红豆杉内生真菌产紫杉醇相关基因BAPT的鉴定及初步研究

从几种红豆杉中先后分离了30余种内生真菌,深入研究了三种能够产紫杉醇的内生真菌。形态学观察及18srDNA鉴定它们分属于Fusarium(属)和Pestalotiopsis(属),三个菌株均可以在离体培养的条件下产生紫杉醇,经两周培养产量可分别达到8.5,31.5,31.1μg/L。(其中Pestalotiopsis1分离于南方红豆杉,Fusarium1分离于东北红豆杉,Pestalotiopsis2分离于中国红豆杉)。对这些内生真菌产紫杉醇的初步机理作了研究。BAPT(C-13phenylpropanoidsidechain-CoAacyltransferase)是红豆杉中紫杉醇合成途径里支链合成的关键酶之一,我们根据其保守区序列设计了引物,首次在能产生紫杉醇的上述三种红豆杉内生真菌中克隆得到了BAPT基因片段,而分离的其它真菌并没有得到扩增。序列分析表明,来自内生真菌的BAPT基因片段序列与红豆杉BAPT基因片段序列具有非常高的相似性(98.9%)。推测红豆杉内生真菌之所以能够合成紫杉醇,相关基因可能直接源于其宿主植物,即其遗传学起源是基因转移而不是共进化。这同时也建立了一种快速经济的鉴定产紫杉醇真菌的辅助方法。内生真菌的遗传稳定性及改良在进一步研究中。     

The Strait of Gibraltar as a major biogeographic barrier in Mediterranean conifers: a comparative phylogeographic survey

The Strait of Gibraltar (SG) is reputed for being both a bridge and a geographic barrier to biological exchanges between Europe and Africa. Major genetic breaks associated with this strait have been identified in various taxa, but it is unknown whether these disjunctions have been produced simultaneously or by independent biogeographic processes. Here, the genetic structure of five conifers distributed on both sides of the SG was investigated using mitochondrial (nad1 b/c, nad5-1, nad5-4 and nad7-1) and chloroplast (Pt1254, Pt15169, Pt30204, Pt36480, Pt71936 and Pt87268) DNA markers. The distribution of genetic variation was partially congruent between types of markers within the same species. Across taxa, there was a significant overlapping between the SG and the genetic breaks detected, especially for the four Tertiary species surveyed (Abies pinsapo complex, Pinus nigra, Pinus pinaster and Taxus baccata). For most of these taxa, the divergence of populations across the SG could date back to long before the Pleistocene glaciations. However, their strongly different cpDNA G(ST) and R(ST) values point out that they have had dissimilar population histories, which might include contrasting amounts of pollen-driven gene flow since their initial establishment in the region. The fifth species, Pinus halepensis, was genetically depauperated and homogenous on both sides of the SG. A further analysis of nuclear DNA sequences with coalescent-based isolation with migration models suggests a Pleistocene divergence of P. halepensis populations across the SG, which is in sharp contrast with the pre-Pleistocene divergence dates obtained for P. pinaster. Altogether, these results indicate that the genetic breaks observed across this putative biogeographical barrier have been produced by independent evolutionary processes related to the biological history of each individual species instead of a common vicariant phenomenon.     

蔓地亚红豆杉3′-N-去苯甲酰-2-脱氧紫杉醇苯甲酰转移酶基因的克隆与序列分析

3′-N-去苯甲酰-2-脱氧紫杉醇苯甲酰转移酶(DBTNBT)是催化紫杉醇生物合成最后一步反应所需要的酶,负责将带有不完全侧链的紫杉醇前体催化形成紫杉醇。利用蔓地亚红豆杉的总DNA和总RNA为模板,采用PCR和RT-PCR技术克隆出DBTNBT基因的DNA序列和cDNA序列,测序结果显示长度分别为1465bp和1362bp,编码438个氨基酸的多肽。同源性比较分析结果表明,其碱基序列与已经报道的蔓地亚红豆杉的DBTNBT基因的一致性为99%,其氨基酸序列与已经报道的蔓地亚红豆杉的DBTNBT氨基酸序列的一致性为96%。DNA序列和cDNA序列比对发现该基因含有1个内含子。利用SWISS-PROT、DNAMAN等生物信息学工具对其蛋白序列进行了分析,为利用基因工程的方法生产紫杉醇或其前体物质提供了分子基础。     

