Your search keyword '"Robert L. Metzenberg"' showing total 77 results

1. Characterization of Interactions Between and Among Components of the Meiotic Silencing by Unpaired DNA Machinery in Neurospora crassa Using Bimolecular Fluorescence Complementation

Author

Robert L. Metzenberg, Nirmala Bardiya, Patrick K. T. Shiu, Patricia J. Pukkila, Edward G. Barry, William G. Alexander, and Tony D. Perdue

Subjects

Yellow fluorescent protein, Recombinant Fusion Proteins, Molecular Sequence Data, behavioral disciplines and activities, Fluorescence, Neurospora crassa, Fungal Proteins, chemistry.chemical_compound, Bimolecular fluorescence complementation, Bacterial Proteins, Protein-fragment complementation assay, Notes, mental disorders, Genetics, Gene Silencing, DNA, Fungal, Luminescent Proteins, Cell Nucleus, Fungal protein, Base Sequence, biology, fungi, biology.organism_classification, Complementation, Meiosis, Protein Transport, chemistry, Luminescent Measurements, behavior and behavior mechanisms, biology.protein, psychological phenomena and processes, DNA, Plasmids, Protein Binding

Abstract

Bimolecular fluorescence complementation (BiFC) is based on the complementation between two nonfluorescent fragments of the yellow fluorescent protein (YFP) when they are united by interactions between proteins covalently linked to them. We have successfully applied BiFC in Neurospora crassa using two genes involved in meiotic silencing by unpaired DNA (MSUD) and observed macromolecular complex formation involving only SAD-1 proteins, only SAD-2 proteins, and mixtures of SAD-1 and SAD-2 proteins.

Published

2008

2. Neurospora Spore KillersSk-2andSk-3Suppress Meiotic Silencing by Unpaired DNA

Author

Robert L. Metzenberg, Namboori B. Raju, and Patrick K. T. Shiu

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Heterozygote, Genetic Linkage, Recombinant Fusion Proteins, Genes, Fungal, Green Fluorescent Proteins, Investigations, Regulatory Sequences, Nucleic Acid, Neurospora, Neurospora crassa, Histones, Meiotic Prophase I, chemistry.chemical_compound, Suppression, Genetic, Meiosis, Tubulin, Genetics, Gene Silencing, DNA, Fungal, Gene, biology, Fungal genetics, nutritional and metabolic diseases, Spores, Fungal, biology.organism_classification, Diploidy, Molecular biology, Chromosome Pairing, Meiotic drive, chemistry, DNA

Abstract

In Neurospora crassa, pairing of homologous DNA segments is monitored during meiotic prophase I. Any genes not paired with a homolog, as well as any paired homologs of that gene, are silenced during the sexual phase by a mechanism known as meiotic silencing by unpaired DNA (MSUD). Two genes required for MSUD have been described previously: sad-1 (suppressor of ascus dominance), encoding an RNA-directed RNA polymerase, and sad-2, encoding a protein that controls the perinuclear localization of SAD-1. Inactivation of either sad-1 or sad-2 suppresses MSUD. We have now shown that MSUD is also suppressed by either of two Spore killer strains, Sk-2 and Sk-3. These were both known to contain a haplotype segment that behaves as a meiotic drive element in heterozygous crosses of killer × sensitive. Progeny ascospores not carrying the killer element fail to mature and are inviable. Crosses homozygous for either of the killer haplotypes suppress MSUD even though ascospores are not killed. The killer activity maps to the same 30-unit-long region within which recombination is suppressed in killer × sensitive crosses. We suggest that the region contains a suppressor of MSUD.

