Transgenic mimicry of pathogen attack stimulates growth and secondary metabolite accumulation

Plant secondary metabolites, including pharmaceuticals, flavorings and aromas, are often produced in response to stress. We used chemical inducers of the pathogen defense response (jasmonic acid, salicylate, killed fungi, oligosaccharides and the fungal elicitor protein, cryptogein) to increase metabolite and biomass production in transformed root cultures of the medicinal plant, Withania somnifera, and the weed, Convolvulus sepium. In an effort to genetically mimic the observed effects of cryptogein, we employed Agrobacterium rhizogenes to insert a synthetic gene encoding cryptogein into the roots of C. sepium, W. somnifera and Tylophora tanakae. This genetic transformation was associated with stimulation in both secondary metabolite production and growth in the first two species, and in growth in the third. In whole plants of Convolvulus arvensis and Arabidopsis thaliana, transformation with the cryptogein gene led, respectively, to increases in the calystegines and certain flavonoids. A similar transgenic mimicry of pathogen attack was previously employed to stimulate resistance to the pathogen and abiotic stress. In the present study of biochemical phenotype, we show that transgenic mimicry is correlated with increased secondary metabolite production in transformed root cultures and whole plants. We propose that natural transformation with genes encoding the production of microbial elicitors could influence interactions between plants and other organisms.     

植物中SAM Mtases基因研究进展

SAM Mtases是从多种植物中分离到的一类S-腺苷-L-甲硫氨酸依赖性氧位甲基转移酶基因,该基因对植物体内木质素、类苯基丙烷、类黄酮类、生物碱和脂肪族化合物等许多次生代谢产物合成有直接的影响,并且在植物抗病、抗紫外线、杀虫、抗菌、植物激素生长和信号调节、植物共生、花粉管伸长和花粉生长等生理过程中起重要作用.该文总结了国内外已经克隆到的SAM Mtases同源基因的分离、分类及其功能,为进一步研究SAM Mtases基因在植物生理代谢调控中的地位及在植物抗性及药用成分育种上的应用提供参考.     

Elicitation studies in cell suspension cultures of Cannabis sativa L.

Cannabis sativa L. plants produce a diverse array of secondary metabolites. Cannabis cell cultures were treated with biotic and abiotic elicitors to evaluate their effect on secondary metabolism. Metabolic profiles analysed by ¹H NMR spectroscopy and principal component analysis (PCA) showed variations in some of the metabolite pools. However, no cannabinoids were found in either control or elicited cannabis cell cultures. Tetrahydrocannabinolic acid (THCA) synthase gene expression was monitored during a time course. Results suggest that other components in the signaling pathway can be controlling the cannabinoid pathway.     

Smoke-water improves shoot growth and indigo accumulation in shoots of Isatis indigotica seedlings

Although smoke treatments have successfully been used for promoting the germination of many seeds, there are no reports on the effect of smoke on secondary metabolite production in plants. This study highlights the effects of smoke-water on shoot growth and accumulation of indigo in shoots of Isatis indigotica Fort., a Chinese medicinal plant. Results showed that seedlings treated with smoke-water at a dilution of 1:1000 achieved the highest fresh and dry shoot mass, which was significantly (P < 0.05) different from the control and other smoke-water dilutions tested. A higher concentration of smoke-water (1:500) significantly increased (P < 0.05) the indigo concentration in shoots compared with untreated seedlings. The effect of 1:1000 and 1:2000 dilutions gave non-significant increases in the concentration of indigo. These findings suggest the possible use of smoke-water for promoting the growth and accumulation of secondary metabolites in plants.     

