Estudos estruturais com a importina-α do fungo Neurospora crassa e sequências de localização nuclear /

Bernardes, Natália Elisa.

January 2014

Orientador: Marcos Roberto de mattos Fontes / Coorientador: Agnes Alessandra Sekijima Takeda / Banca: Maria Célia Bertollini / Banca: João Renato Carvalho Muniz / Resumo: Um dos mecanismos de transporte de macromoléculas do citoplasma para o núcleo celular ocorre através da passagem da macromolécula pelo complexo poro nuclear (CPN), presente no envoltório nuclear, e depende de proteínas transportadoras denominadas Importinas. Neste processo, conhecido como via clássica de importação nuclear, a proteína Importina-α (Impα) reconhece sequências de localização nuclear (NLSs) na proteína a ser transportada para a formação de um complexo junto a Importina-β (Impβ) permitindo o transporte da macromolécula. O objetivo do presente trabalho é o estudo estrutural da Impα proveniente do fungo filamentoso Neurospora crassa (ImpαNc), a fim de reconhecer as regiões que determinam especificidades da proteína, além de comparar seu comportamento nativo e na presença de um peptídeo NLS. Os primeiros experimentos com a ImpαNc permitiram uma caracterização inicial da proteína e seu comportamento em solução. Experimentos de cromatografia analítica de exclusão molecular, comparando duas amostras de ImpαNc: (1) na presença do peptídeo NLS da proteína FEN1 (FEN1 NLS) e (2) sem peptídeo NLS, indicaram a formação de aglomerados na amostra 2 e a conformação, predominantemente, monomodal na amostra 1, sugerindo uma maior estabilidade da proteína na presença de peptídeos NLS. Para aprofundar as informações sobre a ImpαNc, experimentos de cristalização foram conduzidos com a proteína complexada ao peptídeo de NLS clássica e monopartida do SV40 (SV40 NLS), conforme experimentos anteriores sugeriram a maior estabilidade da proteína na presença de NLSs. Um primeiro cristal (ImpαNc-1), obtido na condição 0,2mM fosfato de sódio dibásico dihidratado e 20% (w/v) de polietilenoglicol 3350, foi submetido á difração de raios X e apresentou padrão de difração satisfatório para elucidação da estrutura do complexo a uma resolução de 2,05 Å. Um segundo cristal (ImpαNc-2), obtido na ... / Abstract: The transport of macromolecules from the cytoplasm to the nucleus occurs by passage through the nuclear pore complex, present in the nuclear envelope. One of that nuclear transport pathway depends on carrier proteins called Importins. In this process, known as classical nuclear import pathway, the Importin-α protein (Impα) recognizes nuclear localization sequences (NLSs) in the protein to be transported to the formation of a complex with Importin-β (Impβ) allowing the transport of macromolecules. The aim of this work is the structural study of the protein Importin-α, from the filamentous fungus Neurospora crassa (ImpαNc) in order to recognize the regions that determine the specificity of the protein and to compare their behavior in its native state and in presence of a NLS peptide. The first experiments with ImpαNc allowed an initial characterization of the protein and its behavior in solution. Experiments of analytical size exclusion chromatography comparing two samples of Impα: (1) in the presence of the NLS peptide of the protein FEN1 ( FEN1 NLS) and, (2) without NLS peptide; indicated the formation of agglomerates in the sample 2 and the conformation predominantly monomodal, in the sample 1, suggesting a greater stability of the protein in the presence of NLS peptides. For further information about the ImpαNc, crystallization experiments were carried out with the peptide complexed to the classic NLS SV40 (SV40 NLS) protein as previous experiments have suggested the increased stability of the protein in the presence of NLSs. A first crystal obtained in the condition 0.2mM dibasic sodium phosphate dihydrate and 20% (w / v) polyethylene glycol 3350 were subjected to xray diffraction and showed satisfactory diffraction pattern for the elucidation of the structure of the complex at a resolution of 2.05 Å. A second crystal (ImpαNc-2) obtained under the condition of 0.2 mM bicine pH 8.5 and 20% PEG 6000, was subjected to x-ray ... / Mestre

Neurospora crassa.

