Your search keyword '"Neurospora"' showing total 245 results

1. The Meiotic Drive: Intragenomic Competition and Selection.

Author

Zakharov, I. A.

Subjects

*MEIOTIC drive, *HOMOLOGOUS chromosomes, *NEUROSPORA, *CENTROMERE, *GENE frequency

Abstract

The article considers the distribution and mechanisms of the meiotic drive as a phenomenon manifested in unequal transmission of gene alleles and/or homologous chromosomes into gametes during meiosis. The meiotic drive has been studied in the most detail in Drosophila, mice, corn, and ascomycete fungi of the genera Neurospora and Podospora. The consequence of the meiotic drive is a shift in the frequencies of alleles in the gene pool and the maintenance of nonadaptive traits in the population. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multi-layered heterochromatin interaction as a switch for DIM2-mediated DNA methylation.

Author

Shao, Zengyu, Lu, Jiuwei, Khudaverdyan, Nelli, and Song, Jikui

Subjects

DNA methylation, PEPTIDES, HETEROCHROMATIN, CHROMATIN, NEUROSPORA, DNA methyltransferases

Abstract

Functional crosstalk between DNA methylation, histone H3 lysine-9 trimethylation (H3K9me3) and heterochromatin protein 1 (HP1) is essential for proper heterochromatin assembly and genome stability. However, how repressive chromatin cues guide DNA methyltransferases for region-specific DNA methylation remains largely unknown. Here, we report structure-function characterizations of DNA methyltransferase Defective-In-Methylation-2 (DIM2) in Neurospora. The DNA methylation activity of DIM2 requires the presence of both H3K9me3 and HP1. Our structural study reveals a bipartite DIM2-HP1 interaction, leading to a disorder-to-order transition of the DIM2 target-recognition domain that is essential for substrate binding. Furthermore, the structure of DIM2-HP1-H3K9me3-DNA complex reveals a substrate-binding mechanism distinct from that for its mammalian orthologue DNMT1. In addition, the dual recognition of H3K9me3 peptide by the DIM2 RFTS and BAH1 domains allosterically impacts the DIM2-substrate binding, thereby controlling DIM2-mediated DNA methylation. Together, this study uncovers how multiple heterochromatin factors coordinately orchestrate an activity-switching mechanism for region-specific DNA methylation. DIM2-mediated DNA methylation contributes to heterochromatin formation in Neurospora. This study identifies that HP1 protein and the H3K9me3 mark synergistically control DIM2 activity, providing a mechanism for heterochromatin-guided DNA methylation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transcriptional rewiring of an evolutionarily conserved circadian clock.

Author

Goity, Alejandra, Dovzhenok, Andrey, Lim, Sookkyung, Hong, Christian, Loros, Jennifer, Dunlap, Jay C, and Larrondo, Luis F

Subjects

*NEUROSPORA crassa, *GENETIC transcription regulation, *CIRCADIAN rhythms, *TRANSCRIPTION factors, *ELECTRIC oscillators, *NONLINEAR oscillators

Abstract

Circadian clocks temporally coordinate daily organismal biology over the 24-h cycle. Their molecular design, preserved between fungi and animals, is based on a core-oscillator composed of a one-step transcriptional-translational-negative-feedback-loop (TTFL). To test whether this evolutionarily conserved TTFL architecture is the only plausible way for achieving a functional circadian clock, we adopted a transcriptional rewiring approach, artificially co-opting regulators of the circadian output pathways into the core-oscillator. Herein we describe one of these semi-synthetic clocks which maintains all basic circadian features but, notably, it also exhibits new attributes such as a "lights-on timer" logic, where clock phase is fixed at the end of the night. Our findings indicate that fundamental circadian properties such as period, phase and temperature compensation are differentially regulated by transcriptional and posttranslational aspects of the clockworks. Synopsis: Eukaryotic circadian oscillators share a one-step transcription-translation negative-feedback loop (TTFL) circuit design, where a main transcriptional complex drives expression of a negative element that can inhibit its own expression. Here, a transcriptional rewiring strategy in the fungus N. crassa reveals that this basic circuit topology can be dramatically changed, while still yielding a functional semi-synthetic clock. Placing the transcription of the negative component frq under the control of the output promoter con-10 alters its regulation, while still yielding rhythmic expression. In the resulting functional semi-synthetic circuit, frq expression is now under the control of circadian clock downstream components. FRQ phosphorylation has a more pronounced effect on circadian period length and temperature compensation than its transcriptional regulation. In the semi-synthetic oscillator, the circadian rhythm phase is now determined by the moment the light is turned on. Co-option of downstream transcription factors into the main transcriptional circuit of the circadian clock in the fungus Neurospora crassa leads to altered clock phase determination. [ABSTRACT FROM AUTHOR]

Published

2024

4. Multiple drugs: Endobronchial mass caused by Neurospora intermedia and lack of efficacy : case report.

Subjects

*NEUROSPORA, *DRUGS, *NIVOLUMAB, *DOCETAXEL, *TISSUE culture

Abstract

This article reports on a case involving a 25-year-old man with a mediastinal germ cell tumor who exhibited lack of efficacy during treatment with various drugs, including nivolumab, gemcitabine, docetaxel, and unspecified antineoplastics. The patient developed an endobronchial mass caused by Neurospora intermedia following treatment with these drugs. Despite treatment with piperacillin/tazobactam, the patient ultimately died due to the progression of the tumor. This case highlights the potential lack of efficacy and adverse effects associated with certain antineoplastic therapies. [Extracted from the article]

Published

2024

5. Nitric-Oxide Synthase Activity in the Photomorphogenesis of Neurospora сrassa.

Author

Filippovich, S. Yu., Onufriev, M. V., Peregud, D. I., Bachurina, G. P., and Kritsky, M. S.

Subjects

*NEUROSPORA, *NITRIC-oxide synthases, *NEUROSPORA crassa, *PLANT photomorphogenesis, *WESTERN immunoblotting, *CALCIUM ions

Abstract

Nitric-oxide synthase activity was detected in Neurospora crassa cells with the measurement of the conversion of 3H-L-arginine to 3H-L-citrulline. Some characteristics of this activity (sensitivity to calcium ions, action of specific enzyme inhibitors, and western blot analysis) were similar to those of an inducible enzyme found in mammals. According to western blotting, the molecular weight of NO synthase was around 130 kDa. No light-dependent changes in the specific activity of NO synthase were revealed in the photocarotenogenesis and photoconidiation of N. сrassa. [ABSTRACT FROM AUTHOR]

Published

2020

6. Conidiation in Neurospora crassa: vegetative reproduction by a model fungus.

Author

Ruger-Herreros, Carmen and Corrochano, Luis M.

Subjects

*NEUROSPORA crassa, *FILAMENTOUS fungi, *CELLULAR signal transduction, *FUNGI, *TRANSCRIPTION factors, *FUNGAL cultures

Abstract

Asexual development, conidiation, in the filamentous fungus Neurospora crassa is a simple developmental process that starts with the growth of aerial hyphae. Then, the formation of constrictions and subsequent maturation gives rise to the mature conidia that are easily dispersed by air currents. Conidiation is regulated by environmental factors such as light, aeration and nutrient limitation, and by the circadian clock. Different regulatory proteins acting at different stages of conidiation have been described. The role of transcription factors such as FL, and components of signal transduction pathways such as the cAMP phosphodiesterase ACON-2 suggest a complex interplay between differential transcription and signal transduction pathways. Comparisons between the molecular basis of conidiation in N. crassa and other filamentous fungi will help to identify common regulatory elements. [ABSTRACT FROM AUTHOR]

Published

2020

7. The Role of Nitrogen Oxide in Photomorphogenesis in Neurospora сrassa.

Author

Filippovich, S. Yu., Onufriev, M. V., Bachurina, G. P., and Kritsky, M. S.