原位吸附和茉莉酸甲酯联合使用显著提高中国红豆杉细胞云南紫杉烷c的生产

本实验所用的中国红豆杉细胞悬浮培养体系中,云南紫杉烷c(Tc)是主要的次生代谢产物,该化合物有类神经生长因子活性,提高其产量是进一步规模化生产的前提。本研究考察了原位吸附和茉莉酸甲酯(MJA)联合调控提高Tc产量的可能性。在培养的第7天加入浓度为100μmol/L的MJA虽然会使细胞的生物量下降10%～30%,但是单位细胞内Tc含量和Tc产量均有显著提高,分别是对照的3.6和3.3倍。吸附剂XAD-7在不同时间加入对Tc的合成影响显著。在培养的第7天同时加入100μmol/L的MJA和100g/L的XAD-7会使细胞生物量增加,Tc产量显著提高。培养到第21天,Tc产量达477.4mg/L,为对照的6.3倍,为只加MJA的1.9倍,其中94%的Tc被树脂吸附。实验结果表明,在MJA诱导高表达的过程中,吸附剂XAD-7的加入使细胞内代谢产物外泌,浓度降低,减轻产物反馈抑制现象,从而大幅度提高代谢物产量,有较好的生产前景。     

A New Farnesyl Diphosphate Synthase Gene from Taxus media Rehder： Cloning, Characterization and Functional Complementation

Farnesyl dlphosphate synthase （FPS; EC 2.5.1.10） catalyzes the production of 15-carbon farnesyl dlphosphate which Is a branch-point Intermediate for many terpenoids. This reaction Is considered to be a ratelimiting step In terpenold biosynthesis. Here we report for the first time the cloning of a new full-length cDNA encoding farnesyl dlphosphate synthase from a gymnosperm plant species, Taxus media Rehder, designated as TmFPS1. The full-length cDNA of TmFPS1 （GenBank accession number： AY461811） was 1 464 bp with a 1 056-bp open reading frame encoding a 351-amino acid polypeptlde with a calculated molecular weight of 40.3 kDa and a theoretical pl of 5.07. Biolnformatlc analysis revealed that TmFPS1 contained all five conserved domains of prenyltransferases, and showed homology to other FPSs of plant origin. Phylogenetlc analysis showed that farnesyl dlphosphate synthases can be divided Into two groups： one of prokaryotic origin and the other of eukaryotic origin. TmFPS1 was grouped with FPSs of plant origin. Homologybased structural modeling showed that TmFPS1 had the typical spatial structure of FPS, whose most prominent structural feature Is the arrangement of 13 core helices around a large central cavity In which the catalytic reaction takes place. Our blolnformatic analysis strongly suggests that TmFPS1 is a functional gene. Southern blot analysis revealed that TmFPS1 belongs to a small FPSgene family in T. media. Northern blot analysis indicated that TmFPS1 is expressed in all tested tissues, Including the needles, stems and roots of T. media. Subsequently, functional complementatlon with TmFPS1 in a FPS-deflclent mutant yeast demonstrated that TmFPS1 did encode farnesyl dlphosphate synthase, which rescued the yeast mutant. This study will be helpful In future Investigations aiming at understanding the detailed role of FPS In terpenold biosynthesis flux control at the molecular genetic level.     

Two new taxanes from the needles and branches bark of Taxus cuspidata

Two new taxanes were isolated from the MeOH extract of the needles and branches bark of the Japanese yew, Taxus cuspidata. The structures were established as (2alpha,5alpha,7beta,9alpha,10beta,13alpha)-5,10,13,20-tetraacetoxytax-11-ene-2,7,9-triol (1) and (2alpha,5alpha,9alpha,10beta)-2,9,10-triacetoxy-5-[(beta-D-glucopyranosyl)oxy]-3,11-cyclotax-11-en-13-one (2) on the basis of in-depth 1D- and 2D-NMR analyses. Compound 2 is the first example of a transannular taxane glycoside isolated from a natural source.     

