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1. DNA affinity purification sequencing and transcriptional profiling reveal new aspects of nitrogen regulation in a filamentous fungus

Author

Huberman, Lori B, Wu, Vincent W, Kowbel, David J, Lee, Juna, Daum, Chris, Grigoriev, Igor V, O'Malley, Ronan C, and Glass, N Louise

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biotechnology, Genetics, 1.1 Normal biological development and functioning, Catabolite Repression, DNA-Binding Proteins, Fungal Proteins, Gene Expression Regulation, Fungal, Gene Regulatory Networks, Metabolic Networks and Pathways, Neurospora crassa, Nitrogen, RNA-Seq, Trans-Activators, Transcription Factors, transcriptional networks, nitrogen utilization, nutrient sensing, DAPseq, RNAseq
Abstract

Sensing available nutrients and efficiently utilizing them is a challenge common to all organisms. The model filamentous fungus Neurospora crassa is capable of utilizing a variety of inorganic and organic nitrogen sources. Nitrogen utilization in N. crassa is regulated by a network of pathway-specific transcription factors that activate genes necessary to utilize specific nitrogen sources in combination with nitrogen catabolite repression regulatory proteins. We identified an uncharacterized pathway-specific transcription factor, amn-1, that is required for utilization of the nonpreferred nitrogen sources proline, branched-chain amino acids, and aromatic amino acids. AMN-1 also plays a role in regulating genes involved in responding to the simple sugar mannose, suggesting an integration of nitrogen and carbon metabolism. The utilization of nonpreferred nitrogen sources, which require metabolic processing before being used as a nitrogen source, is also regulated by the nitrogen catabolite regulator NIT-2. Using RNA sequencing combined with DNA affinity purification sequencing, we performed a survey of the role of NIT-2 and the pathway-specific transcription factors NIT-4 and AMN-1 in directly regulating genes involved in nitrogen utilization. Although previous studies suggested promoter binding by both a pathway-specific transcription factor and NIT-2 may be necessary for activation of nitrogen-responsive genes, our data show that pathway-specific transcription factors regulate genes involved in the catabolism of specific nitrogen sources, while NIT-2 regulates genes involved in utilization of all nonpreferred nitrogen sources, such as nitrogen transporters. Together, these transcription factors form a nutrient sensing network that allows N. crassa cells to regulate nitrogen utilization.

Published
2021

2. The regulatory and transcriptional landscape associated with carbon utilization in a filamentous fungus

Author

Wu, Vincent W, Thieme, Nils, Huberman, Lori B, Dietschmann, Axel, Kowbel, David J, Lee, Juna, Calhoun, Sara, Singan, Vasanth R, Lipzen, Anna, Xiong, Yi, Monti, Remo, Blow, Matthew J, O’Malley, Ronan C, Grigoriev, Igor V, Benz, J Philipp, and Glass, N Louise

Subjects
Microbiology, Plant Biology, Biological Sciences, Biotechnology, Genetics, 1.1 Normal biological development and functioning, Biofuels, Biomass, Catabolite Repression, Cell Wall, Fungal Proteins, Gene Expression Regulation, Fungal, Metabolic Engineering, Metabolic Networks and Pathways, Neurospora crassa, Pectins, Polysaccharides, RNA-Seq, Transcription Factors, transcriptional networks, plant biomass deconstruction, nutrient sensing, DAP-seq, RNA-seq
Abstract

Filamentous fungi, such as Neurospora crassa, are very efficient in deconstructing plant biomass by the secretion of an arsenal of plant cell wall-degrading enzymes, by remodeling metabolism to accommodate production of secreted enzymes, and by enabling transport and intracellular utilization of plant biomass components. Although a number of enzymes and transcriptional regulators involved in plant biomass utilization have been identified, how filamentous fungi sense and integrate nutritional information encoded in the plant cell wall into a regulatory hierarchy for optimal utilization of complex carbon sources is not understood. Here, we performed transcriptional profiling of N. crassa on 40 different carbon sources, including plant biomass, to provide data on how fungi sense simple to complex carbohydrates. From these data, we identified regulatory factors in N. crassa and characterized one (PDR-2) associated with pectin utilization and one with pectin/hemicellulose utilization (ARA-1). Using in vitro DNA affinity purification sequencing (DAP-seq), we identified direct targets of transcription factors involved in regulating genes encoding plant cell wall-degrading enzymes. In particular, our data clarified the role of the transcription factor VIB-1 in the regulation of genes encoding plant cell wall-degrading enzymes and nutrient scavenging and revealed a major role of the carbon catabolite repressor CRE-1 in regulating the expression of major facilitator transporter genes. These data contribute to a more complete understanding of cross talk between transcription factors and their target genes, which are involved in regulating nutrient sensing and plant biomass utilization on a global level.

Published
2020

3. Identification and manipulation of Neurospora crassa genes involved in sensitivity to furfural

Author

Feldman, Daria, Kowbel, David J, Cohen, Adi, Glass, N Louise, Hadar, Yitzhak, and Yarden, Oded

Subjects
Biological Sciences, Industrial Biotechnology, Genetics, Furfural, Neurospora crassa, Furan, Pretreatment, CRE1, Aldehyde dehydrogenases
Abstract

BackgroundBiofuels derived from lignocellulosic biomass are a viable alternative to fossil fuels required for transportation. Following plant biomass pretreatment, the furan derivative furfural is present at concentrations which are inhibitory to yeasts. Detoxification of furfural is thus important for efficient fermentation. Here, we searched for new genetic attributes in the fungus Neurospora crassa that may be linked to furfural tolerance. The fact that furfural is involved in the natural process of sexual spore germination of N. crassa and that this fungus is highly amenable to genetic manipulations makes it a rational candidate for this study.ResultsBoth hypothesis-based and unbiased (random promotor mutagenesis) approaches were performed to identify N. crassa genes associated with the response to furfural. Changes in the transcriptional profile following exposure to furfural revealed that the affected processes were, overall, similar to those observed in Saccharomyces cerevisiae. N. crassa was more tolerant (by ~ 30%) to furfural when carboxymethyl cellulose was the main carbon source as opposed to sucrose, indicative of a link between carbohydrate metabolism and furfural tolerance. We also observed increased tolerance in a Δcre-1 mutant (CRE-1 is a key transcription factor that regulates the ability of fungi to utilize non-preferred carbon sources). In addition, analysis of aldehyde dehydrogenase mutants showed that ahd-2 (NCU00378) was involved in tolerance to furfural as well as the predicted membrane transporter NCU05580 (flr-1), a homolog of FLR1 in S. cerevisiae. Further to the rational screening, an unbiased approach revealed additional genes whose inactivation conferred increased tolerance to furfural: (i) NCU02488, which affected the abundance of the non-anchored cell wall protein NCW-1 (NCU05137), and (ii) the zinc finger protein NCU01407.ConclusionsWe identified attributes in N. crassa associated with tolerance or degradation of furfural, using complementary research approaches. The manipulation of the genes involved in furan sensitivity can provide a means for improving the production of biofuel producing strains. Similar research approaches can be utilized in N. crassa and other filamentous fungi to identify additional attributes relevant to other furans or toxic chemicals.