Subjects

*NITRIC oxide, *NITRITE reductase, *NEUROSPORA, *PLANT photomorphogenesis, *NITROGEN oxides, *NITRATE reductase

Abstract

The role of nitric oxide in the photomorphogenesis of several Neurospora сrassa strains (the wild-type strain wt-987, the nit-2 mutant, which lacks nitrite and nitrate reductase, and the nit-6 mutant, which lacks nitrite reductase) was evaluated from the content of nitrate and nitrite, the final products of NO decomposition, in the mycelium and cultivation medium. Analysis of the dynamics of nitrite release from the mycelium of the N. crassanit-6 strain in the course of photostimulated conidiogenesis indicated the possible participation of the NO-generating mechanism in the fungal photosignal transduction. Light-regulated conidiation in N. crassa was inhibited by the introduction of S-nitrosoglutathione, a nitrogen oxide donor, to the cultivation medium, and stimulated by the introduction of L-nitroarginine, an inhibitor of NO synthase, which is inderect indicative of the role of NO in the process. However, the absence of release during the photostimulated development of the protoperithecia (precursors of the female sexual structures) indicated a low probability of NO participation in sexual propagation of the fungus. [ABSTRACT FROM AUTHOR]

Published

2019

8. Circadian rhythms, metabolic oscillators, and the target of rapamycin (TOR) pathway: the Neurospora connection.

Author

Lakin-Thomas, Patricia

Subjects

*CIRCADIAN rhythms, *EUKARYOTIC cells, *NEUROSPORA

Abstract

Circadian (24-h) rhythmicity is a fundamental property of eukaryotic cells, and it is not surprising that it intersects with fundamental metabolic processes. Many links between these two processes have been documented, and speculation has been growing that there may be circadian "metabolic oscillators" that interact with and exist independently of the well-known circadian transcription/translation feedback loops (TTFLs) that have been extensively studied. This review takes a critical look at the evidence for the existence of metabolic oscillators at the cellular level, attempting to answer these questions: does metabolism affect circadian rhythmicity, and vice versa? Is metabolism rhythmic, and if so, is that rhythmicity cell autonomous? Systems displaying "non-canonical rhythmicity" in the absence of functional TTFLs provide opportunities for identifying metabolic oscillators, and this review emphasizes the fungus Neurospora crassa as a model system. Recent papers describing links between the target of rapamycin (TOR) signaling pathway and circadian rhythmicity are highlighted, suggesting the potential for TOR signaling in generating rhythmicity independent of TTFLs. [ABSTRACT FROM AUTHOR]

Published

2019

9. Light-regulated promoters for tunable, temporal, and affordable control of fungal gene expression.

Author

Fuller, Kevin K., Dunlap, Jay C., and Loros, Jennifer J.

Subjects

*FUNGAL gene expression, *PROMOTERS (Genetics), *NEUROSPORA, *FILAMENTOUS fungi, *FUNGAL proteins, *FUNGAL genetics, *PHOTOBIOLOGY

Abstract

Regulatable promoters are important genetic tools, particularly for assigning function to essential and redundant genes. They can also be used to control the expression of enzymes that influence metabolic flux or protein secretion, thereby optimizing product yield in bioindustry. This review will focus on regulatable systems for use in filamentous fungi, an important group of organisms whose members include key research models, devastating pathogens of plants and animals, and exploitable cell factories. Though we will begin by cataloging those promoters that are controlled by nutritional or chemical means, our primary focus will rest on those who can be controlled by a literal flip-of-the-switch: promoters of light-regulated genes. The vvd promoter of Neurospora will first serve as a paradigm for how light-driven systems can provide tight, robust, tunable, and temporal control of either autologous or heterologous fungal proteins. We will then discuss a theoretical approach to, and practical considerations for, the development of such promoters in other species. To this end, we have compiled genes from six previously published light-regulated transcriptomic studies to guide the search for suitable photoregulatable promoters in your fungus of interest. [ABSTRACT FROM AUTHOR]

Published

2018

10. Large-scale suppression of recombination predates genomic rearrangements in Neurospora tetrasperma.

Author

Yu Sun, Svedberg, Jesper, Hiltunen, Markus, Corcoran, Pádraic, and Johannesson, Hanna

Subjects

NEUROSPORA, SEX chromosomes, EUKARYOTIC genomes, CHROMOSOMES, FUNGAL cultures, GENOMES, FUNGAL genetics

Abstract

A common feature of eukaryote genomes is large chromosomal regions where recombination is absent or strongly reduced, but the factors that cause this reduction are not well understood. Genomic rearrangements have often been implicated, but they may also be a consequence of recombination suppression rather than a cause. In this study, we generate eight high-quality genomic data sets of the filamentous ascomycete Neurospora tetrasperma, a fungus that lacks recombination over most of its largest chromosome. The genomes surprisingly reveal collinearity of the non-recombining regions and although large inversions are enriched in these regions, we conclude these inversions to be derived and not the cause of the suppression. To our knowledge, this is the first time that non-recombining, genic regions as large as 86% of a full chromosome (or 8 Mbp), are shown to be collinear. These findings are of significant interest for our understanding of the evolution of sex chromosomes and other supergene complexes. [ABSTRACT FROM AUTHOR]

Published

2017

11. Ascus dysgenesis in hybrid crosses of Neurospora and Sordaria (Sordariaceae).

Author

Kasbekar, Durgadas

Subjects

*ASCI, *CHROMOSOMES, *INTROGRESSION (Genetics), *DNA, *NEUROSPORA, *SORDARIA

Abstract

When two lineages derived from a common ancestor become reproductively isolated (e.g. Neurospora crassa and N. tetrasperma), genes that have undergone mutation and adaptive evolution in one lineage can potentially become dysfunctional when transferred into the other, since other genes have undergone mutation and evolution in the second lineage, and the derived alleles were never 'tested' together before hybrid formation. Bateson (1909), Dobzhansky (1936), and Muller (1942) recognized that incompatibility between the derived alleles could potentially make the hybrid lethal, sterile, or display some other detriment. Alternatively, the detrimental effects seen in crosses with the hybrids may result from the silencing of ascus-development genes by meiotic silencing by unpaired DNA (MSUD). Aberrant transcripts from genes improperly paired in meiosis are processed into single-stranded MSUD-associated small interfering RNA (masiRNA), which is used to degrade complementary mRNA. Recently, backcrosses of N. crassa / N. tetrasperma hybrid translocation strains with wild-type N. tetrasperma were found to elicit novel ascus dysgenesis phenotypes. One was a transmission ratio distortion that apparently disfavoured the homokaryotic ascospores formed following alternate segregation. Another was the production of heterokaryotic ascospores in eight-spored asci. Lewis (1969) also had reported sighting rare eight-spored asci with heterokaryotic ascospores in interspecific crosses in Sordaria, a related genus. Ordinarily, in both Neurospora and Sordaria, the ascospores are partitioned at the eight-nucleus stage, and ascospores in eight-spored asci are initially uninucleate. Evidently, in hybrid crosses of the family Sordariaceae, ascospore partitioning can be delayed until after one or more mitoses following the postmeiotic mitosis. [ABSTRACT FROM AUTHOR]

Published

2017

12. The Neurospora photoreceptor VIVID exerts negative and positive control on light sensing to achieve adaptation

Author

Elan Gin, Axel C R Diernfellner, Michael Brunner, and Thomas Höfer

Subjects

adaptation, mathematical model, Neurospora, protein–protein interaction, VVD, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract The light response in Neurospora is mediated by the photoreceptor and circadian transcription factor White Collar Complex (WCC). The expression rate of the WCC target genes adapts in daylight and remains refractory to moonlight, despite the extraordinary light sensitivity of the WCC. To explain this photoadaptation, feedback inhibition by the WCC interaction partner VIVID (VVD) has been invoked. Here we show through data‐driven mathematical modeling that VVD allows Neurospora to detect relative changes in light intensity. To achieve this behavior, VVD acts as an inhibitor of WCC‐driven gene expression and, at the same time, as a positive regulator that maintains the responsiveness of the photosystem. Our data indicate that this paradoxical function is realized by a futile cycle that involves the light‐induced sequestration of active WCC by VVD and the replenishment of the activatable WCC pool through the decay of the photoactivated state. Our quantitative study uncovers a novel network motif for achieving sensory adaptation and defines a core input module of the circadian clock in Neurospora.

