Microbial transformation of ginsenoside Rb1 by Rhizopus stolonifer and Curvularia lunata

Of 49 microbial strains screened for their capabilities to transform ginsenoside Rb₁, Rhizopus stolonifer and Curvularia lunata produced four key metabolites: 3-O-[-d-glucopyranosyl-(1,2)--d-glucopyranosyl]- 20-O-[-d-glucopyranosyl]-3,12, 20(S)-trihydroxydammar-24-ene (1), 3-O-[-d-glucopyranosyl-(1,2)--d- glucopyranosyl]-20-O-[-d-glucopyranosyl]-3,12, 20(S)-trihydroxydammar-24-ol (2), 3-O-[-d-gluco- pyranosyl-(1,2)--d-glucopyranosyl]-3, 12, 20(S)-trihydroxydammar-24-ene (3), and 3-O--d-glucopyranosyl-3, 12, 20(S)-trihydroxydammar-24-ene (4), identified by TOF-MS, ¹H- and ¹³C-NMR spectral data. Metabolites 1, 3 and 4 were from the incubation with R. stolonifer, and 1 and 2 from the incubation with C. lunata. Compound 2 was identified as a new compound.     

A new class of tetraspanins in fungi

Tetraspanins are animal proteins involved in membrane complexes that are involved in cell adhesion, differentiation, and motility. The PLS1 gene from rice blast fungus Magnaporthe grisea encodes a protein (Pls1p) structurally related to tetraspanins that is required for pathogenicity. In Botrytis cinerea public sequences, we identified an EST homologous to PLS1. Using degenerated oligonucleotides, we amplified sequences homologous to PLS1 in fungi Colletotrichum lindemuthianum and Neurospora crassa. Analysis of N. crassa and M. grisea genome sequences revealed the presence of a single tetraspanin gene. Thus, fungi differ from animals, which contain between 20 and 37 paralogous tetraspanin genes. Fungal proteins encoded by BcPLS1, ClPLS1, and NcPLS1 display all the structural hallmarks of tetraspanins (predicted topology with four transmembrane domains, extra- and intracellular loops; conserved cysteine-based patterns in second extracellular loop). Phylogenetic analysis suggests that these genes define a new family of orthologous genes encoding fungal-specific tetraspanins.     

Structural and functional characterization of the GalNAc/Gal-specific lectin from the phytopathogenic ascomycete Sclerotinia sclerotiorum (Lib.) de Bary

The lectin found in mycelium and sclerotes of the phytopathogenic fungus Sclerotinia sclerotiorum is a homodimer consisting of two identical non-covalently bound subunits of 16,000 Da. CD spectra analysis revealed that the S. sclerotiorum agglutinin (SSA) contains predominantly beta-sheet structures. SSA exhibits specificity towards GalNAc whereby the hydroxyls at positions 4 and 6 of the pyranose ring play a key role in the interaction with simple sugars. The carbohydrate-binding site of SSA can also accommodate disaccharides. The N-terminal sequence of SSA shares no significant similarity with any other protein except a lectin from the Sclerotiniaceae species Ciborinia camelliae. A comparison of SSA and the lectins from C. camelliae and some previously characterized lectins indicates that the Sclerotiniaceae lectins form a homogeneous family of fungal lectins. This newly identified lectin family, which is structurally unrelated to any other family of fungal lectins, is most probably confined to the Ascomycota.     

Stacking of antimicrobial genes in potato transgenic plants confers increased resistance to bacterial and fungal pathogens

