Methyl jasmonate vapour treatment suppresses specking caused by Botrytis cinerea on cut Freesia hybrida L. flowers

Treatment of cut freesia var. Cote d'Azur flowers with methyl jasmonate (MeJA, 0.1 mu l MeJA l(-1)) vapour suppressed petal specking caused by Botrytis cinerea infection. MeJA efficacy was concentration and incubation temperature dependent. Disease severity, lesion numbers and lesion diameters decreased with increasing MeJA concentration from 0.025 to 0.1 mu l MeJA l(-1). However, there were no significant (P > 0.05) differences among MeJA concentrations examined. MeJA was more effective in reducing B. cinerea flower specking at 20 degrees C than at 12 degrees C. MeJA treatment was ineffective at 5 degrees C. At 20 degrees C, MeJA treatment at 0.1 mu l MeJA l(-1) reduced disease severity, lesion numbers and lesion diameters by 58, 50 and 48%, respectively, as compared to untreated controls. In a repeat experiment, disease severity, lesion numbers and lesion diameters on MeJA vapour treated flowers after 12 h of incubation were reduced by 68, 56 and 50%, respectively. MeJA did not exert direct antifungal activity in-vitro, suggesting that treatment in-vivo reduced B. cinerea-induced flower specking by induction of host defence responses. MeJA at 0.1 mu l MeJA l(-1) significantly (P < 0.05) increased vase life of cut freesia flowers and delayed senescence judged by lower wilt scores and higher fresh weights as compared to untreated controls. (c) 2005 Elsevier B.V. All rights reserved.

Heterotrimeric G proteins facilitate Arabidopsis resistance to necrotrophic pathogens and are involved in jasmonate signaling

Heterotrimeric G proteinshave been previously linked to plant defense; however a role for the G beta gamma dimer in defense signaling has not been described to date. Using available Arabidopsis (Arabidopsis thaliana) mutants lacking functional G alpha or G beta subunits, we show that defense against the necrotrophic pathogens Alternaria brassicicola and Fusarium oxysporum is impaired in G beta- deficient mutants while G alpha-deficient mutants show slightly increased resistance compared to wild-type Columbia ecotype plants. In contrast, responses to virulent (DC3000) and avirulent (JL1065) strains of Pseudomonas syringae appear to be independent of heterotrimeric G proteins. The induction of a number of defense-related genes in G beta-deficient mutants were severely reduced in response to A. brassicicola infection. In addition, G beta-deficient mutants exhibit decreased sensitivity to a number of methyl jasmonate- induced responses such as induction of the plant defensin gene PDF1.2, inhibition of root elongation, seed germination, and growth of plants in sublethal concentrations of methyl jasmonate. In all cases, the behavior of the G alpha- deficient mutants is coherent with the classic heterotrimeric mechanism of action, indicating that jasmonic acid signaling is influenced by the Gbg functional subunit but not by G alpha. We hypothesize that G beta gamma acts as a direct or indirect enhancer of the jasmonate signaling pathway in plants.

Effects of postharvest methyl jasmonate treatments against Botrytis cinerea on Geraldton waxflower (Chamelaucium uncinatum)

Cut Geraldton waxflower (Chamelaucium uncinatum Schauer) flowers are often infected with Botrytis cinerea. Release of infection from quiescence can cause ethylene production by invaded host tissues and result in flower abscission. Postharvest floral organ abscission is a major problem for the commercial waxflower industry. Methyl jasmonate (MeJA) occurs naturally in plant tissue and has a signalling role in eliciting induced systemic resistance against disease. MeJA treatments have been shown to suppress B. cinerea infecting cut rose flowers. The present experiments investigated the potential of exogenous MeJA treatments for B. cinerea management on harvested waxflower. MeJA treatments of 10 and 100 L liquid MeJA/L of air applied to cv. Purple Pride and 1 L MeJA/L to cv. Mullering Brook gave reductions in disease severity for uninoculated stems. However, concentrations of 100 L MeJA/L applied to Purple Pride in addition to 1 and 10 L MeJA/L applied to Mullering Brook increased the incidence of floral organ fall. Flower abscission upon treatment with MeJA may be due to induced systemic resistance-associated upregulation of ethylene biosynthesis. MeJA treatments had no direct effect on B. cinerea hyphal elongation in vitro. Collectively, these results show that while MeJA treatment may elicit defence in waxflower against Botrytis, the chemical also causes floral organ fall. Thus, exogenous MeJA treatments do not have potential for B. cinerea management on harvested waxflower.