Published

2013

13. Mycelial pellet formation by edible ascomycete filamentous fungi, Neurospora intermedia.

Author

Nair, Ramkumar, Lennartsson, Patrik, and Taherzadeh, Mohammad

Subjects

*ASCOMYCETES, *FERMENTATION, *CALCIUM chloride physiology, *MYCELIUM, *NEUROSPORA, *PHYSIOLOGY

Abstract

Pellet formation of filamentous fungi in submerged culture is an imperative topic of fermentation research. In this study, we report for the first time the growth of filamentous ascomycete fungus, Neurospora intermedia in its mycelial pellet form. In submerged culture, the growth morphology of the fungus was successfully manipulated into growing as pellets by modifying various cultivation conditions. Factors such as pH (2.0-10.0), agitation rate (100-150 rpm), carbon source (glucose, arabinose, sucrose, and galactose), the presence of additive agents (glycerol and calcium chloride) and trace metals were investigated for their effect on the pellet formation. Of the various factors screened, uniform pellets were formed only at pH range 3.0-4.0, signifying it as the most influential factor for N. intermedia pellet formation. The average pellet size ranged from 2.38 ± 0.12 to 2.86 ± 0.38 mm. The pellet formation remained unaffected by the inoculum type used and its size showed an inverse correlation with the agitation rate of the culture. Efficient glucose utilization was observed with fungal pellets, as opposed to the freely suspended mycelium, proving its viability for fast-fermentation processes. Scale up of the pelletization process was also carried out in bench-scale airlift and bubble column reactors (4.5 L). [ABSTRACT FROM AUTHOR]

Published

2016

14. Comparative Clocks.

Author

Merrow, Martha, Lenssen, David, and Roenneberg, Till

Abstract

Daily biological clocks have been described in organisms from all phyla. Here, we describe some features of these temporal programs in model experimental systems from bacteria to humans, from fungi to plants. The comparative approach initially delivered the transcriptional feedback loop as a fundamental clock mechanism. In addition to early reports showing translational regulation in the algae, data from several model genetic systems now indicates that multiple non-transcriptional mechanisms rooted in metabolism form feedbacks in cellular clocks. The incorporation of metabolic feedbacks into the clock suggests a mechanism by which the clock is adaptive and why it confers fitness. It also challenges our concepts of metabolic forms of compensation (e.g., temperature and nutrition). We anticipate that we will soon see demonstrations that circadian clocks are truly widespread throughout nature, regulated by similar cellular pathways. [ABSTRACT FROM AUTHOR]

Published

2010

15. Two pentatricopeptide repeat domain proteins are required for the synthesis of respiratory complex I.

Author

Solotoff, V., Moseler, R., and Schulte, U.

Subjects

*PENTATRICOPEPTIDE repeat genes, *ASCOMYCETES, *CHLOROPLASTS, *AMINO acids, *NEUROSPORA

Abstract

In this study pentatricopeptide repeat (PPR) proteins in filamentous ascomycetes are identified and functionally characterized. PPR proteins, which have in common a degenerated 35 amino acid motif often arranged in multiple tandems, are known to be implicated in various steps of RNA metabolism in mitochondria and chloroplasts. In filamentous ascomycetes we identified a common set of nine PPR proteins. For seven of these proteins, which were not yet characterized, knockout mutants of Neurospora crassa were analyzed. The knockout of three genes appeared to be lethal while four mutants showed different degrees of alterations in respiratory chain complexes. Two mutants are specifically affected in the assembly of a functional complex I while the other enzymes of the respiratory chain are present. Both mutants demonstrate the presence of a peripheral arm and the absence of a detectable membrane arm. Analysis of the mitochondrial RNA revealed distinct alterations of the transcript patterns for certain complex I subunits. Synthesis and/or stability of the transcript for ND2-ND3 is grossly impaired in one mutant while in the other mutant splicing of the transcript for ND1-ND4 is hampered. Our analysis provides the basis for a comprehensive characterization of PPR proteins in filamentous ascomycetes. [ABSTRACT FROM AUTHOR]

Published

2015

16. Transcriptional interference by antisense RNA is required for circadian clock function.

Author

Xue, Zhihong, Ye, Qiaohong, Liu, Yi, Anson, Simon R., Crosthwaite, Susan K., Yang, Jichen, Xiao, Guanghua, Kowbel, David, and Glass, N. Louise

Subjects

*ANTISENSE RNA, *NEUROSPORA, *OSCILLATIONS, *FREQUENCIES of oscillating systems, *DNA, *HISTONES

Abstract

Eukaryotic circadian oscillators consist of negative feedback loops that generate endogenous rhythmicities. Natural antisense RNAs are found in a wide range of eukaryotic organisms. Nevertheless, the physiological importance and mode of action of most antisense RNAs are not clear. frequency (frq) encodes a component of the Neurospora core circadian negative feedback loop, which was thought to generate sustained rhythmicity. Transcription of qrf, the long non-coding frq antisense RNA, is induced by light, and its level oscillates in antiphase to frq sense RNA. Here we show that qrf transcription is regulated by both light-dependent and light-independent mechanisms. Light-dependent qrf transcription represses frq expression and regulates clock resetting. Light-independent qrf expression, on the other hand, is required for circadian rhythmicity. frq transcription also inhibits qrf expression and drives the antiphasic rhythm of qrf transcripts. The mutual inhibition of frq and qrf transcription thus forms a double negative feedback loop that is interlocked with the core feedback loop. Genetic and mathematical modelling analyses indicate that such an arrangement is required for robust and sustained circadian rhythmicity. Moreover, our results suggest that antisense transcription inhibits sense expression by mediating chromatin modifications and premature termination of transcription. Taken together, our results establish antisense transcription as an essential feature in a circadian system and shed light on the importance and mechanism of antisense action. [ABSTRACT FROM AUTHOR]

Published

2014

17. Extracellular biosynthesis of silver nanoparticles using a novel and non-pathogenic fungus, Neurospora intermedia: controlled synthesis and antibacterial activity.

Author

Hamedi, Sepideh, Shojaosadati, Seyed, Shokrollahzadeh, Soheila, and Hashemi-Najafabadi, Sameereh

Subjects

*BIOSYNTHESIS, *EXTRACELLULAR enzymes, *SILVER nanoparticles, *NEUROSPORA, *ANTIBACTERIAL agents, *NITRATE reductase

Abstract

In the present study, the biosynthesis of silver nanoparticles (AgNPs) using Neurospora intermedia, as a new non-pathogenic fungus was investigated. For determination of biomass harvesting time, the effect of fungal incubation period on nanoparticle formation was investigated using UV-visible spectroscopy. Then, AgNPs were synthesized using both culture supernatant and cell-free filtrate of the fungus. Two different volume ratios (1:100 and 1:1) of the culture supernatant to the silver nitrate were employed for AgNP synthesis. In addition, cell-free filtrate and silver nitrate were mixed in presence and absence of light. Smallest average size and highest productivity were obtained when using equal volumes of the culture supernatant and silver nitrate solution as confirmed by UV-visible spectra of colloidal AgNPs. Comparing the UV-visible spectra revealed that using cell-free filtrate for AgNP synthesis resulted in the formation of particles with higher stability and monodispersity than using culture supernatant. The absence of light in cell-free filtrate mediated synthesis led to the formation of nanoparticles with the lowest rate and the highest monodispersity. The presence of elemental silver in all prepared samples was confirmed using EDX, while the crystalline nature of synthesized particles was verified by XRD. FTIR results showed the presence of functional groups which reduce Ag and stabilize AgNPs. The presence of nitrate reductase was confirmed in the cell-free filtrate of the fungus suggesting the potential role of this enzyme in AgNP synthesis. Synthesized particles showed significant antibacterial activity against E. coli as confirmed by examining the growth curve of bacterial cells exposed to AgNPs. [ABSTRACT FROM AUTHOR]

Published

2014

18. Coexistence and expression profiles of two alternative splice variants of the pheromone receptor gene pre- 1 in Neurospora crassa.

