘菊未分化期花芽中GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ETH含量低于花序原基分化期,而未分化期花芽中两种细胞分裂素tZ和IP含量显著高于花序原基分化期。(2)基于RNA-seq测序结果,在薇甘菊两个花芽分化时期共获得7 116个差异表达基因(DEGs),其中上调3 907个,下调3 209个。(3)在内源激素合成方面,参与GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ACC合成的大量DEGs在花序原基分化期上调表达,这与它们在薇甘菊花序原基分化期的高含量趋势相一致;参与IAA合成的YUCCA基因家族和ACC合成的ACS基因在花序原基分化期的高表达也可能参与促进薇甘菊花芽分化。(4)在植物激素转导途径中,在花序原基分化期,生长素信号转导途径通过AUX/IAA(gene-E3N88_07743)的下调表达和ARF(gene-E3N88_41119)的上调表达,乙烯信号转导途径通过ERF(gene-E3N88_41547)的上调表达,赤霉素信号转导途径通过GID1(gene-E3N88_19448)基因的上调表达,细胞分裂素信号转导途径通过B-ARR(gene-E3N88_28086)和A-RRR(gene-E3N88_40764)基因的下调表达,脱落酸途径通过AREB(gene-E3N88_18558)基因的上调表达,茉莉酸信号转导途径通过JAZ(gene-E3N88_05628)的上调表达和MYC2(gene-E3N88_32405)的下调表达来调控薇甘菊花芽分化。研究发现,高水平的GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ACC有利于薇甘菊的花芽分化;薇甘菊在花芽分化过程中通过改变不同种类内源激素合成、代谢基因的表达来调控激素浓度,而激素又通过信号转导途径引起下游基因的表达,进而调控薇甘菊的花芽分化。     

棉花花芽分化时期茎尖内源激素的变化

实验结果表明,从子叶展平后到肉眼可花芽（现蕾）,所测几种激素（ABA、IAA、GA3、iPA、ZR）的含量均表现出明显的动态变化,而且在花芽分化临界期表现出最显著的变化（出现高峰或出现低峰）。推测所测几种激素均与花芽分化有密切关系。其中ABA、GA3和CTK（iPA、ZR）在花芽分化临界期时,其含量变化均呈现出一个高峰;而IAA则在花芽分化临界期时出现一个低峰。经比较分析得知,随着花芽分化的进行,ABA/IAA、GA3／IAA、CTK／IAA均表现一个较明显的变化规律。即从子叶展平时起,其比值开始上升,到花芽开始分化时达到一个峰值,之后逐渐下降,并维持在一个较稳定的水平。显然,ABA／IAA、GA3／IAA、CTK／IAA在棉花的花芽分化过程中起着重要的调控作用。由此推测,增加植物体内的ABA、GA3、CTK的含量或降低IAA的含量,都可以促进棉花的花芽分化;反之则抑制棉花的花芽分化。     

珍稀濒危植物珙桐种子休眠萌发过程中内源激素的变化

珙桐是我国特有珍稀濒危植物,休眠期长且具二次休眠现象。将处于休眠萌发过程中的珙桐种子依据胚根长度划分为4个阶段,利用高效液相色谱(HPLC)测定各阶段种子及其内果皮中ABA(脱落酸)、GA(赤霉素)、KT(细胞分裂素)、IAA(3-吲哚乙酸)4种内源激素含量,分析其比值动态变化,并与幼苗阶段进行比较。结果显示:未破壳种子的内果皮中内源激素含量以ABA最高,其次是GA、IAA、KT,随着种子破壳后四种激素含量显著降低。除ABA外,种子中GA、IAA和KT含量随着胚根的伸长逐渐升高,但仍低于幼苗阶段。此外,随着胚根伸长,种子中GA/ABA、IAA/ABA、KT/ABA比值逐渐增大,其中以GA/ABA的变化最显著。因此,珙桐种子的休眠和萌发可能主要受ABA和GA的平衡和拮抗来调控。     

Studies on the Active Changes of GA3 and Cytokinins During Development and Ripening in Seabuckthorn Fruits