Published
2019

5. A role for small secreted proteins (SSPs) in a saprophytic fungal lifestyle: Ligninolytic enzyme regulation in Pleurotus ostreatus.

Author

Feldman, Daria, Kowbel, David J, Glass, N Louise, Yarden, Oded, and Hadar, Yitzhak

Subjects
Pleurotus, Cellulose, Lignin, Alcohol Oxidoreductases, Fungal Proteins, Food Chain, Genes, Fungal, Genes, Fungal, Biochemistry and Cell Biology, Other Physical Sciences
Abstract

Small secreted proteins (SSPs), along with lignocellulose degrading enzymes, are integral components of the secretome of Pleurotus ostreatus, a white rot fungus. In this study, we identified 3 genes (ssp1, 2 and 3) encoding proteins that are annotated as SSPs and that exhibited of ~4,500- fold expression, 24 hr following exposure to the toxic compound 5-hydroxymethylfurfural (HMF). Homologues to genes encoding these SSPs are present in the genomes of other basidiomycete fungi, however the role of SSPs is not yet understood. SSPs, aryl-alcohol oxidases (AAO) and the intracellular aryl-alcohol dehydrogenases (AAD) were also produced after exposure to other aryl-alcohols, known substrates and inducers of AAOs, and during idiophase (after the onset of secondary metabolism). A knockdown strain of ssp1 exhibited reduced production of AAO-and AAD-encoding genes after HMF exposure. Conversely, a strain overexpressing ssp1 exhibited elevated expression of genes encoding AAOs and ADD, resulting in a 3-fold increase in enzymatic activity of AAOs, as well as increased expression and protein abundance of versatile peroxidase 1, which directly degrades lignin. We propose that in addition to symbionts and pathogens, SSPs also have roles in saprophytes and function in P. ostreatus as components of the ligninolytic system.

Published
2017

6. The SEB-1 Transcription Factor Binds to the STRE Motif in Neurospora crassa and Regulates a Variety of Cellular Processes Including the Stress Response and Reserve Carbohydrate Metabolism.

Author

Freitas, Fernanda Zanolli, Virgilio, Stela, Cupertino, Fernanda Barbosa, Kowbel, David John, Fioramonte, Mariana, Gozzo, Fabio Cesar, Glass, N Louise, and Bertolini, Maria Célia

Subjects
Neurospora crassa, Transcription Factors, Chromatin Immunoprecipitation, Environment, Gene Expression Regulation, Fungal, Gene Deletion, Binding Sites, Amino Acid Sequence, Response Elements, Protein Binding, Phenotype, Carbohydrate Metabolism, Promoter Regions, Genetic, Stress, Physiological, High-Throughput Nucleotide Sequencing, Nucleotide Motifs, ChIP-qPCR, RNA-seq, SEB-1, stress response, Gene Expression Regulation, Fungal, Promoter Regions, Genetic, Stress, Physiological, Genetics
Abstract

When exposed to stress conditions, all cells induce mechanisms resulting in an attempt to adapt to stress that involve proteins which, once activated, trigger cell responses by modulating specific signaling pathways. In this work, using a combination of pulldown assays and mass spectrometry analyses, we identified the Neurospora crassa SEB-1 transcription factor that binds to the Stress Response Element (STRE) under heat stress. Orthologs of SEB-1 have been functionally characterized in a few filamentous fungi as being involved in stress responses; however, the molecular mechanisms mediated by this transcription factor may not be conserved. Here, we provide evidences for the involvement of N. crassa SEB-1 in multiple cellular processes, including response to heat, as well as osmotic and oxidative stress. The Δseb-1 strain displayed reduced growth under these conditions, and genes encoding stress-responsive proteins were differentially regulated in the Δseb-1 strain grown under the same conditions. In addition, the SEB-1-GFP protein translocated from the cytosol to the nucleus under heat, osmotic, and oxidative stress conditions. SEB-1 also regulates the metabolism of the reserve carbohydrates glycogen and trehalose under heat stress, suggesting an interconnection between metabolism control and this environmental condition. We demonstrated that SEB-1 binds in vivo to the promoters of genes encoding glycogen metabolism enzymes and regulates their expression. A genome-wide transcriptional profile of the Δseb-1 strain under heat stress was determined by RNA-seq, and a broad range of cellular processes was identified that suggests a role for SEB-1 as a protein interconnecting these mechanisms.

Published
2016

7. Characterization of Greenbeard Genes Involved in Long-Distance Kind Discrimination in a Microbial Eukaryote.

Author

Heller, Jens, Zhao, Jiuhai, Rosenfield, Gabriel, Kowbel, David J, Gladieux, Pierre, and Glass, N Louise

Subjects
Neurospora crassa, Phylogeny, Signal Transduction, Alleles, Genes, Fungal, Selection, Genetic, Genes, Fungal, Selection, Genetic, Developmental Biology, Biological Sciences, Medical and Health Sciences, Agricultural and Veterinary Sciences
Abstract