Published

2007

3. The genome sequence of the filamentous fungus Neurospora crassa

Author

Matthew G. Endrizzi, Li-Jun Ma, Ian T. Paulsen, Gregory O. Kothe, David B. Jaffe, David E. A. Catcheside, Edward M. Marcotte, Jonathan Butler, Giuseppe Macino, Matthew S. Sachs, David D. Perkins, Jerome Naylor, Oded Yarden, Nick O. Read, Shunguang Wang, Sarah E. Calvo, Reinhard Engels, J. Andrew Berglund, Nicole Stange-Thomann, Robert L. Metzenberg, Stephan Seiler, Scott Kroken, Seth Purcell, Dmitrij Frishman, Ulrich Schulte, Bruce W. Birren, Dayong Qui, Manolis Kamvysselis, Edward L. Braun, Gregory Jedd, Rodolfo Aramayo, Mary Anne Nelson, Sante Gnerre, Carlo Cogoni, Deborah Bell-Pedersen, Rodger B. Voelker, Chad Nusbaum, David Greenberg, Robert J. Pratt, Gertrud Mannhaupt, Bushra Rehman, Carolyn G. Rasmussen, Colin P.C. DeSouza, Michael Plamann, Weixi Li, Evan Mauceli, Daniel J. Ebbole, Katherine A. Borkovich, William Fitzhugh, Svetlana Krystofova, Peter Ianakiev, Claude P. Selitrennikoff, Stephen A. Osmani, Marc J. Orbach, Alice Roy, Jay C. Dunlap, Donald O. Natvig, Robert Barrett, Stephen Rudd, Louise Glass, James E. Galagan, Cord Bielke, Karen Foley, Alan Radford, John A. Kinsey, Michael Freitag, Chuck Staben, Lisa A. Alex, Alex Zelter, Cydney B. Nielsen, Margaret Werner-Washburne, Serge Smirnov, Timothy Elkins, Michael Kamal, Werner Mewes, Eric S. Lander, and Eric U. Selker

Subjects

Genome evolution, Genes, Fungal, Receptors, Cell Surface, Biology, Genome, Neurospora crassa, Evolution, Molecular, Multienzyme Complexes, Gene Duplication, Gene density, Calcium Signaling, Genome size, Plant Diseases, Repetitive Sequences, Nucleic Acid, Genetics, Multidisciplinary, fungi, Sequence Analysis, DNA, Genome project, DNA Methylation, biology.organism_classification, Heterotrimeric GTP-Binding Proteins, Mutagenesis, RNA, Ribosomal, Multigene Family, Schizosaccharomyces pombe, RNA Interference, Minimal genome, Diterpenes, Genome, Fungal, Signal Transduction

Abstract

Neurospora crassa is a central organism in the history of twentieth-century genetics, biochemistry and molecular biology. Here, we report a high-quality draft sequence of the N. crassa genome. The approximately 40-megabase genome encodes about 10,000 protein-coding genes—more than twice as many as in the fission yeast Schizosaccharomyces pombe and only about 25% fewer than in the fruitfly Drosophila melanogaster. Analysis of the gene set yields insights into unexpected aspects of Neurospora biology including the identification of genes potentially associated with red light photobiology, genes implicated in secondary metabolism, and important differences in Ca21 signalling as compared with plants and animals. Neurospora possesses the widest array of genome defence mechanisms known for any eukaryotic organism, including a process unique to fungi called repeat-induced point mutation (RIP). Genome analysis suggests that RIP has had a profound impact on genome evolution, greatly slowing the creation of new genes through genomic duplication and resulting in a genome with an unusually low proportion of closely related genes.

