核桃试管不定根的组织学研究

以核桃品种‘新早丰’试管嫩茎为试材,采用二步生根法诱导生根,对其试管苗不定根发生发育过程进行了解剖学研究。结果表明:核桃试管嫩茎内未发现潜伏根原基;诱导生根后,不定根原基起源于形成层,特别是髓射线正对的形成层部分,属于诱生根原基型;不定根上的侧根起源于中柱鞘细胞。核桃试管嫩茎不定根的发育过程可分为4个阶段:(1)形成层细胞分裂;(2)转变为分生组织细胞群(即根原始细胞);(3)细胞群发育成可见的根原基; (4)根原基内细胞继续分裂分化形成根尖的外形,其内发育出维管束,并向外生长,穿过皮层,突破茎表皮。在组织培养条件下长出的不定根内部解剖构造为典型的初生构造,移栽后68 d出现次生构造。另外,试管苗根毛出现与否及其发育状况受基质理化性质的影响,即生态条件可以改变组织发生及其形状。     

甘蔗试管苗光合自养生根技术研究

为了简化甘蔗组织培养流程,降低生产成本,该文以甘蔗品种GT44和B9无根试管苗为材料,先经叶片喷施植物生长调节剂处理,然后炼苗24 h,接着把处理后的试验苗移植于沙土混合栽培基质中,研究其在日光温室条件下完成不定根的形成和生长过程; 同时比较了无根试管苗和有根试管苗的移栽存活率和生长情况。试管苗生根率调查时间为试管苗移植后第3天开始至第10天结束,成活率的调查时间为试管苗移植后的第30天。结果表明:经吲哚丁酸(IBA)和ABT2号生根粉处理的无根试管苗的移栽成活率分别为96.3%和97.7%,接近传统生根试管苗的移栽成活率,且其单株试管苗生根成本为传统生根方法的1/28。甘蔗品种GT44和B9试管苗首次出现可见根的时间均发生在试管苗移栽后的第4天。试管苗根的再生可以在有菌的沙土基质栽培和日光温室条件下完成,而不需要在无菌的MS生根培养基和培养室中进行生根; 基因型和试管苗素质是影响甘蔗试管苗光合自养生根的关键因素; 甘蔗试管苗光合自养生根技术比传统试管苗培养基生根技术拥有更多优势,且操作简单、程序简化、生根率和成活率高、省工、节省能源和生产成本、效率高,替代传统的试管苗生根技术,应用于商业化生产。     

侧柏扦插不定根发生模式研究

该研究以侧柏一年生硬枝插穗为实验材料,利用连续组织切片技术观察插穗不定根发生发育过程中的组织结构变化,分析插穗外部形态变化、不定根原基起源和不定根的形成过程,探讨侧柏插穗不定根发生模式和不定根的组织学起源。结果显示:侧柏扦插后可由愈伤组织、皮部诱导产生不定根,出现皮部生根、愈伤组织生根、愈伤组织兼具皮部生根3种类型;侧柏插穗中存在少量潜伏根原基,但插穗生根类型以诱导生根为主;不定根原基诱导产生于愈伤组织、木质部、形成层及次生韧皮部等部位。研究认为侧柏扦插生根属于多位点发生模式,不定根原基的组织学起源是愈伤组织、髓射线、射线原始细胞、尚未分化成熟的木质部细胞,通过人工诱导同时激活这些不定根起源位点能够显著提高生根率和生根质量。     

欧美杂种山杨微扦插不定根发生过程的解剖学研究

采用石蜡切片技术,以欧美杂种山杨插穗基部茎段为实验材料,连续解剖观察插穗不定根发生发育过程,分析根原基发生部位与扦插生根的关系。结果显示:欧美杂种山杨插穗不定根的发生过程分为4个时期,为根原基诱导期,不定根起始期、表达期和伸长生长期。根原基诱导期维管形成层产生具有分生组织特点的薄壁细胞;不定根起始期,维管形成层及附近的薄壁细胞脱分化,形成不定根原基发端细胞;不定根表达期,根原基发端细胞不断分裂成具有方向性的根原基,根原基穿过韧皮射线和皮层,向皮孔方向发展;不定根伸长生长期,根原基从皮孔伸出,其内部的维管系统开始发育,形成不定根。研究认为,欧美杂种山杨为皮部诱导生根类型,不定根原基起源于维管形成层区,起源部位单一,扦插难生根。     

