Species of Colletotrichum on Agavaceae

Species of Colletotrichum cause diseases on a wide range of hosts, frequently infecting plants in the Agavaceae (monocotyledons: Liliales). Three species of Colletotrichum restricted to the Agavaceae were detected through morphological studies of specimens and molecular sequence analyses of the LSU of the nu-rDNA and the ITS region of the nu-rDNA from cultures. Colletotrichum agaves on Agave is fully described and illustrated. Colletotrichum dracaenophilum is described as a new species for isolates having long conidia and occurring on Dracaena sanderiana from China. Colletotrichum phormii and Glomerella phormii are determined to be the correct scientific names for the asexual and sexual states, respectively, of a species commonly referred to as C. rhodocyclum and G. phacidiomorpha occurring mainly on Phormium. In addition, C. gloeosporioides and C. boninense were isolated from plants in the Agavaceae. All species of Colletotrichum described on Agavaceae were evaluated based on type specimens. A key to the five species of Colletotrichum on Agavaceae is included. This paper includes one new species, Colletotrichum dracaenophilum, and three new combinations, Colletotrichum phormii, Glomerella phormii, and Phaeosphaeriopsis phacidiomorpha.     

纳他霉素对芒果采后胶孢炭疽菌的抑菌效果及机理

以纳他霉素为抑菌剂, 实验测定了离体条件下不同浓度纳他霉素对胶孢炭疽菌(Colletotrichum gloeosporioides)的孢子萌发及菌丝生长的抑制效果, 以及活体损伤接种炭疽病菌后, 纳他霉素对芒果(Mangifera indica)果实炭疽病的防治效果。通过测定纳他霉素处理后胶孢炭疽菌的细胞膜相对渗透率、可溶性蛋白含量、细胞膜完整性、孢子内活性氧水平和线粒体分布情况, 初步探明其抑菌机理。结果表明, 3 mg∙L ^-1纳他霉素可显著抑制胶孢炭疽菌孢子萌发、芽管伸长和菌落生长, 80 mg∙L ^-1纳他霉素可有效抑制芒果贮存过程中果实炭疽病斑的扩展。纳他霉素处理后胶孢炭疽菌细胞膜相对渗透率和可溶性蛋白含量增加; 2 mg∙L ^-1纳他霉素处理8小时, 处理组胶孢炭疽菌孢子细胞膜损伤染色率为33.6%, 对照组染色率为13.9%; 处理组胞内活性氧产生染色率达46.9%, 比对照组高39.7%; 同时观察到纳他霉素使胞内线粒体分布不均且荧光信号微弱。以上结果表明, 纳他霉素可以破坏胶孢炭疽病菌细胞膜, 诱导活性氧大量积累, 并降低线粒体活性, 从而干扰菌体正常生理活性, 使其代谢活动受影响, 从而达到抑菌目的。     

纳他霉素对芒果采后胶孢炭疽菌的抑菌效果及机理

以纳他霉素为抑菌剂, 实验测定了离体条件下不同浓度纳他霉素对胶孢炭疽菌(Colletotrichum gloeosporioides)的孢子萌发及菌丝生长的抑制效果, 以及活体损伤接种炭疽病菌后, 纳他霉素对芒果(Mangifera indica)果实炭疽病的防治效果。通过测定纳他霉素处理后胶孢炭疽菌的细胞膜相对渗透率、可溶性蛋白含量、细胞膜完整性、孢子内活性氧水平和线粒体分布情况, 初步探明其抑菌机理。结果表明, 3 mg?L ^-1纳他霉素可显著抑制胶孢炭疽菌孢子萌发、芽管伸长和菌落生长, 80 mg?L ^-1纳他霉素可有效抑制芒果贮存过程中果实炭疽病斑的扩展。纳他霉素处理后胶孢炭疽菌细胞膜相对渗透率和可溶性蛋白含量增加; 2 mg?L ^-1纳他霉素处理8小时, 处理组胶孢炭疽菌孢子细胞膜损伤染色率为33.6%, 对照组染色率为13.9%; 处理组胞内活性氧产生染色率达46.9%, 比对照组高39.7%; 同时观察到纳他霉素使胞内线粒体分布不均且荧光信号微弱。以上结果表明, 纳他霉素可以破坏胶孢炭疽病菌细胞膜, 诱导活性氧大量积累, 并降低线粒体活性, 从而干扰菌体正常生理活性, 使其代谢活动受影响, 从而达到抑菌目的。     