菌株YN145对稻瘟病菌黑色素合成的影响及全基因组分析

【背景】枯草芽孢杆菌YN145是一株从湖南省桃江县的健康稻株中分离的细菌,前期研究中该菌对稻瘟病菌拮抗效果显著,在生物防治方面有很大的应用潜力。【目的】深入研究该菌株的生防机制并挖掘次级代谢产物基因资源。【方法】在4株稻瘟病菌生防菌中,选择其胞外抗菌物质抑制稻瘟病菌黑色素合成效果最佳的菌株YN145,采用紫外-可见分光光度计在波长400 nm处测定胞外和菌丝体内黑色素液的吸光度值,采用菌丝生长抑制平板法和分生孢子萌发抑制法测定抑菌活性。采用PacBio第三代测序和IlluminaHiSeq第二代测序相结合的技术对菌株YN145进行全基因组测序,并对测序数据进行组装,注释预测基因的功能,分析次级代谢产物合成基因簇。【结果】菌株YN145的胞外抗菌物质能较好地抑制稻瘟病菌黑色素合成、分生孢子萌发和菌丝生长。菌株YN145全基因组大小为4 167 871 bp,GC含量为43.86%,编码序列(coding sequence, CDS)数量为4 294个;共找到85个tRNA、30个rRNA和92个sRNA。同时预测到5个已知的次级代谢产物合成基因簇,分别编码合成bacillaene、bac...     

Heritable variation in the foliar secondary metabolite sideroxylonal in <Emphasis Type="Italic">Eucalyptus</Emphasis> confers cross-resistance to herbivores

Plants encounter a broad range of natural enemies and defend themselves in diverse ways. The cost of defense can be reduced if a plant secondary metabolite confers resistance to multiple herbivores. However, there are few examples of positively correlated defenses in plants against herbivores of different types. We present evidence that a genetically variable chemical trait that acts as a strong antifeedant to mammalian herbivores of Eucalyptus also deters insect herbivores, suggesting a possible mechanism for cross-resistance. We provide field confirmation that sideroxylonal, an important antifeedant for mammalian herbivores, also determines patterns of damage by Christmas beetles, a specialist insect herbivore of Eucalyptus. In a genetic progeny trial of Eucalyptus tricarpa, we found significant heritabilities of sideroxylonal concentration (0.60), overall insect damage (0.34), and growth traits (0.30–0.53). Population of origin also had a strong effect on each trait. Negative phenotypic correlations were observed between sideroxylonal and damage, and between damage and growth. No relationship was observed between sideroxylonal concentration and any growth trait. Our results suggest that potential for evolution by natural selection of sideroxylonal concentrations is not strongly constrained by growth costs and that both growth and defense traits can be successfully incorporated into breeding programs for plantation trees.     

Valepotriates accumulation in callus, suspended cells and untransformed root cultures of Valeriana glechomifolia

Summary Valeriana glechomifolia is an endemic species of southern Brazil, capable of accumulating, in all of its organs, the terpene derivatives known as valepotriates, the presumed sedative components of the roots of pharmaceutically used species of Valeriana. In vitro cultures of the plant were established and the accumulation of acevaltrate, didrovaltrate, and valtrate in callus, cell suspension, and untransformed root cultures was studied. Leaves of in natura plants and roots of micropropagated plantlets were used as the explants for callus induction and root culture establishment, respectively, on Gamborg B5 basal medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) alone or with kinetin (KIN). Culture growth and secondary metabolite yields were enhanced with 2,4-D (4.52μM) and KIN (0.93μM). Maximum valepotriate contents, quantified by HPLC, of acevaltrate (ACE) 2.6mg g⁻¹ DW, valtrate (VAL) 10.2mgg⁻¹ DW, and didrovaltrate (DID) 2.9mg g⁻¹ DW were observed in root cultures after 7–8wk of culture.     

