光叶楮扦插生根的吲哚乙酸氧化酶、多酚氧化酶、过氧化物酶活性变化研究

对光叶楮扦插生根过程中吲哚乙酸氧化酶（IAAO）、多酚氧化酶（PPO）、过氧化物酶（POD）3种酶进行了动态跟踪分析。结果表明：IAAO活性在扦插初期逐渐上升,第10d上升到高峰,之后下降再上升,第30d达到新高峰,然后迅速下降;前25d POD活性变化规律与IAAO相似,但30d以后活性一直上升;PPO活性在扦插前期缓慢上升,第20d上升到了最高点,此后变化不大。还研究了IAAO、PPO、POD与不定根的发生和发展关系,认为光叶楮扦插生根可分为愈伤组织形成期、根诱导期和根的伸长期3个阶段,愈伤组织形成期3种酶活性都呈上升趋势,根诱导期IAAO和POD的活性达到高峰;而根伸长期IAAO和POD活性下降,PPO活性上升。     

合欢硬枝扦插生根解剖及相关酶活性变化研究

以合欢1年生硬枝为试材,通过石蜡切片法对合欢插穗不定根发生进行解剖学研究,同时,利用比色法对扦插后不同时间的材料进行了过氧化物酶(POD)、多酚氧化酶(PPO)和吲哚乙酸氧化酶(IAAO)测定。结果表明:合欢属于诱导型生根,观察到其不定根原基起源于形成层;在整个生根过程中,处理组和对照组的POD、PPO和IAAO酶活变化趋势基本一致,但3种酶活均高于对照。     

沙生柽柳扦插生根过程插穗相关理化特征分析

选取沙生柽柳半木质化枝条进行苗床扦插,通过实验测定插穗生根过程中内源激素(IAA、GA3、ZR、ABA)含量、可溶性营养物质(糖、蛋白质)含量及相关氧化酶(PPO、POD、SOD、IAAO)活性的动态变化特征,探讨沙生柽柳插穗扦插生根机理。结果表明:(1)沙生柽柳插穗内源激素含量随生根进程而发生变化,其中,IAA含量在扦插35d最大,并出现较大的波动变化;ZR含量在扦插55d前后变化明显,呈现低水平向高水平转化趋势;ABA、GA3含量依次呈先升高后降低再升高的变化过程,并在扦插15d和55d(80d)呈现变化的峰值和谷值。(2)沙生柽柳扦插生根与相关氧化酶活性密切相关,其中,POD、IAAO活性在插穗扦插35d后长时间保持较高水平,直至插穗生根后POD活性明显降低,IAAO活性有所增加;PPO、SOD活性则在插穗扦插15d保持较高活性,且PPO活性的变化均匀,SOD活性的高低交替变化明显。(3)在沙生柽柳扦插生根期间,插穗可溶性糖含量呈现生根前消耗减少与生根后积累增加两大变化过程,可溶性蛋白质含量表现为扦插后逐步积累增加的变化趋势。研究表明,高水平的IAA、ZR和低水平的GA3、ABA共同调控着沙生柽柳插穗生根;IAA能够通过促进插穗POD、PPO、IAAO活性变化来影响生根,较高的POD、IAAO活性可调节插穗IAA水平,高水平的PPO活性则催化插穗IAA-酚酸复合物的形成,进而诱导插穗生根。     

