<Emphasis Type="Italic">Colletotrichum gloeosporioides</Emphasis> can Overgrow <Emphasis Type="Italic">Colletotrichum kahawae</Emphasis> on Green Coffee Berries First Inoculated with <Emphasis Type="Italic">C. kahawae</Emphasis>

Colletotrichum gloeosporioides is a weak pathogen of coffee that infects ripe berries at dark red stage causing necrotic lesions, but only penetrates up to the second superficial layers of the pericarp at the rose and pink stages. C. kahawae, the causal agent of coffee berry disease (CBD) and responsible for 70–80% of crop loss, infects berries at any stage of development. When green berries are first inoculated with C. kahawae and then at 2, 72 or 96 h later with C. gloeosporioides, the necrotic lesions were significantly larger than in the controls, and were much more evident when the berries were incubated at the optimum growth temperature of 28 °C for C. gloeosporioides. Isolations from the lesions induced by the first inoculations with C. kahawae followed by inoculation with C. gloeosporioides revealed that all or most of the time the recovered isolates of the latter. Thus, C. gloeosporioides can overwhelm C. kahawae under conditions of higher environmental temperature and humidity and may enhance the CBD infection process under field conditions.     

Purification and identification of cutinases from <Emphasis Type="Italic">Colletotrichum kahawae</Emphasis> and <Emphasis Type="Italic">Colletotrichum gloeosporioides</Emphasis>

Colletotrichum kahawae is the causal agent of the coffee berry disease, infecting leaves and coffee berries at any stage of their development. Colletotrichum gloeosporioides is the causal agent of brown blight, infecting ripe berries only. Both fungi secrete the same pattern of carboxylesterases to the fermentation broth when cutin is used as carbon source. By using two different strategies composed of two precipitation steps (ammonium sulphate and acetic acid precipitation) and two chromatographic steps, two proteins displaying carboxylesterase activity were purified to electrophoretic homogeneity. One, with a molecular weight (MW) of 21 kDa, has a blocked N terminus and was identified as cutinase by peptide mass fingerprint and mass spectrometry/mass spectrometry data acquired after peptide derivatization with 4-sulphophenyl isothiocyanate. The second, with a MW of 40 kDa, displays significant carboxylesterase activity on tributyrin but low activity on p-nitrophenyl butyrate. N-terminal sequencing for this protein does not reveal any homology to other carboxylesterases. These two enzymes, which were secreted by both fungi, appear homologous.     

Variability of Colletotrichum kahawae in Relation to Other Colletotrichum Species from Tropical Perennial Crops and the Development of Diagnostic Techniques

Twenty‐six isolates of Colletotrichum kahawae, the causal agent of coffee berry disease, from coffee in Africa, and 25 isolates, mostly of Colletotrichum gloeosporioides, from coffee and other tropical perennial crops, were examined for the ability to metabolize citrate and tartrate and their molecular genetic variability was assessed using restriction fragment length polymorphisms (RFLP) and variable number tandem repeats (VNTR). Twenty‐four isolates of C. kahawae were also assessed using amplified fragment length polymorphisms (AFLP). Vegetative compatibility within a collection of nine isolates, including two of C. gloeosporioides was also assessed. All isolates of C. kahawae from across Africa failed to metabolize citrate or tartrate, but all other isolates metabolized one or both. Colletotrichum kahawae isolates also showed minimal variability using the molecular techniques with two isolates from Cameroon showing slightly different banding patterns in RFLP analysis. All other isolates had variable VNTR and RFLP banding patterns. AFLP analysis failed to detect variability within 12 isolates from Kenya, but did detect differences between isolates from other countries. Five isolates from Kenya were vegetatively compatible but differed from two from Cameroon and from two C. gloeosporioides isolates. Results demonstrate some geographic variability within C. kahawae isolates, although this is small, probably due to the relatively young age of C. kahawae populations. The biochemical and molecular techniques used showed clear differences from other Colletotrichum isolates, and can be used to distinguish the species. Lack of citrate and tartrate metabolism provides a readily applicable diagnostic method.     

