The Two Nuclei in the Dikaryon of the Homobasidiomycete Coprinus cinereus Change Position after Each Conjugate Division

We constructed a common-AB diploid strain of Coprinus cinereus and mated this to a compatible haploid strain to construct a diploid-haploid dikaryon. We examined the positions of the diploid and haploid nuclei in the apical and subapical cells of the dikaryon by fluorescence microscopy and microfluorometry. In 60% of apical cells the leading nucleus (the nucleus proximal to the hyphal apex) was diploid and the second nucleus (the nucleus distal to the apex) was haploid, whereas in the remaining 40% of apical cells the order of the two nuclei was reversed. It was also observed that in 97% of hyphae examined the order of the diploid and haploid nuclei was reversed between the apical cell and the subapical cell. Based on these observations, we conclude that the two nuclei alternate in taking the leading and second positions in the apical cell at almost every conjugate division in the dikaryon. Copyright 1998 Academic Press.     

Dynamics of the actin cytoskeleton,hyphal tip growth and the movement of the two nuclei in the dikaryon ofCoprinus cinereus

We first examined the changes in distribution of F-actin during conjugate division in the apical cells of the dikaryon ofCoprinus cinereus using indirect immunofluorescence microscopy, then followed hyphal tip growth and the movement of the two nuclei in the apical cells using differential interference contrast microscopy (DIC). In apical cells with interphase nuclei, F-actin occurred solely as peripheral plaques, which were distributed along the whole length of the cell and were more concentrated at the tips, where they formed caps. In the early prophase of conjugate division, F-actin was transiently concentrated, as diffused form and plaques, at hyphal regions where the two nuclei sit, and this was accompanied by transient disappearance of the actin cap at the hyphal tip in the majority of cells. The actin cap was also present at the tips of growing clamp cells from late prophase through metaphase and disintegrated during anaphase. In telophase, actin rings formed at the future septa. DIC revealed that, in early prophase, when the F-actin array occurs around the two nuclei and the actin cap is absent at hyphal tips, hyphae kept growing and the second nucleus accelerated its forward movement to catch up with the leading nucleus, which was still moving forward.     

Sexual selection in mushroom-forming basidiomycetes

We expect that sexual selection may play an important role in the evolution of mushroom-forming basidiomycete fungi. Although these fungi do not have separate sexes, they do play female and male roles: the acceptance and the donation of a nucleus, respectively. The primary mycelium (monokaryon) of basidiomycete fungi, growing from a germinating sexual spore, is hermaphroditic, but it loses female function upon the acceptance of a second nucleus. The resulting dikaryon with two different nuclei in each cell retains a male potential as both nuclei can fertilize receptive mycelia. We tested the occurrence of sexual selection in the model species of mushroom-forming basidiomycetes, Schizophyllum commune, by pairing monokaryons with fully compatible dikaryons. In most pairings, we found a strong bias for one of the two nuclei although both were compatible with the monokaryon when paired alone. This shows that sexual selection can occur in mushroom-forming basidiomycetes. Since the winning nucleus of a dikaryon occasionally varied depending on the receiving monokaryon, we infer that sexual selection can operate through choosiness of the receiving individual (analogous to female choice). However, in other cases the same nucleus won, irrespective of the receiving monokaryon, suggesting that competition between the two nuclei of the donating mycelium (analogous to male–male competition) might also play a role.     

Involvement of the cytoskeleton in the intracellular distribution of mannoproteins in hyphal cells ofCandida albicans

Cylindrical growth of fungal hyphae requires spatial organization of secretion to the growing tip. In order to better understand the involvement of the cytoskeleton in the spatial control of the secretion, we examined the effects of two anti-cytoskeletal drugs, benomyl and cytochalasin A, on the intracellular distribution of mannoproteins, a major secreted component of the cell wall, in hyphal cells of the dimorphic yeastCandida albicans. The distribution of the mannoproteins was assessed by epifluorescence microscopy with a fluorescence-labelled lentil lectin (FITC-LCA). Brefeldin A, an inhibitor of secretory transport, induced a localized accumulation of the mannopolysaccharides near the tip as previously reported (Akashiet al. 1997). Benomyl, an inhibitor of microtubules, disrupted the localized accumulation of the polysaccharides. Cytochalasin A, an inhibitor of actin, caused a localized accumulation of the polysaccharides near the tip, where Golgi-like cisternae were also accumulated. Both cytochalasin A and brefeldin A caused some modifications of the actinnnetwork, but neither disturbed the polarization of actin and neither affected the microtubule network. Our results suggested that the microtubules are involved in membrane trafficking in hyphal growth as well as the cell polarity of the hyphae.     