Published

2003

4. Meiotic Silencing by Unpaired DNA

Author

Denise Zickler, Namboori B. Raju, Robert L. Metzenberg, and Patrick K. T. Shiu

Subjects

0106 biological sciences, Cosuppression, Biology, medicine.disease_cause, 01 natural sciences, Neurospora, General Biochemistry, Genetics and Molecular Biology, Fungal Proteins, 03 medical and health sciences, chemistry.chemical_compound, Meiosis, Gene Expression Regulation, Fungal, medicine, Homologous chromosome, Gene silencing, Gene Silencing, DNA, Fungal, Gene, 030304 developmental biology, Genetics, 0303 health sciences, Mutation, Biochemistry, Genetics and Molecular Biology(all), fungi, RNA-Dependent RNA Polymerase, biology.organism_classification, chemistry, Schizosaccharomyces pombe Proteins, DNA, 010606 plant biology & botany

Abstract

The silencing of gene expression by segments of DNA present in excess of the normal number is called cosuppression in plants and quelling in fungi. We describe a related process, meiotic silencing by unpaired DNA (MSUD). DNA unpaired in meiosis causes silencing of all DNA homologous to it, including genes that are themselves paired. A semidominant Neurospora mutant, Sad-1, fails to perform MSUD. Sad-1 suppresses the sexual phenotypes of many ascus-dominant mutants. MSUD may provide insights into the function of genes necessary for meiosis, including genes for which ablation in vegetative life would be lethal. It may also contribute to reproductive isolation of species within the genus Neurospora. The wild-type allele, sad-1+, encodes a putative RNA-directed RNA polymerase.

Published

2001

5. A Methylated Neurospora 5S rRNA Pseudogene Contains a Transposable Element Inactivated by Repeat-Induced Point Mutation

Author

Judith N. Stevens, Eric U. Selker, Brian S. Margolin, Phillip W. Garrett-Engele, Carrie Garrett-Engele, Robert L. Metzenberg, and Deborah Y. Fritz

Subjects

Transposable element, Genes, Fungal, Molecular Sequence Data, medicine.disease_cause, Methylation, Neurospora, Neurospora crassa, Sequence Homology, Nucleic Acid, Genetics, medicine, Point Mutation, Amino Acid Sequence, DNA, Fungal, Transposase, DNA Primers, Repetitive Sequences, Nucleic Acid, Mutation, Base Sequence, Sequence Homology, Amino Acid, biology, Point mutation, RNA, Ribosomal, 5S, Nucleic acid sequence, Crassa, Chromosome Mapping, RNA, Fungal, biology.organism_classification, Molecular biology, DNA Transposable Elements, Pseudogenes, Research Article

Abstract

In an analysis of 22 of the roughly 100 dispersed 5S rRNA genes in Neurospora crassa, a methylated 5S rRNA pseudogene, Ψ63, was identified. We characterized the Ψ63 region to better understand the control and function of DNA methylation. The 120-bp 5S rRNA-like region of Ψ63 is interrupted by a 1.9-kb insertion that has characteristics of sequences that have been modified by repeat-induced point mutation (RIP). We found sequences related to this insertion in wild-type strains of N. crassa and other Neurospora species. Most showed evidence of RIP; but one, isolated from the N. crassa host of Ψ63, showed no evidence of RIP. A deletion from near the center of this sequence apparently rendered it incapable of participating in RIP with the related full-length copies. The Ψ63 insertion and the related sequences have features of transposons and are related to the Fot1 class of fungal transposable elements. Apparently Ψ63 was generated by insertion of a previously unrecognized Neurospora transposable element into a 5S rRNA gene, followed by RIP. We name the resulting inactivated Neurospora transposon PuntRIP1 and the related sequence showing no evidence of RIP, but harboring a deletion that presumably rendered it defective for transposition, dPunt.

Published

1998

6. Construction of minimally-sheltered knockouts mutants of Neurospora crassa

Author

Robert L. Metzenberg

Subjects

Genetics, biology, Mutant, biology.organism_classification, Gene knockout, Neurospora crassa