Author

Strandberg, Rebecka, Tzelepis, Georgios, Johannesson, Hanna, and Karlsson, Magnus

Subjects

*COEXISTENCE of species, *MUTUALISM (Biology), *GENETIC engineering, *PHEROMONE receptors, *NEUROSPORA crassa, *ASCOMYCETES, *FILAMENTOUS fungi, *POLYMERASE chain reaction

Abstract

In this study, we show that two splice variants of the pheromone receptor gene ( pre- 1) transcript coexist in vegetative and reproductive tissues of the filamentous ascomycete fungus Neurospora crassa. The two splice variants differ by intron retention of the last intron, which is predicted to result in a premature stop codon and loss of 322 amino acids in the C-terminal cytosolic region of PRE-1. Using quantitative PCR, we show that expression of the variants is influenced by mating type ( mat), with a higher proportion of intron-spliced transcripts in a mat A strain and a higher proportion of the intron-retained variant in a mat a strain. The intron-retained PRE-1 variant is predicted to lack 6 ubiquitination sites that may influence receptor function. In conclusion, N. crassa produce two pre- 1 splice variants that display different transcription profiles. [ABSTRACT FROM AUTHOR]

Published

2013

19. CATP is a critical component of the Neurospora circadian clock by regulating the nucleosome occupancy rhythm at the frequency locus.

Author

Cha, Joonseok, Zhou, Mian, and Liu, Yi

Abstract

Rhythmic frq transcription is essential for the function of the Neurospora circadian clock. Here we show that there is a circadian histone occupancy rhythm at the frq promoter that is regulated by FREQUENCY (FRQ). Using a combination of forward genetics and genome sequencing, we identify Clock ATPase (CATP) as an essential clock component. Our results demonstrate that CATP associates with the frq locus and other WCC target genes and promotes histone removal at these loci to allow circadian gene transcription. These results indicate that the rhythmic control of histone occupancy at clock genes is critical for circadian clock function. [ABSTRACT FROM AUTHOR]

Published

2013

20. Non-optimal codon usage affects expression, structure and function of clock protein FRQ.

Author

Zhou, Mian, Guo, Jinhu, Cha, Joonseok, Chae, Michael, Chen, She, Barral, Jose M., Sachs, Matthew S., and Liu, Yi

Subjects

*GENETIC code, *GENOMES, *GENE expression, *RNA, *NEUROSPORA, *GENETIC transcription

Abstract

Codon-usage bias has been observed in almost all genomes and is thought to result from selection for efficient and accurate translation of highly expressed genes. Codon usage is also implicated in the control of transcription, splicing and RNA structure. Many genes exhibit little codon-usage bias, which is thought to reflect a lack of selection for messenger RNA translation. Alternatively, however, non-optimal codon usage may be of biological importance. The rhythmic expression and the proper function of the Neurospora FREQUENCY (FRQ) protein are essential for circadian clock function. Here we show that, unlike most genes in Neurospora, frq exhibits non-optimal codon usage across its entire open reading frame. Optimization of frq codon usage abolishes both overt and molecular circadian rhythms. Codon optimization not only increases FRQ levels but, unexpectedly, also results in conformational changes in FRQ protein, altered FRQ phosphorylation profile and stability, and impaired functions in the circadian feedback loops. These results indicate that non-optimal codon usage of frq is essential for its circadian clock function. Our study provides an example of how non-optimal codon usage functions to regulate protein expression and to achieve optimal protein structure and function. [ABSTRACT FROM AUTHOR]

Published

2013

21. Adsorption of colored pollutants from distillery spent wash by native and treated fungus: Neurospora intermedia.

Author

Kaushik, Garima and Thakur, Indu

Subjects

COLORS, NEUROSPORA, ADSORPTION (Chemistry), CHEMICAL kinetics, HYDROGEN-ion concentration, ATMOSPHERIC temperature, FOURIER transform infrared spectroscopy

Abstract

The native and physico-chemically treated fungal biomasses of Neurospora intermedia were used for adsorption of colored pollutants from distillery spent wash in batch systems. Experiments were conducted at varying color concentrations of the effluent (1,000-6,500 CU). The kinetics of effect of initial sorbate concentration, dose of biosorbent, temperature, and pH on adsorption were studied. Physical and chemical pretreatments of biomass resulted in an increase or decrease in color removal capacity. This effect was further studied by FTIR analysis of the dried fungal mycelium. The maximum color uptake on all the tested fungal biomass preparations was observed at pH 3.0 and temperature 30°C, within first 4 h. The Langmuir and Freundlich adsorption models were used for the mathematical description of the biosorption equilibrium and the data showed an optimal fit to these isotherms. Kinetic parameters indicated the dominance of Lagergren pseudo first-order kinetic model for adsorption. On the basis of maximum adsorption capacity, the color removal capacity by fungal preparations was in the order of native > heat > acid, base. [ABSTRACT FROM AUTHOR]

Published

2013

22. Best practices for fungal germplasm repositories and perspectives on their implementation.

Author

Wiest, Aric, Schnittker, Robert, Plamann, Mike, and McCluskey, Kevin

Subjects

*GERMPLASM, *NATURAL resources, *FUNGAL genes, *YEAST, *FUNGAL genetics, *BIOLOGICAL resource centers

Abstract

In over 50 years, the Fungal Genetics Stock Center has grown to become a world-recognized biological resource center. Along with this growth comes the development and implementation of myriad practices for the management and curation of a diverse collection of filamentous fungi, yeast, and molecular genetic tools for working with the fungi. These practices include techniques for the testing, manipulation, and preservation of individual fungal isolates as well as for processing of thousands of isolates in parallel. In addition to providing accurate record keeping, an electronic managements system allows the observation of trends in strain distribution and in sample characteristics. Because many ex situ fungal germplasm repositories around the world share similar objectives, best-practice guidelines have been developed by a number of organizations such as the Organization for Economic Cooperation and Development or the International Society for Biological and Environmental Repositories. These best-practice guidelines provide a framework for the successful operation of collections and promote the development and interactions of biological resource centers around the world. [ABSTRACT FROM AUTHOR]

Published

2012

23. Structure of C3PO and mechanism of human RISC activation.

Author

Xuecheng Ye, Nian Huang, Ying Liu, Paroo, Zain, Huerta, Carlos, Peng Li, She Chen, Qinghua Liu, and Hong Zhang

Subjects

*RNA metabolism, *DROSOPHILA melanogaster, *NEUROSPORA, *GENE silencing, *AMINO acid sequence, *NUCLEIC acid separation

Abstract

Assembly of the RNA-induced silencing complex (RISC) consists of loading duplex (guide-passenger) siRNA onto Argonaute (Ago2) and removing the passenger strand. Ago2 contributes critically to RISC activation by nicking the passenger strand. Here we reconstituted duplex siRNA-initiated RISC activity using recombinant human Ago2 (hAgo2) and C3PO, indicating that C3PO has a critical role in hAgo2-RISC activation. Consistently, genetic depletion of C3PO compromised RNA silencing in mammalian cells. We determined the crystal structure of hC3PO, which reveals an asymmetric octamer barrel consisting of six translin and two TRAX subunits. This asymmetric assembly is critical for the function of C3PO as an endonuclease that cleaves RNA at the interior surface. The current work supports a Dicer-independent mechanism for human RISC activation, in which Ago2 directly binds duplex siRNA and nicks the passenger strand, and then C3PO activates RISC by degrading the Ago2-nicked passenger strand. [ABSTRACT FROM AUTHOR]

Published

2011

24. Genome mining for the discovery of new nitrilases in filamentous fungi.

Author

Kaplan, Ondřej, Bezouška, Karel, Malandra, Anna, Veselá, Alicja B., Petříčková, Alena, Felsberg, Jürgen, Rinágelová, Anna, Křen, Vladimír, and Martínková, Ludmila

Subjects

BIOTECHNOLOGY research, GENOMES, FILAMENTOUS fungi, ESCHERICHIA coli, FUNGAL enzymes, GIBBERELLA, NEUROSPORA, FUNGAL reproduction

Abstract

Purpose of work: Our aim is to describe new fungal nitrilases whose sequences were published but whose catalytic properties were unknown. We adapted for expression in E. coli three of the genes and confirmed that the enzymes acted on organic nitriles. The genome mining approach was used to search for nitrilases in filamentous fungi. Synthetic genes encoding nitrilases in Aspergillus niger, Gibberella moniliformis and Neurospora crassa were expressed in Escherichia coli. This is the first heterologous expression of fungal enzymes of this type. The recombinant enzyme derived from G. moniliformis was an aromatic nitrilase with an activity of 390 U l culture with benzonitrile as substrate. This was much less than the activities of the recombinant enzymes derived from A. niger and N. crassa that had activities of 2500 and 2700 U l culture, respectively, with phenylacetonitrile as substrate. [ABSTRACT FROM AUTHOR]

Published

2011

25. DNA methylation and the formation of heterochromatin in Neurospora crassa.

Author

Rountree, M. R. and Selker, E. U.