Characterization of Colletotrichum kahawae Isolates Causing Coffee Berry Disease in Angola

Coffee Berry Disease, caused by Colletotrichum kahawae, is a major limitation for Arabica coffee cultivation in Africa and for which genetic control is only partially effective. As part of the effort to re‐launch coffee cultivation in Angola, our aim was to study the diversity of this pathogen and so contribute to more effective breeding for disease resistance. A collection of 30 C. kahawae isolates showed limited diversity in genetic and colony characters. However, some isolates are distinct, suggesting that breeding for disease resistance in Angola should be dependent on an adequate knowledge of the diversity of local and neighbouring C. kahawae isolates. Analysis of C. kahawae nrDNA nucleotide sequences showed distinct lineages clustering within the broad diversity of C. gloeosporioides, prompting further studies aimed at understanding the origin and pathogenic specialization of C. kahawae.     

Responses of cells and protoplasts of Coffea arabica genotypes to partially purified culture filtrates produced by Colletotrichum kahawae

Hypocotyl-derived calli of genotypes and segregating populations of Coffea arabica, differing in susceptibility to Colletotrichum kahawae, were used to produce cell suspensions and protoplasts which were exposed to partially purified culture filtrates (PPCFs) prepared from the pathogen. The growth and viability of PPCF-treated cells and protoplasts were measured using packed cell volume, fluorescein diacetate staining and a colorimetric assay involving the tetrazolium salt MTT. Differential responses of cells and protoplasts were influenced by genotype, time of exposure and PPCF concentration. Protoplasts of resistant genotypes responded differentially from more susceptible genotypes as early as 4 h after challenge with the phytotoxin, suggesting that they were more sensitive than cell suspensions to the treatments. Protoplasts exposed to PPCFs from C. kahawae may therefore be used to screen and select genotypes resistant to, or tolerant of, coffee berry disease. Received: 10 April 1996 / Revision received: 25 August 1996 / Accepted: 15 September 1996     

Host-jump drives rapid and recent ecological speciation of the emergent fungal pathogen Colletotrichum kahawae

Ecological speciation through host‐shift has been proposed as a major route for the appearance of novel fungal pathogens. The growing awareness of their negative impact on global economies and public health created an enormous interest in identifying the factors that are most likely to promote their emergence in nature. In this work, a combination of pathological, molecular and geographical data was used to investigate the recent emergence of the fungus Colletotrichum kahawae. C. kahawae emerged as a specialist pathogen causing coffee berry disease in Coffea arabica, owing to its unparalleled adaptation of infecting green coffee berries. Contrary to current hypotheses, our results suggest that a recent host‐jump underlay the speciation of C. kahawae from a generalist group of fungi seemingly harmless to coffee berries. We posit that immigrant inviability and a predominantly asexual behaviour could have been instrumental in driving speciation by creating pleiotropic interactions between local adaptation and reproductive patterns. Moreover, we estimate that C. kahawae began its diversification at <2200 bp leaving a very short time frame since the divergence from its sibling lineage (c. 5600 bp ), during which a severe drop in C. kahawae’s effective population size occurred. This further supports a scenario of recent introduction and subsequent adaptation to C. arabica. Phylogeographical data revealed low levels of genetic polymorphism but provided the first geographically consistent population structure of C. kahawae, inferring the Angolan population as the most ancestral and the East African populations as the most recently derived. Altogether, these results highlight the significant role of host specialization and asexuality in the emergence of fungal pathogens through ecological speciation.     

In vitro selection of Coffea arabica callus for resistance to partially purified phytotoxic culture filtrates from Colletotrichum kahawae

Calli derived from hypocotyl explants of a susceptible and resistant genotype of Coffea arabica were evaluated for their response to different concentrations of partially purified culture filtrates (PPCFs) produced by Colletotrichum kahawae which are phytotoxic. The size of calli was measured non-destructively by automated image analysis. Differential responses of calli ranged from complete necrosis or reduced growth in the susceptible genotype (N39) to an absence of necrosis and rapid growth in the resistant genotype (cv. Hybrido de Timor). Subsequently, one selection cycle in the presence of PPCF was devised and applied to calli of nine C. arabica genotypes. Normal plants were regenerated through somatic embryogenesis of callus lines that survived the phytotoxin treatment and in vitro and in vivo testing of these plants against the PPCF showed that increased resistance to the toxin had been obtained. These studies suggest that in vitro selection of calli may be a feasible approach to acquiring germplasm with improved resistance to coffee berry disease.     