The phenological stages in seabuckthorn (Hippophae rhamnoides L. Subsp. sinensis Rousi and H. thibetana Schlechted) distributed naturally over an area of Wushao ridge were observed. The changes in levels of endogenous phytohormones GA3, iPA, zeatin, IAA and ABA were investigated systematically during development and ripening periods in the two sorts of fruits. The results showed that two peak values of GA3 level in seeds were detected (in 105—109 days and 128--132 days after anthesis). The first peak value of isopentenyl adenine (IPA) in seeds was determined in 92--96 days when the fruit was starting to change its colour and just right now the zeatin first appeared. The iPA content reached the second peak value in 127-136 days after anthesis during fruit full ripening and beginning to deciduous leaf and the maximum of zeatin in seeds appeared near the same time (in 127 days after anthesis). It was remarkable that the zeatin content in fruit stalk and flesh still was kept on high level, in the meantime the zeatin level in seeds dropped down rapidly. Based on the facts that the time of the first peak value in GA3 and iPA level is close to the date when ABA is first detected, and the date of second peak value in GA3, iPA and IAA is coincident with the time of maximum in ABA and zeatin levels make it reasonable to consider that the balance of phytohormones may be more important than absolute amounts of any single hormone during the periods of fruit development and ripening, and meanwhile it also proved that GA3 and CTK play an important regulatory role in controlling fruit ripening and colour changing process of seabuckthorn fruit.     

甘蔗节间伸长过程赤霉素生物合成关键基因的表达及相关植物激素动态变化

以甘蔗(Saccharum officinarum)优良品种桂糖42号(GT42)为研究材料, 分别于未伸长期(9-10叶龄以前) (Ls1)、伸长初期(12-13叶龄) (Ls2)和伸长盛期(15-16叶龄) (Ls3)取甘蔗第2片真叶(自顶部起)对应的节间组织, 测定其赤霉素(GA)、生长素(IAA)、油菜素甾醇(BR)、细胞分裂素(CTK)、乙烯(ETH)和脱落酸(ABA)的含量, 并通过实时荧光定量PCR (qRT-PCR)分析赤霉素合成途径关键基因GA₂₀氧化酶基因(GA20-Oxidase1)、赤霉素受体基因(GID1)和DELLA蛋白编码基因(GAI)的差异表达。结果表明, 在甘蔗伸长期间, GA和IAA含量呈现上升趋势, CTK和ABA含量呈下降趋势, ETH含量先上升后下降, BR含量则变化不明显; GA20-Oxidase1和GID1的表达呈上升趋势, 而GAI的表达则呈下降趋势, 这与相关植物激素的变化基本一致。综上, 甘蔗节间伸长过程主要与GA和IAA相关, 其次为CTK和ABA, 而ETH受到IAA的调控影响节间伸长; 植物激素间通过相互作用调控GA20-Oxidase1、GID1和GAI的表达, 影响GA含量和GA的信号转导过程, 进而影响甘蔗节间的伸长。该研究揭示了甘蔗节间伸长过程中赤霉素生物合成途径和信号转导关键基因的差异表达及植物激素含量的动态变化规律。     

甘蔗节间伸长过程赤霉素生物合成关键基因的表达及相关植物激素动态变化

以甘蔗(Saccharum officinarum)优良品种桂糖42号(GT42)为研究材料, 分别于未伸长期(9-10叶龄以前) (Ls1)、伸长初期(12-13叶龄) (Ls2)和伸长盛期(15-16叶龄) (Ls3)取甘蔗第2片真叶(自顶部起)对应的节间组织, 测定其赤霉素(GA)、生长素(IAA)、油菜素甾醇(BR)、细胞分裂素(CTK)、乙烯(ETH)和脱落酸(ABA)的含量, 并通过实时荧光定量PCR (qRT-PCR)分析赤霉素合成途径关键基因GA₂₀氧化酶基因(GA20-Oxidase1)、赤霉素受体基因(GID1)和DELLA蛋白编码基因(GAI)的差异表达。结果表明, 在甘蔗伸长期间, GA和IAA含量呈现上升趋势, CTK和ABA含量呈下降趋势, ETH含量先上升后下降, BR含量则变化不明显; GA20-Oxidase1和GID1的表达呈上升趋势, 而GAI的表达则呈下降趋势, 这与相关植物激素的变化基本一致。综上, 甘蔗节间伸长过程主要与GA和IAA相关, 其次为CTK和ABA, 而ETH受到IAA的调控影响节间伸长; 植物激素间通过相互作用调控GA20-Oxidase1、GID1和GAI的表达, 影响GA含量和GA的信号转导过程, 进而影响甘蔗节间的伸长。该研究揭示了甘蔗节间伸长过程中赤霉素生物合成途径和信号转导关键基因的差异表达及植物激素含量的动态变化规律。     

