胶孢炭疽菌附着胞形成过程中核相的动态变化

通过DAPI荧光染料染色观察胶孢炭疽菌Colletotrichumgloeosporioides附着胞发育过程中的核相动态变化,结果显示,第2次有丝分裂发生的部位在分生孢子产生芽管的一端中;分裂后,最接近芽管的一个子核移入芽管顶端,或通过芽管移入附着胞中。0.10μg/mL的三环唑可完全抑制附着胞中黑色素形成,但不影响核的分裂。三环唑处理12h后,发生2次有丝分裂数量约为73%,而发生3次有丝分裂的数量约为23.9%;绝大多数附着胞中是单核,双核数量小于5%。     

柿树炭疽菌侵染不同柿树种、品种和部位的细胞学特征

用柿树炭疽病菌Colletotrichumgloeosporioides的分生孢子制备孢子悬浮液,接种无核柿、野柿、冬柿和浙江柿的新梢、叶柄和叶片,并观察致病性、附着胞形成和侵染特性。柿树炭疽菌可以侵染无核柿枝条和叶柄以及野柿枝条,但不侵染无核柿叶片、野柿叶柄和叶片,也不侵染冬柿和浙江柿枝条、叶柄和叶片。室内接种试验与田间自然发病结果一致。柿树炭疽菌在不同柿树表面均能形成附着胞,附着胞产生在寄主表皮背斜细胞壁间结合处(JACWs)或近结合处的百分率达81%~93%。接种12h后,不同柿树表面都有附着胞形成;36h后,无核柿枝条、叶柄中有侵染菌丝存在;48h后,无核柿枝条、叶柄中观察到膨大初生菌丝和较细次生菌丝,初生菌丝可扩展到相邻细胞中,而野柿枝条中仅观察到侵染菌丝;60h后,野柿枝条中也观察到膨大的初生菌丝和较细的次生菌丝,但初生菌丝仅局限在最初侵染的细胞中,无核柿枝条和叶柄以及野柿枝条中都有分枝的次生菌丝在细胞内、细胞间或相邻的细胞中扩展;直到接种90h后,在冬柿和浙江柿上都未观察到侵染菌丝的形成。结果表明,柿树炭疽菌在不同柿树种和品种上侵染菌丝的形成和扩展方式可能是其寄主专化性(或致病性)差异的重要机制之一。     

酚类物质对两种潜伏炭疽菌生长和繁殖的影响

通过测定丹宁、间苯二酚、邻苯二酚、绿原酸和咖啡因,作者对潜伏侵染在香蕉果实中的芭蕉炭疽菌Colletotrichum musae(Berk & Curt)Arx和芒果果实中的胶孢炭疽菌C.gloeosporioides Penz.的分生孢子萌发,附着胞和分生孢子的形成,以及菌丝体生长的影响进行了研究。结果表明,这几种酚类物质,在一定浓度下,可抑制两种炭疽菌的生长和发育,其中邻苯二酚对芭蕉炭疽菌的作用浓度最低,而间苯二酚对胶孢炭疽菌的作用浓度最低,丹宁则对两种菌的作用浓度最高,在一定浓度下影响着附着胞的形成。     

胶孢炭疽菌的菟丝子专化型

本文报道对寄生菟丝子的两个炭疽菌(Colletotrichum Corda)分离系(鲁保一号New-76)的鉴定结果。两分离系按其培养特性、分生孢子和附着孢的形态、大小及产孢细胞、分生孢子盘的特点,应属于胶孢炭疽菌[Colletotrichum gloeosporioides(Penz.)Sacc.],但在对寄主的选择性方面不同于该种的其他分离系,特别是对菟丝子(Cussuta chinensis)具有寄生专化性,故确定为胶孢炭疽菌菟丝子专化型[C.gloeosporioides(Penz.)Sacc.f.sp.cuseutae]。     

绿僵菌侵染小菜蛾体表过程的显微观察

采用扫描电镜研究了小菜蛾Plutella xylostella体表结构对绿僵菌入侵行为的影响及绿僵菌的侵染过程。结果表明: 绿僵菌孢子在小菜蛾体表萌发后可形成附着胞,寄主体表结构影响形成附着胞的快慢、多少及穿透体壁时芽管长度, 在平缓结构区和刺状结构区比嵴状结构区更易形成附着胞,且芽管较短。在所有结构区,LF68菌株穿透芽管均短于LD65菌株的芽管。接种后7 h,分生孢子在小菜蛾体表开始萌发,LF68与LD65菌株分别于接种后10 h和13 h出现侵染构造穿透体壁。     