Published

2005

7. Asm-1 +, a Neurospora crassa Gene Related to Transcriptional Regulators of Fungal Development

Author

Randolph Addison, Yoav Peleg, Rodolfo Aramayo, and Robert L. Metzenberg

Subjects

Transcription, Genetic, Molecular Sequence Data, Saccharomyces cerevisiae, Investigations, Neurospora crassa, Fungal Proteins, Aspergillus nidulans, Gene Expression Regulation, Fungal, Genes, Regulator, Genetics, Amino Acid Sequence, Cloning, Molecular, DNA, Fungal, Gene, Peptide sequence, Transcription factor, Cell Nucleus, Regulation of gene expression, Fungal protein, Base Sequence, Sequence Homology, Amino Acid, biology, respiratory system, musculoskeletal system, biology.organism_classification, respiratory tract diseases, Gene Deletion, Transcription Factors

Abstract

This report describes the identification, cloning, and molecular analysis of Asm-1 + (Ascospore maturation 1), the Neurospora crassa homologue of the Aspergillus nidulans stuA (stunted A) gene. The Asm-1 + gene is constitutively transcribed and encodes an abundant, nucleus-localized 68.5-kD protein. The protein product of Asm-1 + (ASM-1), contains a potential DNA-binding motif present in related proteins from A. nidulans (StuA), Candida albicans (EFGTF-I), and Saccharomyces cerevisiae (Phd1 and Sok2). This motif is related to the DNA binding motif of the Swi4/Mbpl/Res family of transcription factors that control the cell cycle. Deletion of Asm-1 + destroys the ability to make protoperithecia (female organs), but does not affect male-specific functions. We propose that the APSES domain (ASM-1, Phdl, StuA, EFGTF-1, and Sok2) defines a group of proteins that constitute a family of related transcription factors involved in the control of fungal development.

Published

1996

8. Translocation ofNeurospora crassaTranscription Factor NUC-1 into the Nucleus Is Induced by Phosphorus Limitation

Author

Randolph Addison, Rodolfo Aramayo, Yoav Peleg, and Robert L. Metzenberg

Subjects

Cell Nucleus, Neurospora crassa, biology, Mutant, Crassa, Fungal genetics, Fluorescent Antibody Technique, Biological Transport, Phosphorus, biology.organism_classification, Phosphate, Microbiology, Cell Compartmentation, Fungal Proteins, Cytosol, chemistry.chemical_compound, fluids and secretions, Biochemistry, chemistry, Gene Expression Regulation, Fungal, Gene expression, Genetics, Transcription factor, Transcription Factors

Abstract

Peleg, Y., Addison, R., Aramayo, R., and Metzenberg, R. L. 1996. Translocation of Neurospora crassa transcription factor NUC-1 into the nucleus is induced by phosphorus limitation. Fungal Genetics and Biology 20, 185–191. NUC-1, a basic helix–loop–helix zipper protein, activates the expression of several genes involved in phosphorus acquisition in Neurospora crassa. In the present study we investigated whether posttranscriptional mechanisms control the activity of NUC-1. The NUC-1 level was higher (up to fivefold) in wild-type cells grown at low external phosphate concentration and in mutant strains expressing the phosphorus acquisition genes constitutively than in a wild-type strain grown at high external phosphate concentration. Using indirect immunofluorescence we demonstrated that NUC-1 is localized at least predominantly in the cytosol when wild-type N. crassa is grown with an adequate supply of phosphate, whereas NUC-1 is largely concentrated in the nucleus upon limitation of external phosphate. In mutant strains expressing the phosphorus acquisition genes constitutively, NUC-1 localization was also primarily in the nucleus. Thus, subcellular compartmentation of regulatory proteins is an important mechanism in regulating gene expression in filamentous fungi.