Dikaryons of the basidiomycete fungus Schizophyllum commune: evolution in long-term culture

The impact of ploidy on adaptation is a central issue in evolutionary biology. While many eukaryotic organisms exist as diploids, with two sets of gametic genomes residing in the same nucleus, most basidiomycete fungi exist as dikaryons in which the two genomes exist in separate nuclei that are physically paired and that divide in a coordinated manner during hyphal extension. To determine if haploid monokaryotic and dikaryotic mycelia adapt to novel environments under natural selection, we serially transferred replicate populations of each ploidy state on minimal medium for 18 months (approximately 13,000 generations). Dikaryotic mycelia responded to selection with increases in growth rate, while haploid monokaryotic mycelia did not. To determine if the haploid components of the dikaryon adapt reciprocally to one another's presence over time, we recovered the intact haploid components of dikaryotic mycelia at different time points (without meiosis) and mated them with nuclei of different evolutionary histories. We found evidence for coadaptation between nuclei in one dikaryotic line, in which a dominant deleterious mutation in one nucleus was followed by a compensatory mutation in the other nucleus; the mutant nuclei that evolved together had the best overall fitness. In other lines, nuclei had equal or higher fitness when paired with nuclei of other histories, indicating a heterozygote advantage. To determine if genetic exchange occurs between the two nuclei of a dikaryon, we developed a 24-locus genotyping system based on single nucleotide polymorphisms to monitor somatic exchange. We observed genetic exchange and recombination between the nuclei of several different dikaryons, resulting in genotypic variation in these mitotic cell lineages.     

Live-cell imaging of tubulin in the filamentous fungus Magnaporthe grisea treated with anti-microtubule and anti-microfilament agents

Summary. Microtubule dynamics were examined in live cells of the fungal plant pathogen Magnaporthe grisea transformed for constitutive expression of a fusion protein containing enhanced yellow-fluorescent protein and a Neurospora crassa benomyl-resistant allele of β-tubulin. Transformants retained their ability to differentiate appressoria and cause disease but remained sensitive to benomyl. Linear microtubule arrays and low-level cytoplasmic fluorescence were observed in vegetative hyphae, conidia, germ tubes, and developing appressoria. Fluorescence within nuclei was conspicuously absent during interphase but increased rapidly at the onset of mitosis. Treatment with either benomyl or griseofulvin resulted in the appearance of prominent brightly fluorescent aggregates, including a large aggregate near the apex, with the concomitant disappearance of most cytoplasmic microtubules. Electron microscope imaging of treated cells indicated that the aggregates lacked any obvious profiles of intact microtubules. During these treatments, hyphal tip cells continued to elongate in a nonlinear and aerial fashion at a much slower rate than untreated cells. With subsequent removal of griseofulvin, distal aggregates disappeared rapidly but the apical aggregates persisted longer. Treatment with latrunculin A caused hyphal tip swelling without apparent effect on linear microtubule arrays. Simultaneous treatment with griseofulvin and latrunculin A resulted in depolymerization of microtubules and a cessation of growth, but near-apical fluorescent aggregates were not observed. Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1007/s00709-004-0081-3 Correspondence and reprints: Department of Biological Sciences, University of Delaware, Newark, DE 19716, U.S.A. Present address: Paradigm Genetics Inc., Research Triangle Park, North Carolina, U.S.A.     

The cytoplasmic organization of hyphal tip cells in the fungusAllomyces macrogynus

Summary Light and transmission electron microscopy were used to examine hyphal tip cells of the fungusAllomyces macrogynus (Chytridiomycetes). A well defined apical body, i.e., Spitzenkörper, was observed at the extreme apex of hyphal cells. This distinctive, spherical cytoplasmic region consisted of a granular matrix devoid of ribosomes and most organelles. To our knowledge this is the first report describing such a structure in hyphae of an aseptate fungus. Vesicles (45–65 nm diameter) were concentrated in the peripheral cytoplasm of the apex, while relatively few were observed within the Spitzenkörper. Filasomes, spherical patches of dense fibrillar material containing a microvesicle core, were abundant in the apical regions near the plasma membrane. Microtubules traversed the Spitzenkörper at various angles and were in close association with the plasma membrane. Microfilaments were observed as individual elements in the cytoplasm or were organized into bundles. Individual microfilaments were frequently in close association with the plasma membrane, vesicles and microtubules. In the immediate subapical region mitochondria, multivesicular bodies, microbodies, Golgi equivalents and nuclei were abundant.Abbreviations CW cell wall - F filasome - M mitochondria - N nucleus - PM plasma membrane - TEM transmission electron microscopy     