Respiratory activity and naphthoquinone synthesis in the fungus Fusarium decemcellulare exposed to oxidative stress

The effect of oxidants (hydrogen peroxide and juglone) on the growth, respiration, and naphthoquinone synthesis in the fungus Fusarium decemcellulare was studied. The addition of the oxidants to the exponential-phase fungus inhibited cell respiration (either partially or completely, depending on the oxidant concentration), culture growth, and naphthoquinone synthesis. The treatment of fungal cells with nonlethal concentrations of H2O2 (below 0.25 mM) and juglone (below 0.1 mM) induced the resistance of cell respiration to cyanide. The residual respiration in the presence of cyanide could be inhibited by benzohydroxamic acid, indicating the occurrence of alternative oxidase. Increased concentrations of oxidants (0.25 mM juglone and 0.5 mM H2O2) rapidly and irreversibly inhibited cell respiration. These observations suggest that the mitochondrial respiratory chain of fungal cells exposed to oxidative stress is subject to the action of active oxygen species. The treatment of fungal cells with nonlethal concentrations of H2O2 and juglone activated cellular glutathione reductase and glucose-6-phosphate dehydrogenase, which are protective enzymes against oxidative stress.     

Evaluation of clastogenicity of formic acid, acetic acid and lactic acid on cultured mammalian cells

Using Chinese hamster ovary K1 cells, chromosomal aberration tests were carried out with formic acid, acetic acid and lactic acid, and the relationship between the pH of the medium and the clastogenic activity was examined. The medium used was Ham's F12 supplemented with 17 mM NaHCO3 and 10% fetal calf serum. All of these acids induced chromosomal aberrations at the initial pH of ca. 6.0 or below (about 10-14 mM of each acid) both with and without S9 mix. Exposure of cells to about pH 5.7 or below (about 12-16 mM of each acid) was found to be toxic. When the culture medium was first acidified with each of these acids and then neutralized to pH 6.4 or pH 7.2 with NaOH, no clastogenic activity was observed. Using F12 medium supplemented with 34 mM NaHCO3 as a buffer, no clastogenic activity was observed at doses up to 25 mM of these acids (initial pH 5.8-6.0). However, it was found that about 10% of the cells had aberrations at pH 5.7 or below (27.5-32.5 mM of each acid). Furthermore, when 30 mM HEPES was used as a buffer, chromosomal aberrations were not induced at doses up to 20 mM formic acid and acetic acid (initial pH 7.0-7.1), and at doses up to 30 mM lactic acid (initial pH 6.6). In the initial pH range of 6.4-6.7 (25-32.5 mM of each acid), chromosomal aberrations were observed. The above results show that these acids themselves are non-clastogenic, and the pseudo-positive reactions attributable to non-physiological pH could be eliminated by either neutralization of the treatment medium or enhancement of the buffering ability.     

Influence of medium buffering capacity on inhibition of Saccharomyces cerevisiae growth by acetic and lactic acids

Acetic acid (167 mM) and lactic acid (548 mM) completely inhibited growth of Saccharomyces cerevisiae both in minimal medium and in media which contained supplements, such as yeast extract, corn steep powder, or a mixture of amino acids. However, the yeast grew when the pH of the medium containing acetic acid or lactic acid was adjusted to 4.5, even though the medium still contained the undissociated form of either acid at a concentration of 102 mM. The results indicated that the buffer pair formed when the pH was adjusted to 4.5 stabilized the pH of the medium by sequestering protons and by lessening the negative impact of the pH drop on yeast growth, and it also decreased the difference between the extracellular and intracellular pH values (Delta(pH)), the driving force for the intracellular accumulation of acid. Increasing the undissociated acetic acid concentration at pH 4.5 to 163 mM by raising the concentration of the total acid to 267 mM did not increase inhibition. It is suggested that this may be the direct result of decreased acidification of the cytosol because of the intracellular buffering by the buffer pair formed from the acid already accumulated. At a concentration of 102 mM undissociated acetic acid, the yeast grew to higher cell density at pH 3.0 than at pH 4.5, suggesting that it is the total concentration of acetic acid (104 mM at pH 3.0 and 167 mM at pH 4.5) that determines the extent of growth inhibition, not the concentration of undissociated acid alone.     

