蕨藻红素促进大豆插条不定根的形成

对蕨藻红素影响大豆下胚轴插条不定根形成的研究表明：蕨藻红素促进大豆插条不定根的形成,其最适浓度为0.5μmol·L^-1,最适处理时间为2d。0.5μmol·L^-1蕨藻红素处理大豆插条后,不定根诱导阶段（0～24h）的POD、CAT、IAAox活性较低;而不定根形成生长阶段（24～72h）的CAT和IAAox活性较高,POD活性低于未作处理的。试验推测蕨藻红素促进大豆插条不定根形成的生理基础可能与其影响POD、CAT和IAAox活性有关。     

生长素、乙烯和一氧化氮对拟南芥下胚轴插条形成不定根的调节

研究生长素、乙烯和一氧化氮（NO）对拟南芥下胚轴插条形成不定根的调节,以及生长素和乙烯信号转导成员在IAA促进不定根形成中的作用的结果表明：拟南芥切条以IAA和硝普钠（N0供体）单独处理7d后的不定根形成均受到促进,其中以50μmol·L^-1 IAAμmol·L^-1 SNP的促进作用为最强,乙烯的促进作用不明显;生长素运输和信号转导以及乙烯信号转导相关突变体对IAA促进生根作用的敏感性比野生型有所下降,特别是IAA14功能获得型的突变体。IAA和NO在促进不定根形成中有协同效应。     

Auxin Synergists in Rooting of Cuttings

Leafy cuttings of Eranthemum tricolor were treated with tannic acid, gallic acid, p-hydroxybenzoic acid and salicylic acid at the concentrations of 1000, 100, 10 and 1 nig/1 for 24 hours, whereafter they were dipped quickly in a 1000 mg/l solution of IAA, IBA and NAA for ten seconds. None of the phenolics showed any root promoting effect when used singly. In combination with NAA and IBA tannic acid promoted rooting, however, with IAA there was no effect to be seen. Gallic acid also markedly increased the number of roots of cuttings treated with NAA and IBA. Even in this case there was no effect with IAA. Synergism was also recorded between p-hydroxybenzoic acid and IAA or NAA but not with IBA. Salicylic acid greatly promoted rooting in combination with both IAA, IBA and NAA.     

Auxin-Synergists in the Rooting of Cuttings

Indole, α- and β-naphtol are synergistic with auxins in enhancing root production of cuttings of Phaseolus vulgaris. To find an explanation for this synergism the activity was compared with that of phenolic compounds which are known to be: a. inhibitors of the IAA oxidase system, b. cofactors of the conversion of tryptophane to IAA. Both processes appeared to occur in the bean cuttings (as estimated by root production), but none of the phenols bad an activity equally strong as the “synergists”. It is suggested that indole as well as α- and β-naphtol act as other injurious substances in “just sublethal” dose (Soekarjo 1966).     

植物生长调节剂对几种园林植物插条生根的影响

 我们用NAA、IBA、IAA等植物生长调节剂促进多种园林植物插条发根的试验。结果表明：菊花、大丽花插枝,经0.1mg/L和0.2 mg/L NAA处理,具有促进发根的明显效果;0.1mg／L和0.2 mg/L的NAA和IBA处理较难发根的印度黄檀插枝,其发根率则有显著提高;月季、大叶黄杨、水杉、池杉、海南石梓等植物插枝,虽都具有较高的发根率,但经不同浓度NAA和IBA浸渍处理后,其发根率仍有不同程度的提高。     

The Physiology of Rooting Populus Cuttings

The changing levels of carbohydrates and the rates of photosynthesis in rooting Populus cuttings are described. The cuttings were planted in a sand medium, in controlled environment conditions. There was no evidence to support the view that failure to root in P. tremula was caused by insufficient carbohydrate reserves. In leafless hardwood cuttings, the carbohydrate levels were initially very high (14–19%) but fell rapidly (to 5–10%) as roots, callus or shoots developed. In leafy softwood cuttings, a steady accumulation of carbohydrate reserves was observed, rising from 5–10% on planting to 15–25% when roots had developed. One of the differences between the easy-to-root P. × euramericana and the hard-to-root P. tremula was the apparent downward transport of assimilates in P. × euramericana softwood cuttings.     