两株椰心叶甲分离物的鉴定及其系统发育分析

采用形态学方法对2株从自然罹病死亡的椰心叶甲虫尸上分离到的致病菌株Dz01和Ma4进行了鉴定,发现2个菌株在菌丝、瓶梗和分生孢子等形态特征上与金龟子绿僵菌小孢变种基本一致,可将2个菌株鉴定为金龟子绿僵菌小孢变种。基于Dz01和Ma4菌株和其它31个代表绿僵菌主要种或变种菌株rDNA上ITS1-5.8S-ITS2区序列构建的最大简约树显示,Dz01和Ma4菌株均聚在金龟子绿僵菌小孢变种所构成的分支中,这为2个菌株形态学鉴定结果提供了分子依据。     

枯草芽孢杆菌C-D6对辣椒炭疽菌附着胞形成的抑制作用研究

【目的】研究枯草芽孢杆菌(Bacillus subtilis) C-D6菌株对辣椒炭疽菌(Colletotrichum capsici)附着胞形成的抑制作用,探索炭疽病生物防治的新途径。【方法】通过对峙培养测定C-D6菌株的抗菌活性,应用摇瓶培养结合生物测定筛选产生抗菌活性成分的最适培养基,采用硫酸铵分级沉淀、Sephadex G-75凝胶柱层析和阴离子交换层析对抗菌蛋白进行分离纯化,应用聚丙烯酰胺凝胶电泳测定蛋白分子量。【结果】C-D6菌株在PDA平板上对辣椒炭疽菌显示明显的抑制作用,其YPD培养液能完全抑制该菌的附着胞形成。摇瓶培养的结果显示C-D6菌株产生抗菌活性物质的最适培养基为YPD培养基。C-D6菌株在该培养基中培养14 h后,所形成的活性物质可完全抑制辣椒炭疽菌的附着胞形成。从该菌的YPD培养液中分离获得一个分子量为32 kD,能明显抑制辣椒炭疽菌附着胞形成的抗菌蛋白。【结论】C-D6菌株的生防特征显示该菌株对防治辣椒炭疽菌引起的炭疽病具有潜在的应用价值。     

福建沙县山药炭疽病病原鉴定及其防治

福建沙县山药炭疽病病原经形态学和培养特性观察,鉴定为辣椒炭疽菌,其菌丝和分生孢子在玻片上清水培养能产生附着胞。本文据此提出病害的防治措施。     

一株具有拮抗作用的解淀粉芽孢杆菌的筛选、鉴定及生物学特性研究

本研究以樱桃番茄成熟红果为样本,以极细链格孢菌为指示菌筛选得到一株对番茄采后病原菌有抑制作用的菌株KL-1。通过平板拮抗试验研究了菌株KL-1对番茄采后常见病原真菌极细链格孢菌、黑曲霉、青霉菌、尖侧多隔孢霉、拟康宁木霉、盐生枝孢霉、子囊菌、胶孢炭疽菌等八种病原菌的抑制作用,同时通过形态学、生理生化及16S rDNA分子生物学特征对菌株进行了鉴定,并对其基本生物学特性进行了研究。结果表明:菌株KL-1对于七种病原菌极细链格孢菌、黑曲霉、青霉菌、拟康宁木霉、盐生枝孢霉、子囊菌和胶孢炭疽菌均有明显的抑制作用,其中对黑曲霉的抑制率最大为81%,对其他六种病原菌抑制率也均高于70%,对尖侧多隔孢霉的抑制率为0,说明菌株KL-1可以抑制番茄多种常见病原真菌,具有开发为生防制剂的潜力。经鉴定KL-1为解淀粉芽孢杆菌(Bacillus amyloliquefaciens);该菌培养9 h内生长最旺盛,最适生长pH为7.0,最适生长温度为37℃。     

福建沙县山药炭疽病病原鉴定及其防治

福建沙县山药炭疽病病原经形态学和培养特性观察,鉴定为辣椒炭疽菌,其菌丝和分生孢子在玻片上清水培养能产生附着胞。本文据此提出病害的防治措施。     

Perilipin LDP1 coordinates lipid droplets formation and utilization for appressorium-mediated infection in Magnaporthe oryzae

Lipid droplets (LDs) serve as one of the major reservoirs in conidia of Magnaporthe oryzae and are quickly utilized during appressorium formation. Here, we identified a gene, LDP1, encoding a perilipin that is important for LD formation and utilization during appressorium maturation. LDP1 is highly expressed in conidium and immature appressorium. Disruption mutants of LDP1 were significantly reduced in virulence, due to appressorial turgor reduction and difficulty in penetration. LDs were significantly reduced in the Δldp1 mutant, indicating LDP1 was required for LDs formation. LDP1 was colocalized with the LDs in conidium and immature appressorium but was gradually separated during appressorium maturation. A typical intracellular triacylglycerol lipase, TGL1-2, was clearly separated with LDs in conidium and immature appressorium but was well colocalized with LDs during appressorium maturation. The subcellular localization of TGL1-2 was affected by LDP1. These data suggested that LDP1 was bound to LDs for protecting from utilization in conidia and at the early appressorium stage but was separated from LDs for lipase entering and degradation. LDP1 was phosphorylated by CPKA at Thr96, which was essential for its localization and functions. These data indicate perilipin LDP1 can coordinate LD formation and utilization for appressorium-mediated infection of M. oryzae.     