Influence of Medium Buffering Capacity on Inhibition of Saccharomyces cerevisiae Growth by Acetic and Lactic Acids

Acetic acid (167 mM) and lactic acid (548 mM) completely inhibited growth of Saccharomyces cerevisiae both in minimal medium and in media which contained supplements, such as yeast extract, corn steep powder, or a mixture of amino acids. However, the yeast grew when the pH of the medium containing acetic acid or lactic acid was adjusted to 4.5, even though the medium still contained the undissociated form of either acid at a concentration of 102 mM. The results indicated that the buffer pair formed when the pH was adjusted to 4.5 stabilized the pH of the medium by sequestering protons and by lessening the negative impact of the pH drop on yeast growth, and it also decreased the difference between the extracellular and intracellular pH values (ΔpH), the driving force for the intracellular accumulation of acid. Increasing the undissociated acetic acid concentration at pH 4.5 to 163 mM by raising the concentration of the total acid to 267 mM did not increase inhibition. It is suggested that this may be the direct result of decreased acidification of the cytosol because of the intracellular buffering by the buffer pair formed from the acid already accumulated. At a concentration of 102 mM undissociated acetic acid, the yeast grew to higher cell density at pH 3.0 than at pH 4.5, suggesting that it is the total concentration of acetic acid (104 mM at pH 3.0 and 167 mM at pH 4.5) that determines the extent of growth inhibition, not the concentration of undissociated acid alone.     

蛹虫草病原真菌虫草生齿梗孢Calcarisporium cordycipiticola的生物学特性研究

蛹虫草已经成为我国乃至东南亚地区极其重要的食药用真菌,虽然其子实体已经实现规模化生产,但在产业发展中遇到许多问题,真菌病害为其中之一,如引起蛹虫草“白毛病”病害的虫草生齿梗孢Calcarisporium cordycipiticola。本研究以虫草生齿梗孢为对象,研究了其生物学特性、发病特性及侵染特点。结果表明：该病原菌菌丝分枝较多,短时间内产生大量分生孢子;最适生长温度为25℃,此温度有利于该病害快速传播;其分生孢子比蛹虫草分生孢子耐紫外能力强。栽培过程中该病害多发生在蛹虫草生长发育后期,可以侵染培养基表面、子实体底部、中部和顶端等各个部位。人工接种发现该病原菌可以侵染蛹虫草生长发育的任意阶段,后期子实体被白毛覆盖。对峙实验发现虫草生齿梗孢菌丝逐渐生长到蛹虫草菌丝上,但未发现两菌丝互相缠绕的现象。对该病原菌基本生物学研究,将为建立该病害的早期检测及预防方法提供依据。     

Colletotrichum sp: A potential candidate for biocontrol of scentless chamomile (Matricaria perforata) in western Canada

Based on an assessment of 706 fungal isolates obtained from Canada and Europe, a group of Colletotrichum sp. isolates, tentatively identified as C. truncatum, was moderately efficacious for biocontrol of scentless chamomile (Matricaria perforata). In this study, 19 C. truncatum isolates, 11 from Canada and eight from Europe, were compared for virulence, crop safety, and minimum dew requirement for infection to narrow the selection of candidates. Applied at 1×10⁶ spores mL^-1, these isolates expressed variable virulence under controlled environments, with slightly higher variations observed on the Canadian isolates. There was also a slight difference in host specificity among the isolates tested; most isolates caused disease only on chamomile species (M. perforata and M. recutita) but two Canadian isolates also infected lentil, flax, or both. At 20°C, most isolates required more than 20 h dew for maximum infection. This requirement can be an impediment for using this fungus as a biocontrol agent in western Canada where the climate is semi-arid. Treatment of scentless chamomile at the 10-leaf stage with the herbicide metribuzin 48 h prior to fungal inoculation increased weed control to 72%, compared to 40 and 47% by the herbicide and fungus applied alone. However, a similar treatment using the herbicide bentazon did not enhance the weed control significantly as compared to the herbicide alone.     