Exploring plant tissue culture in Withania somnifera (L.) Dunal: in vitro propagation and secondary metabolite production

Withania somnifera (L.) Dunal (family: Solanaceae), commonly known as “Indian Ginseng”, is a medicinally and industrially important plant of the Indian subcontinent and other warmer parts of the world. The plant has multi-use medicinal potential and has been listed among 36 important cultivated medicinal plants of India that are in high demand for trade due to its pharmaceutical uses. The medicinal importance of this plant is mainly due to the presence of different types of steroidal lactones- withanolides in the roots and leaves. Owing to low seed viability and poor germination, the conventional propagation of W. somnifera falls short to cater its commercial demands particularly for secondary metabolite production. Therefore, there is a great need to develop different biotechnological approaches through tissue and organ culture for seasonal independent production of plants in large scale which will provide sufficient raw materials of uniform quality for pharmaceutical purposes. During past years, a number of in vitro plant regeneration protocols via organogenesis and somatic embryogenesis and in vitro conservation through synthetic seed based encapsulation technology have been developed for W. somnifera. Several attempts have also been made to standardize the protocol of secondary metabolite production via tissue/organ cultures, cell suspension cultures, and Agrobacterium rhizogenes-mediated transformed hairy root cultures. Employment of plant tissue culture based techniques would provide means for rapid propagation and conservation of this plant species and also provide scope for enhanced production of different bioactive secondary metabolites. The present review provides a comprehensive report on research activities conducted in the area of tissue culture and secondary metabolite production in W. somnifera during the past years. It also discusses the unexplored areas which might be taken into consideration for future research so that the medicinal properties and the secondary metabolites produced by this plant can be exploited further for the benefit of human health in a sustainable way.     

Induced responses in three alkaloid-containing plant species

In this paper we test three plant species for the inducibility of their alkaloid production. The plants were heavily damaged by cutting off 50% of their leaf surface using a pair of scissors. The cut-off leaf tips were used as controls for possible diurnal fluctuations. After 3, 6, 12, 24 and 48 h, respectively, the leaf bases of the damaged plants were harvested and the alkaloid concentration was measured. In Senecio jacobaea the pyrrolizidine alkaloid (Pa) concentration in damaged plants decreased within 6–12 h after damage. Within 24 h after damage the Pa concentration of Cynoglossum officinale doubled compared to control values. Indole alkaloid production in Catharanthus roseus was found not to be induced in this experiment. The responses are discussed in a functional context. We hypothesize that the nature of the response is not a feature of the type of secondary metabolite, but is related to whether the plants are damaged mainly by generalist or by specialist herbivores.     

干旱胁迫对蒙古黄芪生长及根部次生代谢物含量的影响

以山西道地药材黄芪一年生幼苗为试验材料,设置常规水分条件(CK)、轻度干旱胁迫(A1)、中度干旱胁迫(A2)、重度干旱胁迫(A3)4个不同处理,研究土壤干旱胁迫对黄芪生长及生理的影响。结果表明:黄芪茎叶快速生长集中在出苗后80—120d,以后生长减缓;当茎叶枯萎时,根中生物量短期快速积累。与常规水分条件相比,干旱胁迫处理显著降低了黄芪苗高及茎叶生物量,但对抗氧化能力、根系生长及次生代谢物积累产生了不同的影响。轻度干旱胁迫下SOD、POD、CAT 3种抗氧化酶活性升高,丙二醛(MDA)含量和细胞膜透性降低,同时根长与根生物量增加、多糖与皂苷两种次生代谢物积累增多,黄芪药材的质量得到显著提高(P0.05);胁迫上升到中度、重度时,SOD酶活性逐渐降低,重度胁迫下低于对照,而POD及CAT酶活性、MDA含量、细胞膜透性均随胁迫增强而升高,相反,根长、根生物量、多糖与皂苷含量降低,导致黄芪药材的质量显著降低(P0.01)。综上表明,干旱胁迫下,SOD酶表现较为敏感,可能在清除活性氧中起主要作用;轻度水分胁迫能有效启动黄芪体内抗氧化酶系统和次生代谢,它们相互协作共同对抗胁迫对细胞产生的伤害,通过降低地上部分的生长,将营养物质优先运往根部,促进根产量及药材质量的提高。这一结论,可在黄芪多糖和皂苷次生代谢物定向培育的水分管理中加以利用。     