Acibenzolar-S-methyl and methyl jasmonate treatments of glasshouse-grown freesias suppress post-harvest petal specking caused by Botrytis cinerea

Compounds that activate host plant defence responses potentially offer socio-environmentally sound alternative methods for disease control. In a series of glasshouse trials over 2 years, pre-harvest sprays with acibenzolar-S-methyl (ASM) and methyl jasmonate (MeJA) were tested for suppression of post-harvest infection of cut Freesia hybrida L. flowers by Botrytis cinerea. For the ASM treatments, variability in reducing the incidence of B. cinerea disease was observed between years freesia varieties, incubation temperatures and ASM concentrations. In the first year, the greatest reductions in lesion numbers on ASM-treated var. 'Cote d'Azur' were recorded using 2.86 mM ASM. For three different post-harvest temperature regimes, the relative reductions in lesion numbers, compared to untreated controls, were 45% at 5 degrees C, 40% at 12 degrees C and 30% at 20 degrees C, respectively. In the second year, lesion numbers were most reduced using 1.43 mM ASM to treat freesia var. 'Dukaat' flowers. Here, the relative reductions were to 44% at 5 degrees C, 26% at 12 degrees C and 51% at 20 degrees C. MeJA treatments were, in general, more consistently effective than ASM treatments in reducing lesion numbers and lesion diameters on cut freesia flowers. MeJA-treated (0.2 mM) freesia flowers (var. 'Dukaat') incubated at 20 degrees C showed relative reductions of 62%, and 45% for lesion number and lesion diameter, respectively. The differing efficacy between ASM and MeJA treatments could be attributed to their differential abilities to induce the salicylic acid (SA)-mediated vs. the jasmonic acid (JA)-mediated host defence pathways, respectively.

Methyl jasmonate induced gene expression in wheat delays symptom development by the crown rot pathogen Fusarium pseudograminearum

The necrotrophic fungal pathogen Fusarium pseudograminearum (F. pseudograminearum) causes crown rot disease (CR) in wheat. This host-pathogen interaction has not been studied previously at the molecular level. In this study. using real-time quantitative PCR, the expression of 26 selected wheat genes was examined 1, 2 and 4 days after inoculation of wheat seedlings of the CR susceptible cultivar Kennedy and the partially field-resistant cultivar Sunco. Reproducible induction of eight defence genes consisting of PR1.1, PR2 (beta,1-3 glucanase), PR3 (chitinase), PR4 (wheativin), PR5 (thaumatin-like protein). TaPERO (peroxidase), PR10 and TaGLP2a (germin-like) was observed. These genes were induced in both cultivars, however. some genes were induced more rapidly in Sunco than in Kennedy. MJ treatment also induced the above pathogen responsive defence genes in both cultivars while benzo(1,2,3)thiadiazole-7-carbothionic acid S-methyl ester (BTH) treatment weakly induced them in Kennedy only. Similarly. treatment with MJ before inoculation significantly delayed the development of necrotic symptoms for 2 weeks in both wheat cultivars, while BTH pre-treatments delayed symptom development in Kennedy only. The chemically induced protection, therefore, correlated with induction of the F. pseudograminearum-responsive genes. These results support the emerging role of jasmonate signalling in defence against necrotrophic fungal pathogens in monocots and future manipulation of this pathway may improve CR resistance in wheat. (c) 2006 Elsevier Ltd. All rights reserved.

Phosphate Deficiency Induces the Jasmonate Pathway and Enhances Resistance to Insect Herbivory.