牡丹不定根形成相关基因PsARRO-1的克隆及表达分析

不定根发生相关加氧酶基因（adventitious rooting related oxygenase,ARRO—1）被认为是木本植物不定根形成的分子标记之一,属不定根发生起始阶段的特异表达基因。本实验以牡丹‘乌龙捧盛’为材料,运用RT-PCR和RACE相结合的方法克隆得到一个ARRO-1的全长cDNA序列,命名为PsARRO-J（GenBank登录号KJ620008）。PsARRO-1cDNA序列的开放阅读框长度为900bp,编码299个氨基酸。氨基酸序列同源性分析结果显示与拟南芥、毛果杨、苹果、梅花等植物有较高的相似性。利用实时荧光定量PCR对该基因在牡丹‘凤丹白’试管苗及实生苗的表达情况分析表明,PsARRO-1在试管苗及实生苗的根、茎、叶、花中均有不同程度的表达,根中的平均表达量大于其他部位,且实生苗中的整体表达量一般高于试管苗中的表达量。试管苗中,PsARRO-1在根中的表达量变化趋势明显,生根诱导初期表达量平稳且微弱,第10天开始上调表达,第15天和第40天分别出现两次峰值;实生苗中,PsARRO-1在根中的表达量在取样初期就开始快速上升,第10天达到峰值,之后迅速回落。这与牡丹不定根的发生过程基本一致,说明PsARRO-1与牡丹不定根的形成密切相关。     

杨树试管苗嫩茎生根过程中内源IAA的免疫金银定位

生长素类物质在木本植物生根过程中发挥重要作用。杨树生根与生长素的关系及生根过程中内源激素的变化已有大量报道,而生根过程中生长素的组织定位分析则尚未见报道。该文应用免疫化学分析方法对741杨（Populus alba×（P.davidiana×P.simonii）×P.tomentosa）嫩茎生根过程中内源IAA在组织中的分布进行了研究。结果显示,741杨的嫩茎在无外源激素的1/2MS培养基上诱导10天后可生根,14天后生根率达100%。诱导前,嫩茎基部组织中几乎没有IAA信号;诱导8天后,嫩茎基部维管组织中有大量的IAA积累,而且中部的维管组织中也有明显的IAA信号（主要分布在韧皮部和维管形成层）;10天后,形成不定根原基,此时IAA主要分布在根原基;12天后,根原基分化成不定根并突破表皮,IAA在不定根中的分布主要集中在根尖和中柱。该文对741杨的嫩茎生根过程中IAA的组织分布特点及运输途径进行了讨论。     

杨树试管苗嫩茎生根过程中内源IAA的免疫金银定位

生长素类物质在木本植物生根过程中发挥重要作用。杨树生根与生长素的关系及生根过程中内源激素的变化已有大量报道, 而生根过程中生长素的组织定位分析则尚未见报道。该文应用免疫化学分析方法对741杨(Populus alba × (P. davidiana × P. simonii) × P. tomentosa)嫩茎生根过程中内源IAA在组织中的分布进行了研究。结果显示, 741杨的嫩茎在无外源激素的1/2MS培养基上诱导10天后可生根, 14天后生根率达100%。诱导前, 嫩茎基部组织中几乎没有IAA信号; 诱导8天后, 嫩茎基部维管组织中有大量的IAA积累, 而且中部的维管组织中也有明显的IAA信号(主要分布在韧皮部和维管形成层); 10天后, 形成不定根原基, 此时IAA主要分布在根原基; 12天后, 根原基分化成不定根并突破表皮, IAA在不定根中的分布主要集中在根尖和中柱。该文对741杨的嫩茎生根过程中IAA的组织分布特点及运输途径进行了讨论。     

巴戟天离体苗不定根发育的观察

以巴戟天幼嫩种子中的胚为外植体进行组织培养诱导出愈伤组织,继而诱导分化出芽,长成小苗。将小苗转入生根培养基中,从茎基部诱导出不定根,再生植株。对离体苗的不定根发育进行结构观察,发现巴戟天组培苗的不定根是由形成层细胞先分裂分化形成根原基后发育而成的。     