Peptídeos.

Análise cromatográfica.

Proteinas - Pesquisa.

Cristalografia.

Neurospora crassa.

Peptides.

Characterization of Neurospora crassa and Fusarium graminearum mutants defective in repeat-induced point mutation

Pomraning, Kyle R.

10 December 2014

Mutation of repetitive DNA by repeat-induced point mutation (RIP) is a process that occurs in many filamentous fungi of the Ascomycota during the sexual cycle. Concurrently, direct DNA repeats are often deleted by homologous recombination at high frequency during the sexual cycle. Thus, the processes of RIP and deletion compete to either mutate or remove repetitive DNA from the genome of filamentous fungi during sexual cycles. Both processes contribute to genome streamlining by controlling proliferation of transposable elements and by limiting expansion of gene families. While the genetic requirements for deletion by homologous recombination are well known, the mechanism behind the specific detection and mutation of repetitive DNA by RIP has yet to be elucidated as only a single gene essential for RIP, rid, has been identified. We have developed Fusarium graminearum as a model organism for the study of RIP by showing that it mutates repetitive DNA frequently during the sexual cycle and that the mutations due to RIP are dependent on rid. Further, we have sequenced a genetic mapping strain of F. graminearum (00-676-2) and identified 62,310 single nucleotide polymorphisms (SNPs) compared to the reference strain (PH-1). The SNP map will be useful for quickly mapping new mutants by bulk segregant analysis and high-throughput sequencing for which bioinformatic tools were specifically developed. The groundwork has thus been laid for identification of novel RIP mutants in F. graminearum, which being homothallic has a major advantage for identification of recessive mutations. We used a forward genetics approach to shed light on the mechanism of RIP in Neurospora crassa. Two rrr mutants that dominantly r��educe R��IP and r��ecombination were characterized and identified as different mutated alleles of the same gene, rrr-1[superscript L496P] and rrr-1[superscript G325N] by bulk segregant analysis and high-throughput sequencing. Bioinformatic characterization suggests RRR-1 belongs to a previously uncharacterized group of dynamin-like proteins, which are generally involved in membrane fission and fusion. RRR-1-GFP localizes to the nuclear membrane, but not DNA, suggesting it affects RIP and recombination frequency indirectly by altering nuclear membrane dynamics during sexual development and thereby altering temporal aspects of RIP and recombination. We used a reverse genetics approach to determine whether high frequency RIP and homologous recombination of repetitive DNA during the sexual cycle are linked mechanistically or spatio-temporally. We tested strains where genes important for deletion by homologous recombination were knocked out and found all to be completely RIP competent except mre11, which, while sterile in homozygous deletion crosses, displayed lower RIP frequency in heterozygous crosses. This suggests that mre11 has roles in homologous recombination as well as non-homologous end joining may be important for RIP. Collectively, this work developed methods for efficiently mapping mutations and identified a novel protein that reduces RIP and recombination frequency but did not identify any mechanistic link between the two processes. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from Dec. 10, 2012 - Dec. 10, 2014

repeat-induced point mutation

RIP

Neurospora crassa

Neurospora crassa -- Molecular genetics

Fusarium -- Molecular genetics

Mutation (Biology)

Nuclear Behaviour In Heterokaryons : Genetic And Molecular Analysis Of (his-3+ his-3+) Heterokaryons Of Neurospora Crassa