The Physiology of Rooting Populus Cuttings

Activity of endogenous cytokinin of cuttings was investigated in relation to the process of rotting. The levels of cytokinin in hardwood cuttings of easy-to-root Populus × euramericana (Dode) Guinier and difficult-to-root Populus tremula L. were monitored at various stages of root formation. In cuttings of P. tremula was found a higher cytokinin activity than in P. × euramericana and this condition persisted throughout the rooting period. There was a general initial decrease of cytokinin activity in both upper and lower halves of cuttings of both species. The declining level was reversed in the easy-to-root species when roots had formed and to a lesser extent in the difficult-to-root species when leaves expanded. In both cases this increase was relatively higher in the lower halves than in the upper halves.     

Morphactin and Adventitious Root Formation in Pea Cuttings

Stock plants of pea (Pisum sativum L. cv. Alaska) were grown at different controlled levels of irradiance (4, 16 or 38 W m^?2) for 11 days from sowing. Morphactin (CFM, methyl-2-chloro-9-hydroxy-fluorene-9-carboxylate) was applied to the apex of the stock plants 3 days before cuttings were excised. The cuttings were rooted at 16 W m^?2. High levels of morphactin (>5 × 10^?3 mg l^?1) inhibited root formation in the cuttings. Low concentrations of CFM (5 × 10^?5 mg l^?1) promoted the formation of adventitious roots in cuttings from plants grown at all three levels of irradiance, with the most pronounced effect in cuttings from 4 W m^?2. Measurements of ethylene evolution by CFM-treated plants 3 days after application, revealed a stimulatory effect on ethylene production by high CFM concentrations.     

Mediators,Genes and Signaling in Adventitious Rooting

Adventitious roots are a post-embryonic root which arise from the stem and leaves and from non-pericycle tissues in old roots and it is one of the most important ways of vegetative propagation in plants. Many exogenous and endogenous factors regulate the formation of adventitious roots, such as Ca²⁺, sugars, auxin, polyamines, ethylene, nitric oxide, hydrogen peroxide, carbon monoxide, cGMP, MAPKs and peroxidase, etc. These mediators are thought to function as signaling and mediate auxin signal transduction during the formation of adventitious roots. To date, only a few genes have been identified that are associated with the general process of adventitious rooting, such as ARL1, VvPRP1, VvPRP2, HRGPnt3, LRP1 and RML, etc. Auxin has been shown to be intimately involved in the process of adventitious rooting and function as crucial role in adventitious rooting. Great progress has been made in elucidating the auxin-induced genes and auxin signaling pathway, especially in auxin response Aux/IAA and ARF genes family and the auxin receptor TIR1. Although, some of important aspects of adventitious rooting signaling have been revealed, the intricate signaling network remains poorly understood.     

Optimization of Factors Influencing Adventitious Rooting in Hybrid Larch

Optimization of in vitro adventitious root induction contributes to the development of a large-scale production system of hybrid clone seedlings of larch (Larix spp.). We used orthogonal testing to investigate the factors that affect the rooting of hybrid larch shoots–activated carbon, vitamin B1, sucrose, glycine, glutamic acid (Glu), cysteine, pH, and induction time in the dark and indole-3-butyric acid (IBA). Variance analysis showed that the effects of sucrose concentration on rooting rate, survival rate, and average root number, pH on the average number of roots; and Glu on survival rate were all significant (p < 0.05) when compared to the mock treatments. Among all of the 45 treatments, the highest rooting rate was 90%, the highest survival rate was 100%, and the highest average root number was 11.8. The theoretically optimal procedure of in vitro root induction of hybrid larch shoots is shoot induction on L9 modified medium (pH 6.7) containing 2 mg.L^–1 naphthalene acetic acid, 0.25 mg.L^–1 IBA, 1/3 macroelements, 7.5 g.L^–1 sucrose, and 5 mg.L^–1 Glu for 8 days, and then root induction on L9 modified medium without auxin.     

