On-line study of growth kinetics of single hyphae of Aspergillus oryzae in a flow-through cell

Using image analysis the growth kinetics of the single hyphae of the filamentous fungus Aspergillus oryzae has been determined on-line in a flow-through cell at different glucose concentrations in the range from 26 mg L-1 to 20 g L-1. The tip extension rate of the individual hyphae can be described with saturation type kinetics with respect to the length of the hyphae. The maximum tip extension rate is constant for all hyphae measured at the same glucose concentration, whereas the saturation constant for the hyphae varies significantly between the hyphae even within the same hyphal element. When apical branching occurs, it is observed that the tip extension rate decreases temporarily. The number of branches formed on a hypha is proportional to the length of the hypha that exceeds a certain minimum length required to support the growth of a new branch. The observed kinetics has been used to simulate the outgrowth of a hyphal element from a single spore using a Monte Carlo simulation technique. The simulations shows that the observed kinetics for the individual hyphae result in an experimentally verified growth pattern with exponential growth in both total hyphal length and number of tips.     

On-line study of fungal morphology during submerged growth in a small flow-through cell

A flow-through cell is designed to measure the growth kinetics of hyphae of Aspergillus oryzae grown submerged in a well controlled environment. The different stages of the growth process are characterized, from the spore to the fully developed hyphal element with up to 60 branches and a total length lt up to 10,000 micrometer. Spore swelling is found to occur without change in the form of the spore (circularity index constant at about 1.06) and the spore volume probably increases exponentially. The germ tube appears after about 4 h. The branching frequency and the rate of germ tube extension is determined. After about 10 h growth at a glucose concentration of 250 mg L-1, 6-7 branches have been set, and both the total hyphal length lt and the number of tips increase exponentially with time. The specific growth rate of the hyphae is 0. 33 h-1 while the average rate of the extension of the growing tips approaches 55 micrometer h-1. The growth kinetics for all the branches on the main hypha have also been found. The main hypha and all the branches grow at a rate which can be modeled by saturation kinetics with respect to the branch length and with nearly equal final tip speeds (160 micrometer h-1). Branches set near the apical tip of the main hypha attain their final tip speed in the shortest time, i.e., the value of the saturation parameter is small. Finally, the influence of substrate (glucose) concentration cs on the values of the morphological parameters has been determined. It is found that saturation type kinetics can be used to describe the influence of cs on the growth. Experiments with recirculation of effluent from the cell back to the inlet strongly suggest that the fungus secretes an inducer for growth and branching.     

Change in hyphal morphology of Aspergillus oryzae during fed-batch cultivation

Industrial enzymes are often produced by filamentous fungi in fed-batch cultivations. During cultivation, the different morphological forms displayed by the fungi have an impact on the overall production. The morphology of a recombinant lipase producing Aspergillus oryzae strain was investigated during fed-batch cultivations. During the exponential batch phase of the fed-batch cultivations, the average hyphal length increased as did the number of tips per hyphal element. Most striking was the finding that the diameter of the hyphal elements increased with an average factor of 1.5 during the batch phase from 2.8–2.9 up to 4.0–4.4 μm. The diameter of the hyphal elements remained constant, around 4 μm, after the feed was started. However, the diameter of the immediate hyphal tip, where the enzyme secretion is thought to take place, increased dramatically with up to a factor 2.5 during the feeding period. The expression of the recombinant lipase was induced by the feeding with maltose, and an increase in lipase activity was seen in parallel to a swelling of the tips. The results indicate that the two events are linked as a return to normal growth was observed upon cessation of production due to oxygen limitations.     

Study on the hyphal responses of Aspergillus fumigatus

The hyphal responses of an A. fumigatus isolate to a trizolederivative-fluconazole (FCZ) were studied with a Bio-Cell Tracer system. The numerical data were recorded as the original growth rate (Pre-GR), the time needed for FCZ reaching to its target in hypha (τ_on), the growth rate under the FCZ effect (Exp-GR) and the growth rate after FCZ was removed (Post-GR). Based on above numerical data, the inhibitory rates in the exposure and post exposure periods were calculated as the Exp-I% and Post-I% values. It was found there were variable inhibitory rate values (I%) in individual hyphae corresponding to different FCZ concentrations. It was shown by correlation analysis of the numerical data that the Pre-GR values were negatively correlated with the τ_on values and positively correlated with both the Exp-I% and Post-I% values. Additionally, the τ_on values are negatively correlated with the Exp-I% and Post-I% values. Those results suggested that the hyphal growth rate and the susceptibility of the FCZ target be the important factors to determine the hyphal responses to the FCZ effect. Serial morphological alternations were captured while the hyphal growth curves were changing under the FCZ effects. Of the morphological data, the interesting alternations were visualized when the hyphae were affected by 16 μg/ml FCZ. As shifting of the hyphal growth curves, the hyphae were repeatedly seen as swollen tips and germination from the swollen sites. It is indicated that the hyphal tips are the most sensitive parts of this mycelia fungus to the FCZ affects. Additionally, because the hyphal regrowth was observed as germination from the swollen tips before FCZ was removed, an adaptation phenomenon could be proposed. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effect of restrictive conditions on the growth and morphology of a temperature-sensitive mannose-requiring mutant of Aspergillus nidulans