Published

1996

9. Gene replacements at the his-3 locus of Neurospora crassa

Author

Robert L. Metzenberg and Rodolfo Aramayo

Subjects

Genetics, Locus (genetics), Biology, biology.organism_classification, Gene, Neurospora crassa

Published

1996

10. Activator-independent gene expression in Neurospora crassa

Author

Robert L. Metzenberg and Wayne Il Versaw

Subjects

Gene Rearrangement, Regulation of gene expression, Genetics, Neurospora crassa, biology, Activator (genetics), Gene rearrangement, Investigations, Gene mutation, biology.organism_classification, Position effect, Gene Expression Regulation, Fungal, Gene expression, Transgenes, Chromosomes, Fungal, Gene

Abstract

A transgenic position effect that causes activator-independent gene expression has been described previously for three Neurospora crassa phosphate-repressible genes. We report analogous findings for two additional positively regulated genes, qa-2 + and ars-1 +, indicating that such position effects are not limited to genes involved in phosphorus metabolism. In addition, we have characterized a number of mutants that display activator-independent gene expression. Each of these mutants contains a chromosomal rearrangement with one breakpoint located in the 5’-upstream region of the affected gene. This suggests that the rearrangements are associated with activator-independent gene expression and that these cis-acting mutations may represent a position effect similar to that responsible for rendering some transgenes independent of their transcriptional activators. We suggest that positively regulated genes in N. crassa are normally held in a transcriptionally repressed state by a cis-acting mechanism until specifically activated. Disruption of this cis-acting mechanism, either by random integration of a gene by transformation or by chromosomal rearrangement, renders these genes independent or partly independent of the transcriptional activator on which they normally depend.

Published

1996

11. Species-specific and mating type-specific DNA regions adjacent to mating type idiomorphs in the genus Neurospora

Author

Thomas A. Randall and Robert L. Metzenberg

Subjects

Genetics, Homothallism, Mating type, Base Sequence, biology, Phylogenetic tree, Centromere, Genes, Fungal, Molecular Sequence Data, Crassa, Nucleic Acid Hybridization, Investigations, Genes, Mating Type, Fungal, biology.organism_classification, Biological Evolution, Neurospora, Neurospora crassa, Species Specificity, Heterothallic, Chromosomes, Fungal, Mating, DNA, Fungal

Abstract

Mating type idiomorphs control mating and subsequent sexual development in Neurospora crassa and were previously shown to be well conserved in other Neurospora species. The centromere-proximal flanks of the A and a idiomorphs, but not the distal flanks from representative heterothallic, pseudohomothallic, and homothallic Neurospora species contain apparent species-specific and/or mating type-specific sequences adjacent to the well-conserved idiomorphs. The variable flank is bordered by regions that are highly homologous in all species. The sequence of approximately 1 kb immediately flanking the conserved idiomorphs of each species was determined. Sequence identity between species ranged from 20% (essentially unrelated) to > 90%. By contrast, the mt-A1 gene shows 88-98% identity. Sequence and hybridization data also show that the centromere-proximal flanks are very different between the two mating types for N. intermedia, N. discreta, and N. tetrasperma, but not for N. sitophila and N. crassa. The data suggest a close evolutionary relationship between several of the species; this is suppported by phylogenetic analysis of their respective mt-A1 genes. The origin of the variable regions adjacent to the evolutionarily conserved mating type idiomorphs is unknown.

Published

1995

12. Repressible cation-phosphate symporters in Neurospora crassa

Author

Wayne K. Versaw and Robert L. Metzenberg

Subjects

inorganic chemicals, Saccharomyces cerevisiae Proteins, Mutant, Chromosomal translocation, Lithium, Sodium Chloride, Phosphates, Potassium Chloride, Neurospora crassa, Fungal Proteins, chemistry.chemical_compound, Phosphate Transport Proteins, Fungal protein, Multidisciplinary, biology, urogenital system, Membrane transport protein, Permease, Membrane Transport Proteins, Biological Transport, biology.organism_classification, Phosphate, DNA-Binding Proteins, Kinetics, Biochemistry, chemistry, Symporter, biology.protein, Enzyme Repression, Transcription Factors, Research Article