Occurrence of microtubules in the hyphae of Schizophyllum commune during intercellular nuclear migration

Summary During the intercellular nuclear migration of the basidiomycete Schizophyllum commune cytoplasmic microtubules were frequently observed scattered in the hyphae around interphase nuclei and connected with a semiglobular structure at the poles of mitotic and postmitotic nuclei. Thus it seems possible that microtubules, which have been demonstrated to participate in the intracellular nuclear movements in the dikaryotic hyphae of the basidiomycetes, are also involved in the intercellular nuclear movements of these fungi. During hyphal fusion microtubules close to an interphase nucleus were connected with electron-dense structures. It is suggested that these structures are centers for the assembly of microtubules necessary for nuclear movements not associated with nuclear divisions.Abbreviations KCE kinetochore equivalent - ch chromatin - cw cross wall of septum - ge semiglobular end of KCE - gm grey material - m mitochondrion - mp middle plate of KCE - mt microtubules - n nucleus - ne nuclear envelope - nu nucleolus - s electron-dense structure connected with microtubules     

Microtubules around migrating nuclei in conventionally-fixed and freeze-substituted cells

Summary The nucleus in growing hyphal tips of the fungusBasidiobolus moves forward so that it maintains position relative to the cytoplasm yet constantly migrates relative to the lateral cell wall. Quantitative. analysis of the cytoplasmic microtubules surrounding these nuclei showed that their density was uniform along the length of the nuclei and double that either ahead of or behind the nucleus. All microtubules around the nuclei were predominantly short (81% <1m) and only 7% of those lateral to the nuclei came within crossbridging distance of the nuclear envelope. Because microtubules are potentially fixation labile, their characteristics were determined by both conventional fixation and freeze substitution. Both procedures gave similar results but freeze substitution preserved more microtubules ahead of the nucleus and retained twice as many nuclear envelope associated microtubules. These data provide the first quantitative evidence for improved cytoplasmic microtubule and microtubule-membrane preservation by freeze substitution and rule out some functional models for microtubule roles in organelle positioning. We conclude that the elevated microtubule density adjacent to the nuclei increases the tensile strength of the cytoplasm in this region rather than playing a direct role in moving the nucleus forward.     

Nuclear and Non-nuclear Factors influencing Clamp Connection Formation in Coprinus disseminatus

Matings between sister single spore lines of Coprinus disseminatusshowed a cryptic tetrapolar pattern. The two groups of matingsthat resulted in formation of mycelia with clamp connections(apparent dikaryons) differed in rate of nuclear penetrationduring mating. In one group penetration occurred at rates comparablewith nuclear migration in other species and in the other groupit was often extensive but at a rate similar to, or less than,the dikaryon growth-rate. No differences were detected betweenthese two groups in stability, colony extension rate, frequencyof clamp connections, proportions of true clamp connectionsand pseudoclamps, or number of nuclei per hyphal tip cell. Cytological studies and the isolation of hyphal tips showedthat both groups of apparent dikaryons were heterokaryotic di-or trikaryons. The di- and trikaryotic conditions co-existedin the same mycelium, but adjacent cells of individual branchingsystems usually contained equal numbers of nuclei. Within apparentdikaryons the number and kinds of nuclei per cell were similarin hyphae with clamp connections and those with simple septa.Treatments that prevented clamp connection formation did notalter the nuclear status of most of the hyphae. Irregularities in nuclear distribution were infrequent and mostwere associated with pseudoclamps. Forty per cent of nodes withprobable pseudoclamps yielded homokaryotic branches, which wereof either constituent mating type. There was some indicationthat irregularities in nuclear distribution could also occurduring divisions associated with simple septa.     