Microorganisms are capable of communication and cooperation to perform social activities. Cooperation can be enforced using kind discrimination mechanisms in which individuals preferentially help or punish others, depending on genetic relatedness only at certain loci. In the filamentous fungus Neurospora crassa, genetically identical asexual spores (germlings) communicate and fuse in a highly regulated process, which is associated with fitness benefits during colony establishment. Recognition and chemotropic interactions between isogenic germlings requires oscillation of the mitogen-activated protein kinase (MAPK) signal transduction protein complex (NRC-1, MEK-2, MAK-2, and the scaffold protein HAM-5) to specialized cell fusion structures termed conidial anastomosis tubes. Using a population of 110 wild N. crassa isolates, we investigated germling fusion between genetically unrelated individuals and discovered that chemotropic interactions are regulated by kind discrimination. Distinct communication groups were identified, in which germlings within one communication group interacted at high frequency, while germlings from different communication groups avoided each other. Bulk segregant analysis followed by whole genome resequencing identified three linked genes (doc-1, doc-2, and doc-3), which were associated with communication group phenotype. Alleles at doc-1, doc-2, and doc-3 fell into five haplotypes that showed transspecies polymorphism. Swapping doc-1 and doc-2 alleles from different communication group strains was necessary and sufficient to confer communication group affiliation. During chemotropic interactions, DOC-1 oscillated with MAK-2 to the tips of conidial anastomosis tubes, while DOC-2 was statically localized to the plasma membrane. Our data indicate that doc-1, doc-2, and doc-3 function as "greenbeard" genes, involved in mediating long-distance kind recognition that involves actively searching for one's own type, resulting in cooperation between non-genealogical relatives. Our findings serve as a basis for investigations into the mechanisms associated with attraction, fusion, and kind recognition in other eukaryotic species.

Published
2016

8. Neurospora crassa transcriptomics reveals oxidative stress and plasma membrane homeostasis biology genes as key targets in response to chitosan

Author

Lopez-Moya, Federico, Kowbel, David, Nueda, Ma José, Palma-Guerrero, Javier, Glass, N Louise, and Lopez-Llorca, Luis Vicente

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Antifungal Agents, Calcium, Cell Membrane, Chitosan, Fungal Proteins, Gene Expression Profiling, Gene Expression Regulation, Fungal, Gene Ontology, Genes, Fungal, Homeostasis, Microbial Sensitivity Tests, Molecular Sequence Annotation, Neurospora crassa, Oxidation-Reduction, Oxidative Stress, Reactive Oxygen Species, Spores, Fungal, Transcriptome, Biochemistry & Molecular Biology, Biochemistry and cell biology
Abstract

Chitosan is a natural polymer with antimicrobial activity. Chitosan causes plasma membrane permeabilization and induction of intracellular reactive oxygen species (ROS) in Neurospora crassa. We have determined the transcriptional profile of N. crassa to chitosan and identified the main gene targets involved in the cellular response to this compound. Global network analyses showed membrane, transport and oxidoreductase activity as key nodes affected by chitosan. Activation of oxidative metabolism indicates the importance of ROS and cell energy together with plasma membrane homeostasis in N. crassa response to chitosan. Deletion strain analysis of chitosan susceptibility pointed NCU03639 encoding a class 3 lipase, involved in plasma membrane repair by lipid replacement, and NCU04537 a MFS monosaccharide transporter related to assimilation of simple sugars, as main gene targets of chitosan. NCU10521, a glutathione S-transferase-4 involved in the generation of reducing power for scavenging intracellular ROS is also a determinant chitosan gene target. Ca(2+) increased tolerance to chitosan in N. crassa. Growth of NCU10610 (fig 1 domain) and SYT1 (a synaptotagmin) deletion strains was significantly increased by Ca(2+) in the presence of chitosan. Both genes play a determinant role in N. crassa membrane homeostasis. Our results are of paramount importance for developing chitosan as an antifungal.

Published
2016

9. Detoxification of 5-hydroxymethylfurfural by the Pleurotus ostreatus lignolytic enzymes aryl alcohol oxidase and dehydrogenase

Author

Feldman, Daria, Kowbel, David J, Glass, N Louise, Yarden, Oded, and Hadar, Yitzhak

Subjects
Alcoholism, Alcohol Use and Health, Substance Misuse, Pleurotus ostreatus, 5-hydroxymethylfurfural, Aryl-alcohol oxidase, Aryl-alcohol dehydrogenase
Abstract

BackgroundCurrent large-scale pretreatment processes for lignocellulosic biomass are generally accompanied by the formation of toxic degradation products, such as 5-hydroxymethylfurfural (HMF), which inhibit cellulolytic enzymes and fermentation by ethanol-producing yeast. Overcoming these toxic effects is a key technical barrier in the biochemical conversion of plant biomass to biofuels. Pleurotus ostreatus, a white-rot fungus, can efficiently degrade lignocellulose. In this study, we analyzed the ability of P. ostreatus to tolerate and metabolize HMF and investigated relevant molecular pathways associated with these processes.ResultsP. ostreatus was capable to metabolize and detoxify HMF 30 mM within 48 h, converting it into 2,5-bis-hydroxymethylfuran (HMF alcohol) and 2,5-furandicarboxylic acid (FDCA), which subsequently allowed the normal yeast growth in amended media. We show that two enzymes groups, which belong to the ligninolytic system, aryl-alcohol oxidases and a dehydrogenase, are involved in this process. HMF induced the transcription and production of these enzymes and was accompanied by an increase in activity levels. We also demonstrate that following the induction of these enzymes, HMF could be metabolized in vitro.ConclusionsAryl-alcohol oxidase and dehydrogenase gene family members are part of the transcriptional and subsequent translational response to HMF exposure in P. ostreatus and are involved in HMF transformation. Based on our data, we propose that these enzymatic capacities of P. ostreatus either be integrated in biomass pretreatment or the genes encoding these enzymes may function to detoxify HMF via heterologous expression in fermentation organisms, such as Saccharomyces cerevisiae.

Published
2015

10. Transcription profiling of the Neurospora crassa response to a group of synthetic (thio)xanthones and a natural acetophenone

Author

Gonçalves, A Pedro, Silva, Nuno, Oliveira, Carla, Kowbel, David J, Glass, N Louise, Kijjoa, Anake, Palmeira, Andreia, Sousa, Emília, Pinto, Madalena, and Videira, Arnaldo

Subjects
Microbiology, Biological Sciences, Biotechnology, Genetics, Neurospora crassa, Transcriptional profiling, Xanthones, Acetophenone, ABC transporters, CZT-1, Biochemistry and Cell Biology, Oncology and Carcinogenesis, Data management and data science
Abstract

Xanthones are a class of heterocyclic compounds characterized by a dibenzo-γ-pyrone nucleus. Analysis of their mode of action in cells, namely uncovering alterations in gene expression, is important because these compounds have potential therapeutic applications. Thus, we studied the transcriptional response of the filamentous fungus Neurospora crassa to a group of synthetic (thio)xanthone derivatives with antitumor activity using high throughput RNA sequencing. The induction of ABC transporters in N. crassa, particularly atrb and cdr4, is a common consequence of the treatment with xanthones. In addition, we found a group of genes repressed by all of the tested (thio)xanthone derivatives, that are evocative of genes downregulated during oxidative stress. The transcriptional response of N. crassa treated with an acetophenone isolated from the soil fungus Neosartorya siamensis shares some features with the (thio)xanthone-elicited gene expression profiles. Two of the (thio)xanthone derivatives and the N. siamensis-derived acetophenone inhibited the growth of N. crassa. Our work also provides framework datasets that may orientate future studies on the mechanisms of action of some groups of xanthones.