外源激素对四倍体刺槐硬枝扦插生根及其关联酶活性的影响

取四倍体刺槐3年生采穗圃中当年生枝条为插穗,研究了外源激素种类、浓度、处理时间对硬枝插穗生根的影响及生根过程中3种关联酶吲哚乙酸氧化酶(IAAO)、过氧化物酶(POD)和多酚氧化酶(PPO)活性变化规律,以揭示四倍体刺槐插穗生根难的机理.结果显示:(1)四倍体刺槐硬枝插穗生根过程可分愈伤组织诱导期(0～20d)、根源基诱导期(20～30 d)、不定根表达与伸长期(30～45 d)3个阶段.(2)未经外源激素处理的插穗不生根,而激素处理可显著提高插穗生根率,促进根系发育,且IBA处理效果优于GGR6;激素处理浓度与时间无显著互作效应,但插穗生根综合效果随着处理时间和浓度的增加而升高;插穗的平均生根量和生根率在1 000 mg?L-1IBA处理6 h时达到最高,分别为11.74和55.56%.(3)IAAO、PPO是影响四倍体刺槐生根的关键酶,POD影响较小;外源激素处理插穗内IAAO和PPO活性呈先升高后下降的趋势,且均在根源基诱导期达到峰值;对照插穗内IAAO活性峰值出现在愈伤组织诱导期,而其PPO活性一直降低;激素处理和对照插穗内POD活性随着处理时间持续升高.研究表明,外源IBA和GGR6处理均可明显改变与四倍体刺槐插穗生根密切关联的氧化酶IAAO和PPO活性,提高生根率,促进根系发育,且IBA处理效果优于GGR6.     

插壤温度对四倍体刺槐硬枝插条生根过程中生理生化的影响

取四倍体刺槐3年生采穗圃中1年生硬枝插条为材料,研究扦插过程中插壤温度对插穗内源激素含量、酶活性和营养物质含量的影响,揭示四倍体刺槐扦插生根机制。结果表明：四倍体刺槐硬枝扦插过程中,插壤经加热处理,插穗内源IAA含量降低,ABA和ZR含量升高;根原基诱导期插穗内源IAA含量的变化趋势与未加热插穗相反,ABA和ZR含量的变化趋势与未加热插穗相同。插壤经加热处理,插穗IAAO、PPO和POD活性的变化趋势与未加热插穗相同,两处理间插穗IAAO、PPO和POD活性差异不显著。插壤经加热处理,可显著提高插穗可溶性蛋白和可溶性糖含量,而对淀粉和植物总氮含量的影响差异不显著。因此,插壤加热处理,主要是通过降低四倍体刺槐硬枝插穗内源IAA含量,提高插穗可溶性蛋白和可溶性糖含量来促进插条不定根发生。     

不定根向重力性定点角不同的苹果自根砧插穗内源激素差异分析

研究不定根向重力性定点角(GSA)不同的苹果(Malus spp.)自根砧木在嫩枝扦插生根过程中的插穗中内源激素含量动态变化,为通过外源激素调控不定根GSA提供理论依据。以八年生苹果‘国光’(M.pumila cv.Ralls)与海棠(M.sp.)杂交实生苗的当年生枝条为试验材料,于5月中旬进行嫩枝扦插,筛选出不定根GSA不同的株系,并于次年再次进行嫩枝扦插,在扦插后0、8、16、24和32 d随机取插穗基部检测内源激素含量。试验结果表明:(1)按照扦插苗不定根GSA的不同,可把苹果自根砧苗木分为3类:30°≤GSA≤60°的不定根比例不小于50%,且GSA30°的不定根比例大于GSA60°的比例的自根砧,属于深层根型(DRT);30°≤GSA≤60°的不定根比例不小于50%,且GSA30°的不定根比例小于GSA60°的比例的自根砧,属于中间根型(IRT);GSA60°的不定根比例不小于50%,且30°≤GSA≤60°的不定根比例大于GSA30°的比例的自根砧,属于浅层根型(SRT)。(2)在苹果自根砧嫩枝扦插生根过程中,3种根型插穗内吲哚乙酸(IAA)含量的变化趋势呈"倒V"形,脱落酸(ABA)和异戊烯基腺嘌呤(iPA)含量呈下降趋势,玉米素核苷(ZR)含量呈"下降-上升-下降"的趋势;赤霉素(GA3)含量在中间根型插穗中的变化趋势呈"倒V"形,在深、浅层根型的则呈"V"形;扦插16 d后,插穗中IAA含量表现为深层根型中间根型浅层根型,ZR和GA_3含量表现为深层根型中间根型浅层根型,ABA和iPA含量表现为中间根型浅层根型深层根型,IAA/GA_3、IAA/ZR和IAA/iPA比值表现为深层根型中间根型浅层根型。扦插16 d后,不定根GSA越小,插穗中IAA含量越少,ZR和GA_3含量越多,IAA/GA_3、IAA/ZR和IAA/iPA比值越小。生长素是参与不定根GSA形成的主要激素,其在从茎尖向不定根的极性运输过程中与细胞分裂素相互作用,共同调节不定根GSA的形成。     