When incubated at 45 degrees C in the absence of added mannose, pregrown hyphae of a temperature-sensitive, mannose-relief mutant (mnrA455) of Aspergillus nidulans grew normally for a short time (4-5 h) before exhibiting an abnormal morphology consisting of the production by hyphae of discrete spherical swellings called balloons. These swellings could be up to 10 microns in diameter and were produced either at or behind the hyphal apex. Often only one swelling was produced in association with each hyphal tip, but in a significant minority of cases (approximately 19.6%) a second balloon was produced in close association with the first. Hyphal tip extension slowed before and during balloon formation, but growth at individual tips did not usually stop when a balloon began to be formed in the same hypha. All tip extension ceased after approximately 8 h in cultures maintained at 45 degrees C. However, normal growth resumed 45-60 min after transfer of such a culture to the permissive temperature of 37 degrees C even after 48 h at 45 degrees C. Electron microscopic examination indicated that balloons consistently had thicker walls than the surrounding hyphae but that no accumulation of cytoplasmic vesicles was apparent within them. This indicates that a modification of wall structure, probably including deposition of new wall material, was caused by a mannose deficiency, but that this altered wall synthesis and attendant hyphal swelling was not due to diversion of the normal vesicle-mediated tip-extension system to the side walls of hyphae.     

The SH3/PH domain protein AgBoi1/2 collaborates with the Rho-type GTPase AgRho3 to prevent nonpolar growth at hyphal tips of Ashbya gossypii

Unlike most other cells, hyphae of filamentous fungi permanently elongate and lack nonpolar growth phases. We identified AgBoi1/2p in the filamentous ascomycete Ashbya gossypii as a component required to prevent nonpolar growth at hyphal tips. Strains lacking AgBoi1/2p frequently show spherical enlargement at hyphal tips with concomitant depolarization of actin patches and loss of tip-located actin cables. These enlarged tips can repolarize and resume hyphal tip extension in the previous polarity axis. AgBoi1/2p permanently localizes to hyphal tips and transiently to sites of septation. Only the tip localization is important for sustained elongation of hyphae. In a yeast two-hybrid experiment, we identified the Rho-type GTPase AgRho3p as an interactor of AgBoi1/2p. AgRho3p is also required to prevent nonpolar growth at hyphal tips, and strains deleted for both AgBOI1/2 and AgRHO3 phenocopied the respective single-deletion strains, demonstrating that AgBoi1/2p and AgRho3p function in a common pathway. Monitoring the polarisome of growing hyphae using AgSpa2p fused to the green fluorescent protein as a marker, we found that polarisome disassembly precedes the onset of nonpolar growth in strains lacking AgBoi1/2p or AgRho3p. AgRho3p locked in its GTP-bound form interacts with the Rho-binding domain of the polarisome-associated formin AgBni1p, implying that AgRho3p has the capacity to directly activate formin-driven actin cable nucleation. We conclude that AgBoi1/2p and AgRho3p support polarisome-mediated actin cable formation at hyphal tips, thereby ensuring permanent polar tip growth.     

Morphological changes of <Emphasis Type="Italic">Fusarium</Emphasis><Emphasis Type="Italic">oxysporum</Emphasis> induced by CF66I,an antifungal compound from <Emphasis Type="Italic">Burkholderia cepacia</Emphasis>

The morphological effects of CF66I, an antifungal compound produced by Burkholderia cepacia, on growing hyphae of Fusarium oxysporum were studied by fluorescence microscopy (FM) and transmission electron microscopy (TEM). At 20 μg/ml, CF66I strongly inhibited growth and induced significant changes of the hyphal morphology. These changes included swelling of hyphae with considerable thickening cell wall and abnormal chitin deposition, which was indicative of the alterations in cell wall structure. Furthermore, fluorescein diacetate (FDA) staining indicated the loss of intracellular esterase activity. CF66I probably inhibits fungal growth by interfering with the cell metabolic pathways. At 120 μg/ml, CF66I killed F. oxysporum (accompanied by propidium iodide permeation, intracellular cytoplasm leakage and crushing of hyphal tips), probably by direct damage to the cell membrane. Thus, there are two different antifungal mechanisms of CF66I, depending on its concentration, and further studies on this compound might be useful for us to develop a new class of antifungal agents.     