Published
2015

11. Transcription profiling of the Neurospora crassa response to a group of synthetic (thio)xanthones and a natural acetophenone.

Author

Pedro Gonçalves, A, Silva, Nuno, Oliveira, Carla, Kowbel, David J, Glass, N Louise, Kijjoa, Anake, Palmeira, Andreia, Sousa, Emília, Pinto, Madalena, and Videira, Arnaldo

Subjects
ABC transporters, Acetophenone, CZT-1, Neurospora crassa, Transcriptional profiling, Xanthones, Biochemistry and Cell Biology, Genetics, Oncology and Carcinogenesis
Abstract

Xanthones are a class of heterocyclic compounds characterized by a dibenzo-γ-pyrone nucleus. Analysis of their mode of action in cells, namely uncovering alterations in gene expression, is important because these compounds have potential therapeutic applications. Thus, we studied the transcriptional response of the filamentous fungus Neurospora crassa to a group of synthetic (thio)xanthone derivatives with antitumor activity using high throughput RNA sequencing. The induction of ABC transporters in N. crassa, particularly atrb and cdr4, is a common consequence of the treatment with xanthones. In addition, we found a group of genes repressed by all of the tested (thio)xanthone derivatives, that are evocative of genes downregulated during oxidative stress. The transcriptional response of N. crassa treated with an acetophenone isolated from the soil fungus Neosartorya siamensis shares some features with the (thio)xanthone-elicited gene expression profiles. Two of the (thio)xanthone derivatives and the N. siamensis-derived acetophenone inhibited the growth of N. crassa. Our work also provides framework datasets that may orientate future studies on the mechanisms of action of some groups of xanthones.

Published
2015

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

Author

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

Subjects
Genetics, Sleep Research, 1.1 Normal biological development and functioning, Underpinning research, Chromatin, Circadian Clocks, Circadian Rhythm, Feedback, Physiological, Gene Expression Regulation, Fungal, Gene Silencing, Genes, Fungal, Light, Neurospora crassa, RNA Polymerase II, RNA, Antisense, RNA, Untranslated, Transcription Termination, Genetic, Transcription, Genetic, General Science & Technology
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.

Published
2014

14. Extracellular calcium triggers unique transcriptional programs and modulates staurosporine-induced cell death in Neurospora crassa.

Author

Gonçalves, AP, Monteiro, João, Lucchi, Chiara, Kowbel, David J, Cordeiro, JM, Correia-de-Sá, Paulo, Rigden, Daniel J, Glass, NL, and Videira, Arnaldo

Subjects
Ca2+-binding motif, Neurospora crassa, ROS, calcium, cell death, Genetics, 1.1 Normal biological development and functioning
Abstract

Alterations in the intracellular levels of calcium are a common response to cell death stimuli in animals and fungi and, particularly, in the Neurospora crassa response to staurosporine. We highlight the importance of the extracellular availability of Ca2+ for this response. Limitation of the ion in the culture medium further sensitizes cells to the drug and results in increased accumulation of reactive oxygen species (ROS). Conversely, an approximately 30-fold excess of external Ca2+ leads to increased drug tolerance and lower ROS generation. In line with this, distinct staurosporine-induced cytosolic Ca2+ signaling profiles were observed in the absence or presence of excessive external Ca2+. High-throughput RNA sequencing revealed that different concentrations of extracellular Ca2+ define distinct transcriptional programs. Our transcriptional profiling also pointed to two putative novel Ca2+-binding proteins, encoded by the NCU08524 and NCU06607 genes, and provides a reference dataset for future investigations on the role of Ca2+ in fungal biology.

Published
2014

15. CZT-1 Is a Novel Transcription Factor Controlling Cell Death and Natural Drug Resistance in Neurospora crassa

Author

Gonçalves, A Pedro, Hall, Charles, Kowbel, David J, Glass, N Louise, and Videira, Arnaldo

Subjects
Human Genome, Genetics, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology, Generic health relevance, ATP-Binding Cassette Transporters, Apoptosis, Drug Resistance, Fungal, Drug Resistance, Multiple, Fungal, Fungal Proteins, Gene Expression Profiling, Gene Expression Regulation, Fungal, Genome-Wide Association Study, Mutation, Neurospora crassa, Polymorphism, Single Nucleotide, Reactive Oxygen Species, Staurosporine, Transcription Factors, cell death, multidrug resistance, zinc cluster transcription factor, genome-wide association study, RNA-seq
Abstract

We pinpoint CZT-1 (cell death-activated zinc cluster transcription factor) as a novel transcription factor involved in tolerance to cell death induced by the protein kinase inhibitor staurosporine in Neurospora crassa. Transcriptional profiling of staurosporine-treated wild-type cells by RNA-sequencing showed that genes encoding the machinery for protein synthesis are enriched among the genes repressed by the drug. Functional category enrichment analyses also show that genes encoding components of the mitochondrial respiratory chain are downregulated by staurosporine, whereas genes involved in endoplasmic reticulum activities are upregulated. In contrast, a staurosporine-treated Δczt-1 deletion strain is unable to repress the genes for the respiratory chain and to induce the genes related to the endoplasmic reticulum, indicating a role for CZT-1 in the regulation of activity of these organelles. The Δczt-1 mutant strain displays increased reactive oxygen species accumulation on insult with staurosporine. A genome-wide association study of a wild population of N. crassa isolates pointed out genes associated with a cell death role of CZT-1, including catalase-1 (cat-1) and apoptosis-inducing factor-homologous mitochondrion-associated inducer of death 2 (amid-2). Importantly, differences in the expression of czt-1 correlates with resistance to staurosporine among wild isolate strains. Our results reveal a novel transcription factor that regulates drug resistance and cell death in response to staurosporine in laboratory strains as well as in wild isolates of N. crassa.