Pitchairnani, K

06 1900

In contrast to plant and animal cells, the fungal cells are multinucleate. A consequence of their multinucleate condition is heterokaryosis — the occurrence of genetically different nuclei in a common cytoplasm. In nature this condition occurs because of spontaneous mutations in the haploid nuclei in the coenocytic mycelium. Inspite of heterokaryosis being a fundamental aspect of fungal biology, the behaviour and dynamics of nuclei in fungal mycelium are little understood. This study was prompted by the following questions: (1) Why does a fungus need so many nuclei? (2) Are they all active simultaneously? (3) Does the proportion of the different nuclear types in fungal mycelium alter in response to change in conditions of growth? (4) Is the activity of an enzyme related to the dose of nuclei containing the encoding gene? Experimental approach. The approach taken was to generate heterokaryons in which one of the nuclear types carries a mutant allele for a specific enzyme while the other nuclear type carries the functional allele, introduced by transformation. Because in filamentous fungi, the transforming DNA commonly integrates randomly into the chromosomal DNA, the transformants would be genetic 'variants' in which the ratios of transformed to non-transformed nuclei might be controlled differently. The transformants could thus be useful in investigating the relationship between the frequency of transformed nuclei and the activity of encoded enzyme. In addition the transformants might be useful for studying nuclear behaviour. The availability of developmental information, genetic and molecular methodology, and biochemical mutant in Neurospora crassa made this fungus a material of choice for this investigation. Strain construction. A histidinol dehydrogenase (his-3) mutant strain was used into which an albino colour marker and a biochemical marker, inositoL were introduced by crossing. The latter two markers served as check against possible laboratory contamination. In addition, a gene mem, was introduced into the strain. In the mem genetic background, the strain has a wild-type morphology on agar medium but when grown in liquid shake culture it produces uninucleate microconidia that are useful in estimating nuclear ratio. Protoplasts of a constructed strain (his-3 al-1; mem; inl) were transformed with a plasmid containing the wild-type his-3 allele, thereby converting the original strain into a heterokaryotic strain having a mixture of transformed (his-3+t) and untransformed (his-3) nuclei. [The superscript +/ is used here to denote an his~3+ allele ectopically introduced by transformation]. Integration of plasmid DNA sequence in three selected transformants, 2T5, 3T3 and 4T12, was confirmed by genomic Southern analysis using the vector DNA as probe. The exponential growth rate of all three transformants was similar (~0.08mgh"1). Nuclear ratio. Assuming a uniform distribution of nuclei in mycelium, and a correspondence between nuclear ratio in mycelium and conidia, the ratio his-3* {: his-3 was estimated by plating microconidia. In transformant 3T3, the nuclear ratio was 7:1. In 2T5, all nuclei were his-3n. Transformant 4T12 did not produce microconidia. The nuclear ratio in this transformant was therefore estimated by macroconidial plating and found to be 1:5, in favour of his-3 nuclei. Behaviour of transformants in vegetative and sexual phase. Although the transformants had originally been selected for the expression of his-3+T gene, a majority of macroconidia produced in cultures of 3T3 and 2T5 required histidine to trigger their germination. This condition, referred to as cphenotypic lag', led to a gross underestimation of the proportion of prototrophic macroconidia by the direct plating method and biased the estimation of nuclear ratios. Therefore nuclear ratio was estimated by first germinating macroconidia on histidine supplemented medium before testing colonies in histidine dropout slants and comparing the numbers of auxotrophic and prototrophic mycelia. Phenotypic lag was not observed in 4T12. The variation in the degree of