Maximal polar growth potential depends on the polarisome component AgSpa2 in the filamentous fungus Ashbya gossypii

We used actin staining and videomicroscopy to analyze the development from a spore to a young mycelium in the filamentous ascomycete Ashbya gossypii. The development starts with an initial isotropic growth phase followed by the emergence of germ tubes. The initial tip growth speed of 6-10 microm/h increases during early stages of development. This increase is transiently interrupted in response to the establishment of lateral branches or septa. The hyphal tip growth speed finally reaches a maximum of up to 200 micro/h, and the tips of these mature hyphae have the ability to split into two equally fast-growing hyphae. A search for A. gossypii homologs of polarisome components of the yeast Saccharomyces cerevisiae revealed a remarkable size difference between Spa2p of both organisms, with AgSpa2p being double as long as ScSpa2p due to an extended internal domain. AgSpa2 colocalizes with sites of polarized actin. Using time-lapse videomicroscopy, we show that AgSpa2p-GFP polarization is established at sites of branch initiation and then permanently maintained at hyphal tips. Polarization at sites of septation is transient. During apical branching the existing AgSpa2p-GFP polarization is symmetrically divided. To investigate the function of AgSpa2p, we generated two AgSPA2 mutants, a partial deletion of the internal domain alone, and a complete deletion. The mutations had an impact on the maximal hyphal tip growth speed, on the hyphal diameter, and on the branching pattern. We suggest that AgSpa2p is required for the determination of the area of growth at the hyphal tip and that the extended internal domain plays an important role in this process.     

Dynamics of mitochondria during the <Emphasis Type="Italic">Neurospora crassa</Emphasis> tip growth

Tip growth of the mycelial fungus N. crassa vegetative hyphae is realized owing to the combined activities of tens of the cells and diverse intracellular structures, such as microvesicles, microtubules, microfilaments, mitochondria, etc. Using a vital mitochondrial probe Mitotracker Red (10 μM, 10 min) we have found that the same mitochondria can move hundreds of microns along the hyphae within several hours. Analysis of the mitochondria distribution along 100 μm of the tips in intact hyphae as well as in the isolated apical fragments has shown that the congregation of mitochondria in the growing tips can correlate with the rate of elongation. These data together with the earlier electrophysiological estimations of the membrane potential gradients along the hyphal tips suggest that the electrical gradients along the hyphal apical part can be involved in the regulation of the energy supply of the tip growth.     

Apical hyphal extension in Streptomyces coelicolor A3(2).

Hyphal extension in the filamentous actinomycete Streptomyces coelicolor A3(2) was shown to occur by addition of newly synthesized wall material in an apical extension zone. Incubation of mycelia with tritiated N-acetyl-D-glucosamine (GlcNAc), a precursor of peptidoglycan, resulted in localized incorporation of label at the apex, as indicated by light microscopic and electron microscopic autoradiography. Within the hyphal extension zone there was a sharp decrease in incorporation with increasing distance from the apex. Hyphal tip shape, examined by low-temperature scanning electron microscopy, approximated to a semi-ellipsoid of revolution and was not hemispherical. Tip shape could be represented accurately by polynomial equations of degree less than seven. The surface stress theory was successfully applied to hyphal tip growth, with tip shape related qualitatively to the inverse of surface tension within the wall of the extension zone. Surface tension was assumed to be inversely proportional to the rate of incorporation of tritiated GlcNAc. Treatment of surface-grown hyphae with beta-lactam antibiotics resulted in localized swelling of hyphal tips. Lysozyme caused swelling of tips and of other regions of hyphae, frequently giving a beaded morphology associated with septa.     