Solanum tuberosum plants were transformed with three genetic constructions expressing the Nicotiana tabacum AP24 osmotine, Phyllomedusa sauvagii dermaseptin and Gallus gallus lysozyme, and with a double-transgene construction expressing the AP24 and lysozyme sequences. Re-transformation of dermaseptin-transformed plants with the AP24/lysozyme construction allowed selection of plants simultaneously expressing the three transgenes. Potato lines expressing individual transgenes or double- and triple-transgene combinations were assayed for resistance to Erwinia carotovora using whole-plant and tuber infection assays. Resistance levels for both infection tests compared consistently for most potato lines and allowed selection of highly resistant phenotypes. Higher resistance levels were found in lines carrying the dermaseptin and lysozyme sequences, indicating that theses proteins are the major contributors to antibacterial activity. Similar results were obtained in tuber infection tests conducted with Streptomyces scabies. Plant lines showing the higher resistance to bacterial infections were challenged with Phytophthora infestans, Rhizoctonia solani and Fusarium solani. Considerable levels of resistance to each of these pathogens were evidenced employing semi-quantitative tests based in detached-leaf inoculation, fungal growth inhibition and in vitro plant inoculation. On the basis of these results, we propose that stacking of these transgenes is a promising approach to achieve resistance to both bacterial and fungal pathogens.     

Microbial transformation of antimalarial terpenoids

The fungal and bacterial transformation of terpenoids derived from plant essential oils, especially the sesquiterpenoid artemisinin from Artemisia annua, has produced several new candidate drugs for the treatment of malaria. Obtaining new derivatives of terpenoids, including artemisinin derivatives with increased antimalarial activity, is an important goal of research in microbial biotechnology and medicinal chemistry.     

Inhibitors of polygalacturonase and laccase of Botrytis cinerea and their application to the control of this fungus

EDTA, calcium chloride, and two siderophores (rhodotorulic acid produced by Rhodotorula glutinis BNM 0524, and enterochelin from the bacterium Rahnella aquatilis BNM 0523) were evaluated as possible inhibitors of polygalacturonase (PG) and laccase (LC) from Botrytis cinerea. The aim was to apply them to the control of this pathogen, taking into account the fact that these enzymes are related to the invasion and installation of the fungus in the host. Two B. cinerea Pers.:Fr strains (BNM 0527 and BNM 0528) were used. Enzyme activities were measured in the supernatant of 7-day-old cultures. EDTA, calcium chloride, rhodotorulic acid, or enterochelin were added in the reaction mixture. Laccase activity from two strains was more affected by enterochelin (70-80% inhibition) than by the other compounds, while polygalacturonase was more inhibited (45% inhibition) by calcium chloride. The inhibitors were added to the growth medium and after 7 days of culture, the activities of the enzymes were measured in the supernatants. The production of PG and LC in both strains was lower when enterochelin or calcium chloride was added. In the third step, when the inhibitors were tested on apple, all them provided both effects, preventive and curative, against infections caused by B. cinerea, with EDTA and rhodotorulic acid exhibiting more preventive effects while calcium chloride and enterochelin provided more control of pre-existing infections (curative effect), coinciding with their ability to inhibit the production of polygalacturonase and laccase.     

Effect of polymer differences on fungal penetration of hydrogel lenses

Summary Two chemically distinct types of hydrogel lenses, vifilcon A and bufilcon A, each with a water content of 55%, were challenged in a balanced salts solution withAspergillus fumigatus, Cladosporium cladosporioides, Curvularia lunata andFusarium solani. The lenses were cleaned, disinfected and stained after varying periods of incubation and examined with light microscopy and scanning electron microscopy. For three of the four fungi, the bufilcon A lens was more susceptible to fungal attack than the vifilcon A lens.Curv. lunata produced the greatest number of penetration pegs within 72 h for both lens types. Etching of lens surfaces was observed withC. cladosporioides. In general, the susceptibility of a hydrogel lens to penetration with a fungus appeared to vary with the species of fungus and the chemical composition of the lens.     