During their life cycle, plants are typically confronted by simultaneous biotic and abiotic stresses. Low inorganic phosphate (Pi) is one of the most common nutrient deficiencies limiting plant growth in natural and agricultural ecosystems, while insect herbivory accounts for major losses in plant productivity and impacts ecological and evolutionary changes in plant populations. Here, we report that plants experiencing Pi deficiency induce the jasmonic acid (JA) pathway and enhance their defense against insect herbivory. Pi-deficient Arabidopsis (Arabidopsis thaliana) showed enhanced synthesis of JA and the bioactive conjugate JA-isoleucine, as well as activation of the JA signaling pathway, in both shoots and roots of wild-type plants and in shoots of the Pi-deficient mutant pho1 The kinetics of the induction of the JA signaling pathway by Pi deficiency was influenced by PHOSPHATE STARVATION RESPONSE1, the main transcription factor regulating the expression of Pi starvation-induced genes. Phenotypes of the pho1 mutant typically associated with Pi deficiency, such as high shoot anthocyanin levels and poor shoot growth, were significantly attenuated by blocking the JA biosynthesis or signaling pathway. Wounded pho1 leaves hyperaccumulated JA/JA-isoleucine in comparison with the wild type. The pho1 mutant also showed an increased resistance against the generalist herbivore Spodoptera littoralis that was attenuated in JA biosynthesis and signaling mutants. Pi deficiency also triggered increased resistance to S. littoralis in wild-type Arabidopsis as well as tomato (Solanum lycopersicum) and Nicotiana benthamiana, revealing that the link between Pi deficiency and enhanced herbivory resistance is conserved in a diversity of plants, including crops.

The effects of host defence elicitors on betacyanin accumulation in Amaranthus mangostanus seedlings

The effect of elicitors associated with host defence on betacyanin accumulation in Amaranthus mangostanus seedlings was investigated. Under the conditions of the experiments, betacyanin accumulation was generally enhanced by light. Methyl jasmonate (MeJA) treatment increased betacyanin synthesis in a concentration-dependent response. Seedlings treated with ethylene as 5 mM Ethephon also had elevated levels of betacyanin. In contrast. salicylic acid (SA) and H2O2 treatments had no influence on betacyanin contents in light or dark. Combined MeJA with Ethephon or H2O2 had an additive effect on betacyanin accumulation in dark-grown seedlings. However, a decline was recorded in light-grown seedlings. Moreover, an antagonistic effect on betacyanin synthesis was found when MeJA and SA were added simultaneously. Our results indicate that betacyanin content in A. mangostanus seedlings can be upregulated by MeJA and ethylene. Both additive and antagonistic effects in regulating betacyanin synthesis in A. mangostanus seedlings were observed between MeJA and other elicitors. (C) 2012 Elsevier Ltd. All rights reserved.

Induced carotenoid accumulation in Dunaliella salina and Tetraselmis suecica by plant hormones and UV-C radiation

Carotenoids prevent different degenerative diseases and improve human health. Microalgae are commercially exploited for carotenoids, including astaxanthin and β-carotene. Two commercially important microalgae, Dunaliella salina and Tetraselmis suecica, were treated with plant hormones salicylic acid (SA) and methyl jasmonate (MJ), or by UV-C radiation (T. suecica only) and a combination thereof. Significant increases in total carotenoids were found for D. salina and T. suecica after treatment with MJ (10 μmol/L) and SA (70–250 μmol/L), respectively. T. suecica also had significant increases in total carotenoids following UV-C radiation compared to control cultures. Among the carotenoids, lutein was the highest induced carotenoid. A combination of these two treatments also showed a significant increase in total carotenoids and lutein for T. suecica, when compared to controls. Plant hormones and UV-C radiation may be useful tools for increasing carotenoid accumulation in green microalgae although the responses are species- and dose-specific and should be trialed in medium to large scale to explore commercial production.