Fungal surface remodelling visualized by atomic force microscopy

Most fungal growth is localized to the tips of hyphae, however, early stages of spore germination and the growth of certain morphological mutant strains exhibit non-polarized expansion. We used atomic force microscopy (AFM) to document changes in Aspergillus nidulans wall surfaces during non-polarized growth: spore germination, and growth in a strain containing the hypA1 temperature sensitive morphogenesis defect. We compared wall surface structures of both wild-type and mutant A. nidulans following growth at 28 ° and 42 °C, the latter being the restrictive temperature for hypA1. There was no appreciable difference in surface ultrastructure between wild-type and hypA1 spores, or hyphal walls grown at 28 °C. When dry mature A. nidulans conidia were wetted they lost their hydrophobin coat, indicating an intermediate stage between dormancy and swelling. The surface structure of hypA1 germlings grown at 42 °C was less organized than wild-type hyphae grown under the same conditions, and had a larger range of subunit sizes. AFM images of hyphal wall surface changes following a shift in growth temperature from restrictive (42 °C) to permissive (28 °C), showed a gradient of sizes for wall surface features similar to the trend observed for wild-type cells at branch points. Changes associated with the hyphal wall structure for A. nidulans hypA1 offer insight into the events associated with fungal germination, and wall remodelling.     

The Ashbya gossypii fimbrin SAC6 is required for fast polarized hyphal tip growth and endocytosis

Ashbya gossypii has been an ideal system to study filamentous hyphal growth. Previously, we identified a link between polarized hyphal growth, the organization of the actin cytoskeleton and endocytosis with our analysis of the A. gossypii Wiskott-Aldrich Syndrome Protein (WASP)-homolog encoded by the AgWAL1 gene. Here, we studied the role of AgSAC6, encoding a fimbrin in polarized hyphal growth and endocytosis, and based on our functional analysis identified genetic interactions between AgSAC6 and AgWAL1. SAC6 mutants show severely reduced polarized growth. This growth phenotype is temperature dependent and sac6 spores do not germinate at elevated temperatures. Spores germinated at 30 °C generate slow growing mycelia without displaying polarity establishment defects at the hyphal tip. Several phenotypic characteristics of sac6 hyphae resemble those found in wal1 mutants. First, tips of sac6 hyphae shifted to 37 °C swell and produce subapical bulges. Second, actin patches are mislocalized subapically. And third, the rate of endocytotic uptake of the vital dye FM4-64 was reduced. This indicates that actin filament bundling, a conserved function of fimbrins, is required for fast polarized hyphal growth, polarity maintenance, and endocytosis in filamentous fungi.     

Relationship between agitation speed and the morphological characteristics of Verticillium lecanii CS-625 during spore production

Verticillium lecanii is recognized as an entomopathogenic fungus, and has high potential in the biological control of pests. In this study, it was investigated that the relationship between agitation speed in a 2.5 L stirred tank reactor (STR) at 25°C and initial pH 5.5, and the morphological characteristics of V. lecanii CS-625, such as hyphal length/width, spore length/width, and the number of tips during spore production. The agitation speed affected the hyphae patterns and the number of tips. The number of spores rapidly increased at 48 to 60 h of cultivation, and the highest spore productivity (2.5 × 10¹⁰ spore/L·h at 60 h) occurred with an agitation speed of 350 rpm and an aeration rate of 1.0 vvm. The number of tips increased in proportion to the increase in spore production during the same culture time. The highest number of tips (4.8 × 10⁸ tipJ.mL) was obtained at 72 h of cultivation. The shortest mean spore length (2.8 μm) was obtained at 60 h of cultivation. Therefore, it was determined that the increased number of tips and decreased mean spore length were closely related to the production of V. lecanii spores.     

A Ras-like GTPase is involved in hyphal growth guidance in the filamentous fungus Ashbya gossypii

Characteristic features of morphogenesis in filamentous fungi are sustained polar growth at tips of hyphae and frequent initiation of novel growth sites (branches) along the extending hyphae. We have begun to study regulation of this process on the molecular level by using the model fungus Ashbya gossypii. We found that the A. gossypii Ras-like GTPase Rsr1p/Bud1p localizes to the tip region and that it is involved in apical polarization of the actin cytoskeleton, a determinant of growth direction. In the absence of RSR1/BUD1, hyphal growth was severely slowed down due to frequent phases of pausing of growth at the hyphal tip. During pausing events a hyphal tip marker, encoded by the polarisome component AgSPA2, disappeared from the tip as was shown by in vivo time-lapse fluorescence microscopy of green fluorescent protein-labeled AgSpa2p. Reoccurrence of AgSpa2p was required for the resumption of hyphal growth. In the Agrsr1/bud1Delta deletion mutant, resumption of growth occurred at the hyphal tip in a frequently uncoordinated manner to the previous axis of polarity. Additionally, hyphal filaments in the mutant developed aberrant branching sites by mislocalizing AgSpa2p thus distorting hyphal morphology. These results define AgRsr1p/Bud1p as a key regulator of hyphal growth guidance.     