expression of phenotypic lag among the transformants was ascribed to transgene position effect. The transformants differed also in meiotic instability of the transforming DNA — the transforming DNA in 3T3 was passed through unchanged but it was deleted or modified in4T12and2T5. Experimental alteration of nuclear ratio. The transformants differed with respect to the self-adjusted ratio of transformed to non-transformed nuclei and also to the degree to which their nuclear ratio could be altered by nutritional manipulation of the growth medium, i.e., by growing the transformants in the presence or absence of histidine in the medium. In 3T3, the proportion of his-3+t nuclei progressively decreased by 3.5-fold in the sixth subculture on histidine medium. The change in 4T12 was even more striking: in the sixth serial subculture, the proportion of his-3+t nuclei decreased from 17-20% to -0.05%.However, when it was propagated again in medium that lacked histidine, the frequency of his-3+t nuclei was immediately restored to original level (-17%). That drastic alterations in nuclear ratio occurred upon nutritional manipulation was verified by Southern analysis. The intensity of signal specific for transformed DNA (nuclei) in cultures grown without histidine supplement was strong, but barely detectable in cultures grown with histidine. The signal reappeared when 4T12 was propagated in medium lacking histidine. Histidine induced change in nuclear ratio in 4T12 was further confirmed by three tests: (i) inoculum test using conidia, (ii) hyphal tip analysis, and (iii) genetic test using colour markers. Nuclear ratio and enzyme activity. Because in 4T12 changes in nuclear ratio could be manipulated, this transformant was used to investigate whether the proportion of his-3+t nuclei is correlated with the levels of encoded enzyme, histidinol dehydrogenase. Surprisingly, the specific activity of histidinol dehydrogenase was the same regardless of the percentage of his-3+t nuclei. This observation suggested that the physiological demand of a metabolite may be satisfied with only a few nuclei carrying the relevant gene. Or in other words the majority of nuclei in the coenocytic mycelium may, perhaps, not be active simultaneously. Silencing of transforming DNA in nuclei. Two experiments were done to test the possibility that in a majority of nuclei, the transforming DNA is selectively silenced by methylation of cytosine: (1) Southern analysis of chromosomal DNA digested with isoschizomers, and (2) Reactivation by growth of transformants in presence of 5-azacytidine, an inhibitor of methylation. The results suggested that a majority of transformed nuclei may, perhaps, be inactive. The results of Northern analysis suggested that the amount of his-3+t transcript was correlated (but 5-azacytidine experiment indicated that only few his-3+t nuclei may be active) with the proportion of his-3+t nuclei, but not histidinol dehydrogenase activity. The above results suggested that expression of his-3+t gene was controlled both at the levels of transcription and posttranscription. Nuclear selection. To study competition between nuclei containing mutant (his-3) nuclei and prototrophic nuclei containing his-3+ gene at its normal chromosomal location or at the ectopic location, heterokaryons were synthesized using strains in which the nuclear types had been marked by non-allelic genetic colour markers, al-1 and al-2. The results suggested that in heteronuclear mixture, the replication rate of the transformed nuclei is affected as compared to the nuclei having the gene in normal chromosomal location. Major contributions. This study generated (his-3 + his-3+) heterokaryons by transformation. The behaviour of transformants differed in some respects both in the vegetative and sexual phases. It was demonstrated that nuclear ratio could be experimentally altered. However, there was no correlation between nuclear ratio and enzyme activity. The observations imply asynchronous division rate among nuclei and raise the possibility that not all nuclei in the coenocytic mycelium are active simultaneously.