Subjects

*NEUROSPORA crassa, *HETEROCHROMATIN, *HETEROCHROMATIC genes, *DNA synthesis, *METHYLATION, *METHYLTRANSFERASES, *CYCLOPROPANE, *PROTEIN-protein interactions

Abstract

Studies of the control and function of DNA methylation in Neurospora crassa have led to a greater understanding of heterochromatin formation. DNA methylation in Neurospora is dependent on trimethylation of histone H3 lysine 9 (H3K9me3) by the histone methyltransferase, DIM-5. The linkage between these two methyl marks is facilitated by heterochromatin protein 1 (HP1), which serves as an adapter protein. HP1 binds to the H3K9me3 and recruits the DNA methyltransferase, DIM-2. Although HP1 links H3K9me3 to DNA methylation, it also serves to recruit the DNA methylation modifier complex to the edges of heterochromatin regions, where it serves to limit the spreading of the heterochromatin by countering H3K9me3. [ABSTRACT FROM AUTHOR]

Published

2010

26. The Fungal Genetics Stock Center: a repository for 50 years of fungal genetics research.

Author

McCluskey, K., Wiest, A., and Plamann, M.

Subjects

*GENETICISTS, *MICROBIAL genetics, *GENOMES, *PATHOGENIC microorganisms, *NEUROSPORA

Abstract

The Fungal Genetics Stock Center (FGSC) was established in 1960 to ensure that important strains used in early genetics research were available to subsequent generations of fungal geneticists. Originally, only mutant strains were held. At present, any organism that has had its genome sequenced is a genetic system and so the FGSC has added many new organisms. The FGSC is well integrated in its core community and, as research came to depend on cloned genes, vectors and gene libraries, the FGSC included these materials. When the community expanded to include plant and human pathogens, the FGSC adopted these systems as well. Wild isolates from around the world have also proven instrumental in answering important questions. The FGSC holds tremendous diversity of the Neurospora species, which form the core of the collection. The growth in the number of strains distributed illustrates the growth in research on fungi. Because of its position near the centre of the fungal genetics effort, the FGSC is also the first to see trends in research directions. One recent example is the 300% jump in requests for strains of Neurospora crassa carrying a mutation that makes them sensitive to high salt concentration. These strains were seldom requested over many years, but became among our most popular resources following the demonstration of their utility in studying fungicide resistance. This exemplifies why materials need to be preserved without regard to their immediate perceived value and reinforces the need for long-term support for preservation of a broad variety of genetic resources. [ABSTRACT FROM AUTHOR]

Published

2010

27. Expression of ribonuclease A and ribonuclease N1 in the filamentous fungus Neurospora crassa.

Author

Allgaier, Silke, Weiland, Nancy, Hamad, Ibtisam, and Kempken, Frank

Subjects

*BIOLOGICAL transport, *WESTERN immunoblotting, *EXCRETION, *NEUROSPORA, *SORDARIACEAE, *RIBONUCLEASES, *GENETIC vectors, *NEUROSPORA crassa, *ENZYME-linked immunosorbent assay

Abstract

In this study, we investigated the ability of the fungus Neurospora crassa to produce and secrete two ribonucleases: the heterologous bovine RNase A and the endogenous RNase N1. A set of expression vectors was constructed, each consisting of an RNase A open reading frame under the control of a specific promoter and each with a specific terminator. N. crassa transformants were analyzed at the transcriptional and protein levels. Irrespective of the promoter used, all transformants showed an RNase A-specific transcript in northern hybridization, but transcriptional strengths differed significantly. The strongest transcription was detected in transformants under the control of the cfp promoter. Western blot analysis and ELISA assays of selected transformants showed an effective secretion up to 356 ng/mL of recombinant RNase A protein. However, the highest ribonuclease activity could be detected in transformants carrying the endogenous RNase N1 under the control of the ccg1 promoter. Expression and secretion of RNase N1 thus represent an alternative to recombinant expression of RNase A protein. In conclusion, we have created a viable expression system for expression of homologous and heterologous proteins in N. crassa. [ABSTRACT FROM AUTHOR]

Published

2010

28. CK2 and temperature compensation in Neurospora.

Author

Mehra, Arun, Mi Shi, Baker, Christopher L., Colot, Hildur V., Loros, Jennifer J., and Dunlap, Jay C.

Subjects

*NEUROSPORA, *SORDARIACEAE, *GENETIC engineering, *CHEMICAL reactions, *CIRCADIAN rhythms

Abstract

Temperature compensation is a poorly understood, defining property of circadian rhythms. Here, we critically interpret and expand the interpretation of some of our recently published work along with preliminary new data regarding this question. We describe, in greater detail, the cloning of two subunits of casein kinase 2 (CK2) that affect compensation. We briefly review and comment on key data including dose dependence of CK2 on compensation, the differences between CK2 and CK1, and the nature of phenocopying frequency (frq) alleles. We present preliminary data on in vitro phosphorylation of full-length FRQ and a new hypothesis regarding PEST-1 (proline (P), glutamic acid (E), serine (S), and threonine (T) rich) phosphorylation. Finally, we describe an extended model of temperature compensation. [ABSTRACT FROM AUTHOR]

Published

2009

29. Genome-wide analysis of light-inducible responses reveals hierarchical light signalling in Neurospora.

Author

Chen-Hui Chen, Ringelberg, Carol S., Gross, Robert H., Dunlap, Jay C., and Loros, Jennifer J.

Subjects

*NEUROSPORA, *GENOMES, *GENES, *GENE expression, *BIOINFORMATICS

Abstract

White collar-1 (WC-1) and white collar-2 (WC-2) are essential for light-mediated responses in Neurospora crassa, but the molecular mechanisms underlying gene induction and the roles of other real and putative photoreceptors remain poorly characterized. Unsupervised hierarchical clustering of genome-wide microarrays reveals 5.6% of detectable transcripts, including several novel mediators, that are either early or late light responsive. Evidence is shown for photoreception in the absence of the dominant, and here confirmed, white collar complex (WCC) that regulates both types of light responses. VVD primarily modulates late responses, whereas light-responsive submerged protoperithecia-1 (SUB-1), a GATA family transcription factor, is essential for most late light gene expression. After a 15-min light stimulus, the WCC directly binds the sub-1 promoter. Bioinformatics analysis detects many early light response elements (ELREs), as well as identifying a late light response element (LLRE) required for wild-type activity of late light response promoters. The data provide a global picture of transcriptional response to light, as well as illuminating the cis- and trans-acting elements comprising the regulatory signalling cascade that governs the photobiological response. [ABSTRACT FROM AUTHOR]

Published

2009

30. Neurospora crassa fmf-1 encodes the homologue of the Schizosaccharomyces pombe Ste11p regulator of sexual development.

Author

IYER, SRIVIDHYA V., RAMAKRISHNAN, MUKUND, and KASBEKA, DURGADAS P.