Respiratory Activity and Naphthoquinone Synthesis in the Fungus Fusarium decemcellulare Exposed to Oxidative Stress

The effect of oxidants (hydrogen peroxide and juglone) on the growth, respiration, and naphthoquinone synthesis in the fungus Fusarium decemcellulare was studied. The addition of the oxidants to the exponential-phase fungus inhibited cell respiration (either partially or completely, depending on the oxidant concentration), culture growth, and naphthoquinone synthesis. The treatment of fungal cells with nonlethal concentrations of H₂O₂ (below 0.25 mM) and juglone (below 0.1 mM) induced the resistance of cell respiration to cyanide. The residual respiration in the presence of cyanide could be inhibited by benzohydroxamic acid, indicating the occurrence of alternative oxidase. Increased concentrations of oxidants (0.25 mM juglone and 0.5 mM H₂O₂) rapidly and irreversibly inhibited cell respiration. These observations suggest that the mitochondrial respiratory chain of fungal cells exposed to oxidative stress is subject to the action of active oxygen species. The treatment of fungal cells with nonlethal concentrations of H₂O₂ and juglone activated cellular glutathione reductase and glucose-6-phosphate dehydrogenase, which are protective enzymes against oxidative stress.     

Effect of hydrogen sulfide on growth of sulfate reducing bacteria

A culture of sulfate reducing bacteria (SRB) growing on lactate and sulfate was incubated at different pH values in the range of 5.8-7.0. The effect of pH on growth rate was determined in this pH range; the highest growth rate was observed at pH 6.7. Hydrogen sulfide produced from sulfate reduction was found to have a direct and reversible toxicity effect on the SRB. A hydrogen sulfide Concentration of 547 mg/L (16.1 mM) completely inhibited the culture growth. Comparison between acetic acid and hydrogen sulfide inhibition is presented and the concomitant inhibition kinetics are mathematically described. (c) 1992 John Wiley & Sons, Inc.     

Elucidation of Growth Inhibition and Acetic Acid Production by Clostridium thermoaceticum

The production of acetic acid by Clostridium thermoaceticum was studied by using batch fermentations. In a pH-controlled fermentation with sodium hydroxide (pH 6.9), this organism was able to produce 56 g of acetic acid per liter. On the other hand, when the pH was not controlled and was decreased during fermentation to 5.4, the maximum attainable acetic acid concentration was only 15.3 g/liter. To obtain a better understanding of the end product inhibition, various salts were tested to determine their effect on the growth rate of C. thermoaceticum. An inverse linear relationship between the growth rate and the final cell concentration to the sodium acetate concentration was found. By using different concentrations of externally added sodium salts, the relative growth inhibition caused by the anion was found to be in the order of acetate > chloride > sulfate. Various externally added cations of acetate were also examined with respect to their inhibitory effects on growth. The relative magnitude of inhibition on the growth rate was found to be ammonium > potassium > sodium. The combined results have shown that the undissociated acetic acid was much more inhibitory than the ionized acetate ion. Complete growth inhibition resulted when the undissociated acetic acid concentration was between 0.04 and 0.05 M and when the ionized acetate concentration was 0.8 M. Therefore, at low pH (below 6.0), undissociated acetic acid is responsible for growth inhibition, and at high pH (above 6.0), ionized acetate ion is responsible for growth inhibition.     

Effect of carbon source on the production of oxalic acid and hydrogen peroxide by brown-rot fungus Poria placenta

Oxalic acid and hydrogen peroxide have been suggested to be essential in the degradation of wood carbohydrates by brown-rot fungi. The production of oxalic acid, hydrogen peroxide and endo-β-1,4-glucanase activity by the brown-rot fungus Poria placenta was studied on crystalline cellulose, amorphous cellulose and glucose media. Oxalic acid and hydrogen peroxide by P. placenta were clearly produced on culture media containing either crystalline or amorphous cellulose. Oxalic acid and hydrogen peroxide were formed simultaneously and highest amounts of oxalic acid (1.0 g l⁻¹) and hydrogen peroxide (39.5 μM) were obtained on amorphous cellulose after 3 weeks cultivation. On glucose medium the amounts were low. The endoglucanase activity was observed to increase during the cultivation and was most pronounced on glucose medium and thus indicated the constitutive characteristics of the brown-rot cellulases.     