Prepenetration and Penetration of Colletotrichum gloeosporioides into Guava Fruit (Psidium guajava L.): Effects of Temperature,Wetness Period and Fruit Age

In this study, we determined the influences of temperature, wetness period and guava fruit age on infection caused by Colletotrichum gloeosporioides. Optimal temperatures in vitro for germination, appressoria formation and melanization were 22.7, 20.6 and 23°C, respectively. In vivo, the optimal temperatures for germination and appressoria formation were 22.5 and 23°C, respectively. Values for germination, appressoria formation and melanization were higher as the wetness period increased. There was no difference in conidial germination and appressorial formation on fruit of different ages. On the surface of 10‐, 35‐ and 60‐day‐old fruit, despite the high percentage of appressorial formation, there was no development of the penetration peg. Penetration pegs were only observed on the 85‐ and 110‐day‐old fruit. Thickness of the cuticle, size and architecture of epidermal and parenchymal cells, as well as the content of phenolic compounds changed as the fruit ripened.     

Current status of coffee berry disease (Colletotrichum kahawae Waller & Bridge) in Ethiopia

The current status of coffee berry disease (CBD) caused by Colletotrichum kahawae was intensively assessed and examined in 152 sample coffee farms from 22 districts across major coffee growing regions of Ethiopia. The results showed that CBD was prevalent with significantly (p < 0.001) varied intensity of damage among fields, districts and zones. The highest disease incidence of 70.7, 65.3 and 59.3% was recorded in Hararghe, Gedeo and Jimma, with correspondingly higher severity of 42.7, 46.7 and 32.0%, respectively. The national average incidence and severity of CBD was 52.5 and 29.9% that indicated the present status of the disease is remarkably on increasing trend. The increased intensity of CBD was strongly associated with reduced disease management practices (r = 0.50), altitude (r = 0.42), coffee cultivars (r = 0.23) and production systems (r = 0.28). This empirical evidence shows that CBD is on an upsurge and remains a major challenge to Arabica coffee production in Ethiopia.     

The impact of nutrition on spore yields for various fungal entomopathogens in liquid culture

Spore yields were measured for various fungal entomopathogens grown in six nutritionally different liquid media with low and high carbon concentrations (8 and 36 g l^–1, respectively) at carbon-to-nitrogen (C:N) ratios of 10:1, 30:1 and 50:1. Six fungi were tested: two Beauveria bassiana strains, three Paecilomyces fumosoroseus strains and one Metarhizium anisopliae strain. Spore yields were examined after 2, 4 or 7 days growth. In general, highest spore yields were obtained in media containing 36 g/l and a C:N ratio of 10:1. After 4 days growth, highest spore yields were measured in the three Paecilomyces isolates (6.9–9.7 × 10⁸ spores ml^–1). Spore production by the B. bassiana isolates was variable with one isolate producing high spore yields (12.2 × 10⁸ spores ml^–1) after 7 days growth. The M. anisopliae isolate produced low spore concentrations under all conditions tested. Using a commercial production protocol, a comparison of spore yields for the coffee berry borer P. fumosoroseus and a commercial B. bassiana isolate showed that highest spore concentrations (7.2 × 10⁸ spores ml^–1) were obtained with the P. fumosoroseus isolate 2-days post-inoculation. The ability of the P. fumosoroseus strain isolated from the coffee berry borer to rapidly produce high concentrations of spores prompted further testing to determine the desiccation tolerance of these spores. Desiccation studies showed that ca. 80% of the liquid culture produced P. fumosoroseus spores survived the air-drying process. The virulence of freshly produced, air-dried and freeze-dried coffee berry borer P. fumosoroseus blastospores preparations were tested against silverleaf whiteflies (Bemisia argentifolii). While all preparations infected and killed B. argentifolii, fresh and air-dried preparations were significantly more effective. These results suggest that screening potential fungal biopesticides for amenability to liquid culture spore production can aid in the identification of commercially viable isolates. In this study, P. fumosoroseus was shown to possess the production and stabilization attributes required for commercial development.     