Effects of ultraviolet radiation, simulated or as natural sunlight, on conidium germination and appressorium formation by fungi with potential as mycoherbistats

Solar radiation, particularly its UV wavelengths, greatly influences conidium survival and this study looked at the impact of radiation and its interactions with temperature on Plectosporium alismatis and Colletotrichum orbiculare, two fungi that are potential mycoherbistats. UV radiation, rather than temperature, was found to be the primary cause of conidium mortality; however, there were interactions between these factors leading to the enhancement of the lethal effects of UVB on conidium germination at high temperatures. C. orbiculare was more sensitive than P. alismatis with conidium germination being halved by UVB doses of 1.47 and 13.1 kJ m^-2, respectively, for the two pathogens. Conidium mortality was dose-dependent and for P. alismatis exposed to a dose of 3.7 kJ m^-2 reciprocity was observed. However, for C. orbiculare equivalent doses were not reciprocal as higher doses for short periods were more lethal than lower doses of longer duration. Low UVB doses only caused delays in conidium germination, whereas higher doses killed conidia and caused delays in the germination of any survivors. Radiation also affected appressorium formation. Appressorium formation was stimulated by UVA and was dose dependent with P. alismatis requiring a higher dose than C. orbiculare to initiate formation. Microcycle conidiation by P. alismatis was observed following exposure to sunlight. This knowledge of how conidia of these potential mycoherbistats react to climate suggests that rapid conidium germination and appressorium formation could be achieved by manipulation of the time at which they are applied in the field. Conidia could be applied so that they receive sufficient UVA to stimulate appressorium formation but without receiving a dose that would significantly affect conidium germination. However, for this, additional protection from UVB may be needed.     

Generality of the prerequisite of conidium attachment to a hydrophobic substratum as a signal for germination among Phyllosticta species

It has been shown that conidia of Phyllosticta ampelicida require attachment to a substratum to initiate germination. Furthermore this attachment occurs only on hydrophobic surfaces. This study was initiated to ascertain the breadth of this phenomenon among other species of the genus Phyllosticta. We tested 23 isolates of Phyllosticta representing at least 14 named species. These isolates were collected from North America, Asia and Africa. For 22 of the 23 isolates tested spore attachment occurred at a rate of 60-100% on hydrophobic polystyrene but at 0-5% on hydrophilic polystyrene. The one exception to the preference for a hydrophobic substratum for attachment was an unnamed species of Phyllosticta from Rhus glauca that attached less than 10% on either surface. A similar response was observed when assaying germination and appressorium formation for 17 isolates. Germination and appressorium formation for these isolates proceeded on hydrophobic polystyrene but not on nutrient agar, which is hydrophilic. In five of the tested isolates germination was high on both hydrophobic polystyrene and hydrophilic nutrient media. The isolate from Rhus glauca did not germinate appreciably on either surface. Taken together these results suggest that the requirement for conidium contact/attachment to trigger germination is pervasive to the genus Phyllosticta.     

A mitogen-activated protein kinase kinase required for induction of cytokinesis and appressorium formation by host signals in the conidia of Colletotrichum gloeosporioides

Differentiation of fungal conidia of phytopathogens into the infection structure, appressorium, requires contact with a hard surface and host signals. The molecular signaling involved in the induction of this differentiation is poorly understood. We report the cloning of a mitogen-activated protein kinase kinase (MEK), CgMEK, from Colletotrichum gloeosporioides and its role in the induction of these developmental processes involved in pathogenesis. Disruption of CgMEK1 resulted in the loss of its ability to form appressoria in response to the host's signals and a loss of virulence. Results of confocal microscopic examination of germinating conidia of the gene-disrupted mutants were similar to those for wild-type conidia treated with an MEK inhibitor, suggesting that CgMEK1 is involved in two developmental processes in the differentiation into appressorium: (1) polarized cell division, with the preferential increase in F-actin in one of the daughter nuclei after nuclear division and the formation of septum; and (2) differentiation of the germ tube into an appressorium. CgMEK1 is required for the differentiation.     