银杏芽中内源激素与大小年结实的关系

为探讨银杏大、小年结实现象的生理原因,于2004～2005年,用ELISA(间接酶联免疫法)对银杏大年树和小年树果芽和叶芽内的IAA,GA,ZR和ABA含量进行了对比测定。结果表明:大年树IAA、ZR和ABA含量在果芽和叶芽之间的比值均高于小年树,GA含量在果芽和叶芽之间的比值则低于小年树,有利果芽分化生长,形成大年;果芽中较高水平的ZR、IAA和ABA与较低水平的GA,以及萌芽前期较高的IAA/GA,ZR/GA和ABA/GA等比值,有利果芽分化,形成大年;叶芽中较高的ZR、IAA和较低的ABA有利于形成大年生长,尤其是ZR含量在萌芽前期或中期升高与形成大年生长关系密切。     

Fluctuation in levels of endogenous plant hormones in ovules of normal and mutant cotton during flowering and their relation to fiber development

The contents of indole-3-acetic acid (IAA), gibberellins (GAs), abscisic acid (ABA), and cytokinins were determined in ovules of normal cotton (Tm-1) and a kind of fiber differentiation mutant (Xin) before and after flowering by enzyme-linked immunosorbent assays. It was found that 24 h before flowering, a peak of IAA content was observed in ovules of Tm-1, whereas in ovules of Xin, a low level of IAA was determined. From –1 day (1 day before flowering) to +3 days (3 days after flowering), GA₁₊₃ levels in ovules of Xin were 40–70% lower than those of Tm-1; GA₄₊₇ levels were very low, and there was no visible difference in GA₄₊₇ content between normal and mutant cotton. The ABA content in ovule of Tm-1 decreased by 70% 3 days after flowering, whereas that of Xin only decreased by 20%. The levels of cytokinins in ovules of Tm-1 decreased after flowering, and those of Xin kept up a steady increase.Abbreviations IAA indole-3-acetic acid - GA gibberellin - ABA abscisic acid - ELISA enzyme-linked immunosorbent assay - FW fresh weight - PBS phosphate-buffered saline - iPA isopentenyladenosine - ZR zeatin riboside - DHZR dihydrozeatin riboside - CTK cytokinin     

多胺对菊花激素含量与花芽分化的影响

以切花菊（Dendranthema morifolium）品种‘神马’为试材,外源喷施0．1mmol·L-1的亚精胺（Spd）与多胺合成抑制剂D-精氨酸（D．Arg）,转入昼10h／夜14h的短日条件下进行开花诱导,测定不同花芽分化时期顶芽内源多胺[腐胺（Put）、亚精胺（Spd）、精胺（spm）]和几种激素[生长素（IAA）、玉米素核苷（ZR）、异戊烯基腺苷（iPA）、赤霉素（GA）]含量的动态变化,分析多胺对激素和花芽分化的作用关系。结果表明,外源多胺和多胺合成抑制剂能够显著影响顶芽内源多胺（Put、Spd、Spm）和激素（IAA、ZR、iPA、GA）的含量,顶芽内高水平多胺有利于菊花花芽分化的启动和保持;外源多胺及多胺合成抑制剂可能通过影响内源多胺含量从而影响内源激素或者直接影响内源激素和内源多胺,进而调控花芽分化：内源Put与IAA关系密切,高水平的内源Put不利于IAA的积累;ZR和iPA含量与内源多胺总量的变化趋势一致;外源多胺及多胺合成抑制剂对GA的影响主要在花序分化期和小花分化期,且高水平的内源Spd和Put不利于GA的积累。     

金塔柏扦插不定根形成与内源激素的调控研究

金塔柏（Platycladus orientalis ‘Beverleyensis’）是重要的观赏树种。生长素（IAA）、玉米素（ZT）、脱落酸（ABA）和茉莉酸（JA）在金塔柏扦插不定根再生过程中起着重要的调控作用,但不同发育阶段内源激素的动态变化及其对不定根发生的影响仍不清楚。以金塔柏半木质化枝条为材料,采用连续组织切片技术观察了不定根发生过程,利用高效液相色谱串联质谱法检测了4种内源激素含量的动态变化。结果表明,金塔柏不定根原基起源于愈伤组织、髓射线、木质部、维管形成层、次生韧皮部、皮层、髓射线与形成层交界处等部位,属于多位点发生模式和多类型生根方式。在不定根形成过程中,随着愈伤组织的形成,IAA和ZT含量下降,ABA和JA含量升高;随着根原基的分化,IAA和ZT含量缓慢升高,ABA和JA含量下降;随着不定根形成与伸长,IAA、ZT、JA逐渐升高,ABA维持在低水平。激素平衡分析发现,IAA/ABA比值和IAA/JA比值下降、IAA/ZT比值上升利于愈伤组织的形成,反之利于根原基的诱导分化,而IAA/ABA比值升高,IAA/ZT和IAA/JA维持在较低水平利于不定根形成与伸长。研究结果为揭示不同内源激素对金塔柏扦插不定根再生的调节作用提供了依据。