Antifungal antibiotic of the basidiomyceteOudemansiella mucida

Nuclear ratios were studied in terminal and subterminal cells of various mycelia of the basidiomycete Oudemansiella mucida, the producer of the antifungal antibiotic mucidin (MuciderminR Spofa). The dikaryon, the monokaryon, and the mucidin-producing strain that had been cultivated for a long time under submerged conditions were compared. Dedikaryotization was found to have taken place in the producing strain. The originally dikaryotic culture with characteristic clamp connections on the mycelium and with two nuclei in every hyphal cell lost permanently the clamp connections, probably owing to continuous intense agitation. The hyphae contained solely mononuclear cells. Mating with a compatible monokaryon yielded a dikaryon capable of normal fructification.     

Microtubules Are required for motility and positioning of vesicles and mitochondria in hyphal tip cells of Allomyces macrogynus

We have used video-enhanced light microscopy and digital image processing to characterize the intracellular motility and positioning of vesicles ( approximately 1-microm diameter) and mitochondria in growing hyphal tip cells of Allomyces macrogynus. These observations were coupled with cytoskeletal inhibitory experiments to define the roles of the microtubule and actin cytoskeletons in organelle translocation and positioning. Vesicles and mitochondria were abundant in apical and subapical hypha regions. Vesicles traveled along paths that were parallel to the longitudinal axis of the cell. Anterograde (i.e., toward the hyphal apex) and retrograde (i.e., away from the hyphal apex) movements of vesicles occurred at average rates of 4.0 and 2.2 microm/s, respectively. Bidirectional travel of vesicles along common paths was noted in the cortical cytoplasm. Mitochondria were aligned mostly parallel to the long axis of the hypha, except those extending into the hyphal apex, which were oriented toward the Spitzenk?rper. In regions of the subapical hypha mitochondria were often restricted to the cortical cytoplasm and nuclei occupied the central cytoplasmic region. Mitochondria displayed rapid anterograde movements reaching speeds of 3.0 microm/s, but primarily maintained a constant position relative to either the advancing cytoplasm or the lateral cell wall. Cytoskeletal disruption experiments showed that the positioning of mitochondria and motility of vesicles and mitochondria were microtubule-based and suggested that the actin cytoskeleton played uncertain roles.     

Effects of amino-acid substitutions in β tubulin on benomyl sensitivity and microtubule functions inCoprinus cinereus

The sensitivity of the homobasidiomyceteCoprinus cinereus to the benzimidazole fungicide benomyl allowed us to isolate β-tubulin mutants as strains resistant to benomyl. To understand the molecular basis for the interaction between benomyl and β tubulin and for cellular defects in the β-tubulin mutants, we first analyzed the wild-type β1-tubulin gene (benA) ofC. cinereus, revealing thatbenA contains eight introns and encodes a 445 amino-acid protein. We then characterized 16 β1-tubulin mutants. The 16 mutations involved 11 different amino-acid substitutions at 10 different residues in β1 tubulin. The mutated residues were widely distributed along the primary sequence of β1 tubulin, from residue 3 in the N-terminal domain to residue 350 in the intermediate domain, but half of them appeared to be close to the αβ intradimer interface in an atomic model determined by electron crystallography. The benomyl resistant strain BEN 193, which exhibits clear heat sensitivity for hyphal growth and defects in various cellular processes, had a novel mutation, i.e., the Leu to Phe substitution at residue 350. Benomyl resistance and the heat sensitivity in BEN 193 were suppressed by additional amino-acid substitutions at various residues in β1 tubulin, suggesting that conformational changes of β1 tubulin are involved in the alterations. The DDBJ/GeneBank/EMBL accession number for the sequence reported in this paper is AB000116.     

A Pericentrin-Related Protein Homolog in Aspergillus nidulans Plays Important Roles in Nucleus Positioning and Cell Polarity by Affecting Microtubule Organization

Pericentrin is a large coiled-coil protein in mammalian centrosomes that serves as a multifunctional scaffold for anchoring numerous proteins. Recent studies have linked numerous human disorders with mutated or elevated levels of pericentrin, suggesting unrecognized contributions of pericentrin-related proteins to the development of these disorders. In this study, we characterized AnPcpA, a putative homolog of pericentrin-related protein in the model filamentous fungus Aspergillus nidulans, and found that it is essential for conidial germination and hyphal development. Compared to the hyphal apex localization pattern of calmodulin (CaM), which has been identified as an interactive partner of the pericentrin homolog, GFP-AnPcpA fluorescence dots are associated mainly with nuclei, while the accumulation of CaM at the hyphal apex depends on the function of AnPcpA. In addition, the depletion of AnPcpA by an inducible alcA promoter repression results in severe growth defects and abnormal nuclear segregation. Most interestingly, in mature hyphal cells, knockdown of pericentrin was able to significantly induce changes in cell shape and cytoskeletal remodeling; it resulted in some enlarged compartments with condensed nuclei and anucleate small compartments as well. Moreover, defects in AnPcpA significantly disrupted the microtubule organization and nucleation, suggesting that AnPcpA may affect nucleus positioning by influencing microtubule organization.     