bZIP转录因子CfHac1参与调控果生刺盘孢菌的生长发育和致病力

油茶炭疽病是油茶Camellia oleifera上最重要病害之一,引起该病害的主要致病菌为果生刺盘孢菌Colletotrichum fructicola。本研究以果生刺盘孢菌bZIP类转录因子CfHac1为研究对象,研究其在果生刺盘孢菌的营养生长、产孢量、附着胞形成、致病力及耐受性等方面的生物学功能,为油茶炭疽病的防控提供理论依据。研究结果表明,果生刺盘孢菌中具有一个与灰色大角间座壳（稻瘟菌）bZIP转录因子MoHac1直系同源的基因,命名为CfHAC1。该基因全长1 627bp,编码526个氨基酸,该蛋白含有一个碱性亮氨酸链（bZIP）结构域和3个未知功能结构域。CfHAC1基因敲除突变体的菌丝生长速度显著变慢,分生孢子产量显著减少且不能正常形成附着胞,并对山梨糖醇和KCl渗透压胁迫敏感性增加;致病力测试结果表明,果生刺盘孢菌基因敲除突变体ΔCfhac1对油茶的致病力显著下降。转录因子CfHac1参与调控果生刺盘孢菌的生长、产孢、附着胞的形成、致病力以及响应外界渗透压胁迫过程。     

Purification and partial characterization of manganese peroxidase from immobilized Phanerochaete chrysosporium

Solid-state culture of the white-rot fungus Phanerochaete chrysosporium BKMF-1767 (ATCC 24725) has been carried out, using an inert support, polystyrene foam. Suitable medium and culture conditions have been chosen to favor the secretion of manganese peroxidase (MnP). The enzyme was isolated and purified from immobilized P. chrysosporium and partially characterized. Partial protein precipitation in crude enzyme was affected using ammonium sulphate, polyethylene glycol, methanol, and ethanol methods. Fractionation of MnP was performed by DEAE-Sepharose ion exchange chromatography followed by Ultragel AcA 54 gel filtration chromatography. This purification attained 23.08% activity yield with a purification factor of 5.8. According to data on gel filtration chromatography and sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE), the molecular weight of the enzyme was 45 000±1000 Da. The optimum pH and temperature of purified MnP were 4.5 and 30 °C, respectively. This enzyme was stable in the pH range 4.5–6.0, at 25 °C and also up to 35 °C at pH 4.5 for 1 h incubation period. MnP activity was inhibited by 2 mM NaN₃, ascorbic acid, β-mercaptoethanol and dithreitol. The K_m values of MnP for hydrogen peroxide and 2.6-dimetoxyphenol were 71.4 and 28.57 μM at pH 4.5, respectively. The effects of possible inhibitors and activators of enzyme activity were investigated.     

Fatty Acid Specificity in Lipase-Catalyzed Synthesis of Glucoside Esters

The fatty acid specificity of the B-lipase derived from Candida antarctica was investigated in the synthesis of esters of ethyl D-glucopyranoside. The specificity was almost identical with respect to straight-chain fatty acids with 10 to 18 carbon atoms. However, lower fatty acids such as hexanoic and octanoic acid and the unsaturated 9-cis-octadecenoic acid were found to be poor substrates of the enzyme. As a consequence of this selectivity, these fatty acids were accumulated in the unconverted fraction when ethyl D-glucopyranoside was esterified with an excess of a mixture of fatty acids. This accumulation can reduce the overall effectiveness of the process as the activity of the lipase was found to be reduced when exposed to high concentrations of short-chain fatty acids. Finally, using a simplified experimental set-up, the specificity of the C. antarctica B-lipase was compared to the specificity of lipases derived from C. rugosa, Mucor miehei, Humicola, and Pseudomonas. Apart from the C. rugosa lipase, which exhibited a very poor performance, all the enzymes showed a very similar specificity with respect to fatty acids longer than octanoic acid while only the C. antarctica B-lipase showed activity towards sort-chain fatty acids.     