Pathogen-Induced Defense Signaling and Signal Crosstalk in Arabidopsis

Erwinia carotovora subsp. carotovora is a bacterial phytopathogen that causes soft rot in various agronomically important crop plants. A genetically specified resistance to E. carotovora has not been defined, and plant resistance to this pathogen is established through nonspecific activation of basal defense responses. This, together with the broad host range, makes this pathogen a good model for studying the activation of plant defenses. Production and secretion of plant cell wall-degrading enzymes (PCWDE) are central to the virulence of E. carotovora. It also possesses the type III secretion system (TTSS) utilized by many Gram-negative bacteria to secrete virulence- promoting effector proteins to plant cells. This study elucidated the role of E. carotovora HrpN (HrpNEcc), an effector protein secreted through TTSS, and the contribution of this protein in the virulence of E. carotovora. Treatment of plants with HrpNEcc was demonstrated to induce a hypersensitive response (HR) as well as resistance to E. carotovora. Resistance induced by HrpNEcc required both salicylic acid (SA)- and jasmonate/ethylene (JA/ET)-dependent defense signaling in Arabidopsis. Simultaneous treatment of Arabidopsis with HrpNEcc and PCWDE polygalacturonase PehA elicited accelerated and enhanced induction of defense genes but also increased production of superoxide and lesion formation. This demonstrates mutual amplification of defense signaling by these two virulence factors of E. carotovora. Identification of genes that are rapidly induced in response to a pathogen can provide novel information about the early events occurring in the plant defense response. CHLOROPHYLLASE 1 (AtCLH1) and EARLY RESPONSIVE TO DEHYDRATION 15 (ERD15) are both rapidly triggered by E. carotovora in Arabidopsis. Characterization of AtCLH1 encoding chlorophyll-degrading enzyme chlorophyllase indicated that it might have a role in chlorophyll degradation during plant tissue damage. Silencing of this gene resulted in increased accumulation of reactive oxygen species (ROS) in response to pathogen infection in a light-dependent manner. This led to enhanced SA-dependent defenses and resistance to E. carotovora. Moreover, crosstalk between different defense signaling pathways was observed; JA-dependent defenses and resistance to fungal pathogen Alternaria brassicicola were impaired, indicating antagonism between SA- and JA-dependent signaling. Characterization of ERD15 suggested that it is a novel, negative regulator of abscisic acid (ABA) signaling in Arabidopsis. Overexpression of ERD15 resulted in insensitivity to ABA and reduced tolerance of the plants to dehydration stress. However, simultaneously, the resistance of the plants to E. carotovora was enhanced. Silencing of ERD15 improved freezing and drought tolerance of transgenic plants. This, together with the reducing effect of ABA on seed germination, indicated hypersensitivity to this phytohormone. ERD15 was hypothesized to act as a capacitor that controls the appropriate activation of ABA responses in Arabidopsis.

Produção de carotenoides em culturas in vitro de Cleome rosea Vahl ex DC (Capparaceae) e avaliação de sua toxicidade e potencial antioxidante

A produção e a otimização de substâncias de valor medicinal têm sido alcançadas pelo uso das técnicas de cultura de tecidos vegetais, que têm apresentado grande relevância quando se considera o status de conservação de uma espécie ou sua ocorrência em ambientes ameaçados. No presente trabalho foi avaliada a produção de carotenoides em culturas de calos e células em suspensão de Cleome rosea Vahl ex DC, espécie nativa encontrada em áreas de restinga nos estados do Rio de Janeiro e de São Paulo. Plantas micropropagadas obtidas a partir de raízes produzidas in vitro foram usadas como fonte de explantes para o início das culturas de calos. A produção de massa calogênica foi avaliada em meio MS suplementado com diferentes concentrações das auxinas ácido 2,4-diclorofenoxiacético e ácido 4-amino- 3,5,6-tricloropicolínico, na presença de luz ou no escuro. O uso de diferentes meios básicos de cultura (B5, Nitsch, White) também foi avaliado. A calogênese foi induzida em todos os tratamentos, entretanto a maior produção de biomassa foi alcançada pelas culturas mantidas na presença de luz. A maior produção de massa calogênica foi obtida em culturas iniciadas no meio MS suplementado com 0,2 mg.L-1 de 2,4-D. A exposição das culturas à luz foi um fator essencial para a produção de carotenoides, que só ocorreu nas culturas mantidas nessa condição. Culturas de calos foram submetidas a tratamentos com substâncias elicitoras (extrato de levedura, metil jasmonato, quitosana) em diferentes concentrações e por um período de exposição de sete ou 14 dias visando otimizar a produção do pigmento. A maior produção de carotenoides nas culturas elicitadas foi alcançada com o tratamento com metil jasmonato (MJ) na concentração de 300 μM, independentemente do tempo de exposição ao elicitor. Análises cromatográficas mostraram que o processo de elicitação com MJ induziu ao aumento na produção de β-caroteno. Calos elicitados nessa condição foram usados para iniciar culturas de células em suspensão (CCS). Estas culturas foram acompanhadas por três subculturas realizadas a cada 20 dias, durante a fase exponencial de crescimento. Embora as CCS tenham mantido uma produção de biomassa constante ao longo das subculturas, os valores de produção de carotenoides foram inferiores àqueles alcançados pelas culturas de calos e não houve diferenças estatísticas significativas quando comparadas às CCS iniciadas a partir de calos não elicitados. Extratos de calos produzidos em meio MS suplementado com 0,2 mg.L-1 de 2,4-D foram avaliados quanto à sua capacidade antioxidante por meio da incubação dos extratos com DNA plasmidial em presença de cloreto estanoso (SnCl2), um potente agente redutor capaz de produzir quebras na molécula de DNA. Os extratos foram avaliados em concentrações crescentes (25 - 500 μg.mL-1) e apresentaram uma proteção dose dependente à ação do SnCl2. Estudos de toxicidade com o modelo de Artemia salina demonstraram que os extratos não apresentaram toxicidade nas concentrações avaliadas. Os resultados alcançados mostram que a elicitação foi eficiente para a otimização da produção de β-caroteno nas culturas in vitro e que os extratos obtidos a partir desses materiais apresentaram atividade antioxidante, indicando o êxito das técnicas de cultura de tecidos para a produção deste metabólito sob condição in vitro.