土壤快速强烈还原对于尖孢镰刀菌的抑制作用

香蕉枯萎病是由尖孢镰刀菌古巴专化型(Fusarium oxysporum f.sp.cubense,FOC)引起的一种世界性的土传病害,每年造成大量的经济损失,目前尚未找到有效的防治办法。实验采取土壤淹水及添加有机物料的方法,抑制土壤中FOC的数量。结果表明:土壤淹水处理在第5天显著增加了土壤的pH值,但随着处理时间的增加,淹水的处理中土壤pH值逐渐下降;土壤淹水及添加有机物料显著降低了土壤中SO2-4和NO-3的浓度;土壤中添加秸秆、猪粪和石灰的处理显著增加了土壤中NH+4的浓度。土壤淹水及添加有机物料对于土壤中可培养细菌数量无显著影响;但显著降低了土壤中可培养放线菌和真菌的数量;土壤淹水及添加秸秆、甘蔗渣和石灰的处理显著降低了土壤中FOC的数量,其中添加高量秸秆处理中FOC的数量下降最多,仅为处理前土壤中FOC数量的2.88%。添加有机物料但未加石灰的处理土壤中总微生物量较处理前相比显著增加。研究表明土壤淹水及添加有机物料是一种可以防控香蕉枯萎病的高效和环保的方法。     

核盘菌侵染对拟南芥表皮蜡质结构及化学组成的影响

以野生型拟南芥与蜡质突变体cer1、cer4为试验材料,通过研究核盘菌胁迫对拟南芥茎表皮蜡质结构及组分含量的影响,揭示核盘菌侵染与表皮蜡质的关系。扫描电镜结果显示,野生型拟南芥蜡质晶体以垂直于表面的杆状、块状结构为主;突变体cer1晶体类型以水平的松针状、块状结构为主;突变体cer4蜡质晶体以垂直片层结构为主。核盘菌胁迫下,拟南芥蜡质晶体结构及分布形态发生变化。蜡质层结构在核盘菌胁迫下表现为:杆状、松针状蜡质晶体减少—蜡质晶体熔融—表皮"囊状凸起"—表皮膜层破裂。这些结构变化有利于病菌突破角质层屏障而侵入到植株体内。色质谱分析结果显示:与野生型相比,cer1突变体烷、次级醇、酮类显著减少;cer4突变体表现为一级醇含量减少。接种核盘菌后,野生型拟南芥与蜡质突变体一级醇类显著增加(cer1增加不显著);烷类、次级醇类、酮类含量与蜡质总量均显著减少,表明蜡质前体物质在受到核盘菌胁迫后更多地通过酰基还原途径生成一级醇,从而减少了由脱羰基途径所生成的蜡质组分。核盘菌通过改变表皮蜡质晶体结构与化学组分分泌量来促进侵染。     

Black scurf of potato

Black scurf of Potato is a serious disease commonly observed in most potato-producing areas of the world. Caused by Rhizoctonia solani AG-3 (teleomorph Thanatephorus cucumeris [Frank] Donk), this disease is favoured by the capacity of fungus to survive in soil as sclerotia and mycelium in plant debris for long periods, and environmental conditions of low soil temperature and high soil moisture. Management of the disease requires an integrated approach since no single tactic is totally effective. An effective control program combines cultural practices, fungicides, biological control, and solarization.     

Interaction of cruciferous phytoanticipins with plant fungal pathogens: indole glucosinolates are not metabolized but the corresponding desulfo-derivatives and nitriles are

Glucosinolates represent a large group of plant natural products long known for diverse and fascinating physiological functions and activities. Despite the relevance and huge interest on the roles of indole glucosinolates in plant defense, little is known about their direct interaction with microbial plant pathogens. Toward this end, the metabolism of indolyl glucosinolates, their corresponding desulfo-derivatives, and derived metabolites, by three fungal species pathogenic on crucifers was investigated. While glucobrassicin, 1-methoxyglucobrassicin, 4-methoxyglucobrassicin were not metabolized by the pathogenic fungi Alternaria brassicicola, Rhizoctonia solani and Sclerotinia sclerotiorum, the corresponding desulfo-derivatives were metabolized to indolyl-3-acetonitrile, caulilexin C (1-methoxyindolyl-3-acetonitrile) and arvelexin (4-methoxyindolyl-3-acetonitrile) by R. solani and S. sclerotiorum, but not by A. brassicicola. That is, desulfo-glucosinolates were metabolized by two non-host-selective pathogens, but not by a host-selective. Indolyl-3-acetonitrile, caulilexin C and arvelexin were metabolized to the corresponding indole-3-carboxylic acids. Indolyl-3-acetonitriles displayed higher inhibitory activity than indole desulfo-glucosinolates. Indolyl-3-methanol displayed antifungal activity and was metabolized by A. brassicicola and R. solani to the less antifungal compounds indole-3-carboxaldehyde and indole-3-carboxylic acid. Diindolyl-3-methane was strongly antifungal and stable in fungal cultures, but ascorbigen was not stable in solution and displayed low antifungal activity; neither compound appeared to be metabolized by any of the three fungal species. The cell-free extracts of mycelia of A. brassicicola displayed low myrosinase activity using glucobrassicin as substrate, but myrosinase activity was not detectable in mycelia of either R. solani or S. sclerotiorum.     