Published
2014

16. Discovering Functions of Unannotated Genes from a Transcriptome Survey of Wild Fungal Isolates

Author

Ellison, Christopher E, Kowbel, David, Glass, N Louise, Taylor, John W, and Brem, Rachel B

Subjects
Microbiology, Plant Biology, Biological Sciences, Bioinformatics and Computational Biology, Infectious Diseases, Human Genome, Genetics, Biotechnology, Infection, Carbon, Fungal Proteins, Genes, Fungal, Genotype, Hyphae, Molecular Sequence Annotation, Neurospora crassa, Nitrogen, Optical Imaging, Phenotype, Transcriptome, Biochemistry and cell biology, Medical microbiology
Abstract

Most fungal genomes are poorly annotated, and many fungal traits of industrial and biomedical relevance are not well suited to classical genetic screens. Assigning genes to phenotypes on a genomic scale thus remains an urgent need in the field. We developed an approach to infer gene function from expression profiles of wild fungal isolates, and we applied our strategy to the filamentous fungus Neurospora crassa. Using transcriptome measurements in 70 strains from two well-defined clades of this microbe, we first identified 2,247 cases in which the expression of an unannotated gene rose and fell across N. crassa strains in parallel with the expression of well-characterized genes. We then used image analysis of hyphal morphologies, quantitative growth assays, and expression profiling to test the functions of four genes predicted from our population analyses. The results revealed two factors that influenced regulation of metabolism of nonpreferred carbon and nitrogen sources, a gene that governed hyphal architecture, and a gene that mediated amino acid starvation resistance. These findings validate the power of our population-transcriptomic approach for inference of novel gene function, and we suggest that this strategy will be of broad utility for genome-scale annotation in many fungal systems. IMPORTANCE Some fungal species cause deadly infections in humans or crop plants, and other fungi are workhorses of industrial chemistry, including the production of biofuels. Advances in medical and industrial mycology require an understanding of the genes that control fungal traits. We developed a method to infer functions of uncharacterized genes by observing correlated expression of their mRNAs with those of known genes across wild fungal isolates. We applied this strategy to a filamentous fungus and predicted functions for thousands of unknown genes. In four cases, we experimentally validated the predictions from our method, discovering novel genes involved in the metabolism of nutrient sources relevant for biofuel production, as well as colony morphology and starvation resistance. Our strategy is straightforward, inexpensive, and applicable for predicting gene function in many fungal species.

Published
2014

17. Genome wide association identifies novel loci involved in fungal communication.

Author

Palma-Guerrero, Javier, Hall, Charles R, Kowbel, David, Welch, Juliet, Taylor, John W, Brem, Rachel B, and Glass, N Louise

Subjects
Neurospora crassa, Fungal Proteins, Chromosome Mapping, Cell Communication, Genotype, Genome-Wide Association Study, Developmental Biology, Genetics
Abstract

Understanding how genomes encode complex cellular and organismal behaviors has become the outstanding challenge of modern genetics. Unlike classical screening methods, analysis of genetic variation that occurs naturally in wild populations can enable rapid, genome-scale mapping of genotype to phenotype with a medium-throughput experimental design. Here we describe the results of the first genome-wide association study (GWAS) used to identify novel loci underlying trait variation in a microbial eukaryote, harnessing wild isolates of the filamentous fungus Neurospora crassa. We genotyped each of a population of wild Louisiana strains at 1 million genetic loci genome-wide, and we used these genotypes to map genetic determinants of microbial communication. In N. crassa, germinated asexual spores (germlings) sense the presence of other germlings, grow toward them in a coordinated fashion, and fuse. We evaluated germlings of each strain for their ability to chemically sense, chemotropically seek, and undergo cell fusion, and we subjected these trait measurements to GWAS. This analysis identified one gene, NCU04379 (cse-1, encoding a homolog of a neuronal calcium sensor), at which inheritance was strongly associated with the efficiency of germling communication. Deletion of cse-1 significantly impaired germling communication and fusion, and two genes encoding predicted interaction partners of CSE1 were also required for the communication trait. Additionally, mining our association results for signaling and secretion genes with a potential role in germling communication, we validated six more previously unknown molecular players, including a secreted protease and two other genes whose deletion conferred a novel phenotype of increased communication and multi-germling fusion. Our results establish protein secretion as a linchpin of germling communication in N. crassa and shed light on the regulation of communication molecules in this fungus. Our study demonstrates the power of population-genetic analyses for the rapid identification of genes contributing to complex traits in microbial species.

Published
2013

18. Evolution and diversity of a fungal self/nonself recognition locus.

Author

Hall, Charles, Welch, Juliet, Kowbel, David J, and Glass, N Louise

Subjects
Chromosomes, Fungal, Fungi, Sordariales, Neurospora crassa, Fungal Proteins, DNA, Fungal, Chromosome Mapping, Sequence Analysis, DNA, Evolution, Molecular, Phylogeny, Species Specificity, Haploidy, Alleles, Genes, Fungal, Molecular Sequence Data, Genetic Variation, Selection, Genetic, Genetic Linkage, Chromosomes, Fungal, DNA, Sequence Analysis, Evolution, Molecular, Genes, Selection, Genetic, General Science & Technology
Abstract