油茶组培苗器官发生的形态学与解剖学研究

以油茶岑软3号组培苗为研究材料,对其器官发生过程进行形态学和解剖学观察。结果表明:在选定的培养基上,外植体不经过愈伤组织,直接由器官诱导形成增殖芽,从而有效地保持了其遗传的稳定性。油茶增殖芽不定根由诱导的根原基发生,它起源于形成层薄壁细胞定向分化,不断向外进行伸长生长,并穿透愈伤组织而形成。这种不定根发生形式属皮部生根类型。油茶增殖芽单芽生根培养25 d后在不定根内形成次生维管形成层和木栓形成层,培养40 d以上根内的输导分子与茎内的输导分子相连。     

“艾西丝”南瓜诱导生根过程中过氧化物酶活性及同工酶的研究

以“艾西丝”南瓜组培苗为材料,研究其在诱导不定根形成过程中过氧化物酶活性及同工酶谱的变化。结果表明,当南瓜无根苗从含有较高浓度的ＢＡ培养基转入１／２ＭＳ培养基后,可诱导无根苗茎基部不定根生成,一般在转入生根培养基第３ｄ开始生根,至第６ｄ生根率达７０％以上。在此期间,南瓜茎内过氧化物酶活性由低增高,即在不定根形成之前,过氧化物酶活性处在较低水平,而当不定根形成时,过氧化物酶活性迅速升高,以后一直维持     

In vitro rooting of micropropagated shoots from juvenile and mature Pinus pinaster explants: influence of activated charcoal

The ability for adventitious rooting of micropropagated shoots from juvenile and mature Pinus pinaster Ait. explants was assessed in vitro on a rooting expression medium. The different rooting traits observed, namely the rooting rate, the number and the length of the adventitious roots, and the root score, were greatly influenced by the age of the donor plant: 98% of juvenile explants rooted, while only 49% of mature explants did. Addition of activated charcoal in the rooting expression medium improved the overall rooting capacity of the mature explants to an average of 78%. Whatever the plant material, the number and the length of the adventitious roots, as well as the root score, fluctuated according to the sampling date.Abbreviations BA 6-benzyladenine - NAA naphthaleneacetic acid - REM rooting expression medium - RIM rooting induction medium     

Proteomic analysis of different mutant genotypes of Arabidopsis led to the identification of 11 proteins correlating with adventitious root development

A lack of competence to form adventitious roots by cuttings or explants in vitro occurs routinely and is an obstacle for the clonal propagation and rapid fixation of elite genotypes. Adventitious rooting is known to be a quantitative genetic trait. We performed a proteomic analysis of Arabidopsis (Arabidopsis thaliana) mutants affected in their ability to develop adventitious roots in order to identify associated molecular markers that could be used to select genotypes for their rooting ability and/or to get further insight into the molecular mechanisms controlling adventitious rooting. Comparison of two-dimensional gel electrophoresis protein profiles resulted in the identification of 11 proteins whose abundance could be either positively or negatively correlated with endogenous auxin content, the number of adventitious root primordia, and/or the number of mature adventitious roots. One protein was negatively correlated only to the number of root primordia and two were negatively correlated to the number of mature adventitious roots. Two putative chaperone proteins were positively correlated only to the number of primordia, and, interestingly, three auxin-inducible GH3-like proteins were positively correlated with the number of mature adventitious roots. The others were correlated with more than one parameter. The 11 proteins are predicted to be involved in different biological processes, including the regulation of auxin homeostasis and light-associated metabolic pathways. The results identify regulatory pathways associated with adventitious root formation and represent valuable markers that might be used for the future identification of genotypes with better rooting abilities.     

温度对马尾松组培单芽不定根发生的影响

马尾松( Pinus massoniana)组织培养生根困难,该研究在严格控制光温条件的光照培养中,以马尾松无性系组培继代芽为材料,分析了在不同温度处理下马尾松组培单芽生根率、生根时间、根系条数和移栽成活率等生根能力指标以及生根解剖构造的变化。所有数据均采用SPSS 19.0统计分析软件,进行单因素分析(ANOVA)的显著性检验及最小显著性差异法(LSD)的多重比较。结果表明：在25℃最适温度培养下,马尾松组培生根效果较佳,移栽成活率最高,可达98.1％。低温处理下,生根时间显著延长,根系条数减少,生根率偏低;高温处理下,根茎愈伤组织明显,移栽成活率显著降低。从生根解剖构造来看,马尾松不定根主要由维管形成层细胞分化而成。与25℃适温处理相比较,在20℃较低温处理下,细胞分裂活动缓慢,不定根原始体诱发较少;而在30℃较高温处理下,细胞活动旺盛,但髓射线与维管组织细胞染色颜色加深、排列紧密,将诱发的不定根原基细胞团区隔成带状或片状。该研究结果探讨了培养环境温度对马尾松组培单芽生根能力的影响,为马尾松组培苗生产提供了参考。     