Abstract

The filamentous fungus Neurospora crassa possesses two nonhomologous high-affinity phosphate permeases, PHO-4 and PHO-5. We have isolated separate null mutants of these permeases, allowing us to study the remaining active transporter in vivo in terms of phosphate uptake and sensitivity to inhibitors. The specificity for the cotransported cation differs for PHO-4 and PHO-5, suggesting that these permeases employ different mechanisms for phosphate translocation. Phosphate uptake by PHO-4 is stimulated 85-fold by the addition of Na+, which supports the idea that PHO-4 is a Na(+)-phosphate symporter. PHO-5 is unaffected by Na+ concentration but is much more sensitive to elevated pH than is PHO-4. Presumably, PHO-5 is a H(+)-phosphate symporter. Na(+)-coupled symport is usually associated with animal cells. The finding of such a system in a filamentous fungus is in harmony with the idea that the fungal and animal kingdoms are more closely related to each other than either is to the plant kingdom.

Published

1995

13. Some property of the nucleus determines the competence of Neurospora crassa for transformation

Author

Robert L. Metzenberg and J Grotelueschen

Subjects

Cell Nucleus, Genetics, Neurospora crassa, biology, fungi, DNA, Recombinant, Chromosome, Investigations, Spheroplast, biology.organism_classification, Neurospora, chemistry.chemical_compound, Transformation (genetics), Transformation, Genetic, medicine.anatomical_structure, Plasmid, chemistry, medicine, Chromosomes, Fungal, Nucleus, DNA, Plasmids

Abstract

In Neurospora, transformation of spheroplasts is quite efficient and usually occurs with the transforming DNA integrated at ectopic sites in the chromosome. However, only a small fraction of the spheroplasts is actually competent for transformation. To distinguish whether the limitation to competence is at the level of the plasma membrane or at the level of the nucleus, we performed experiments in which heterocaryotic spheroplasts were required to integrate two different plasmids in one transformation procedure. The cotransformants were then analyzed to determine into which nucleus or nuclei the separate plasmids had integrated. Results of such experiments confirm that successful ectopic transformation in Neurospora crassa requires a competent nucleus. The integration patterns of the two separate plasmids indicate that the availability of appropriate chromosomal sites for ectopic integration may be an aspect of nuclear competence.

Published

1995

14. Sexual development genes of Neurospora crassa

Author

Robert L. Metzenberg and M A Nelson

Subjects

Transcription, Genetic, Genes, Fungal, Genetic Vectors, Mutant, Genes, Recessive, Investigations, medicine.disease_cause, Neurospora, Neurospora crassa, Transformation, Genetic, Plasmid, Genetics, medicine, Point Mutation, Gene, Genes, Dominant, Mutation, biology, Nucleic Acid Hybridization, Cell Differentiation, RNA, Fungal, DNA, Cosmids, Genes, Mating Type, Fungal, biology.organism_classification, Sexual reproduction, Meiosis, Suppression subtractive hybridization, Polymorphism, Restriction Fragment Length, Plasmids

Abstract

The filamentous fungus Neurospora crassa undergoes a complex program of sexual development to form a fruiting body composed of several kinds of specialized tissue. Subtractive hybridization was used to isolate genes that are expressed preferentially during this sexual phase. Many such sexual development (sdv) genes were identified in a cosmid library of Neurospora genomic DNA. Fourteen of the sdv genes were subcloned, and their expression in mutant strains and under crossing and vegetative growth conditions was examined. All of the regulated transcripts were less abundant (and in many cases not detectable) in strains grown under vegetative (high nitrogen) conditions, suggesting that nitrogen starvation is required for their synthesis. The expression of most of the sdv genes also required a functional A mating type product, even under crossing growth conditions, suggesting that this product functions as a master control in sexual development. To determine if the products of the sdv genes play essential roles in the sexual cycle, a reverse-genetic approach (based on RIP (repeat-induced point mutation)-mediated gene disruptions) was used to create mutations in the genes. A mutant strain (asd-1) with a recessive crossing defect (apparently caused by the RIP process) was isolated; in this strain, early development is normal and may asci are formed, but ascospores are never delineated. A second recessive mutant strain (asd-2) was apparently created by ectopic integration of the transforming DNA into a gene required for the sexual process; in this strain the sexual process was blocked at an early stage, and the ascogeneous tissue underwent little development.