小麦茉莉酸诱导基因的克隆及表达模式分析

茉莉酸（JA）以及茉莉酸甲醋（MeJA）统称为茉莉素（jasmonates），是由 亚麻酸起始合成的一类具环戊酮基的广泛存在于植物界的类激素，它们对于植物 的发育和抗逆性等都起着重要的作用。为了进一步的了解茉莉酸的生物合成以及 功能，我们对”冬小麦中的茉莉酸生物合成、低温环境中的作用及对拟南芥开花时 间的影响等方面进行了研究。 为了方便分离茉莉酸诱导的基因，我们构建了一个高质量的小麦茉莉酸诱导 文库。未扩增时滴度为3一4xlo6pfu/ml，平均插入的长度为1.2kb。TaJIP是一个 JA诱导的基因，进一步的Northern分析发现它亦可以被低温诱导表达，这给了 我们一个提示，JA信号系统可能参与了植物对低温反应的过程。当外源施加JA于拟南芥时，无论是春化处理或者没有春化处理，无论是C24 还是Col生态型，开花时间都有所增加，而且进一步的NOrthern实验证明，这 种外源的JA的处理延迟开花的现象是与开花抑制基因FLC表达水平的增加相平 行，与长日促进途径中的主效基因CO的表达水平无关。这种JA处理延迟开花的 现象与FLC表达水平增加相平行的现象，表明了JA有可能是通过作用于FLC， 使它的表达水平增加来延迟开花。 Aos（Allene oxide synthase）是茉莉酸合成的脂氧合酶途径中的第一个关 键酶。我们克隆了小麦中的该基因并作了表达分析。它的开放阅读框（ORF）约 1410 bp，编码的多肤长约470个氨基酸，推测其蛋白分子量为51.9 kDa，pI为 9.39。Southern分析表明其在基因组中的拷贝数为3个。其mRNA表达可被外源 的JA强烈的诱导。处理10小时达到高峰。RNA原位杂交表明，该基因在幼苗 中组织特异表达，主要集中在幼叶，特别是在维管束区域，与大麦中的AOS不 同的是，它还在胚芽鞘和茎尖的维管束区域有强烈的表达信号。原位杂交还显示 La3十并不能阻断JA对它的诱导表达