Botany

Neurospora Crassa

Pasmid DNA

Neurospora Heterokaryons

Histidinol Dehydrogenasa

Histidine Transformants

Produção de aroma frutal por linhagens de Neurospora sp em meios sintéticos e resíduos agroindustriais / Production of frutal aroma by strains of Neurospora sp in synthetic medium and agro-industrial residues

Carvalho, Daniele Souza de

18 August 2018

Orientador: Gláucia Maria Pastore / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos / Made available in DSpace on 2018-08-18T17:42:11Z (GMT). No. of bitstreams: 1 Carvalho_DanieleSouzade_D.pdf: 1437090 bytes, checksum: 0180b2360e22ff70ee43cdb53897997b (MD5) Previous issue date: 2011 / Resumo: A produção de compostos de aroma por via biotecnológica é um campo emergente pois diferentemente da tradicional síntese química, os compostos produzidos por micro-organismos são classificados como naturais, indo de encontro à busca dos consumidores por alimentos saudáveis, isentos de aditivos sintéticos. O gênero Neurospora, pertencente a um grupo de fungos filamentosos, é relatado como produtor de hexanoato de etila, um éster caracterizado por possuir intenso um aroma frutal amplamente utilizado na indústria de alimentos. A produção deste aroma por via biotecnológica apresenta ainda alguns entraves, relacionados principalmente ao custo de produção e extração, que podem ser minimizados com o uso de resíduos agroindustriais, diminuindo assim, os custos da etapa fermentativa e tornando-o factível. Considerando que a produção de hexanoato de etila por via biotecnológica é pouco explorada e poucas publicações podem ser encontradas, os objetivos desta tese de doutorado compreenderam o isolamento e seleção de linhagens de Neurospora potencialmente produtoras de hexanoato de etila, em diferentes meio de cultura. Observou-se que o melhor meio sintético foi constituído de 5% extrato de malte e a maior concentração de éster obtida foi mediada pela linhagem Neurospora sitophila GFSC1135. A partir desses resultados foi realizada a otimização do processo de produção de hexanoato de etila visando maior rendimento para possíveis aplicações industriais. Utilizando delineamento composto central rotacional onde os parâmetros otimizados foram: temperatura, agitação, concentração de óleo de soja e inoculo, observou-se um incremento na produção cerca de cinco vezes (45mg.L-1) quando comparado com o primeiro estudo (8mg.L-1). Para os dois métodos de preparo de amostra, extração líquido-líquido e microextração em fase sólida, alguns parâmetros de validação foram determinados visando segurança analítica e credibilidade aos resultados, já que as matrizes são muito complexas. Também foi realizada a otimização do método de extração de hexanoato de etila do meio fermentativo, empregando a técnica de microextração em fase sólida (SPME). Dessa forma, pode-se observar os compostos produzidos pelo micro-organismo, os quais poderiam ser mascarados pelo pico do solvente, quando utilizada a técnica de extração líquido-líquido. Além disso, muitas vezes a concentração dos compostos produzidos é baixa, necessitando de uma técnica mais sensível. De forma semelhante ao realizado com meios sintéticos, a seleção de linhagens foi realizada utilizando resíduos agroindustriais como substrato (manipueira e bagaço de malte), visando minimizar custos relacionados ao meio de cultura, agregar valor ao produto final e suavizar o impacto ambiental gerado por esses resíduos. Comparando-se os resultados obtidos entre o bagaço e o extrato de malte, observou-se que não houve diferença estatística na produção de hexanoato de etila, ficando esta em torno de 45 mg.L-1. Os resultados obtidos mostraram-se promissores, tendo em vista a produção biotecnológica de hexanoato de etila, um éster de aroma impactante e elevado valor agregado, abrindo precedentes aos estudos de elevação da escala de produção e futura aplicação industrial / Abstract: The biotechnological production of aroma compounds is an emerging field and it was stimulated by the increasing preference of alienated consumers for products bearing the label ''natural¿¿. The genus Neurospora belongs to a group of fungus filamentosus, is reported as a producer of ethyl hexanoate and it is characterized by having strong fruity aroma is much used in food industry. The production of this flavor by biotechnological process also presents some difficulties, mainly related to the cost of production and extraction, which can be minimized with the use of agro-industrial waste, reducing costs and making feasible fermentation step. Considering the production of ethyl hexanoate by means of biotechnological processes is rarely explored and few papers can be found, the aims of this research included the isolation and selection of strains of Neurospora potentially producing ethyl hexanoate in different culture media. Observed the best synthetic medium consisted of malt 5% extract and the highest concentration produced by strain Neurospora sitophila GFSC1135. Then the optimization of the production of ethyl hexanoate was carried out in order to increase production to possible industrial applications. Using central composite rotational design where the optimized parameters were temperature, agitation, concentration of soybean oil and inoculum, there was an increase in production about five times (45mg.L-1) compared to the first study (8mg.L -1). For both methods of sample preparation, liquid-liquid extraction and solid phase microextraction, some validation parameters were determined with security and reliability to analytical results, since the matrices are very complex. Was also performed to optimize the extraction method of ethyl hexanoate fermentation media, employing the technique of solid phase microextraction (SPME), because that way, could be observed the compounds produced by microorganism, which could be masked the peak of the solvent, when used the technique of liquid-liquid extraction. In addition, many times the concentration of the compounds produced is low, requiring a more sensitive technique. Likewise, strain selection was accomplished using as substrate (cassava wastewater and bagasse malt) in order to minimize costs related to the culture medium, to add-value to the final product and minimize the environmental impact generated by these agroindustrial residues. Comparing the results between the bagasse and malt extract, it was observed that there was no statistical difference in the production of ethyl hexanoate, it being around 45 mg.L-1.The results were promising of the biotechnological production of ethyl hexanoate, ester of a fruit aroma and high value added, opening previous studies of increased scale of production and its creating opportunity for the industry / Doutorado / Ciência de Alimentos / Doutor em Ciência de Alimentos