BackgroundSelf/nonself discrimination is an essential feature for pathogen recognition and graft rejection and is a ubiquitous phenomenon in many organisms. Filamentous fungi, such as Neurospora crassa, provide a model for analyses of population genetics/evolution of self/nonself recognition loci due to their haploid nature, small genomes and excellent genetic/genomic resources. In N. crassa, nonself discrimination during vegetative growth is determined by 11 heterokaryon incompatibility (het) loci. Cell fusion between strains that differ in allelic specificity at any of these het loci triggers a rapid programmed cell death response.Methodology/principal findingsIn this study, we evaluated the evolution, population genetics and selective mechanisms operating at a nonself recognition complex consisting of two closely linked loci, het-c (NCU03493) and pin-c (NCU03494). The genomic position of pin-c next to het-c is unique to Neurospora/Sordaria species, and originated by gene duplication after divergence from other species within the Sordariaceae. The het-c pin-c alleles in N. crassa are in severe linkage disequilibrium and consist of three haplotypes, het-c1/pin-c1, het-c2/pin-c2 and het-c3/pin-c3, which are equally frequent in population samples and exhibit trans-species polymorphisms. The absence of recombinant haplotypes is correlated with divergence of the het-c/pin-c intergenic sequence. Tests for positive and balancing selection at het-c and pin-c support the conclusion that both of these loci are under non-neutral balancing selection; other regions of both genes appear to be under positive selection. Our data show that the het-c2/pin-c2 haplotype emerged by a recombination event between the het-c1/pin-c1 and het-c3/pin-c3 approximately 3-12 million years ago.Conclusions/significanceThese results support models by which loci that confer nonself discrimination form by the association of polymorphic genes with genes containing HET domains. Distinct allele classes can emerge by recombination and positive selection and are subsequently maintained by balancing selection and divergence of intergenic sequence resulting in recombination blocks between haplotypes.

Published
2010

20. Positional Cloning of ZNF217 and NABC1: Genes Amplified at 20q13.2 and Overexpressed in Breast Carcinoma

Author

Collins, Colin, Rommens, Johanna M., Kowbel, David, Godfrey, Tony, Tanner, Minna, Hwang, Soo-In, Polikoff, Daniel, Nonet, Genevieve, Cochran, Joanne, Myambo, Ken, Jay, Karen E., Froula, Jeff, Cloutier, Thomas, Kuo, Wen-Lin, Yaswen, Paul, Dairkee, Shanaz, Giovanola, Jennifer, Hutchinson, Gordon B., Isola, Jorma, Palazzolo, Mike, Martin, Chris, Ericsson, Cheryl, Pinkel, Dan, Albertson, Donna, Li, Wu-Bo, and Gray, Joe W.

Published
1998

23. The regulatory and transcriptional landscape associated with carbon utilization in a filamentous fungus.

Author

Wu, Vincent, Wu, Vincent, Thieme, Nils, Huberman, Lori, Dietschmann, Axel, Kowbel, David, Lee, Juna, Calhoun, Sara, Singan, Vasanth, Lipzen, Anna, Xiong, Yi, Monti, Remo, Blow, Matthew, OMalley, Ronan, Grigoriev, Igor, Benz, J, Glass, N Louise, Wu, Vincent, Wu, Vincent, Thieme, Nils, Huberman, Lori, Dietschmann, Axel, Kowbel, David, Lee, Juna, Calhoun, Sara, Singan, Vasanth, Lipzen, Anna, Xiong, Yi, Monti, Remo, Blow, Matthew, OMalley, Ronan, Grigoriev, Igor, Benz, J, and Glass, N Louise

Abstract

Filamentous fungi, such as Neurospora crassa, are very efficient in deconstructing plant biomass by the secretion of an arsenal of plant cell wall-degrading enzymes, by remodeling metabolism to accommodate production of secreted enzymes, and by enabling transport and intracellular utilization of plant biomass components. Although a number of enzymes and transcriptional regulators involved in plant biomass utilization have been identified, how filamentous fungi sense and integrate nutritional information encoded in the plant cell wall into a regulatory hierarchy for optimal utilization of complex carbon sources is not understood. Here, we performed transcriptional profiling of N. crassa on 40 different carbon sources, including plant biomass, to provide data on how fungi sense simple to complex carbohydrates. From these data, we identified regulatory factors in N. crassa and characterized one (PDR-2) associated with pectin utilization and one with pectin/hemicellulose utilization (ARA-1). Using in vitro DNA affinity purification sequencing (DAP-seq), we identified direct targets of transcription factors involved in regulating genes encoding plant cell wall-degrading enzymes. In particular, our data clarified the role of the transcription factor VIB-1 in the regulation of genes encoding plant cell wall-degrading enzymes and nutrient scavenging and revealed a major role of the carbon catabolite repressor CRE-1 in regulating the expression of major facilitator transporter genes. These data contribute to a more complete understanding of cross talk between transcription factors and their target genes, which are involved in regulating nutrient sensing and plant biomass utilization on a global level.

Published
2020

24. Integration of high-resolution array comparative genomic hybridization analysis of chromosome 16q with expression array data refines common regions of loss at 16q23–qter and identifies underlying candidate tumor suppressor genes in prostate cancer

Author

Vivienne Watson, J E, Doggett, Norman A, Albertson, Donna G, Andaya, Armann, Chinnaiyan, Arul, van Dekken, Herman, Ginzinger, David, Haqq, Christopher, James, Karen, Kamkar, Sherwin, Kowbel, David, Pinkel, Daniel, Schmitt, Lars, Simko, Jeffry P, Volik, Stanislav, Weinberg, Vivian K, Paris, Pamela L, and Collins, Colin

Published
2004
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25. MOESM1 of Identification and manipulation of Neurospora crassa genes involved in sensitivity to furfural

Author

Feldman, Daria, Kowbel, David, Cohen, Adi, N. Glass, Hadar, Yitzhak, and Yarden, Oded

Subjects
integumentary system
Abstract

Additional file 1: Figure S1. Inhibitory effect of furfural on N. crassa wild-type in solid media. Figure S2. GO terms associated with biological processes that are up regulated in N. crassa, upon exposure to HMF. Figure S3. Complementation of Î NCU05580 (A) and reduced expression of NCU05580 after exposure to 120 mM of furfural. Figure S4. Profiles of secreted proteins obtained from wild-type, T112 and â NCU02488 cultures grown in the presence of furfural. Table S2. Notable genes whose expression levels were increased following exposure to furfural. Table S3. Summary of genes that had the highest up- or downregulation in response to furfural or HMF and were screened for tolerance to the furans. Table S4. Summary of genes whose deletion strains were analyzed in a hypothesis-driven approach. Table S5. Inhibition in relative growth of different mutant strains in the presence of 60 mM of furfural, on solid media. The presented results were normalized to wild-type. The values and standard errors represent the average of at least three biological replicates. Table S6. Summary of genes identified in this study that are involved in tolerance to furfural. Table S7. Strains of N. crassa used in this study. Table S8. Oligonucleotides used in this study.