Purification and characterization of a 1,3-β-d-glucanase from Streptomyces torulosus PCPOK-0324

A hydrolytic enzyme designated as a 1,3-β-d-glucanase having an antifungal activity was purified and characterized from Streptomyces torulosus PCPOK-0324. Fungal growth inhibitors in the culture filtrates from an antagonistic S. torulosus PCPOK-0324 exhibited higher antifungal activity against the hyphal growth of Phytophthora capsici and Rhizoctonia solani. The 1,3-β-d-glucanase was purified by four chromatographic steps from culture supernatant. The molecular weight of the purified enzyme was estimated to be 31.5 kDa. The optimal pH and temperature were 7.5 and 50 °C. Both the purified enzyme and the antibiotic extract inhibited R. solani and P. capsici with minimal inhibitory concentration values of 12.50 and 6.25 mU ml⁻¹ and 3.95 and 1.94 μg ml⁻¹, respectively. Our findings collectively show that the 1,3-β-d-glucanase in combination with the antibiotic extract have strong synergistic antifungal activity against the hyphal growth of both fungi causing root rot disease in pepper plants.     

Genotypic and phenotypic variation among Lysobacter capsici strains isolated from Rhizoctonia suppressive soils

Four Gram-negative bacterial strains, recovered from clay soils cultivated with different crops in the Netherland, were subjected to a polyphasic taxonomic study in order to clarify their taxonomic status. Comparative analysis of the 16S rRNA gene sequences revealed that they belong to the genus Lysobacter and to be highly related to the type strains of L. antibioticus DSM 2044^T, L. gummosus DSM 6980^T, and L. capsici DSM 19286^T, displaying 99.1–99.3%, 99.2–99.6% and 99.4–100% sequence similarities, respectively, to these species. The results of DNA–DNA hybridization studies unambigiously indicated that the four strains belonged to the species L. capsici. Nevertheless, DNA fingerprinting and phenotypic characterization indicated that there was a considerable diversification and niche differentiation among the strains belonging to L. capsici. The newly identified L. capsici strains strongly inhibit Rhizoctonia solani AG2 and originate from Rhizoctonia-suppressive soils where also populations of L. antibioticus and L. gummosus were present. This is the first report of the presence of combined populations of closely related Lysobacter spp. within agricultural soils.     

内生真菌角担子菌B6对连作西瓜土壤尖孢镰刀菌的影响

建立了快速定量检测土壤中角担子菌(Ceratobasidum stevensii)B6的实时定量PCR方法,同时跟踪了土壤中尖孢镰刀菌数量的动态变化,以及不同的发酵组分对开花期西瓜土壤微生物区系的影响。PCR扩增分析表明引物Cf1/Cr1有很好的特异性,能对角担子菌B6特异性扩增得到371bp的条带,对其它10株真菌不能有效扩增。使用荧光定量PCR对施加角担子菌B6的土壤总DNA扩增,结果表明将活菌B6固体发酵物施加到土壤1周后,B6的数量有一定的增殖,达到7.4 log(pg DNA/g干土),随着时间推移,数量逐渐减少,在第5周的时候低于检测限;而液体发酵液处理从一开始施加到土壤后,B6的数量就开始逐渐减少,在第4周的时候就低于检测限。施加活的B6菌4周内能够有效地控制尖孢镰刀菌的数量(尖孢镰刀菌数量维持在5×103 CFU/g干土左右),之后随着B6数量的减少尖孢镰刀菌数量大量增加。活菌B6在土壤中能够存活1个月左右,不会过度影响土著微生物区系,是一株环境友好型菌株,对土壤微环境的干扰较小。     