Neurospora

Hexanoato de etila

Residuos agroindustriais

Extratos de malte

Neurospora

Ethyl hexanoate

Agroindustrial residues

Malt extract

Proteomic Analysis of Neurospora crassa Using the Non-Preferred Carbon Source Acetic Acid

Florio, Vincenzo J.

04 October 2011

No description available.

Biology

Molecular Biology

Neurospora crassa

Carbon source

Acetic acid

Proteomics

Neurospora

Studies on the centromere-specific histone, CenH3, of Neurospora crassa and related ascomycetes

Phatale, Pallavi A.

10 December 2012

In eukaryotes, the defined loci on each chromosome, the centromeres, accomplish the critical task of correct cell division. In some organisms, centromeres are composed of a euchromatic central core region embedded in a stretch of heterochromatin and the inheritance and maintenance of centromeres are controlled by dynamic epigenetic phenomena. Although the size of centromeres differs between organisms, its organization, and the placement of euchromatic and heterochromatic regions is conserved from the fission yeast, Schizosaccharomyces pombe, to humans, Homo sapiens. However, relatively little is known about centromeres in the filamentous fungi from the Ascomycota, representing the largest group of fungi and fungal pathogens. Further, studies from humans, flies, yeast and plants have shown that the inheritance of centromeres is not strictly guided by centromeric DNA content, which is highly AT-rich, repetitive and constantly evolving. Therefore, it is difficult to align ans assemble the sequenced contigs of centromeric regions of higher eukaryotes, including most filamentous fungi. A genetic technique, tetrad (or octad) analysis has helped to map the centromeres of the filamentous fungus Neurospora crassa early on. The research presented in this dissertation used N. crassa as a model to focus on characterizing different features of centromeres with an emphasis on the centromere-specific histone H3 (CenH3) protein. Data included here represent the first study on centromere-specific proteins in Neurospora, and demonstrate that the central core of the centromeres are heterochromatic, showing enrichment of silent histone marks, which is in contrast to the centromere arrangement in fission yeast. The CenH3 protein, whose deposition on the genome licenses formation or maintenance of centromeres, shows highly divergent N-terminal regions and a conserved histone fold domain (HFD) in all eukaryotes. This bipartite nature of CenH3 is also observed in the Ascomycota, which provides an opportunity for functional complementation assays by replacing Neurospora CenH3 (NcCenH3) with CenH3 genes from other species within the Ascomycota. The results from this experimental approach provide good measures for (1) determining the specific regions of CenH3 required for the assembly of centromeres during meiotic and mitotic cell divisions and (2) analyzing the resistance to changes in the organization of centromeres in N. crassa. The genetic analysis showed that the divergent N-terminal region is essential for the proper assembly of centromeres, and that the conserved carboxy-terminus of CenH3 is important for the process of meiosis but not mitotic cell division. ChIP-seq analyses suggest that the observed loss of Podospora anserina CenH3 (PaCenH3- GFP) from certain N. crassa centromeres does not result in obvious phenotypic defects, e.g. diminished growth or evidence for aneuploidy. Further, the low enrichment of PaCenH3-GFP at certain centromeres is possibly predetermined during meiosis, which results in irreversible and progressive decreases in enrichment. It remains to be determined if this process is random as far as selection of centromeres is concerned. Together the results presented here suggest that during meiosis more stringent structural requirements for centromere assembly apply and that these are dependent on CenH3, and that depletion of CenH3 from centromeres does not critically affect mitosis in the asynchronously dividing nuclei of Neurospora hyphae. / Graduation date: 2013

histone

centromere

fungi

neurospora

heterochormatin

Neurospora crassa -- Molecular genetics

Histones

Heterochromatin

Centromere

The Role of Actin in Hyphal Tip Growth

Suei, Sandy H.Y.