Published
2019
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27. Whole genome scanning identifies genotypes associated with recurrence and metastasis in prostate tumors

Author

Paris, Pamela L., Andaya, Armann, Fridlyand, Jane, Jain, Ajay N., Weinberg, Vivian, Kowbel, David, Brebner, John H., Simko, Jeff, Watson, J.E. Vivienne, Volik, Stas, Albertson, Donna G., Pinkel, Daniel, Alers, Janneke C., van der Kwast, Theodorus H., Vissers, Kees J., Schroder, Fritz H., Wildhagen, Mark F., Febbo, Phillip G., Chinnaiyan, Arul M., Pienta, Kenneth J., Carroll, Peter R., Rubin, Mark A., Collins, Colin, and van Dekken, Herman

Published
2004

30. High-Resolution Analysis of Paraffin-Embedded and Formalin-Fixed Prostate Tumors Using Comparative Genomic Hybridization to Genomic Microarrays

Author

Paris, Pamela L., Albertson, Donna G., Alers, Janneke C., Andaya, Armann, Carroll, Peter, Fridlyand, Jane, Jain, Ajay N., Kamkar, Sherwin, Kowbel, David, Krijtenburg, Pieter-Jaap, Pinkel, Daniel, Schröder, Fritz H., Vissers, Kees J., Watson, Vivienne J.E., Wildhagen, Mark F., Collins, Colin, and van Dekken, Herman

Published
2003
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31. Genomic Sequencing Reveals Demographic, Historical, and Selective Factors Associated with the Diversification of the Fire-Associated Fungus Neurospora discreta

Author

Gladieux, Pierre, Wilson, Ben, PERRAUDEAU, FANNY, Montoya, Liliam A, KOWBEL, DAVID, HANN-SODEN, Christopher, Fischer, Monika, SYLVAIN, IMAN, Jacobson, David J, Taylor, John W, Department of Plant and Microbial Biology, University of California, Ecologie Systématique et Evolution (ESE), Université Paris-Sud - Paris 11 (UP11)-AgroParisTech-Centre National de la Recherche Scientifique (CNRS), Department of Biology, Stanford University, and École polytechnique (X)

Subjects
[SDV]Life Sciences [q-bio]
Abstract

International audience; Background. Delineating microbial populations, discovering ecologically relevant phe¬notypes, and identifying migrants and admixed individuals has long proved notoriously difficult, thereby limiting our understanding the evolutionary forces at play during the diversification of microbial species. However, recent advances in sequencing and com¬putational methods have enabled an unbiased approach whereby incipient species and the genetic correlates of speciation can be identified by examining patterns of genomic variation within and between lineages. Results. We present here a population genomic study of a phylogenetic species in the Neurospora discreta species complex, based on the resequencing of full genomes (ca. 37Mb) for 52 fungal isolates from 9 sites in three continents. Population structure analy¬ses revealed two distinct lineages in Southeast Asia, three lineages in North America/ Europe with a broad longitudinal and latitudinal range, and limited admixture between lineages. Genome scans for selective sweeps and comparisons of the genomic land¬scapes of diversity and recombination provided no support for a role of linked selection on genomic heterogeneity in levels of divergence between lineages. However, demo¬graphic inference indicated that the observed genomic heterogeneity in divergence was generated by varying rates of gene flow between lineages following a period of isolation. Conclusion. Many putative gene transfer events between phylogenetically divergent fungal lineages have been discovered, and our work highlights the quantitative impor¬tance of genetic exchanges between more closely related taxa to the evolution of fungal genomes. Our study also supports the role of allopatric isolation as a driver of diversi¬fication in saprobic microbes.

Published
2015

32. Neurospora crassa transcriptomics reveals oxidative stress and plasma membrane homeostasis biology genes as key targets in response to chitosan

Author

Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Universidad de Alicante. Departamento de Matemáticas, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Lopez-Moya, Federico, Kowbel, David, Nueda, María José, Palma-Guerrero, Javier, Glass, N. Louise, Lopez-Llorca, Luis Vicente, Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Universidad de Alicante. Departamento de Matemáticas, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Lopez-Moya, Federico, Kowbel, David, Nueda, María José, Palma-Guerrero, Javier, Glass, N. Louise, and Lopez-Llorca, Luis Vicente

Abstract

Chitosan is a natural polymer with antimicrobial activity. Chitosan causes plasma membrane permeabilization and induction of intracellular reactive oxygen species (ROS) in Neurospora crassa. We have determined the transcriptional profile of N. crassa to chitosan and identified the main gene targets involved in the cellular response to this compound. Global network analyses showed membrane, transport and oxidoreductase activity as key nodes affected by chitosan. Activation of oxidative metabolism indicates the importance of ROS and cell energy together with plasma membrane homeostasis in N. crassa response to chitosan. Deletion strain analysis of chitosan susceptibility pointed NCU03639 encoding a class 3 lipase, involved in plasma membrane repair by lipid replacement, and NCU04537 a MFS monosaccharide transporter related to assimilation of simple sugars, as main gene targets of chitosan. NCU10521, a glutathione S-transferase-4 involved in the generation of reducing power for scavenging intracellular ROS is also a determinant chitosan gene target. Ca2+ increased tolerance to chitosan in N. crassa. Growth of NCU10610 (fig 1 domain) and SYT1 (a synaptotagmin) deletion strains was significantly increased by Ca2+ in the presence of chitosan. Both genes play a determinant role in N. crassa membrane homeostasis. Our results are of paramount importance for developing chitosan as an antifungal.

Published
2016

33. The SEB-1 Transcription Factor Binds to the STRE Motif in Neurospora crassa and Regulates a Variety of Cellular Processes Including the Stress Response and Reserve Carbohydrate Metabolism

Author

Freitas, Fernanda Zanolli, primary, Virgilio, Stela, additional, Cupertino, Fernanda Barbosa, additional, Kowbel, David John, additional, Fioramonte, Mariana, additional, Gozzo, Fabio Cesar, additional, Glass, N Louise, additional, and Bertolini, Maria Célia, additional

Published
2016
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35. Genomic sequencing reveals historical, demographic and selective factors associated with the diversification of the fire‐associated fungus Neurospora discreta

Author

Gladieux, Pierre, primary, Wilson, Benjamin A., additional, Perraudeau, Fanny, additional, Montoya, Liliam A., additional, Kowbel, David, additional, Hann‐Soden, Christopher, additional, Fischer, Monika, additional, Sylvain, Iman, additional, Jacobson, David J., additional, and Taylor, John W., additional