Strigolactones suppress adventitious rooting in Arabidopsis and pea

Adventitious root formation is essential for the propagation of many commercially important plant species and involves the formation of roots from nonroot tissues such as stems or leaves. Here, we demonstrate that the plant hormone strigolactone suppresses adventitious root formation in Arabidopsis (Arabidopsis thaliana) and pea (Pisum sativum). Strigolactone-deficient and response mutants of both species have enhanced adventitious rooting. CYCLIN B1 expression, an early marker for the initiation of adventitious root primordia in Arabidopsis, is enhanced in more axillary growth2 (max2), a strigolactone response mutant, suggesting that strigolactones restrain the number of adventitious roots by inhibiting the very first formative divisions of the founder cells. Strigolactones and cytokinins appear to act independently to suppress adventitious rooting, as cytokinin mutants are strigolactone responsive and strigolactone mutants are cytokinin responsive. In contrast, the interaction between the strigolactone and auxin signaling pathways in regulating adventitious rooting appears to be more complex. Strigolactone can at least partially revert the stimulatory effect of auxin on adventitious rooting, and auxin can further increase the number of adventitious roots in max mutants. We present a model depicting the interaction of strigolactones, cytokinins, and auxin in regulating adventitious root formation.     

Architectural Tradeoffs between Adventitious and Basal Roots for Phosphorus Acquisition

Adventitious rooting contributes to efficient phosphorus acquisition by enhancing topsoil foraging. However, metabolic investment in adventitious roots may retard the development of other root classes such as basal roots, which are also important for phosphorus acquisition. In this study we quantitatively assessed the potential effects of adventitious rooting on basal root growth and whole plant phosphorus acquisition in young bean plants. The geometric simulation model SimRoot was used to dynamically model root systems with varying architecture and C availability growing for 21 days at 3 planting depths in 3 soil types with contrasting nutrient mobility. Simulated root architectures, tradeoffs between adventitious and basal root growth, and phosphorus acquisition were validated with empirical measurements. Phosphorus acquisition and phosphorus acquisition efficiency (defined as mol phosphorus acquired per mol C allocated to roots) were estimated for plants growing in soil in which phosphorus availability was uniform with depth or was greatest in the topsoil, as occurs in most natural soils. Phosphorus acquisition and acquisition efficiency increased with increasing allocation to adventitious roots in stratified soil, due to increased phosphorus depletion of surface soil. In uniform soil, increased adventitious rooting decreased phosphorus acquisition by reducing the growth of lateral roots arising from the tap root and basal roots. The benefit of adventitious roots for phosphorus acquisition was dependent on the specific respiration rate of adventitious roots as well as on whether overall C allocation to root growth was increased, as occurs in plants under phosphorus stress, or was lower, as observed in unstressed plants. In stratified soil, adventitious rooting reduced the growth of tap and basal lateral roots, yet phosphorus acquisition increased by up to 10% when total C allocation to roots was high and adventitious root respiration was similar to that in basal roots. With C allocation to roots decreased by 38%, adventitious roots still increased phosphorus acquisition by 5%. Allocation to adventitious roots enhanced phosphorus acquisition and efficiency as long as the specific respiration of adventitious roots was similar to that of basal roots and less than twice that of tap roots. When adventitious roots were assigned greater specific respiration rates, increased adventitious rooting reduced phosphorus acquisition and efficiency by diverting carbohydrate from other root types. Varying the phosphorus diffusion coefficient to reflect varying mobilities in different soil types had little effect on the value of adventitious rooting for phosphorus acquisition. Adventitious roots benefited plants regardless of basal root growth angle. Seed planting depth only affected phosphorus uptake and efficiency when seed was planted below the high phosphorus surface stratum. Our results confirm the importance of root respiration in nutrient foraging strategies, and demonstrate functional tradeoffs among distinct components of the root system. These results will be useful in developing ideotypes for more nutrient efficient crops.     