Subjects

*PLANT mutation, *TRANSCRIPTION factors, *NEUROSPORA crassa, *SCHIZOSACCHAROMYCES pombe, *RESTRICTION fragment length polymorphisms, *PHEROMONES, *SEX in plants, *SEX differentiation (Embryology)

Abstract

The Neurospora crassa fmf-1 mutation exerts an unusual 'perithecium-dominant' developmental arrest; fmf-1 x fmf-1+ cross becomes arrested in perithecial development regardless of whether the mutant participates in the cross as the male or female parent. We localized fmf-1 to the LG IL genome segment between the centromere-proximal breakpoint of the chromosome segment duplication Dp(IL)39311 and the centromere. By mapping crossovers with respect to RFLP markers in this region we further localized fmf-1 to an approximately 34-kb-genome segment. Partial sequencing of this segment revealed a point mutation in the gene NCU 09387.1, a homologue of the Schizosaccharomyces pombe ste11+ regulator of sexual development. The fmf-1 mutation did not complement a NCU 09387.1 deletion mutation, and transformation with wild-type NCU 09387.1 complemented fmf-1. S. pombe Ste11 protein (Ste11p) is a transcription factor required for sexual differentiation and for the expression of genes required for mating pheromone signalling in matP and matM cells. If FMF-1 also plays a corresponding role in mating pheromone signalling in Neurospora, then protoperithecia in an fmf-1 x fmf-1+ cross would be unable to either send or receive sexual differentiation signals and thus become arrested in development. [ABSTRACT FROM AUTHOR]

Published

2009

31. Neurospora as a model fungus for studies in cytogenetics and sexual biology at Stanford.

Author

RAJU, NAMBOORI B.

Subjects

*NEUROSPORA, *SORDARIACEAE, *GENETICS, *HAPLOIDY, *POPULATION biology

Abstract

Dodge's early work (1927-1940) on Neurospora genetics and sexual biology inspired Beadle and Tatum at Stanford to use N. crassa for their landmark discovery that genes specify enzymes. Neurospora has since become a model organism for numerous genetic, cytogenetic, biochemical, molecular and population biology studies. Neurospora is haploid in the vegetative phase with a transient diploid sexual phase. Its meiotic cells (asci) are large, allowing easy examination of dividing nuclei and chromosomes under a light microscope. The haploid meiotic products are themselves the sexual progeny that grow into vegetative cultures, thus avoiding the cumbersome testcrosses and complex dominance-recessive relationships, as in diploid organisms. The Perkins' laboratory at Stanford (1949-2007) played a pivotal role in advancing our knowledge of Neurospora genetics, sexual biology, cytogenetics and population biology. Since 1974, I have taken advantage of various chromosome-staining methods to examine ascus and ascospore development in wild type and in numerous mutant strains. In addition, I have used GFP-tagged genes to visualize the expression or silencing of unpaired genes in a post- transcriptional gene silencing process (meiotic silencing by unpaired DNA) that operates specifically during meiosis. The genome of N. crassa contains over 10 000 proteincoding genes. Gene knockouts or mutations in specifi c sequences may now be readily correlated with the observed cytological defects in the sexual stage, thus advancing our molecular understanding of complex processes during ascus and ascospore development. [ABSTRACT FROM AUTHOR]

Published

2009

32. Carotenoids and carotenogenic genes in Podospora anserina: engineering of the carotenoid composition extends the life span of the mycelium.

Author

Strobel, Ingmar, Breitenbach, Jürgen, Scheckhuber, Christian Q., Osiewacz, Heinz D., and Sandmann, Gerhard

Subjects

*CAROTENOIDS, *PODOSPORA anserina, *CAROTENES, *BIOLOGICAL pigments, *NEUROSPORA

Abstract

Carotenoids have been identified in the fungus Podospora anserina and a parallel pathway to neurosporene and β-carotene was established. Three genes for the β-carotene branch have been cloned and their function elucidated. They correspond to the al-1, al-2 and al-3 genes from Neurospora crassa. They were individually and in combinations over-expressed in P. anserina in order to modify the carotenoid composition qualitatively and quantitatively. In the resulting transformants, carotenoid synthesis was up to eightfold increased and several intermediates of the pathway together with special cyclic carotenoids, β-zeacarotene and 7,8-dihydro-β-carotene, accumulated. All transformants with an over-expressed al-2 gene (encoding a phytoene synthase and a lycopene cyclase) displayed up to 31% prolonged life span. [ABSTRACT FROM AUTHOR]

Published

2009

33. Mapping the interaction sites of Aspergillus nidulans phytochrome FphA with the global regulator VeA and the White Collar protein LreB.

Author

Purschwitz, Janina, Müller, Sylvia, and Fischer, Reinhard

Subjects

*ASPERGILLUS nidulans, *NEUROSPORA, *PHYTOCHROMES, *HISTIDINE, *PHOSPHORYLATION

Abstract

Aspergillus nidulans senses red and blue-light and employs a phytochrome and a Neurospora crassa White Collar (WC) homologous system for light perception and transmits this information into developmental decisions. Under light conditions it undergoes asexual development and in the dark it develops sexually. The phytochrome FphA consists of a light sensory domain and a signal output domain, consisting of a histidine kinase and a response regulator domain. Previously it was shown that the phytochrome FphA directly interacts with the WC-2 homologue, LreB and another regulator, VeA. In this paper we mapped the interaction of FphA with LreB to the histidine kinase and the response regulator domain at the C-terminus in vivo using the bimolecular fluorescence complementation assay and in vitro by co-immunoprecipitation. In comparison, VeA interacted with FphA only at the histidine kinase domain. We present evidence that VeA occurs as a phosphorylated and a non-phosphorylated form in the cell. The phosphorylation status of the protein was independent of the light receptors FphA, LreB and the WC-1 homologue LreA. [ABSTRACT FROM AUTHOR]

Published

2009

34. Control of WHITE COLLAR localization by phosphorylation is a critical step in the circadian negative feedback process.

Author

Joonseok Cha, Shwu-Shin Chang, Guocun Huang, Ping Cheng, and Yi Liu

Subjects

*PHOSPHORYLATION, *NEUROSPORA, *PROTEINS, *PHOSPHATASES, *CYTOPLASM

Abstract

Reversible protein phosphorylation has critical functions in the eukaryotic circadian negative feedback loops. In Neurospora, the FREQUENCY protein closes the circadian negative feedback loop by promoting the phosphorylation of its transcription activator, the WHITE COLLAR complex (WCC) and consequently inhibiting WCC activity. Here we show that protein phosphatase 4 is a novel component of the Neurospora clock by regulating both processes of the circadian negative feedback loop. The disruption of pp4 results in short period rhythms with low amplitude. In addition to its role in regulating FRQ phosphorylation and stability, PP4 also dephosphorylates and activates WCC. In contrast to PP2A, another phosphatase that activates WCC, PP4 has a major function in promoting nuclear entry of WCC. PKA, a WC kinase, inhibits WC nuclear localization. Furthermore, the FRQ-dependent WC phosphorylation promotes WCC cytosolic localization. Together, these results revealed WCC nucleocytoplasmic shuttling as an important step in the circadian negative feedback process and delineated the FRQ-dependent WCC inhibition as a two-step process: the inhibition of WCC DNA-binding activity followed by sequestration of WCC into the cytoplasm. [ABSTRACT FROM AUTHOR]

Published

2008

35. David D Perkins: In Memoriam.

Author

Maheshwari, Ramesh

Subjects

PERKINS, David D.

Abstract

An obituary for geneticist and professor David D. Perkins is presented.

Published

2008

36. David D Perkins (1919-2007):ALifetime of Neurospora Genetics.

Author

Raju, Namboori B.

Subjects

GENETICISTS, SCIENTISTS, COLLEGE teachers, MICROBIAL genetics, GENETICS

Abstract

The article focuses on geneticist and scientist David D. Perkins. It discusses his contributions to neurospora microbial genetics. It also offers information on educational attainment, honors and awards received from the genetics society. Perkins is a biology professor in Stanford University and established an active research program until his retirement in 1989. He died on January 2, 2007.

Published

2008

37. David D Perkins (1919-2007):A Lifetime of Neurospora Genetics.

Author

Raju, Namboori B.

Subjects

SCIENTISTS, LIFE sciences, BIOLOGY

Abstract

A biography of David Dexter Perkins, senior research scientist, is presented. He was born on May 2, 1919. He received his Bachelor of Arts in Biology in 1941 at the University of Rochester in New York. He is married to Dorothy Newmeyer Perkins. Perkins pioneered the use of Neurospora as a model experimental organism for a variety of genetic, cytogenetic, and developmental studies. He died on January 2, 2007.