Effect of variable dew temperatures on infection of green foxtail by Pyricularia setariae, Drechslera gigantea, and Exserohilum rostratum

A thermogradient apparatus was used to investigate the effect of variable dew temperatures on infection of green foxtail by the indigenous pathogen Pyricularia setariae (Ps) and the exotic pathogens Drechslera gigantea (Dg), and Exserohilum rostratum (Er) from the southern USA that showed bioherbicide potential against several grassy weeds. This device is capable of creating multiple diurnal temperature cycles, mimicking daily temperature fluctuations that occur under field conditions. Seven temperature regimes, i.e., 15/10 °C, 20/5 °C, 20/15 °C, 25/10 °C, 25/20 °C, 30/15 °C, and 30/25 °C (maximum/minimum), were used with temperature cycling from maximum to minimum and then back up to maximum in a 24 h period. Ps and Dg were much more virulent than Er on green foxtail, resulting in higher levels of disease and weed control. Dg was little affected by the dew temperatures in terms of plant infection and was more efficacious than Ps under cooler dew temperatures (15/10 °C and 20/5 °C), causing twice as much disease. This greater amount of disease coincided with higher conidial germination, appressorial formation and infection-hypha frequency by Dg at the lower temperatures. The efficacy of Ps improved as dew temperature increased, accompanied by a higher percentage of germination and more frequent appressorial production. Dg caused severe disease 2 d after inoculation whereas Ps required 4 d to initiate disease symptoms. These observations suggest that Dg is a superior candidate than Ps for green foxtail control on the Canadian prairies.     

蛋白-O-岩藻糖基转移酶1基因CfPOFUT1在果生炭疽菌中的功能分析

【目的】蛋白-O-岩藻糖基转移酶1 (protein O-fucosyltransferase 1,POFUT1)是催化蛋白质O-岩藻糖基化的关键酶,在动物和人体内被证明调控一系列的生理病理过程,然而POFUT1基因在果生炭疽菌乃至真菌中还未见报道。本研究旨在克隆果生炭疽菌中CfPOFUT1基因,并分析其生物学功能。【方法】利用RT-PCR技术扩增CfPOFUT1的基因并进行生物信息学分析,构建了CfPOFUT1基因的沉默和过表达载体,通过PEG介导法将载体导入原生质体中获得CfPOFUT1基因的沉默和过表达突变体。测定了野生型菌株、CfPOFUT1沉默菌株和过表达菌株在PDA上的菌丝生长、分生孢子产生、萌发与附着胞形成、胁迫应答和致病力、杀菌剂敏感性等生物学表型。【结果】与野生型菌株相比,基因过表达突变体产孢量显著增加,致病力增强,对嘧菌酯敏感性降低,但对多菌灵和咪鲜胺敏感性增强。基因沉默突变体产孢量减少,细胞壁完整性、内质网应激敏感性提高,致病力减弱,对嘧菌酯敏感性提高,但对多菌灵和咪鲜胺敏感性降低。【结论】CfPOFUT1基因参与调控果生炭疽菌分生孢子产量,细胞壁完整性、内质网对应激和药剂敏感性,并对其致病性也具有一定的影响。     

Life history studies of <Emphasis Type="Italic">Prorops nasuta</Emphasis>, a parasitoid of the coffee berry borer