Effect of polyvinyl alcohol on in vitro rooting capacity of shoots in pear clones (<Emphasis Type="Italic">Pyrus communis</Emphasis> L.) of different ploidy

Poor adventitious root formation is a major obstacle in micropropagation. In this study, intense efforts have been made for improvement of rooting procedures for triploid, tetraploid and mixploid clones of the pear cultivar ‘Fertility’ obtained by in vitro colchicine treatment. An efficient rooting procedure has been developed for the pear clones of different ploidy by adding polyvinyl alcohol (PVA) to the rooting medium. PVA significantly improved rooting percentage and root number per plantlet for diploid, triploid and tetraploid clones. However, PVA had little or no effect on rooting capacity of mixploid clones. The efficiency of in vitro rooting in diploid, triploid, tetraploid and mixploid is highly genotype-dependent. In general, diploid was the highest, followed by triploid and tetraploid, mixploid was the lowest.     

不定根发生分子调控机制的研究进展

不定根发生问题,既是植物无性繁殖和工厂化育苗实践的核心问题,又是植物发育和形态建成等方面的重要理论问题。由于不定根发生过程的复杂性,到目前为止对其调控机制的了解还十分有限。大量研究证实,不定根发生与植物生长素类物质密切相关,因此现有的研究不仅围绕生长素及其信号传导途径展开,而且还涉及到基因表观遗传学调控水平。目前已经鉴定出一些与不定根发生相关的生长素信号传导因子,如NO、cGMP、microRNAs等。同时,还克隆到一些与不定根发生相关的基因,如OsPIN1、OsCKI1、NPK1、ARL1等。此外,发现DNA甲基化可以抑制DNA与蛋白(MeCP2) 的结合,从而抑制基因转录;microRNA可以使基因沉默来调控不定根的发生状况。本文围绕不定根发生的激素调控、不定根发生的基因调控、不定根发生的生长素信号传导机制、表观遗传调控等几个方面综述了近年来的研究进展。     

Metabolic analysis of the increased adventitious rooting mutant of Artemisia annua reveals a role for the plant monoterpene borneol in adventitious root formation

Adventitious root (AR) formation is a critical process for plant clonal propagation. The role of plant secondary metabolites in AR formation is still poorly understood. Chemical and physical mutagenesis in combination with somatic variation were performed on Artemisia annua in order to obtain a mutant with changes in adventitious rooting and composition of plant secondary metabolites. Metabolic and morphological analyses of the iar (increased adventitious rooting) mutant coupled with in vitro assays were used to elucidate the relationship between plant secondary metabolites and AR formation. The only detected differences between the iar mutant and wild‐type were rooting capacity and borneol/camphor content. Consistent with this, treatment with borneol in vitro promoted adventitious rooting in wild‐type. The enhanced rooting did not continue upon removal of borneol. The iar mutant displayed no significant differences in AR formation upon treatment with camphor. Together, our results suggest that borneol promotes adventitious rooting whereas camphor has no effect on AR formation.     

Effect of polyamines on adventitious root formation from Tobacco (Nicotiana tabaccum) leaf segments

To elucidate the effect of polyamines on adventitious root formation, we investigated the relationship between the frequency of adventitious root formation and the endogenous content of free polyamines in tobacco leaf segments which had been treated with polyamine biosynthesis inhibitors and polyamines. Adventitious root formation was inhibited in rooting medium (10 μM IAA) with methylglyoxal-bis(guanylhydrazone) (MGBG) or cyclohexylamine (CHA), and promoted with spermidine and putrescine. Treatment with high IAA (100 μM) medium plus CHA or MGBG promoted rooting up reversion of the rooting inhibition than the one treated with high IAA concentration alone. Spermidine promoted adventitious root numbers on low IAA (1 μM) medium when applied during culture period. The rooting inductive phase (in the presence of IAA) was determined by periodical transfer of leaf segments from IAA-containing medium to IAA free medium, and by changing polyamine contents, to be inductive phase. Putrescine and spermidine were accumulated to a maximum during the inductive phase. Therefore, the results point out the involvement of polyamines in inductive phase of adventitious root formation in tobacco leaf segments.