Published

2008

38. Identification of the gene responsible for torulene cleavage in the Neurospora carotenoid pathway.

Author

Iris Holdermann, Salim Al-Babili, and Javier Avalos

Subjects

*NEUROSPORA, *CAROTENOIDS, *XANTHOPHYLLS, *ENZYMES, *SORDARIACEAE, *TERPENES

Abstract

Abstract  Torulene, a C40 carotene, is the precursor of the end product of the Neurospora carotenoid pathway, the C35 xanthophyll neurosporaxanthin. Torulene is synthesized by the enzymes AL-2 and AL-1 from the precursor geranylgeranyl diphosphate and then cleaved by an unknown enzyme into the C35 apocarotenoid. In general, carotenoid cleavage reactions are catalyzed by carotenoid oxygenases. Using protein data bases, we identified two putative carotenoid oxygenases in Neurospora, named here CAO-1 and CAO-2. A search for novel mutants of the carotenoid pathway in this fungus allowed the identification of two torulene-accumulating strains, lacking neurosporaxanthin. Sequencing of the cao-2 gene in these strains revealed severe mutations, pointing to a role of CAO-2 in torulene cleavage. This was further supported by the identical phenotype found upon targeted disruption of cao-2. The biological function was confirmed by in vitro assays using the purified enzyme, which cleaved torulene to produce β-apo-4′-carotenal, the corresponding aldehyde of neurosporaxanthin. The specificity of CAO-2 was shown by the lack of γ-carotene-cleaving activity in vitro. As predicted for a structural gene of the carotenoid pathway, cao-2 mRNA was induced by light in a WC-1 and WC-2 dependent manner. Our data demonstrate that CAO-2 is the enzyme responsible for the oxidative cleavage of torulene in the neurosporaxanthin biosynthetic pathway. [ABSTRACT FROM AUTHOR]

Published

2007

39. Sustainment and Controlment of Noise-Induced Circadian Oscillations in Neurospora: Noise and External Signal Effects.

Author

Jiancheng Shi and Qianshu Li

Subjects

*NEUROSPORA, *FUNGI, *CIRCADIAN rhythms, *BIOLOGICAL rhythms, *OSCILLATIONS, *BIFURCATION theory, *NUMERICAL solutions to nonlinear differential equations

Abstract

The effect of light noise on a Neurospora circadian clock system in the steady states is investigated. It is found that the circadian oscillations could be induced by light noise, leading to various resonance phenomena including internal signal stochastic resonance (ISSR) and ISSR without tuning in the system. The strength of ISSR could be significantly reinforced with the decrease of the distance of the control parameter to the Hopf bifurcation point of the system. The fundamental frequency of noise-induced circadian oscillations almost does not change with the increment of light noise intensity, which implies that the Neurospora system could sustain intrinsic circadian rhythms. In addition, the ISSR and ISSR without tuning could be both amplified, suppressed or destroyed by tuning the frequency or amplitude of external signal. [ABSTRACT FROM AUTHOR]

Published

2007

40. Neurosprora crassa RAD5 homologue, mus-41, inactivation results in higher sensitivity to mutagens but has little effect on PCNA-ubiquitylation in response to UV-irradiation.

Author

Kawabata, Tsuyoshi, Kato, Akihiro, Suzuki, Keiichiro, and Inoue, Hirokazu

Subjects

*DNA replication, *DNA synthesis, *CHROMOSOME replication, *SACCHAROMYCES cerevisiae, *UBIQUITIN

Abstract

The DNA replication machinery stalls at damaged sites on DNA. Postreplicaton repair (PRR) is a system to avoid cell death in such circumstances of deadlock. In Saccharomyces cerevisiae, the Rad6/Rad18 heterodimer plays pivotal roles in PRR. It promotes translesion synthesis via the monoubiquitylation of the DNA sliding clamp, PCNA. Ubc13/Mms2/Rad5 can extend the ubiquitin chain from this monoubiquitylated PCNA with a non-canonical lysine 63-linked ubiquitin-chain, resulting in an error-free mode of bypass. In this study, we identified and characterized the RAD5 homolog in Neurospora crassa, which we named mus-41. A mus-41 mutant was sensitive to several DNA-damaging agents including UV and MMS. Genetic analyses indicated that uvs-2 ( RAD18 homolog) was epistatic to mus-41, suggesting a role for mus-41 in postreplication repair. Additionally, it was shown that mus-41 has a role independent from TLS gene upr-1 ( REV3 homolog) and works in the error-free pathway, indicating that the function of mus-41 as a RAD5 homolog is also conserved in N. crassa. However, mus-41 is not essential for the ubiquitylation of PCNA that is detected in the wild-type background, suggesting that there is another ubiquitin ligase catalyzing ubiquitylation of PCNA in response to UV in N. crassa. [ABSTRACT FROM AUTHOR]

Published

2007

41. Circadian rhythm in the pink--orange bread mould Neurospora crassa: for what?

Author

Maheshwari, Ramesh

Subjects

*NEUROSPORA crassa, *FUNGAL reproduction, *BREAD microbiology, *MOLDS (Fungi), *CIRCADIAN rhythms, *FUNGI

Abstract

The article presents an analysis on the contribution of the production of macroconidia in circadian rhythm to the propagation of Neurospora crassa. Macroconidia is a fungus commonly known as pink or red bread mould which has been used to study molecular mechanisms in circadian rhythms. However, the analysis shows that macroconidia does not propagate neurospora, instead it only creates nutritional condition and conducive environment to sexual production of its inside tissue pockets.

Published

2007

42. Fungal photoreceptors: sensory molecules for fungal development and behaviour.

Author

Luis M. Corrochano

Subjects

*PHOTOBIOLOGY, *ASCOMYCETES, *FUNGI, *NEUROSPORA

Abstract

Light regulates fungal development and behaviour and activates metabolic pathways. In addition, light is one of the many signals that fungi use to perceive and interact with the environment. In the ascomycete Neurospora crassa blue light is perceived by the white collar (WC) complex, a protein complex formed by WC-1 and WC-2. WC-1 is a protein with a flavin-binding domain and a zinc-finger domain, and interacts with WC-2, another zinc-finger domain protein. The WC complex operates as a photoreceptor and a transcription factor for blue-light responses in Neurospora. Proteins similar to WC-1 and WC-2 have been described in other fungi, suggesting a general role for the WC complex as a fungal receptor for blue light. The ascomycete Aspergillus nidulans uses red light perceived by a fungal phytochrome as a signal to regulate sexual and asexual development. In addition, other photoreceptors, rhodopsins and cryptochromes, have been identified in fungi, but their functional relevance has not been elucidated. The investigation of fungal light responses provides an opportunity to understand how fungi perceive the environment and to identify the mechanisms involved in the regulation by light of cellular development and metabolism. [ABSTRACT FROM AUTHOR]

Published

2007

43. A synchrotron FTIR microspectroscopy investigation of fungal hyphae grown under optimal and stressed conditions.

Author

Szeghalmi, Adriana, Kaminskyj, Susan, and Gough, Kathleen M.

Subjects

*FOURIER transform infrared spectroscopy, *SYNCHROTRONS, *BIOCHEMISTRY, *NEUROSPORA, *ASPERGILLUS nidulans, *ASPERGILLUS

Abstract

Synchrotron FTIR can provide high spatial resolution (<10 μm pixel size) in situ biochemical analyses of intact biotissues, an area of increasing importance in the post-genomic era, as gene functions and gene networks are coming under direct scrutiny. With this technique, we can simultaneously assess multiple aspects of cell biochemistry and cytoplasmic composition. In this paper, we report the first results of our synchrotron FTIR examination of hyphae of three important fungal model systems, each with sequenced genomes and a wealth of research: Aspergillus, Neurospora, and Rhizopus. We have analyzed the FTIR maps of Aspergillus nidulans cells containing the hypA1 allele, a well-characterized single-gene temperature-sensitive morphogenetic mutation. The hypA1 cells resemble wildtype at 28 °C but have growth defects at 42 °C. We have also investigated Neurospora and Rhizopus cultures grown in media with optimal or elevated pH. Significant differences between the spectra of the three fungi are likely related to differences in composition and structure. In addition, high spatial resolution synchrotron FTIR spectroscopy provides an outstanding method for monitoring subtle subcellular changes that accompany environmental stress. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2007

44. Beadle's progeny: Innocence rewarded, innocence lost.

Author

Davis, Rowland H.