Steroidal Oestrogens and Adventitious Root Formation in Phaseolus Cuttings

Solutions of oestrone, oestrone-phosphate, oestrone-sulphate,oestradiol and oestradiol-sulphate in the concentration range10^–3 mol m^–3 to 10^–7 mol m^–3 had noobservable morphological or anatomical effects on adventitiousroot formation in Phaseolus vulgaris hypocotyl, epicotyl andprimary leaf cuttings. Oestradiol-sulphate and oestrone-sulphatetreatments at 0.1 mol m^–3 significantly inhibited rootingin hypocotyls, and the inhibition was almost complete in epicotylsand primary leaves. In the latter, anomalous development ofvascular tissues was noted. However, neither oestrone-phosphateat 0.1 mol m^–3 nor direct application of up to 100 µgof the oestrogens to apices or primary leaves of explants modifiedthe pattern of root formation. The results are discussed withreference to the distributive and metabolic fates of the appliedsubstances. Phaseolus vulgaris L., bean, adventitious roots, steroidal oestrogens, translocation     

植物不定根发生机理的研究进展

植物不定根的发生涉及外源信号感知与内外信号级联耦合,是一个极其复杂的器官发生过程,一直备受植物学界关注。该文对近年来国内外有关不定根发生诱导期、启动期和表达期3个重要时期的信号转导、基因表达、细胞与代谢特征等方面的研究进展进行综述,为不定根的研究提供理论参考。     

桤木插穗不定根发生与发育的解剖学观察

采用常规石蜡切片法对桤木插穗进行解剖观察,研究茎的次生结构及不定根的起源和发生发育过程,探讨影响不定根发生的因素。结果表明:桤木茎的次生构造从外至内由周皮、皮层和次生维管组织3部分组成。皮孔有2种类型。不定根的发育过程可分为4个阶段:(1)维管形成层与髓射线交叉处的细胞活动,产生具有典型分生组织特点的薄壁细胞团;(2)薄壁细胞不断分裂,形成不定根原基发端细胞;(3)分裂分化形成的不定根沿着韧皮射线向皮层延伸;(4)随着不定根内部的维管系统的发育,不定根从皮孔或下切口伸出。     

茶树嫩枝扦插的高效方法

茶(Camellia sinensis)是世界上最重要的饮料作物之一, 随着种植面积的扩大, 茶苗的需求量也日益增加。传统的扦插育苗方式存在着生根难、周期长和取材难等问题, 因此优化扦插生根的方法十分重要。该研究以较易获得、但传统方法难以生根的绿色嫩枝为扦插材料, 首先对培养介质进行改良。与土培和水培相比, 利用海绵培养可以使茶树幼嫩插穗在1个月之内快速生根, 生根率达32.2%。其次, 对海绵培方法做进一步优化, 确定一芽一叶的幼嫩短穗生根潜力更佳; 同时, 添加生根粉能够促进茶树茎部愈伤组织与根系的形成, 其中1.25 g∙L ^-1生根粉处理48小时对茶树扦插快速生根最有效, 生根率达42.0%。综上, 通过优化培养介质和扦插材料以及适当添加生根粉等措施, 建立了一种茶树高效嫩枝扦插生根的方法。该方法能够显著缩短嫩枝插穗的生根时间, 突破了扦插材料的限制, 有效降低了扦插成本, 具有重要的应用前景。     

iTRAQ Protein Profiling of Adventitious Root Formation in Mulberry Hardwood Cuttings

The ability to form mature adventitious roots (AR) provides a competitive advantage for clonal multiplication of elite genotypic plant species, because high economic losses occur as a result of insufficient rooting. To better understand potential mechanisms involved in AR formation, we utilized an iTRAQ-based proteomic approach on mulberry hardwood cuttings. A total of 4427 proteins were identified from the base of cuttings, of which 595 and 231 proteins showed differential accumulations in the two periods of rooting, respectively. Three differentially expressed enzyme proteins were validated by an enzyme assay and qPCR. Functional annotation analysis showed that dysregulated proteins were involved in glucose metabolism, flavonoids biosynthesis, cell wall modification, and hormone regulation, indicating potential contributions to adventitious rooting. These results provide fundamental and important information for research on the molecular mechanism of AR development in mulberry cuttings and facilitate rooting efficiency in agricultural practice.     