Life history studies were conducted in the laboratory on the African parasitoid Prorops nasuta Waterston (Hymenoptera: Bethylidae), a parasitoid of the coffee berry borer, Hypothenemus hampei (Ferrari) (Coleoptera: Scolytidae). The female wasp enters an infested coffee berry, kills the adult borer and seals the entrance of the berry with the body of the borer, impeding the entry of other organisms into the berry. The preoviposition period ranges from 3 to 14 days (mean 5.42 ± 0.37 SE). During this time females feed on the immature stages and paralyse fully grown larvae and pupae of the CBB. P. nasuta is an idiobiont solitary ectoparasitoid. Eggs are laid externally on the last instar larvae and pupae. Mean development time (egg to adult) for males and females was 27.7 (±0.37 SE) and 30 (±0.12 SE) days, respectively. Median survival for wasps fed on final instar CBB larvae was 27.7 days, significantly longer than any other treatment, while for females without food it was 2.5 days. In culture, females produced an average of 4.3 (±0.39 SE) progeny during their lifetimes. Adults began emerging at 30.6 days (±0.28 SE) after cultures were started and peak production was reached at 36 days, declining thereafter. Males normally emerged from coffee beans 2–3 days before females. Males usually emerged from 07:00 to 09:00h and females from 10:00 to 14:00 h. The culture sex ratio (proportion of males) was 0.21. Virgin females produced only male offspring.     

Behavior and Activity Pattern of Cephalonomia stephanoderis (Hymenoptera: Bethylidae) Attacking the Coffee Berry Borer,Hypothenemus hampei (Coleoptera: Scolytidae)

We describe behavioral sequences and daily activities of pre-ovipositing and ovipositing females of Cephalonomia stephanoderis (Hymenoptera: Bethylidae), an ectoparasitoid of the coffee berry borer, Hypothenemus hampei (Coleoptera: Scolytidae). Noticeable behavioral differences among preovipositing and ovipositing females include host examination, host stinging—probing, host feeding, and the oviposition per se. The female of C. stephanoderis feeds primarily on host eggs, but pupae are also exploited, mainly by pre-ovipositing females. After the onset of the oviposition period, C. stephanoderis examines the pupae repeatedly, stings them at frequent intervals, and spends more time feeding than during the pre-oviposition period. Host paralysis is linked both to host feeding and oviposition. It induces irreversible developmental arrest, which presumably allows preservation of the host until subsequent utilization, and contributes to successful offspring development, particularly by reducing host motility. Oviposition consists in a host selection process, a prolonged period of preparation of the potential host, and the egg-laying phase itself. Under our experimental conditions, pre-ovipositing and ovipositing females are active 17% and 36% of the day, respectively. Host handling time averages 6% and 23% in pre-ovipositing and ovipositing females, respectively. All coffee berry borer developmental stages are exploited by C. stephanoderis females, either for host feeding and/or oviposition activities. Such flexible behavior is advantageous given that host availability is limited inside the coffee berries.     

Where to sample? Ecological implications of sampling strata in determining abundance and impact of natural enemies of the coffee berry borer,Hypothenemus hampei

Several parasitoids of African origin have been introduced to coffee producing areas of the Americas and Asia as biological control agents of the coffee berry borer (CBB) Hypothenemus hampei (Coleoptera: Curculionidae). These parasitoids have become established in the field but their effect on the CBB has been limited. A two-year field study in Western Kenya has found Prorops nasuta (Hymenoptera: Bethylidae) to be the predominant parasitoid emerging from CBB-infested coffee berries collected on coffee trees or from the ground. P. nasuta comprises more than 75% of the total natural enemies collected. The density of P. nasuta was 90% higher in the berries collected from the ground than from the trees. Its hyperparasitoid, Aphanogmus sp. (Hymenoptera: Ceraphronidae), also emerged from both type of berries. Across the two seasons, the average P. nasuta density per berry was 18–35 times higher than that of Aphanogmus sp. Throughout the two years sampled, significantly higher numbers of P. nasuta and Aphanogmus sp. occurred between February and March, which coincides with the beginning of the rainy season. Higher numbers of live CBB females were recorded in berries collected from the trees. Nevertheless, mortality of adult CBB was considerably higher from January to March and started to decrease from April onwards. The possibly negative effects of cultural control practices in Latin America which include the removal of berries fallen to the ground on biological control of CBB are discussed, and the use of screened collection devices for these berries which would permit the release of parasitoids but prevent escape of the pest is proposed.     