Subjects

*BIOLOGY experiments, *GENES, *ENZYMES, *CELL compartmentation, *ARGININE, *PROLINE, *POLYAMINES, *BIOLOGICAL research

Abstract

The author discusses the experiments of 1971-1975 regarding the one gene, one enzyme theory. He mentions counterevidence that had been assimilated into the theory. He emphasizes the importance of the demonstration of metabolic compartmentation in living cells. He notes that the experiments initiated a comprehensive study of arginine, proline and polyamine metabolism that continues with molecular techniques.

Published

2007

45. Experimentally manipulating fungi with optical tweezers.

Author

Wright, Graham D., Arlt, Jochen, Poon, Wilson C. K., and Read, Nick D.

Subjects

*FUNGI, *CYTOLOGY, *HYPHOMYCETES, *NEUROSPORA, *ORGANELLES

Abstract

A short review of the use of optical tweezers in fungal cell biological research is provided. First, we describe how optical tweezers work. Second, we review how they have been used in various experimental live-cell studies to manipulate intracellular organelles, hyphal growth and branching, and whole cells. Third, we indicate how optically trapped microbeads can be used for the localized delivery of chemicals or mechanical stimulation to cells, as well as permitting measurements of the growth forces generated by germ tubes. Finally, the effects of optical trapping on fungal cell viability and growth are assessed. [ABSTRACT FROM AUTHOR]

Published

2007

46. Molecular mechanism of suppression of circadian rhythms by a critical stimulus.

Author

Guocun Huang, Lixin Wang, and Yi Liu

Subjects

*CIRCADIAN rhythms, *NEUROSPORA, *GENE frequency, *POPULATION genetics, *BIOLOGICAL rhythms

Abstract

Circadian singularity behavior (also called suppression of circadian rhythms) is a phenomenon characterized by the abolishment of circadian rhythmicities by a critical stimulus. Here we demonstrate that both temperature step up and light pulse, stimuli that activate the expression of the Neurospora circadian clock gene frequency (frq), can trigger singularity behavior in this organism. The arrhythmicity is transient and is followed by the resumption of rhythm in randomly distributed phases. In addition, we show that induction of FRQ expression alone can trigger singularity behavior, indicating that FRQ is a state variable of the Neurospora circadian oscillator. Furthermore, mutations of frq lead to changes in the amplitude of FRQ oscillation, which determines the sensitivity of the clock to phase-resetting cues. Our results further suggest that the singularity behavior is due to the loss of rhythm in all cells. Together, these data suggest that the singularity behavior is due to a circadian negative feedback loop driven to a steady state after the critical treatment. After the initial arrhythmicity, cell populations are then desynchronized. [ABSTRACT FROM AUTHOR]

Published

2006

47. Chromosome pairing and meiotic recombination in Neurospora crassa spo11 mutants.

Author

Bowring, Frederick J., Yeadon, P. Jane, Stainer, Russell G., and Catcheside, David E. A.

Subjects

*GENETIC recombination, *CHROMOSOMES, *CELL division, *MEIOSIS, *NEUROSPORA crassa, *DROSOPHILA melanogaster, *CAENORHABDITIS elegans, *MAMMALS

Abstract

Some organisms, such as mammals, green plants and fungi, require double-strand breaks in DNA (DSBs) for synapsis of homologous chromosomes at pachynema. Drosophila melanogaster and Caenorhabditis elegans are exceptions, achieving synapsis independently of DSB. SPO11 is responsible for generating DSBs and perhaps for the initiation of recombination in all organisms. Although it was previously suggested that Neurospora may not require DSBs for synapsis, we report here that mutation of Neurospora spo11 disrupts meiosis, abolishing synapsis of homologous chromosomes during pachynema and resulting in ascospores that are frequently aneuploid and rarely viable. Alignment of homologues is partially restored after exposure of spo11 perithecia to ionising radiation. Crossing over in a spo11 mutant is reduced in two regions of the Neurospora genome as expected, but is unaffected in a third. [ABSTRACT FROM AUTHOR]

Published

2006

48. Transcriptional regulation of the Neurospora circadian clock gene wc-1 affects the phase of circadian output.

Author

Káldi, Krisztina, González, Beatriz Herreros, and Brunner, Michael

Subjects

NEUROSPORA, NEUROSPORA tetrasperma, PROTEINS, GENES, BIOLOGICAL rhythms, CIRCADIAN rhythms, SLEEP-wake cycle

Abstract

WHITE COLLAR-1 (WC-1) is the limiting component of the White Collar Complex (WCC) controlling expression of the Neurospora circadian clock protein Frequency (FRQ). Accumulation of WC-1 is supported by FRQ on a post-transcriptional level. Here, we show that transcription of wc-1 is organized in a complex way. Three promoters drive transcription of wc-1. Pdist is dependent on WCC. Pprox is independent of WCC in darkness, but inducible by light in a WCC-dependent manner. A third promoter, Pint, is located in the wc-1 open reading frame and promotes expression of an amino-terminally truncated WC-1 isoform of unknown function. Expression of wc-1 by Pdist or Pprox alone, or by a heterologous promoter, affects the entrained phase of circadian conidiation and the response of Neurospora to light. Our results indicate that transcriptional regulation of wc-1 is required to modulate the circadian phase of clock output. [ABSTRACT FROM AUTHOR]

Published

2006

49. Biotransformation of racemic diisophorone by Cephalosporium aphidicola and Neurospora crassa.

Author

Kiran, Ismail, Akar, Tamer, Gorgulu, Asli, and Kazaz, Cavit

Subjects

NEUROSPORA crassa, NEUROSPORA, SORDARIACEAE, TARTARIC acid, SPHAERIALES, PYRENOMYCETES

Abstract

Racemic diisophorone (500 mg) was converted by Cephalosporium aphidicola and Neurospora crassa over 10 days at 25 °C to 8β-hydroxydiisophorone in yields of 10% (52 mg) and 20% (103 mg), respectively. The structure was established by IR, specific rotation, mass spectral, 1D and 2D-NMR studies. [ABSTRACT FROM AUTHOR]

Published

2005

50. Characterization and prevalence of a circular mitochondrial plasmid in senescence-prone isolates ofNeurospora intermedia.

Author

D'Souza, Anthony D., Sultana, Shahana, and Maheshwari, Ramesh

Subjects

*PLASMIDS, *AGING, *MITOCHONDRIA, *NEUROSPORA, *DNA

Abstract

Genetic and molecular analyses of the phenomenon of senescence-i.e., irreversible loss of growth and reproductive potential upon subculturing-inNeurospora intermediastrain M1991-60A, collected from Maddur in southern India, showed the presence of plasmid pMaddur1, which is homologous to the senescence-inducing circular mitochondrial plasmid, pVarkud. Maternal inheritance of senescence in M1991-60Acorrelated to the formation of variant pMaddur1, its subsequent insertion into mitochondrial (mt)DNA and the accumulation of defective mtDNA with the pMaddur1insert. PCR-based analyses for similar plasmids in 147 natural isolates ofNeurosporafrom Maddur showed that nearly 40% of the strains had pMaddur1 or pMaddur2 that shared 97-98% sequence homology with pVarkud and pMauriceville. Nearly 50% of the strains that harbored either pMaddur1 or pMaddur2, also contained a circular Varkud satellite plasmid (pVS). Size polymorphism maps to the cluster ofPstI sites in the non-coding region. Whereas senescence of nearly 40% ofN. intermediastrains may be due to pMaddur, the presence in seven strains of pVS but not pMaddur and the absence of either of these two plasmids in other senescence-prone isolates suggests yet undiscovered mechanisms of senescence in the Maddur strains. [ABSTRACT FROM AUTHOR]

Published

2005