An Alpha Tubulin Mutation Suppresses Nuclear Migration Mutations in Aspergillus Nidulans

Microtubules and cytoplasmic dynein, a microtubule-dependent motor, are required for nuclei to move along the hyphae of filamentous fungi. Nuclear migration in Aspergillus nidulans is blocked by heat-sensitive (hs(-)) mutations in the nudA gene, which encodes dynein heavy chain, and the nudF gene, which encodes a G protein β-subunit-like protein. Hs(-) mutations in the nudC and nudG genes also prevent nuclear migration. We have isolated extragenic suppressor mutations that reverse the hs(-) phenotypes caused by these mutations. Here we show that one nudF suppressor also suppresses hs(-) mutations in nudA, nudC, and nudG and deletions in nudA and nudF. This suppressor mutation is in the tubA alpha tubulin gene, and its characteristics suggest that it destabilizes microtubules. The mutation alters microtubule staining and confers sensitivity to cold and benomyl, two treatments that destabilize microtubules. Treatment with low concentrations of benomyl also suppresses the hs(-) nudA, nudC, nudF, and nudG mutations and the nudA and nudF deletions. Suppression of the hs(-) nudA mutation and the nudA deletion is especially interesting because these strains lack active dynein heavy chain. Together, these results suggest that microtubule destabilization allows nuclei to migrate even in the absence of cytoplasmic dynein motor function.     

Cytological Analysis of Anastomoses and Vegetative Incompatibility Reactions in <Emphasis Type="Italic">Helicobasidium monpa</Emphasis>

Our examination of the cytological characteristics of the vegetative incompatibility reaction in a filamentous basidiomycete, Helicobasidium monpa, by analyzing the fluorescence emitted by ethidium bromide and acridine orange stained nuclei is described. Hyphal anastomoses between strains belonging to different mycelium compatibility groups (MCG) were observed with cell death in fused hyphae, whose nuclei were intensified by ethidium bromide. In contrast, the nuclei in a living cell were not intensified by staining with ethidium bromide, but were intensified by staining with acridine orange. These results indicate that in H. monpa, ethidium bromide staining is a useful method for detecting dead cells. We also examined the relationships between the alternation of ploidy and hyphal anastomosis formation using the newly developed method on filamentous fungi. The tetraploid monokaryon strain derived from the original dikaryon strain by continuous subculture could not be fused to any wild type strains, but the original dikaryon strain could be fused without cell death to only the same MCG strain. In contrast, the haploid dikaryon strain derived from the original monokaryon strain fuses to several strains belonging to different MCGs without cell death. These results suggested that the cellular ploidy of this fungus is closely related to its mating system and, H. monpa may be a self-fertilizing fungus. Received: 13 June 2001 / Accepted: 8 August 2001     

Evidence that actin reinforces the extensible hyphal apex of the oomyceteSaprolegnia ferax

Summary Filamentous actin in the apices of growing hyphae of the oomyceteSaprolegnia ferax is distributed such that it could compensate for weakness in the expanding apical cell wall and thus play a role in morphogenesis of the tip. The tapered extensible portion of the hyphal tip where the cell wall is plastic contains a cap of actin which differs in organization from the actin in subapical, inextensible regions of the hypha. Rapidly growing hyphae which are expected to have a longer plastic cell wall region contain longer actin caps. Furthermore, the weakest point in the hyphal apex, demonstrated by osmotic shock-induced bursting, was within the taper where the wall is plastic but never in the extreme apex where actin was most densely packed and presumably the strongest. Treatment of hyphae with cytochalasin E/dimethyl sulphoxide induced rapid changes in actin caps. Cap disruption was accompanied by transient growth rate increases, subsequent rounding and swelling of apices and a shift of osmotically induced burst points closer to the apex. These correlated changes are consistent with a role for the actin cap in tip morphogenesis. The association between regions of plasticity in the apical cell wall, the extent of the actin cap, the location of the weakest point in the apex and the effects of damage to the actin cap suggest that the cap functions to support the apex in regions where the cell wall is weak.Abbrevations CE cytochalasin E - DMSO dimethyl sulphoxide - RP rhodamine phalloidin Dedicated to the memory of Professor Oswald Kiermayer     