Involvement of nitric oxide in oxidative burst, phenylalanine ammonia-lyase activation and Taxol production induced by low-energy ultrasound in Taxus yunnanensis cell suspension cultures

This work was to characterize the generation of nitric oxide (NO) in Taxus yunnanensis cells exposed to low-energy ultrasound (US) and the signal role of NO in elicitation of plant defense responses and secondary metabolite accumulation. The US sonication (3.5-55.6 mW/cm(3) at 40 kHz fixed frequency) for 2 min induced a rapid and dose-dependent NO production in the Taxus cell culture, which exhibited a biphasic time course, reaching the first plateau within 1.5 h and the second within 7 h after US sonication. The NO donor sodium nitroprusside (SNP) potentiated US-induced H(2)O(2) production and cell death. Inhibition of nitric oxide synthase (NOS) activity by N(omega)-nitro-L-arginine (L-NNA) or scavenging NO by 2-phenyl-4,4,5,5-tetramethyl-imidazoline-1-oxyl-3-oxyde (PTIO) partially blocked the US-induced H(2)O(2) production and cell death. Moreover, the NO inhibitors suppressed US-induced activation of phenylalanine ammonium-lyase (PAL) and accumulation of diterpenoid taxanes (Taxol and baccatin III). These results suggest that NO plays a signal role in the US-induced responses and secondary metabolism activities in the Taxus cells.     

Oxidative burst, jasmonic acid biosynthesis, and taxol production induced by low-energy ultrasound in Taxus chinensis cell suspension cultures

This work aims to detect the two signal events in the elicitation of plant defense responses and secondary metabolism in plant cell cultures by low-energy ultrasound (US), transient production of reactive oxygen species (ROS) or the oxidative burst and jasmonic acid (JA) biosynthesis, and examine their influence on secondary metabolism. Experiments were carried out in Taxus chinensis cell suspension culture which produces the anticancer diterpenoid Taxol (paclitaxel). The culture was exposed to low-frequency US for a short period of time (2 min). At sufficiently high US power levels the US exposure significantly enhanced the Taxol production and slightly depressed cell growth and viability. The US exposure induced transient production of O(2)*- and H(2)O(2) and an increase in the intracellular JA level as well as the activities of enzymes for JA synthesis, lipoxygenase (LOX), and allene oxide synthase (AOS). Inhibition of the ROS production by putative ROS scavengers or the JA accumulation by LOX inhibitors effectively suppressed the US-stimulated Taxol production. Inhibition of the ROS production also suppressed the US-induced JA accumulation. These results suggest that oxidative burst is an upstream event to JA accumulation, and both ROS from the oxidative burst and JA from the LOX pathway are key signal elements in the elicitation of Taxol production of T. chinensis cells by low-energy US.     

Pulsed electric field stimulates plant secondary metabolism in suspension cultures of Taxus chinensis

The effects of pulsed electric field (PEF) on growth and secondary metabolite production by plant cell culture were investigated by using suspension cultures of Taxus chinensis as a model system. Cultured cells in different growth phases were exposed to a PEF (50 Hz, 10 V/m) for various periods of time. A significant increase in intracellular accumulation of taxuyunnanine C (Tc), a bioactive secondary metabolite, was observed by exposing the cells in the early exponential growth phase to a 30-min PEF. The Tc content (i.e., the specific production based on dry cell weight) was increased by 30% after exposure to PEF, without loss of biomass, compared with the control. The combination of PEF treatment and sucrose feeding proved useful for improving secondary metabolite formation. Production levels of reactive oxygen species, extracellular Tc, and phenolics were all increased, whereas cell capacitance was decreased with PEF treatment. The results show that PEF induced a defense response of plant cells and may have altered the cell/membrane's dielectric properties. PEF, an external stimulus or stress, is proposed as a promising new abiotic elicitor for stimulating secondary metabolite biosynthesis in plant cell cultures.