低温胁迫下果实组织结构和生理变化及化学调控机理研究

低温贮藏是延缓园艺产品采后成熟、抑制病原菌生长和保持品质的常规方法。然而，许多园艺产品对低温(一般低于10 ºC~12 ºC)相当敏感，如果贮藏温度过低，就易产生冷害，降低其商业价值。所以研究采后园艺产品的冷害机制及如何提高其抗冷性是具有潜在经济价值的科学问题。水杨酸甲酯和茉莉酸甲酯是植物产生的信号物质，有研究表明这两种物质能够缓解低温贮藏下果实的冷害程度或提高果实的抗冷性，但是相关的作用机理并不清晰。本论文以芒果、桃和黄瓜为材料，研究水杨酸甲酯或茉莉酸甲酯处理的果实在冷害或非冷害贮藏条件下的抗氧化代谢、酚类物质代谢、细胞膜完整性以及细胞壁成分和结构等方面的变化，进一步证实了水杨酸甲酯和茉莉酸甲酯能够缓解果实的冷害，同时还探讨了提高抗冷性的机制。 　　本论文采用扫描电子显微镜研究果实表皮蜡层的变化，用光学显微镜、透射电子显微镜和傅里叶变换红外光谱仪研究果实细胞壁结构和成分的变化，用原子吸收分光光度计测定细胞壁钙离子的变化，用电导率仪检测果实细胞的完整性。同时测定了果实酚类物质含量、多酚氧化酶(EC 1.10.3.1)活性、过氧化物酶(EC 1.11.1.7)活性，并分析了果实硬度、糖和酸含量等品质指标。试验结果表明：适宜浓度的水杨酸甲酯和茉莉酸甲酯均能缓解果实的冷害症状，提高果实的抗冷性。其中，水杨酸甲酯处理能够改变果实表皮蜡层结构;降低表皮脂类物质和细胞壁酚类物质积累;抑制细胞壁纤维物质的降解，调节果胶物质的溶解，保护细胞壁结构。茉莉酸甲酯处理可以保护细胞膜的完整性;调节果实的酚类物质代谢，缓解果实的酶促褐变;抑制细胞壁果胶物质和纤维物质的降解，维持细胞壁结构和果实的硬度，有利于提高果实的抗冷性和缓解果实冷害。 　　虽然不同的果实表现的冷害症状不完全相同，但是低温胁迫对植物组织结构(膜系统和细胞壁结构)的破坏是造成果实冷害的根本原因。提高果实抗冷性的各种调节机制归根结底是通过保护细胞正常结构而发挥作用的。水杨酸甲酯与茉莉酸甲酯处理保护了果实的组织结构，缓解了低温胁迫对果实的伤害，提高了果实的抗冷性。然而，果实自身物质成分的差异是造成冷害症状表现不同的主要原因。 　　