镉和增强紫外线-B辐射复合作用对大豆生长的影响

研究了Cd^2+和增强紫外线-B(UV-B)辐射以及二者复合胁迫(Cd+UV-B)对大豆生长、光合作用、抗氧化酶活性和吲哚乙酸(IAA)氧化酶活性的影响,结果表明,UV-B辐射对大豆生长较CA^2+有更明显的抑制作用,主要是降低了光合作用,生物量减小;抑制节间的分化和伸长,节间减少,株高降低。UV-B辐射对POD、SOD活性有显著诱导作用,而Cd^2+明显颉颃UV-B对POD活性的诱导并抑制IAA氧化酶活性．在复合作用下,植物体内IAA氧化酶和POD活性较UV-B单独作用下显著降低,这两种酶活性降低会引起植物体内IAA含量升高,同时光合作用略有升高,这是株高和生物量较UV-B作用下有所增加的重要原因,复合胁迫还增强了对根伸长生长的抑制作用,根长度较对照显著降低(P<0．05)。IAA氧化酶和POD活性变化以及光合强度变化与大豆株高和生物量变化密切相关,这也是复合胁迫影响大豆生长状况的重要因素。     

砷胁迫下不同砷富集能力植物内源生长素与抗氧化酶的关系

采用室内土培法,研究了砷胁迫(0,50,100和200 mg/kg)对凤尾蕨属中砷超富集植物大叶井口边草(Pteris cretica var.nervosa)和非砷超富集植物剑叶凤尾蕨(Pteris ensiformis)生物量、株高、叶片内源3-吲哚乙酸(IAA)含量、IAA氧化酶(IAAO)活性、砷含量、抗氧化酶(超氧化物歧化酶SOD、过氧化物酶POD、过氧化氢酶CAT)活性以及细胞膜脂过氧化产物丙二醛(MDA)含量的影响,并用逐步回归法分析了IAA含量与砷含量、抗氧化酶活性、MDA含量之间的关系。此外,研究了100 mg/kg砷处理下IAA、IAAO、3种抗氧化酶和MDA的时间动态。结果表明,与对照(不加砷)相比,加砷处理下大叶井口边草的株高和生物量未出现显著变化,但剑叶凤尾蕨在中、高浓度砷胁迫下则显著降低;中、高浓度砷胁迫均使2种植物叶片含砷量、IAA含量显著增加和IAAO活性显著下降,但这种改变在大叶井口边草中更为显著;加砷处理使大叶井口边草叶片3种抗氧化酶活性维持或增加,剑叶凤尾蕨中SOD和CAT活性虽能维持,但POD活性则显著下降,说明砷胁迫下大叶井口边草具有更强的抗氧化能力。逐步回归分析结果显示,2种植物叶片IAA含量均与砷含量成显著正相关,但在大叶井口边草中,IAA含量还与CAT活性成显著负相关。时间动态研究表明,第13天,大叶井口边草具有最高的IAA含量、最低的IAAO活性以及最低的CAT活性,而剑叶凤尾蕨中的变化规律则不明显。因此,叶片保持较高的IAA含量、较低的IAAO和CAT活性有助于大叶井口边草超量富集砷。     

白桦雌花发育过程中内源激素动态变化(简报)

以酶联免疫吸附法(ELISA)测定七年生白桦嫁接幼树雌花发育过程中脱落酸(ABA)、吲哚乙酸(IAA)、玉米核苷素(ZR)及赤霉素(GA)的含量结果表明:ABA的含量先升后降,高浓度ZR分别与低浓度的IAA、GA协同作用可促进白桦雌花分化.     