Cytoplasmic Bulk Flow Propels Nuclei in Mature Hyphae of Neurospora crassa

We used confocal microscopy to evaluate nuclear dynamics in mature, growing hyphae of Neurospora crassa whose nuclei expressed histone H1-tagged green fluorescent protein (GFP). In addition to the H1-GFP wild-type (WT) strain, we examined nuclear displacement (passive transport) in four mutants deficient in microtubule-related motor proteins (ro-1, ro-3, kin-1, and a ro-1 kin-1 double mutant). We also treated the WT strain with benomyl and cytochalasin A to disrupt microtubules and actin microfilaments, respectively. We found that the degree of nuclear displacement in the subapical regions of all strains correlated with hyphal elongation rate. The WT strain and that the ro-1 kin-1 double mutant showed the highest correlation between nuclear movement and hyphal elongation. Although most nuclei seemed to move forward passively, presumably carried by the cytoplasmic bulk flow, a small proportion of the movement detected was either retrograde or accelerated anterograde. The absence of a specific microtubule motor in the mutants ro-1, ro-3, or kin-1 did not prevent the anterograde and retrograde migration of nuclei; however, in the ro-1 kin-1 double mutant retrograde migration was absent. In the WT strain, almost all nuclei were elongated, whereas in all other strains a majority of nuclei were nearly spherical. With only one exception, a sizable exclusion zone was maintained between the apex and the leading nucleus. The ro-1 mutant showed the largest nucleus exclusion zone; only the treatment with cytochalasin A abolished the exclusion zone. In conclusion, the movement and distribution of nuclei in mature hyphae appear to be determined by a combination of forces, with cytoplasmic bulk flow being a major determinant. Motor proteins probably play an active role in powering the retrograde or accelerated anterograde migrations of nuclei and may also contribute to passive anterograde displacement by binding nuclei to microtubules.Organelle movement and positioning are important aspects of cell growth and differentiation (19, 20, 27, 35). Movement and positioning of nuclei are especially important because of their implications in mitotic divisions during hyphal growth and asexual sporulation (conidiation), as well as fertilization events leading to meiosis and ascospore formation during sexual development (1, 3, 33). In yeast, nuclei move comparatively short distances (20, 32), whereas in filamentous fungi nuclei are typically transported over long distances within hyphae (1, 34, 35).Movement of nuclei in fungal cells may be either an active or a passive process. Early studies of filamentous fungi showed nuclei uniformly distributed along the entire hypha; they appeared to move with the growing hyphal apex, keeping a more or less constant distance from the cell tip. Such evidence pointed to passive displacement of nuclei by cytoplasmic bulk flow (10-12, 24), a role confirmed in our recent study on the dynamics of the microtubular cytoskeleton (28) and supported by studies with injected lipid droplets (17). Upon the discovery of motor proteins and their role in nuclear migration and positioning in filamentous fungi, attention was primarily focused on the participation of motors in nuclear events, including the movement of nuclei during hyphal extension (15, 25, 26, 29, 37), while the role of cytoplasmic bulk flow was largely discounted or disregarded.Whereas much effort has been directed toward the characterization of the components involved in motor-driven nuclear transport, the relative importance of passive nuclear propulsion has remained an open question. For the purpose of distinguishing clearly between active migration and passive displacement, we will consider “migration” to mean an active, motor-dependent process, while “displacement” will refer to passive transport of nuclei within the hypha. “Movement” refers either to active or passive transport of nuclei through hyphae. Here, we used strains of Neurospora crassa whose nuclei were tagged with green fluorescent protein (GFP) to examine the dynamics and distribution of nuclei in growing hyphae. In addition to evaluating nuclear movement in a wild-type (WT) strain, we examined the dynamics of nuclear movement in mutants defective in microtubule-related motor proteins: a ro-1 mutant for its deficiency in the heavy chain of dynein, a ro-3 mutant deficient in the dynactin p150^glued subunit, a kin-1 mutant deficient in conventional kinesin, and a ro-1 kin-1 a dynein-kinesin double mutant. We also tested the effect of drugs that inhibit specifically microtubules and actin microfilaments. Our study demonstrates that passive displacement plays a major role in nuclear dynamics in growing hyphae of N. crassa.     