黄曲霉功能基因组学研究

黄曲霉（Aspergillus flavus）是一种常见的腐生真菌和条件致病菌,其次生代谢产物黄曲霉毒素（Aflatoxin,AFT）具有高度的致癌性和致畸性,严重危及人类和动物健康。近年来,功能基因组学研究发展迅速,在真菌生长发育、挖掘真菌次级代谢产物以及研究包括黄曲霉毒素在内的真菌毒素等方面得到了广泛的应用。功能基因组学在研究黄曲霉与宿主之间的相互作用以及黄曲霉与其他曲霉之间的相互作用方面具有巨大的潜力。然而,黄曲霉功能基因组学受到细胞壁难以破除、耐药性高、筛选标记少、缺陷型菌株构建费力耗时等因素的影响而发展缓慢。概述了黄曲霉的选择标记、遗传转化方法和黄曲霉毒素以及环匹阿尼酸（cyclopiazonic acid, CPA）生物合成的研究进展,并讨论了在提高黄曲霉基因操作效率方面的潜在策略。例如,构建缺乏非同源末端连接（NHEJ）途径的菌株、Cre-loxP重组系统、CRISPR-Cas9等方法,为深入开展黄曲霉遗传学研究提供参考。     

Nicotianamine synthase: Gene isolation,gene transfer and application for the manipulation of plant iron assimilation

Basic cellular processes such as electron transport in photosynthesis and respiration require the precise control of iron homeostasis. To mobilise iron, plants have evolved at least two different strategies. The non-proteinogenic amino acid nicotianamine is an essential component of both pathways.We briefly review the characterisation of the nicotianamine synthase as a member of a novel class of enzymes, the cloning of the corresponding gene coding sequences of barley, Arabidopsis and tomato as well as the molecular basis of the chloronerva mutant exhibiting severe defects in the regulation of iron metabolism.Further, we report on current experiments aiming to the application of various NAS-genes to manipulate iron assimilation in model and crop plants using transgenic sense and antisense approaches.     

一株稀有海洋真菌Stachybotrys longispora FG216的De Novo测序及基因组学分析

【背景】长孢葡萄穗霉菌(Stachybotrys longispora) FG216是一株稀有海洋真菌,其次生代谢产物FGFC1具有纤溶活性。进行S. longispora FG216的基因组序列分析,将充实和促进海洋微生物功能基因和次生代谢产物合成生物学的基础研究和应用研究。【目的】解析S. longispora FG216的基因组序列,分析基因组生物功能和同源相似性关系,分析次生代谢产物纤溶活性化合物FGFC1的相关基因。【方法】基于Illumina HiSeq高通量测序平台对S. longispora FG216菌株进行De Novo测序,使用SSPACE、Augustus等软件进行组装、编码基因预测、基因功能注释、物种共线性分析以及预测FGFC1次生代谢产物合成基因簇。【结果】S. longispora FG216的基因组测序总长度为45622830bp,共得到605个Scaffold,GC含量为51.31%,注释预测得到13329个编码基因和169个非编码RNA。基因组测序数据提交至国家微生物科学数据中心(编号为NMDC60016264),其中13 053、8 422、8 460、7 714和2 847个基因分别能够在NR、KEGG、KOG、GO和CAZy数据库匹配到注释信息。比较基因组学分析发现,Stachybotrys具有保守性,核心基因占基因家族总数目的71.44%,S. longispora FG216与S. chlorohalonata IBT 40285的相似性最高;同时,预测得到101个次生代谢产物合成基因簇,其中18个基因簇与已知的化合物相匹配。通过antiSMASH预测,Cluster57是编码合成FGFC1母核结构异吲哚啉酮的基因簇,与S.chlorohalonataIBT40285中的基因簇相似度为40%。【结论】海洋稀有真菌S.longisporaFG216的基因组信息已上传至国家微生物科学数据中心公开使用,为Stachybotrys种属的研究提供了重要的参考意义,同时发现了S. longispora FG216次生代谢产物纤溶活性化合物FGFC1母核部分编码基因是Cluster 57。     