Isolation of a Strain of Clostridium thermoaceticum Capable of Growth and Acetic Acid Production at pH 4.5

Using a series of pH controlled batch fermentations operated in a fed-batch mode and adaptation and selection techniques where pH and acetic acid provided the selective pressures, we isolated a culture of Clostridium thermoaceticum that can grow and produce acetic acid at pH 4.5. At pH 4.5 the fastest mass doubling time was 36 h, and the highest acetic acid concentration reached was 4.5 g/liter. Generally, as the pH was decreased from 6.0 and the initial acetic acid concentration increased, the mass doubling time increased, and the final acetic acid concentration decreased. These observations can be explained in terms of inhibition by the free acetic acid concentration at a given pH, relative to the total acetic acid concentration (free acid plus acetate ion). We have thus reached one of the criteria determined by us to be required for an economically viable fermentation acetic acid process, i.e., pH 4.5. A second requirement for a mass doubling time of about 7 h (0.1/h dilution rate) can probably be reached by selection in continuous culture. The final requirement for an acetic acid concentration of 50 g/liter will be the most difficult to achieve in view of the organism's sensitivity to low concentrations of free acetic acid.     

Susceptibility assays of Candida tropicalis to miconazole

In vitro evaluation of antifungal activity of imidazole derivatives is made difficult by the inhibitory effects of several factors such as inoculum size, growth form of the fungus, incubation temperature, the presence of complex substances, including divalent ions, which strongly influence final results. This is particularly evident when testing clinical isolates of C. tropicalis strains resistant to imidazole drugs. Our data based on assays of miconazole nitrate and miconazole sulfosalicylate against C. tropicalis show that it is possible to abolish various interference activities on the antimicrobial activity by suitable modifications of some cultural conditions. Thus, a study has been carried out to assess miconazole sulfosalicylate activity on C. tropicalis throughout experiments performed by contact test and agar diffusion test. The use of these techniques made it possible to display some activity of the imidazoles even against strains of C. tropicalis, which were defined as resistant using usual susceptibility assay conditions. Experimental conditions which cause the increase of susceptibility of C. tropicalis are related to factors that modify the barrier function and cellular permeability as demonstrated mainly by the effect of electrical conductivity (E.C.), pH of the medium and pretreatment of fungal inoculum with sodium dioctylsulfosuccinate (SDSS). Our results suggest that the correlation between drug dosage and inhibitory activity in vitro can be improved by the modifications proposed in this paper.     

盆栽榕树炭疽病的病原菌

福建漳州是我国出口创汇植物盆栽榕树Ficus microcarpa的重要生产基地,近些年来炭疽病发生严重。为明确该病的病原菌种类,本文从福建漳州盆栽榕树栽培基地采集炭疽病病叶,通过对病原菌的分离、纯化和培养,致病性测定及rDNA-ITS和actin（肌动蛋白）基因序列分析,证明该病菌为盘长孢状刺盘孢菌Colletotrichum gloeosporioides。这是盘长孢状刺盘孢菌所致盆栽榕树炭疽病在国内的首次报道。     

Preliminary host specificity testing of Endophyllum osteospermi (Uredinales, Pucciniaceae), a biological control agent against Chrysanthemoides monilifera ssp. monilifera

Chrysanthemoides monilifera ssp. monilifera, indigenous to the Western Cape Province of South Africa, is a serious invader of native vegetation in south-eastern Australia. The rust fungus Endophyllum osteospermi causes witches' brooms on C. monilifera ssp. monilifera in South Africa, and is associated with a reduction in growth and seed production of its host under natural conditions, as well as mortality of severely infected bushes. This rust fungus is considered to be a potential biological control agent for use against C. monilifera ssp. monilifera in Australia. Endophyllum osteospermi has a long latent period, typically between 6 and 24 months between infection and the initiation of witches' brooms. This long latent period makes the logistics of doing traditional host specificity testing, in which all test plant species are inoculated and observed for symptom development, unfeasible for this rust fungus. Germination of aecidioid teliospores and penetration by basidiospores were observed on the surface of excised leaves of 32 test plant species at 4 days after inoculation, and compared to that on C. monilifera ssp. monilifera. Germinating aecidioid teliospores aborted on 14 test plant species, whilst no penetration was attempted on a further 12 test plant species. Penetration only occurred on nine of the 32 test plant species, in addition to C. monilifera ssp. monilifera. Inoculating whole plants of nine selected test plant species confirmed the above results. Therefore, only the test plant species in which penetration occurred, or at least was attempted, need to undergo comprehensive host specificity testing. Pending these results, E. osteospermi may be suitable for release in Australia for the biological control of C. monilifera ssp. monilifera.