Kinesin-13 regulates the quantity and quality of tubulin inside cilia

Kinesin-13, an end depolymerizer of cytoplasmic and spindle microtubules, also affects the length of cilia. However, in different models, depletion of kinesin-13 either lengthens or shortens cilia, and therefore the exact function of kinesin-13 in cilia remains unclear. We generated null mutations of all kinesin-13 paralogues in the ciliate Tetrahymena. One of the paralogues, Kin13Ap, localizes to the nuclei and is essential for nuclear divisions. The remaining two paralogues, Kin13Bp and Kin13Cp, localize to the cell body and inside assembling cilia. Loss of both Kin13Bp and Kin13Cp resulted in slow cell multiplication and motility, overgrowth of cell body microtubules, shortening of cilia, and synthetic lethality with either paclitaxel or a deletion of MEC-17/ATAT1, the α-tubulin acetyltransferase. The mutant cilia assembled slowly and contained abnormal tubulin, characterized by altered posttranslational modifications and hypersensitivity to paclitaxel. The mutant cilia beat slowly and axonemes showed reduced velocity of microtubule sliding. Thus kinesin-13 positively regulates the axoneme length, influences the properties of ciliary tubulin, and likely indirectly, through its effects on the axonemal microtubules, affects the ciliary dynein-dependent motility.     

The tubulin cytoskeleton and its sites of nucleation in hyphal tips ofAllomyces macrogynus

Summary The tubulin cytoskeleton in hyphal tip cells ofAllomyces macrogynus was detected with an -tubulin monoclonal antibody and analyzed with microscopic and immunoblot techniques. The -tubulin antibody identified a 52 kilodalton polypeptide band on immunoblots. Immunfluorescence data were collected from formaldehyde-and cryofixed hyphae. Both methods provided similar images of tubulin localization. However, cryofixation yielded more consistent labeling and did not require detergent extraction or cell-wall lytic treatments. Tubulin was primarily localized as microtubules observed in the peripheral and central cytoplasmic regions and in mitotic spindles. Cytoplasmic microtubules were oriented parallel to the cells' longitudinal axis, with central microtubules more often varied in their alignment, and emanated from a region in the hyphal apex resulting in an apical zone of bright fluorescence. A thin layer of microtubules appearing as bands of fluorescence encircled many nuclei. Discrete spots of fluorescence were also associated with nuclei. The MPM-2 antibody, which recognizes phosphorylated epitopes of several proteins that may be involved in the regulation of microtubule nucleation, stained centrosomes but not apical regions of hyphae. Nocodazole was used to depolymerize the microtubule network and reveal its regions of origin. A hocodazole concentration of 0.01 g/ ml (3.3× 10^–8M) provided a 70 to 75% inhibition of hyphal tip growth and was used throughout this study. The number of cells having an apical zone of fluorescence declined by 15 min of exposure. This zone was present in only a few cells after 60 min. After 30 min, the central cytoplasm consisted of small microtubule fragments and nuclear-associated spots. A small number of peripheral microtubules and nuclear-associated spots persisted throughout nocodazole treatments. Spindle microtubules were restored by 30 min after removal of nocodazole. This was followed by the reappearance of the apical zone of fluorescence and then by central and peripheral cytoplasmic microtubules. Apical fluorescence coincided with the presence of a Spitzenkörper. The results suggest that the Spitzenkörper and centrosome function as centers of microtubule nucleation and organization during hyphal tip growth in this fungus.Abbreviations BSA bovine serum albumin - DAPI 4,6-diamidino-2-phenylindole - DMSO dimethylsulfoxide - FITC fluorescein isothiocyanate - IB incubation buffer - LN₂ liquid nitrogen - LSCM laser scanning confocal microscopy - MTOCs microtubule-organizing centers - PBS phosphate buffered saline - PIPES 1,4-piperazinedietha-nesulfonic acid - PFB PIPES fixation buffer - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - SPB spindle pole body - TEM transmission electron microscopy - YpSs yeast extract-inorganic phosphate-soluble starch