Published
2015
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38. Decoding the fine-scale structure of a breast cancer genome and transcriptome

Author

Volik, Stanislav, primary, Raphael, Benjamin J., additional, Huang, Guiqing, additional, Stratton, Michael R., additional, Bignel, Graham, additional, Murnane, John, additional, Brebner, John H., additional, Bajsarowicz, Krystyna, additional, Paris, Pamela L., additional, Tao, Quanzhou, additional, Kowbel, David, additional, Lapuk, Anna, additional, Shagin, Dmitri A., additional, Shagina, Irina A., additional, Gray, Joe W., additional, Cheng, Jan-Fang, additional, de Jong, Pieter J., additional, Pevzner, Pavel, additional, and Collins, Colin, additional

Published
2006
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39. 387: Whole Genome Scanning Identifies Genotypes Associated with Recurrence and Metastasis in Prostate Tumors

Author

Paris, Pamela L., primary, Andaya, Armann, additional, Fridlyand, Jane, additional, Jain, Ajay, additional, Weinberg, Vivian, additional, Kowbel, David, additional, Brebner, Jay, additional, Simko, Jeff, additional, Volik, Stas, additional, Albertson, Donna, additional, Pinkel, Daniel, additional, Febbo, Phillip, additional, Chinnaiyan, Arul M., additional, Pienta, Kenneth, additional, Rubin, Mark A., additional, Carroll, Peter R., additional, van Dekken, Herman, additional, and Collins, Colin, additional

Published
2005
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40. Evaluation of genetic patterns in different tumor areas of intermediate-grade prostatic adenocarcinomas by high-resolution genomic array analysis

Author

van Dekken, Herman, primary, Paris, Pamela L., additional, Albertson, Donna G., additional, Alers, Janneke C., additional, Andaya, Armann, additional, Kowbel, David, additional, van der Kwast, Theodorus H., additional, Pinkel, Daniel, additional, Schröder, Fritz H., additional, Vissers, Kees J., additional, Wildhagen, Mark F., additional, and Collins, Colin, additional

Published
2004
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41. Molecular analysis ofWFDC1/ps20 gene in prostate cancer

Author

Watson, J.E. Vivienne, primary, Kamkar, Shervin, additional, James, Karen, additional, Kowbel, David, additional, Andaya, Armann, additional, Paris, Pamela L., additional, Simko, Jeffry, additional, Carroll, Peter, additional, McAlhany, Stephanie, additional, Rowley, David, additional, and Collins, Colin, additional

Published
2004
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42. Comprehensive Genome Sequence Analysis of a Breast Cancer Amplicon

Author

Collins, Colin, primary, Volik, Stanislav, additional, Kowbel, David, additional, Ginzinger, David, additional, Ylstra, Bauke, additional, Cloutier, Thomas, additional, Hawkins, Trevor, additional, Predki, Paul, additional, Martin, Christopher, additional, Wernick, Meredith, additional, Kuo, Wen-Lin, additional, Alberts, Arthur, additional, and Gray, Joe W., additional

Published
2001
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46. High resolution analysis of DNA copy number variation using comparative genomic hybridization to microarrays

Author

Pinkel, Daniel, primary, Segraves, Richard, additional, Sudar, Damir, additional, Clark, Steven, additional, Poole, Ian, additional, Kowbel, David, additional, Collins, Colin, additional, Kuo, Wen-Lin, additional, Chen, Chira, additional, Zhai, Ye, additional, Dairkee, Shanaz H., additional, Ljung, Britt-marie, additional, Gray, Joe W., additional, and Albertson, Donna G., additional

Published
1998
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47. Positional cloning of ZNF 217 and NABC 1 : Genes amplified at 20q13.2 and overexpressed in breast carcinoma

Author

Collins, Colin, primary, Rommens, Johanna M., additional, Kowbel, David, additional, Godfrey, Tony, additional, Tanner, Minna, additional, Hwang, Soo-in, additional, Polikoff, Daniel, additional, Nonet, Genevieve, additional, Cochran, Joanne, additional, Myambo, Ken, additional, Jay, Karen E., additional, Froula, Jeff, additional, Cloutier, Thomas, additional, Kuo, Wen-Lin, additional, Yaswen, Paul, additional, Dairkee, Shanaz, additional, Giovanola, Jennifer, additional, Hutchinson, Gordon B., additional, Isola, Jorma, additional, Kallioniemi, Olli-P, additional, Palazzolo, Mike, additional, Martin, Chris, additional, Ericsson, Cheryl, additional, Pinkel, Dan, additional, Albertson, Donna, additional, Li, Wu-Bo, additional, and Gray, Joe W., additional

Published
1998
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48. Nucleotide sequence of nine protein-coding genes and 22 tRNAs in the mitochondrial DNA of the sea star Pisaster ochraceus

Author

Banfield, David K., Smith, Michael J., Doteval, Karin, Gorski, Sharon M., Kowbel, David J., Banfield, David K., Smith, Michael J., Doteval, Karin, Gorski, Sharon M., and Kowbel, David J.

Abstract

We have cloned and sequenced over 9 kb of the mitochondrial genome from the sea star Pisaster ochraceus. Within a continuous 8.0-kb fragment are located the genes for NADH dehydrogenase subunits 1, 2, 3, and 4L (ND1, ND2, ND3, and ND4L), cytochrome oxidase subunits I, II, and III (COI, COII, and COIII), and adenosine triphosphatase subunits 6 and 8 (ATPase 6 and ATPase 8). This large fragment also contains a cluster of 13 tRNA genes between ND1 and COI as well as the genes for isoleucine tRNA between ND1 and ND2, arginine tRNA between COI and ND4L, lysine tRNA between COII and ATPase 8, and the serine (UCN) tRNA between COIII and ND3. The genes for the other five tRNAs lie outside this fragment. The gene for phenylalanine tRNA is located between cytochrome b and the 12S ribosomal genes. The genes for tRNAglu and tRNAthr are 3′ to the 12S ribosomal gene. The tRNAs for histidine and serine (AGN) are adjacent to each other and lie between ND4 and ND5. These data confirm the novel gene order in mitochondrial DNA (mtDNA) of sea stars and delineate additional distinctions between the sea star and other mtDNA molecules. © 1990 Springer-Verlag New York Inc.

Published
1990

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