茶树嫩枝扦插的高效方法

茶(Camellia sinensis)是世界上最重要的饮料作物之一, 随着种植面积的扩大, 茶苗的需求量也日益增加。传统的扦插育苗方式存在着生根难、周期长和取材难等问题, 因此优化扦插生根的方法十分重要。该研究以较易获得、但传统方法难以生根的绿色嫩枝为扦插材料, 首先对培养介质进行改良。与土培和水培相比, 利用海绵培养可以使茶树幼嫩插穗在1个月之内快速生根, 生根率达32.2%。其次, 对海绵培方法做进一步优化, 确定一芽一叶的幼嫩短穗生根潜力更佳; 同时, 添加生根粉能够促进茶树茎部愈伤组织与根系的形成, 其中1.25 g?L ^-1生根粉处理48小时对茶树扦插快速生根最有效, 生根率达42.0%。综上, 通过优化培养介质和扦插材料以及适当添加生根粉等措施, 建立了一种茶树高效嫩枝扦插生根的方法。该方法能够显著缩短嫩枝插穗的生根时间, 突破了扦插材料的限制, 有效降低了扦插成本, 具有重要的应用前景。     

Auxin and Ethylene-stimulated Adventitious Rooting in Relation to Tissue 9

We have previously shown that both endogenous auxin and ethylenepromote adventitious root formation in the hypocotyls of derootedsunflower (Helianthus annuus) seedlings. Experiments here showedthat promotive effects on rooting of the ethylene precursor,1-aminocyclopropane-l-carboxylic acid (ACC) and the ethylene-releasingcompound, ethephon (2-chloro-ethylphosphonic acid), dependedon the existence of cotyledons and apical bud (major sourcesof auxin) or the presence of exogenously applied indole-3-aceticacid (IAA). Ethephon, ACC, aminoethoxyvinylglycine (an inhibitorof ethylene biosynthesis), and silver thiosulphate (STS, aninhibitor of ethylene action), applied for a length of timethat significantly influenced adventitious rooting, showed noinhibitory effect on the basipetal transport of [³H]IAA. Theseregulators also had no effect on the metabolism of [³H]IAA andendogenous IAA levels measured by gas chromatography-mass spectrometry.ACC enhanced the rooting response of hypocotyls to exogenousIAA and decreased the inhibition of rooting by IAA transportinhibitor, N-1-naphthylphthalamic acid (NPA). STS reduced therooting response of hypocotyls to exogenous IAA and increasedthe inhibition of rooting by NPA. Exogenous auxins promotedethylene production in the rooting zone of the hypocotyls. Decapitationof the cuttings or application of NPA to the hypocotyl belowthe cotyledons did not alter ethylene production in the rootingzone, but greatly reduced the number of root primordia. We concludethat auxin is a primary controller of adventitious root formationin sunflower hypocotyls, while the effect of ethylene is mediatedby auxin. Key words: Auxin, ethylene, adventitious rooting, sunflower     

Promotion of Rooting in Azukia Cuttings by Possible Glycoproteins Extracted from Lentinus edodes Culture

Macromolecules purified from Lentinus edodes mycelia cultureenhanced adventitious root formation in Azukia epicotyl cuttings.Partial purification by sequential column chromatographies gavematerial composed of 71% polysaccharides and 29% proteins. Thesugar moiety consisted of mainly xylose, glucose and arabinose,the sum of their contents being more than 76% of the total carbohydrates.The protein moiety consisted of mainly glycine and serine, whichaccounted for more than 40% of the total amino acid residues. (Received June 9, 1984; Accepted November 12, 1984)     

Growth Substances in Relation the the Rooting of Salix fragilis Cuttings

An attempt has been made to correlate seasonal variations inthe rooting responses of Salix fragilis cuttings with theircontent of growth-promoting substances. Although they were bothlow in early dormancy and higher in late dormancy and in summerthere was not an exact correlation in all months. It was found that extracts of S. fragilis cuttings taken indormancy strongly inhibited the action of IAA on the growthof Avena coleoptile segments. This inhibitory influence wasless in extracts of cuttings taken at the end of dormancy andin summer. Extracts of cuttings which had been left in waterto root showed a striking decrease in their inhibitory actionon IAA.