Influence of Forest Types and Effects of Forestry Activities on Species Richness and Composition of Chrysomelidae in the Central Mountainous Region of Japan

Species richness and composition of the Chrysomelidae (Coleoptera) were studied in larch (Larix kaempheri [Lamb.] Carrière) plantations, secondary forests, and primary forests. In addition, the effects of forest management practices, such as thinning and long rotation, were examined in the larch plantation. The species richness of Chrysomelidae was higher in the larch plantation than in the secondary forest or in the primary forest. Among the larch plantations, the species richness in old-aged plantations was higher than that in middle-aged plantations. The composition of the beetle assemblages in the larch plantation differed from that in the secondary forest or in the primary forest. Exosoma akkoae (Chujo), Batophila acutangula Heikertinger, and Calomicrus nobyi Chujo were caught with a bias toward the larch plantation. Longitarsus succineus (Foudras) and Sphaeroderma tarsatum Baly were caught more in the secondary forest and the primary forest, respectively. More B. acutangula and S. tarsatum were caught in stands where their host plants occurred at higher rates. Species richness of understory plants was an important factor for chrysomlid species richness, and frequency of host occurrence affected the number of individuals of leaf beetles examined. It seems that forest types and forest management practices affect host plants as well as Chrysomelidae, and that these effects on the host plants also influence chrysomelid assemblages.     

红豆杉高产悬浮细胞系建立及其紫杉醇诱导的研究进展

紫杉醇是一种四环二萜酰胺类化合物,是从红豆杉科红豆杉属植物中提取分离出来的次生代谢物,是世界公认广谱、活性强的天然抗癌新药。但直接从植物中提取紫杉醇的传统生产方式,不仅产量低,且会对野生红豆杉资源造成严重破坏,同时紫杉醇的化学全合成也由于其结构复杂而不具备商业价值。与之相反,细胞培养技术具有受外界影响少、生产成本低、次生代谢产物多、细胞生长周期短的优势,是目前最具前景的紫杉醇生产方式。近年来随着科研水平的不断提升,紫杉醇无论在生理代谢调控、关键基因挖掘,还是新药物制剂与剂型及其类似物的开发和运用等方面,都取得了进展,但要建立紫杉醇商业化高产体系,还必须和前人的研究经验相结合。该文对红豆杉高产悬浮细胞系建立及其紫杉醇诱导的研究进展进行了综述,主要包括前人对红豆杉属植物组织与细胞培养相关的外植体、培养基、激素、培养条件、褐化等问题的研究,以及从代谢调节、培养方式、基因工程等多方面提高紫杉醇含量的最新进展,最后总结了当前研究的不足,并对今后通过多种组合方式来提高紫杉醇含量的生产途径进行了展望。以期促进红豆杉组织培养技术的进步,为药用资源保护和利用提供一定的理论基础与生产指导。     

拟孢囊菌属放线菌的研究进展

拟孢囊菌属(Kibdelosporangium)是一个经典的丝状放线菌类群。自Shearer等于1986年建立该属以来,不断有新的菌株从不同生境中被纯培养分离得到,目前已有效发表8个种、2个亚种。拟孢囊菌属作为稀有放线菌属,是获得新型抗生素类次生代谢产物的重要资源。本文结合我们分离到的一株该属菌株的功能研究、基因组分析和相关文献资料,系统综述了拟孢囊菌属放线菌的建立、分类学特征、属内种的分布、活性次级代谢产物的发现以及其他功能应用和开发前景,以期为该属其他新分离菌株的分类鉴定、新颖次级代谢产物的发现、功能基因资源的挖掘与开发提供借鉴。     