January 2008

This thesis investigates whether there are alternative mechanisms of tip growth in invasive and non-invasive hyphae of the fungus Neurospora crassa. The cytoskeleton protein actin is thought to play a pivotal role in hyphal tip growth, performing a multitude of tasks, one of which may be the provision of a resistive force to counter turgor pressure. An Actin depleted zone (ADZ) was the dominant feature of invasive hyphal tips, which was largely absent from non-invasive hyphae. The Spitzenkörper was slightly larger in invasive hyphae but this size difference alone was thought insufficient to account for the exclusion of filamentous actin (F-actin) from the tip. The actin nucleating protein formin was found at sites where actin nucleation is occurring, while cofilin, a protein that severs F-actin, was found to localise where F-actin disassembly was likely to be occurring. It is suggested that these proteins are likely to play a role in controlling a dynamic cytoskeleton, rearrangements of which are required for the two modes of growth. Invasive hyphae were found to generate a higher turgor than non-invasive hyphae. These results suggest that the F-actin rearrangements facilitated by cofilin give an ADZ that may play a role in invasive hyphal tip growth; possibly through a reduction of tip resistance; thus enabling the provision of a greater protrusive force by turgor.

Ca²⁺ signalling and homeostasis during colony initiation in Neurospora crassa

Chu, Meiling

January 2013

Calcium is a highly versatile intracellular signal molecule that can regulate numerous different cellular functions. In filamentous fungi there is evidence for it being involved in regulating various processes, including spore germination, hyphal tip growth, hyphal branching and conidiation. During colony initiation in the filamentous fungus Neurospora crassa, conidia form germ tubes which are involved in colony establishment, and conidial anastomosis tubes (CATs) which are involved in generating fused networks of conidial germlings. The primary research aim of this thesis was to analyze the role of Ca2+-signalling and homeostasis during colony initiation in N. crassa. Removal of Ca2+ from the growth medium showed that external Ca2+ was necessary for CAT fusion and, more specifically, was required for CAT chemoattraction. Two L-type Ca2+ channel blockers (verapamil and diltiazem) with different modes of action were found to inhibit both conidial germination and CAT fusion in wild type strains and CAT fusion was shown to be more sensitive to these two drugs. These channel blockers were additionally found to inhibit Ca2+ uptake by conidial germlings of the wild type expressing the aequorin Ca2+ reporter. However, the channel blockers also, unexpectedly, raised the cytosolic free Ca2+ ([Ca2+]c) resting level in these germlings suggesting that they did not just inhibit L-type Ca2+ activity. The morphological phenotypes (conidial germination, hyphal extension rate, conidiation and hyphal branching) of 22 mutants defective in different components of their Ca2+-signalling and homeostasis machinery were characterized in order to identify their possible roles of Ca2+ during colony initiation and development. The ∆cch-1 mutant lacking the CCH-1 L-type Ca2+ channel gene exhibited a reduction in CAT fusion. CAT fusion was decreased even further in a double mutant (∆cch-1∆mid-1) suggesting that that the CCH-1 and MID-1 proteins operate in combination during this process. Increased extracellular Ca2+ partially restored the phenotypes of the ∆cch-1, ∆mid-1 smco-1 and ∆cch-1∆mid-1 mutants which is consistent with CCH-1 and MID-1 being involved in Ca2+ uptake from the external medium. Calcium signatures following mechanical perturbation were successfully measured in populations of conidial germlings using aequorin expressed in the wild type and in deletion mutants (∆cch-1, ∆yvc-1, ∆fig-1) lacking different Ca2+ channels. The removal of external Ca2+ completely abolished the [Ca2+]c increase in response to mechanical perturbation and CCH-1 was found to partly contribute to this increase in [Ca2+]c. Various Ca2+-sensitive dyes (Oregon green 488, Fluo-4 and Calcium Green-1) were also tested to determine if they can be used to image [Ca2+]c at the single cell and subcellular levels. Only Fluo-4 allowed the measurement of [Ca2+]c in individual cells but the changes in dye fluorescence in response to changes in [Ca2+]c were too small to be useful for imaging [Ca2+]c dynamics at the subcellular level. The other two dyes underwent rapid compartmentalization in organelles when loaded into germlings. The plant antifungal proteins (defensins), MsDef1, MtDef4 and PAF were all found to disrupt Ca2+ signaling/homeostasis in conidial germlings of N. crassa. They all inhibited the [Ca2+]c increase and raised the resting level of [Ca2+]c in response to mechanical perturbation. Analysis of an aequorin expressing mutant that was defective in glucosylceramide synthase (∆gcs) showed that the effects of MsDef1 (but not MtDef4) on [Ca2+]c were mediated by the sphingolipid glucosylceramide. All of the defensins tested were found to exhibit different potencies with regard to their inhibitory effects on conidial germination and CAT fusion.