甲霜灵对大豆疫霉野生菌株及突变菌株生长发育影响的细胞学研究

本文利用电子显微镜技术研究了内吸性杀菌剂甲霜灵(Metalaxyl)对大豆疫霉Phytophthoras ojae野生菌株和突变菌株的形态学及超微结构的影响。结果表明:不同浓度甲霜灵处理后可导致野生菌株和突变菌株发生一系列不同的变化。低浓度(1μg/mL)处理后,野生菌株在培养基上的生长即可受到抑制,菌丝呈现不规则的肿胀、过度分枝;菌丝细胞壁不规则加厚,菌丝细胞内液泡增加,脂肪粒累积,细胞器排列紊乱,原生质最终坏死。随浓度的升高,野生菌株立即停止生长,菌丝干瘪坏死。而突变菌株只在高浓度(10μg/mL)甲霜灵处理后顶端菌丝出现少量较小的分枝,菌丝细胞壁无增厚现象,但细胞内脂肪粒大量积累,明显高于敏感性菌株;突变菌株在高浓度甲霜灵压力下仍继续生长。     

A role for endocytic recycling in hyphal growth

Actin plays multiple complex roles in cell growth and cell shape. Recently it was demonstrated that actin patches, which represent sites of endocytosis, are present in a sub-apical collar at growing tips of hyphae and germ tubes of filamentous fungi. It is now clear that this zone of endocytosis is necessary for filamentous growth to proceed. In this review evidence for the role of these endocytic sites in hyphal growth is examined. One possibility if that the role of the sub-apical collar is associated with endocytic recycling of polarized material at the hyphal tip. The 'Apical Recycling Model' accounts for this role and predicts the need for a balance between endocytosis and exocytosis at the hyphal tip to control growth and cell shape. Other cell differentiation events, including appressorium formation and Aspergillus conidiophore development may also be explained by this model.     

Organic and mineral fertilization, respectively, increase and decrease the development of external mycelium of arbuscular mycorrhizal fungi in a long-term field experiment

Effects of long-term mineral fertilization and manuring on the biomass of arbuscular mycorrhizal fungi (AMF) were studied in a field experiment. Mineral fertilization reduced the growth of AMF, as estimated using both measurements of hyphal length and the signature fatty acid 16:1ω5, whereas manuring alone increased the growth of AMF. The results of AMF root colonization followed the same pattern as AMF hyphal length in soil samples, but not AMF spore densities, which increased with increasing mineral and organic fertilization. AMF spore counts and concentration of 16:1ω5 in soil did not correlate positively, suggesting that a significant portion of spores found in soil samples was dead. AMF hyphal length was not correlated with whole cell fatty acid (WCFA) 18:2ω6,9 levels, a biomarker of saprotrophic fungi, indicating that visual measurements of the AMF mycelium were not distorted by erroneous involvement of hyphae of saprotrophs. Our observations indicate that the measurement of WCFAs in soil is a useful research tool for providing information in the characterization of soil microflora.     

The role of flotillin FloA and stomatin StoA in the maintenance of apical sterol-rich membrane domains and polarity in the filamentous fungus Aspergillus nidulans

Apical sterol-rich plasma membrane domains (SRDs), which can be viewed using the sterol-binding fluorescent dye filipin, are gaining attention for their important roles in polarized growth of filamentous fungi. The microdomain scaffolding protein flotillin/reggie and related stomatin were thought to be good candidates involved in the formation of SRDs. Here, we show that the flotillin/reggie orthologue FloA tagged with GFP localized as stable dots along the plasma membrane except hyphal tips. Deletion of floA reduced the growth rate, often resulted in irregularly shaped hyphae and impaired SRDs. In contrast, the stomatin orthologue StoA, tagged with GFP, localized at the cortex of young branch tips and at the subapical cortex in long hyphal tips, and was transported bi-directionally along microtubules on endosomes. Deletion of stoA resulted in irregular hyphal morphology and increased branching especially in young hyphae, but did not obviously affect SRDs. Double deletion of floA and stoA enhanced the defects of growth and hyphal morphology. Our data suggest that the plasma membrane of hyphal tips and in subapical regions are distinct and that FloA is involved in membrane compartmentalization and probably indirectly in SRD maintenance.