基于LC-MS代谢组学技术的丽豆-大豆差异代谢物比较研究

丽豆(Calophaca sinica)是我国华北地区特有的一种珍稀野生植物。为探明丽豆的营养价值，该文以大豆(Glycine max)为参照组，利用液相色谱-质谱联用(LC-MS)技术对其种子进行了比较代谢组学研究。结果表明：(1)丽豆和大豆中共检测到1 857种代谢产物，二者成分相同且含量相似的代谢物有1 698种(>90%),差异代谢物有159种(<10%)。(2)在差异代谢物中，成分差异的有9种，其中有5种为丽豆特有，剩余150种均为含量差异，其中48种(约30%)在丽豆中的含量高于大豆。(3) KEGG注释到8条差异代谢物显著富集(P<0.1)的通路，主要包括初生代谢物的各类氨基酸生物合成途径和次生代谢物的罗汉松脂素、花生四烯酸以及二萜类等生物合成途径。(4)丽豆比大豆含量低的化学组分主要是初生代谢产物，比大豆含量高的化学组分主要是次生代谢物，而这些次生代谢物在调节血糖、骨坏损修复、增强免疫以及消炎抗癌等生理过程中有着积极的作用。综上所述，该研究认为丽豆与大豆具有相近的营养价值，并且对改善人类亚健康状况有积极的影响；此外，该文使我们对丽豆的营养价值和代谢组成...     

Growth,ionic balance,proton excretion,and nitrate reductase activity in Alnus and Hippophaë supplied with different sources of nitrogen

Summary Pre-cultivated, nodulated and non-nodulated plants of black alder (Alnus glutinosa) and sea buckthorn (Hippophaë rhamnoides ssp.rhamnoides) were grown on different N sources, with and without acidity control. Dry matter yields were lowest when plants were supplied with only NO ₃ ^– and were much greater when NH ₄ ⁺ was supplied either alone or in combination with NO ₃ ^– as long as the external pH was controlled; the final yields of the N₂-fixing plants were relatively low, especially withH. rhamnoides. Without acidity control, yields were greatly reduced in the presence of NH ₄ ⁺ .Proton or hydroxyl-ion effluxes, calculated on the basis of plant analyses, agreed well with measured excretion values. Without pH adjustment, the total proton efflux into the external solution was greater inA. glutinosa than inH. rhamnoides.Both species, but particularlyA. glutinosa, displayed the highest nitrate reductase activity in the roots.     

Stable transformation and direct regeneration in Coffea canephora P ex. Fr. by Agrobacterium rhizogenes mediated transformation without hairy-root phenotype

A system for genetic transformation of Coffea canephora by co-cultivation with Agrobacterium rhizogenes harbouring a binary vector has been developed. The objective of the present study was the genetic transformation and direct regeneration of transformants through secondary embryos bypassing an intervening hairy root stage. Transformants were obtained with a transformation efficiency up to 3% depending on the medium adjuvant used. A. rhizogenes strain A4 harbouring plasmid pCAMBIA 1301 with an intron uidA reporter and hygromycin phosphotransferase (hptII) marker gene was used for sonication-assisted transformation of Coffea canephora. The use of hygromycin in the secondary embryo induction medium allowed the selection of transgenic secondary embryos having Ri T-DNA along with the T-DNA from the pCAMBIA 1301 binary vector. In addition transgenic secondary embryos devoid of Ri-T-DNA but with stable integration of the T-DNA from the binary vector were obtained. The putative transformants were positive for the expression of the uidA gene. PCR and Southern blot analysis confirmed the independent, transgenic nature of the analysed plants and indicated single and multiple locus integrations. The study clearly demonstrates that A. rhizogenes can be used for delivering transgenes into tree species like Coffea using binary vectors with Agrobacterium tumefaciens T-DNA borders.