雪莲细胞培养物中黄酮类物质代谢调控及其生物活性成份分析

水母雪莲（Saussurea medusa Maxim.）和新疆雪莲（Saussurea involucrata Karel. et Kir.）是我国珍稀的药用植物资源，具有清热解毒、止痉镇痛、敛伤、消肿及治疗热病、风湿等多种功效。雪莲的主要药用成份为紫丁香甙（Syringin）、芦丁(Rutin)、高车前素（Hispidulin）和Jaceosidin等苯基丙酸类（phenylpropanoid）和黄酮类（flavonoids）物质。最新的药理研究表明，上述物质还具有抗菌消炎、保肝降压、延缓衰老和抑制癌细胞增殖等重要的研发价值。 雪莲生境恶劣，生长缓慢，人工引种困难，加上长期掠夺性采挖，已使雪莲处于灭绝的边缘。为了保存国家珍稀植物品种，保护生态环境，满足临床上对雪莲药物的需求，本研究在雪莲组织培养的基础上，应用诱导子添加技术和毛状根培养技术对雪莲中具有重要药用价值的次生代谢物质进行调控，并对雪莲MYB类转录因子的功能进行了初步探索，为保护珍稀植物资源、维护生态环境、开发野生雪莲替代产品、缩短雪莲药用成份的生产周期奠定了基础。另外，分析了野生雪莲和雪莲培养物中主要生物活性成份的种类及含量，为今后雪莲药理药效研究及品质评价奠定了基础。 为了提高雪莲黄酮的产量，满足工业化生产的需要，在细胞培养水平上，通过添加茉莉酸甲酯（MJ），对雪莲黄酮类物质的代谢进行调控。研究了诱导子的添加时间、添加浓度对水母雪莲红色系悬浮细胞的生物量和总黄酮产量的影响。发现在细胞培养的指数期（第9天）添加5.0 µmol/L的MJ，可以使总黄酮产量提高2.4倍（1134.5 ± 63.86 mg/L），而雪莲细胞干重（dw）仅比对照提高23.8 %（20.4 ±0.27 g/L）。另外，细胞中苯丙氨酸裂解酶（PAL）的活性分析表明，MJ添加后PAL活性的增加与雪莲总黄酮含量增长之间存在相关性。 在器官培养水平上，对雪莲毛状根的诱导频率及其培养条件进行了研究。结果表明，选择发根农杆菌R1601侵染预培养2天的新疆雪莲根段外植体，毛状根的诱导效率可达到83 %。毛状根的冠瘿碱检测、PCR和Southern分析表明，Ri质粒中的T-DNA已整合到植物基因组中并稳定表达。以新疆雪莲毛状根为外植体，能够容易地获得再生芽。在含有1.0 mg/L 6-BA的MS固体培养基上，其再生频率高达91 ± 5.9 %，是其正常根的2.4倍。而水母雪莲在该培养条件下，仅有少量的畸形芽出现。进而对毛状根的培养条件进行初步研究，结果表明在无激素附加的MS液体培养基中，新疆雪莲的HR1601根系在一个培养周期内（32 天），其生物量能够达到接种量的16倍，而紫丁香甙含量（43.5 ± 1.13 mg/g dw）能够达到野生雪莲的83倍。从而显示了雪莲毛状根培养体系的优良特性。 在基因水平上，对雪莲黄酮类物质代谢调控的研究已经展开。玉米P基因编码的Myb类转录因子能够调节黄酮类物质代谢途径关键酶基因的表达。根据P基因的保守序列设计引物，从雪莲细胞培养物中获得了SmP基因。核酸序列分析表明，SmP基因与烟草中涉及苯丙素类物质代谢途径的LBM 1、LBM 3和MybAS 1基因具有较高的一致性，分别为66 %、60 %和61 %。因此为了研究雪莲SmP基因的功能，构建了正义表达载体，并与先前构建好的反义表达载体分别导入烟草，分析了转基因植株的形态特征及黄酮类物质的含量变化。其中，约有30 %转反义SmP基因的株系表现叶片皱缩、叶脉紊乱、主侧脉角度缩小、叶片、花瓣失去对称性以及花粉败育等性状。 另外，通过正交试验设计优化了雪莲提取工艺的条件，并对雪莲细胞提取物进行了分离纯化。正交试验设计结果表明，温度对雪莲黄酮提取效率的影响极为显著，而分批多次提取比一次性浸提，能够收到较好的提取效果。考虑到工业生产中的实际问题，推荐在60 ℃水浴条件下，采用50 %乙醇对雪莲样品连续浸提2次的方案。对雪莲提取物的纯化研究表明，雪莲成份复杂，仅依靠单一的分离手段，往往难以奏效。另外，野生雪莲及雪莲培养物中生物活性成份的比色法、HPLC（High Performance Liquid Chromatography）、LC-ESI-MS（Liquid Chromotagraphy Electrospray Ionization Mass Spectrometry）分析表明，传统的NaNO2-AlCl3 法测定雪莲总黄酮的含量，结果偏高，不利于雪莲黄酮的实验室研究分析与今后工业化生产的质量监控。而AlCl3 法的显色反应较为特异，今后有望取代NaNO2-AlCl3 法，作为雪莲类药材品质评价的标准。而HPLC-DAD结合LC-ESI-MS可以对雪莲中的主要生物活性成份进行较为准确的定性分析，从而解决了由于缺乏相应的雪莲化合物标准品而难以对雪莲中的成份进行定性定量分析及比较的难题。最后综合利用上述分析方法，对雪莲细胞培养物中的花素类物质进行了分析。结果表明，雪莲细胞中至少含有7种花色素类物质，分别为矢车菊素-3-O-葡萄糖甙及其衍生物、天竺葵素糖甙衍生物和芍药色素糖甙衍生物。