Identification of a hard surface contact-induced gene in Colletotrichum gloeosporioides conidia as a sterol glycosyl transferase,a novel fungal virulence factor

Hard surface contact has been known to be necessary to induce infection structure (appressorium) formation in many phytopathogenic fungi. However, the molecular basis of this requirement is unknown. We have used a differential display approach to clone some of the genes induced in the conidia by hard surface contact. We report that one of the genes induced by hard-surface contact of the conidia of Colletotrichum gloeosporioides, chip6, encodes a protein with homology to sterol glycosyl transferases. chip6 expressed in E. coli catalyses glucosyl transfer from UDP-glucose to cholesterol. Disruption of chip6 causes a marked decrease in the transferase activity and a drastic reduction in virulence on its natural host, avocado fruits, although the mutant is capable of normal growth and appressorium formation. The requirement for sterol glycosyl transferase for pathogenicity suggests a novel biological function for this transferase.     

黑星病菌在苹果叶片上的发育过程研究

采用电子显微镜技术,研究了苹果黑星病菌在苹果叶片上发育过程。扫描电子显微镜观察结果表明,接种后12 h 分生孢子即可萌发并形成附着胞,统计结果显示其孢子萌发率在6 h和12 h分别为83% 和95%,附着胞形成率在12 h和24 h 分别为93% 和95%。透射电子显微镜观察结果表明,黑星病菌侵入以后在寄主角质层下和表皮细胞之间扩展、定殖并可形成子座。接种后12d,病菌开始从子座上产生分生孢子梗和分生孢子,分生孢子梗顶端每产生一个单生的分生孢子就形成一个环痕并延伸其长度。分生孢子梗和分生孢子主要沿叶脉形成,在叶片上呈网状扩展,此时叶片表现明显的病害症状。     

Microtubule dynamics during infection-related morphogenesis of Colletotrichum lagenarium.

Using a green fluorescent protein (GFP)-tubulin fusion protein, we have investigated the dynamic rearrangement of microtubules during appressorium formation of Colletotrichum lagenarium. Two alpha-tubulin genes of C. lagenarium were isolated, and GFP-alpha-tubulin protein was expressed in this fungus. The strain expressing the fusion protein formed fluorescent filaments that were disrupted by a microtubule-depolymerizing drug, benomyl, demonstrating successful visualization of microtubules. In preincubated conidia, GFP-labeled interphase microtubules, showing random orientation, were observed. At conidial germination, microtubules oriented toward a germination site. At nuclear division, when germ tubes had formed appressoria, mitotic spindles appeared inside conidia followed by disassembly of interphase microtubules. Remarkably, time-lapse views showed that interphase microtubules contact a microtubule-associated center at the cell cortex of conidia that is different from a nuclear spindle pole body (SPB) before their disassembly. Duplicated nuclear SPBs separately moved toward conidium and appressorium accompanied by astral microtubule formation. Benomyl treatment caused movement of both daughter nuclei into 70% of appressoria and affected appressorium morphogenesis. In conidia elongating hyphae without appressoria, microtubules showed polar elongation which is distinct from their random orientation inside appressoria.     

Early Expression of the Calmodulin Gene, Which Precedes Appressorium Formation in Magnaporthe grisea, Is Inhibited by Self-Inhibitors and Requires Surface Attachment

Fungal conidia contain chemicals that inhibit germination and appressorium formation until they are well dispersed in a favorable environment. Recently, such self-inhibitors were found to be present on the conidia of Magnaporthe grisea, and plant surface waxes were found to relieve this self-inhibition. To determine whether the self-inhibitors suppress the expression of early genes involved in the germination and differentiation of conidia, the calmodulin gene was chosen as a representative early gene, because it was found to be expressed early in Colletotrichum gloeosporioides and Colletotrichum trifolii differentiation. After calmodulin cDNA and genomic DNA from M. grisea were cloned, the promoter of the calmodulin gene was fused to a reporter gene, that for green fluorescent protein (GFP), and transformed into the M. grisea genome. Confocal microscopic examination and quantitation of expression of GFP green fluorescence showed (i) that the expression of the calmodulin gene decreased significantly when self-inhibition of M. grisea appressorium formation occurred because of high conidial density or addition of exogenous self-inhibitors and (ii) that the expression level of this gene was restored when self-inhibition was relieved by the addition of plant surface waxes. The increase in fluorescence correlated with the percentage of conidia that formed appressoria. The induction of calmodulin was also confirmed by RNA blotting. Concanavalin A inhibited surface attachment of conidia, GFP expression, and appressorium formation without affecting germination. The high correlation between GFP expression and appressorium formation strongly suggests that calmodulin gene expression and appressorium formation require surface attachment.     

橡胶炭疽病病原菌生物学特性初步研究

测试了7个来自云南省版纳地区的橡胶树炭疽病菌的菌株在不同培养基、温度及pH条件下的生长速率,观察了这些菌株在PDA上的菌落和分生孢子形态,测定了这些菌株的致病力。发现这些菌株的最适生长的培养基、温度、pH和对橡胶树的致病力存在明显的差异,对橡胶树的致病力有明显不同,菌落和分生孢子形态也存在可观察到的差异。