Melanization decreases the susceptibility of Cryptococcus neoformans to enzymatic degradation

Cryptococcus neoformans is a free-living fungus that is primarily found in soils contaminated with avian excreta. Recent studies have shown that C. neoformans can synthesize melanins or melanin-like compounds in avian excreta. Melanization has been associated with protection of C. neoformans against harsh environmental conditions, such as ultraviolet radiation and extremes of temperature. In this study we examined whether melanization can protect C. neoformans against enzymatic degradation. Our results demonstrated that in vitro melanization decreases the susceptibility of C. neoformans to hydrolytic enzymes. This suggests a role for melanin in protection of C. neoformans against enzymatic degradation by antagonistic microbes in the environment. This revised version was published online in August 2006 with corrections to the Cover Date.     

Nuclear behavior during the formation of appressoria byAlternaria alternata

Nuclear behavior in the developmental process of appressoria inAlternaria alternata was investigated. In pregerminated conidia, approximately 94% of the conidial cells were uninucleate. The migration of a nucleus into an elongating germ tube from a germinating conidium was confirmed after 2h of incubation at 24±1°C in PDB. Peak frequencies of binucleate and trinucleate germ tubes were detected 1 and 2h after the peak frequency of uninucleate germ tubes, respectively. Four-and five-nucleate germ tubes did not show marked peak frrequencies. A marked peak frequency of the six-nucleate germ tubes occurred about 1 h after the peak frequency of the trinucleate germ tubes, suggesting that the nuclei in the trinucleate germ tubes each divided once within 1 h. The significance of early establishment of multinucleate appressorial cells in the colonization of host plants by pathogenicA. alternata was discussed.     

Colletotrichum acutatum is the main cause of Colletotrichum leaf disease of rubber in Sri Lanka

Colletotrichum gloeosporoides has been described as the causal agent of Colletotrichum leaf disease of rubber in Sri Lanka and other parts of the world since 1905. A study carried out on vegetative and reproductive characteristics of 52 isolates from Colletotrichum leaf disease lesions on Hevea brasiliensis in Sri Lanka revealed that only 18 isolates belong to Colletotrichum gloeosporioides. The remaining 34 isolates represented C. aculatum indicating that C. acutatum is the main cause of Colletotrichum leaf disease in Sri Lanka.This revised version was published online in October 2005 with corrections to the Cover Date.     

Mitochondrial β‐oxidation regulates organellar integrity and is necessary for conidial germination and invasive growth in Magnaporthe oryzae

Fatty acids stored as triglycerides, an important source of cellular energy, are catabolized through β‐oxidation pathways predicted to occur both in peroxisomes and mitochondria in filamentous fungi. Here, we characterize the function of Enoyl‐CoA hydratase Ech1, a mitochondrial β‐oxidation enzyme, in the model phytopathogen Magnaporthe oryzae. Ech1 was found to be essential for conidial germination and viability of older hyphae. Unlike wild‐type Magnaporthe, the ech1Δ failed to utilize C14 fatty acid and was partially impeded in growth on C16 and C18 fatty acids. Surprisingly, loss of β‐oxidation led to significantly altered mitochondrial morphology and integrity with ech1Δ showing predominantly vesicular/punctate mitochondria in contrast to the fused tubular network in wild‐type Magnaporthe. The ech1Δ appressoria were aberrant and displayed reduced melanization. Importantly, we show that the significantly reduced ability of ech1Δ to penetrate the host and establish therein is a direct consequence of enhanced sensitivity of the mutant to oxidative stress, as the defects could be remarkably reversed through exogenous antioxidants. Overall, our comparative analyses reveal that peroxisomal lipid catabolism is essential for appressorial function of host penetration, whereas mitochondrial β‐oxidation primarily contributes to conidial viability and maintenance of redox homeostasis during host colonization by Magnaporthe.