Separating the sexes : sexual conflict and how to resolve it

Cirulis, Aivars

January 2016

During the evolution of sex, different sexual conflicts arise. Sexual conflicts reduce fitness of the opposite sex. That is why several mechanisms have evolved to resolve them, which leads to rapid and unpredictable co-evolution of male and female traits involved in reproduction. This rapid co-evolution of male and female reproductive traits driven by sexual conflict can further lead to reproductive isolation resulting in speciation.             I used the hermaphroditic fungus Neurospora crassa, which has two mating types, as a model organism. Mating types are proxy to sex, because both are needed for sexual reproduction, but they are not limited to either sex role. However by using male pheromone knock-out lines, I created an evolutionary setup, where either mating type is forced to adapt to its restricted sex role. After 21 sexual generations of adaptive co-evolution, I tested if mating types had adapted to the assigned sex by measuring fitness (production of sexual spores called ascospores). I used three evolutionary setups (lines): Δccg4 lines, where mat A is female and mat a is adapted to the male role, Δmfa1 lines, where conversely mat A is adapted to the male role and mat a is female, and wild-type lines used as controls, where both mating types have maintained and adapted to both sex roles. And discovered one Δccg4 line, which indeed adapted to the newly assigned sex roles. At generation 15 and 21 I obtained mixed results for the presence of sexual conflict by correlating male and female fitness in hermaphroditic partner mat a in this line, however I found a sexual conflict also in the asexual growth, where male role is associated with increased, but female role with decreased mycelium growth rate. This work will further allow to study genomic mechanisms underlying this adaptation.

Neurospora crassa

sexual conflict

hermaphrodite

sex

experimental evolution

Rekombinantní exprese a purifikace nitrilasy z Neurospora crassa / Recombinant expresion and purification of nitrilase from Neurospora crassa

Zawadová, Dorota

January 2014

Nitrilases are enzymes able to convert toxic nitriles to corresponding carboxylic acids or amides. Thus they might be used in the detoxification of dyes, herbicides and pharmaceutical intermediates and byproducts. They can be used also for enzymatic syntheses of carboxylic acids not available by standard procedures. The aim of this diploma thesis is a recombinant expression of nitrilases from Neurospora crassa and the optimization of their purification. Cells of E. coli (BL 21 Gold) were utilized as an expression system. The purification was performed by ion-exchange chromatography, chelation chromatography and gel filtration - all under reducing conditions. Purified enzymes were studied by sedimentation analysis in an analytical ultracentrifuge. They were also used for searching of optimal conditions for their crystallization. Keywords: nitrilase, Neurospora crassa, recombinant expression