NAA处理桉树插条后IAAO活性与生根的关系

尾叶桉MLA无性系(简称MLA)为难生根植物,尾叶桉U₆无性系(简称U₆)和刚果12号桉W₅无性系(简称W₅)为相对易生根植物。MLA插条内的吲哚乙酸氧化酶(IAAO)活性较U₆、W₅的高。用萘乙酸(NAA)处理桉树插条后,在扦插生根的不同阶段,插条内IAAO活性呈现规律性变化;可溶性蛋白质含量呈上升趋势。本文讨论了IAAO与桉树插条生根的关系。     

The Development of Alternative Storage Sink Sites in Sweet Potato Ipomoea batatas

Sweet potato plants were found to develop three alternativestorage sink sites: adventitious roots, replanted tubers andstems, indicating that the capacity for tuberization is notlimited to the root system. In each case, sink development occurredas a result of meristematic activity of the vascular cambiumand anomalous cambia associated with differentiating vascularbundles in the pith. The involvement of environmental, anatomicaland physiological parameters in the tuberization of sweet potatois discussed. Ipomoea batatas, sweet potato, tuberization, sink site     

The role of endophytic bacteria during seed piece decay and potato tuberization

Healthy potato tubers (Solanum tuberosum L.) cv. Kennebec were found to be internally colonized by non-pathogenic bacterial populations originating from root zone soil. These endophytic bacteria were categorized, on the basis of bioassays, as plant growth promoting (PGP), plant growth retarding (PGR) and plant growth neutral (PGN). Genera isolated from tubers included Pseudomonas, Bacillus, Xanthomonas, Agrobacterium, Actinomyces and Acinetobacter. The PGP and PGR isolates were similarly distributed throughout these genera. Bacterial populations increased in the root zone soil directly adjacent to the seed piece during and immediately following seed piece decay. Bacteria sampled at this time were capable of promoting tuber number and weight. The proportions of PGP, PGR and PGN bacteria in the root zone were altered as endophytic bacteria were released from the decaying seed piece. The study indicates that endophytic bacteria present in the seed tubers may play an important role in seed piece decay, tuberization and plant growth.     

Hydrogen Sulfide Promotes Root Organogenesis in Ipomoea batatas, Salix matsudana and Glycine max

In this report, we demonstrate that sodium hydrosulfide (NaHS), a hydrogen sulfide (H2S) donor, promoted adventitious root formation mediated by auxin and nitric oxide (NO). Application of the H2S donor to seedling cuttings of sweet potato (Ipomoea batatas L.) promoted the number and length of adventltious roots in a dose-dependent manner. It was also verified that H2S or HS- rather than other sulfur-containing components derived from NariS could be attributed to the stimulation of adventitious root formation. A rapid Increase In endogenous H2S, indole acetic acid (IAA) and NO were sequentially observed in shoot tips of sweet potato seedlings treated with HallS. Further investigation showed that HzS-mediated root formation was alleviated by N-l-naphthylphthalamic acid (NPA), an IAA transport inhibitor, and 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO), an NO scavenger. Similar phenomena in H2S donor-dependent root organogenesis were observed in both excised willow (Sallx matsudana var. tortuosa Vilm) shoots and soybean (Glycine max L.) seedlings. These results indicated that the process of H2S-induced adventitious root formation was likely mediated by IAA and NO, and that H2S acts upstream of IAA and NO signal transduction pathways.     