Entomotoxic effects of fungal lectin from Rhizoctonia solani towards Spodoptera littoralis

The effects of the Rhizoctonia solani lectin (RSA) on the growth, development and survival of an economically important caterpillar in agriculture and horticulture, the cotton leafworm, Spodoptera littoralis were studied. The high lectin concentration present in the sclerotes of the soil pathogen R. solani allowed the purification of large amounts of the pure lectin for feeding experiments with cotton leafworm. Rearing of insects on a diet containing different concentrations of RSA exerted a strong effect on the larval weight gain. This effect was visible at the lowest concentration of 0.1 % RSA at day 8 and day 11. Interestingly with 1 % RSA, there was a dramatic reduction in larval weight of 89 % at the end of L6 which was followed by a high mortality rate of 82 % in the treated larvae. Furthermore, the other developmental stages of pupation and adult formation were also affected. In addition, the data demonstrated that the combination of RSA with Bt toxin yielded synergistic effects. For instance, 0.03 % RSA+0.005 % Bt toxin caused reduced growth rate and higher mortalities. These findings suggest that RSA is an interesting tool that can be used for bioengineering insect resistance in important agronomical crops.     

Direct fungicidal activities of C6-aldehydes are important constituents for defense responses in Arabidopsis against Botrytis cinerea

C6-aldehydes, such as (Z)-3-hexenal, (E)-2-hexenal, and n-hexanal, are volatile compounds formed by hydroperoxide lyase (HPL) and found in most terrestrial plants. They are fungicidal and bactericidal compounds, and are also signaling compounds to induce defense responses in plants. Transgenic plants having overexpressed or suppressed HPL activity (SH or ASH, respectively) showed lower or higher susceptibility against a necrotrophic fungal pathogen, Botrytis cinerea. In this study, we examined whether the modulated susceptibility was accountable to the direct fungicidal activity or to the signaling potency of C6-aldehydes. When wild-type Arabidopsis leaves were inoculated with B. cinerea, HPL expression was upregulated, and concomitantly, the amounts of C6-aldehydes increased. Higher amounts of C6-aldehydes found in inoculated SH plants inhibited growth of B. cinerea in vitro, while lower amounts found in ASH plants caused no inhibitory effect on the fungi. Thus, it was suggested that direct fungicidal activity of C6-aldehydes accounted for the modulated susceptibility. With SH plants higher amounts of camalexin could be found, but with the ASH plants no difference from wild-type plants could be found. Surplus amounts of C6-aldehydes could induce formation of camalexin as signaling compounds; however, this was not the case with wild-type and ASH plants. Accordingly, it could be assumed that direct fungicidal activity of C6-aldehydes were prominently responsible to the defense against B. cinerea but their signaling roles could be little responsible if any.     

Glucosinolate profiling of Brassica rapa cultivars after infection by Leptosphaeria maculans and Fusarium oxysporum

The glucosinolate contents of two different cultivars of Brassica rapa (Herfstraap and Oleifera) infected with Leptosphaeria maculans and Fusarium oxysporum were determined. Infection triggered the accumulation of aliphatic glucosinolates (gluconapin, progoitrin, glucobrassicanapin and gluconapoleiferin) and indole glucosinolate (4-hydroxy-glucobrassicin) in Herfstraap and of two indole glucosinolates (glucobrassicin and 4-hydroxy-glucobrassicin) in Oleifera. While total and aliphatic glucosinolates decreased significantly in Oleifera, a large increase was observed in Herfstraap after fungal infection. The indole glucosinolate glucobrassicin accumulated in Oleifera at a higher rate than Herfstraap especially after infection with F. oxysporum. Apparently the interaction between fungus and B. rapa is cultivar and fungal species specific.