NAA处理对艾纳香扦插生根生理生化特性的影响

为探讨NAA对艾纳香(Blumea balsamifera)扦插生根的影响,4 a生艾纳香健康枝条用500 mg/L NAA处理,对生根过程中的生理生化特征进行了研究.结果表明,艾纳香扦插生根率与内源IAA、GA含量和IAA/ABA呈正相关,而与ABA含量呈负相关.NAA处理能提高插穗的IAA含量,降低ABA含量,有助...     

不同株龄日本落叶松插穗的内源激素含量与生根的关系

研究了日本落叶松母株年龄、插穗内源激素含量与生根之间的关系,以及外源IBA对插穗内源激素含量的影响及其对插穗生根的促进作用。结果表明：不同株龄插穗生根性状及插穗茎和叶中激素含量差异均达极显著水平,叶中激素含量对插穗生根力没有直接影响;插穗茎中生根抑制激素（ABA）含量随株龄增长而增加,生根促进激素与抑制激素的比值（IAA＋GA＋ZR）/ABA却随株龄的增长而递减,与生根力随株龄的变化趋势一致,且该比值与生根性状紧密相关,因此可作为评价母株（无性系）生根力的指标;插后13～32d是插穗愈伤组织形成和不定根诱导的关键期,此期生根促进激素消耗量大,茎中含量大幅度降低,进入根伸长生长阶段,含量上升;外源IBA促进插穗生根的机制在于通过外源激素的刺激,在不定根诱导期,插穗茎中ABA含量大幅度降低,从而有利于不定根的发生和发育。     

Polyphenol oxidase in potato. A multigene family that exhibits differential expression patterns.

Polyphenol oxidase (PPO) activity in potato (Solanum tuberosum) plants was high in stolons, tubers, roots, and flowers but low in leaves and stems. PPO activity per tuber continued to increase throughout tuber development but was highest on a fresh weight basis in developing tubers. PPO activity was greatest at the tuber exterior, including the skin and cortex tissue 1 to 2 mm beneath the skin. Flowers had high PPO activity throughout development, particularly in the anthers and ovary. Five distinct cDNA clones encoding PPO were isolated from developing tuber RNA. POT32 was the major form expressed in tubers and was found in all parts of the tuber and at all stages of tuber development. It was also expressed in roots but not in photosynthetic tissues. POT33 was expressed in tubers but mainly in the tissue near the skin. POT72 was detected in roots and at low levels in developing tubers. NOR333 was identical with the P2 PPO clone previously isolated from potato leaves (M.D. Hunt, N.T. Eannetta, Y. Haifeng, S.M. Newman, J.C. Steffens [1993] Plant Mol Biol 21: 59-68) and was detected in young leaves and in tissue near the tuber skin but was highly expressed in flowers. The results indicate that PPO is present as a small multigene family in potato and that each gene has a specific temporal and spatial pattern of expression.     

IAA Oxidase preparations from fresh and aged Ipomoea batatas tuber discs

IAA oxidase preparations from fresh sweet potato tuber discs oxidized IAA only in the presence of added phenolic cofactors, and the pH optimum for enzyme activity depended on the cofactor used. Ageing of tuber discs, either by aeration in distilled water or by incubation on moist filter paper, resulted in increased peroxidase and phenol-stimulated IAA oxidase activities, as well as the development of IAA oxidase activity in the absence of added cofactors. High phenolase activity of fresh tuber discs decreased considerably with ageing. Phenol-stimulated IAA oxidase activity reached maximal levels before IAA oxidase activity in the absence of added cofactors. Enzyme preparations from aged tuber discs had double pH optima, similar to those previously described for sweet potato root IAA oxidase preparations. IAA in the concentration range 10^?4 to 10^?2 M inhibited the increase in peroxidase and IAA oxidase activities with ageing. DCP-stimulated IAA oxidase activities in preparations from both fresh and aged sweet potato tuber discs were inhibited by manganous ion.