Published

1992

15. Molecular analysis of nuc-1+, a gene controlling phosphorus acquisition in Neurospora crassa

Author

Seogchan Kang and Robert L. Metzenberg

Subjects

chemistry.chemical_classification, Nucleic acid sequence, Cell Biology, Biology, biology.organism_classification, Molecular biology, Homology (biology), Amino acid, Neurospora crassa, Gene product, fluids and secretions, Biochemistry, chemistry, Gene expression, Molecular Biology, Gene, Peptide sequence

Abstract

In response to phosphorus starvation, Neurospora crassa makes several enzymes that are undetectable or barely detectable in phosphate-sufficient cultures. The nuc-1+ gene, whose product regulates the synthesis of these enzymes, was cloned and sequenced. The nuc-1+ gene encodes a protein of 824 amino acids with a predicted molecular weight of 87,429. The amino acid sequence shows homology with two yeast proteins whose functions are analogous to that of the NUC-1 protein. Two nuc-1+ transcripts of 3.2 and 3.0 kilobases were detected; they were present in similar amounts during growth at low or high phosphate concentrations. The nuc-2+ gene encodes a product normally required for NUC-1 function, and yet a nuc-2 mutation can be complemented by overexpression of the nuc-1+ gene. This implies physical interactions between NUC-1 protein and the negative regulatory factor(s) PREG and/or PGOV. Analysis of nuc-2 and nuc-1; nuc-2 strains transformed by the nuc-1+ gene suggests that phosphate directly affects the level or activity of the negative regulatory factor(s) controlling phosphorus acquisition.

Published

1990

16. Expansion and contraction of the nucleolus organizer region of Neurospora: changes originate in both proximal and distal segments

Author

Robert L. Metzenberg and David K. Butler

Subjects

Genetics, Neurospora crassa, Nucleolus, fungi, Crassa, Translocation Breakpoint, Investigations, Biology, biology.organism_classification, DNA, Ribosomal, Molecular biology, Neurospora, Translocation, Genetic, Meiosis, Nucleolus Organizer Region, Crossing Over, Genetic, Nucleolus organizer region, Sister Chromatid Exchange, Ribosomal DNA

Abstract

Previously we have shown that the nucleolus organizer region (NOR) of Neurospora crassa changes size frequently during the premeiotic portion of the sexual phase. Here, we have investigated whether these changes in size originate only in specific regions of the NOR, or are distributed throughout the NOR. In two special strains of Neurospora, the NOR was divided into proximal and distal segments. In the first, the NOR was divided by a translocation breakpoint and, in the second, the NOR was divided by a meiotic crossover point. The two strains were crossed individually to normal sequence tester strains and the sizes of the proximal and distal segments were followed by pulsed-field gel electrophoresis. The analysis of progeny from both crosses indicates that the events affecting NOR size are not limited to a specific region of the NOR. Additionally, we have obtained evidence that the rDNA of N. crassa can undergo unequal sister chromatid exchange.

Published

1990

17. Neurospora crassa A mating-type region

Author

Robert L. Metzenberg, Jeff Grotelueschen, and N. L. Glass

Subjects

Sequence analysis, Genes, Fungal, Molecular Sequence Data, Locus (genetics), Spheroplasts, Haploidy, Pheromones, Neurospora crassa, Frameshift mutation, Transformation, Genetic, Sequence Homology, Nucleic Acid, Escherichia coli, Amino Acid Sequence, Cloning, Molecular, reproductive and urinary physiology, Heterokaryon, Genetics, Multidisciplinary, Base Sequence, biology, fungi, Gene Amplification, Nucleic acid sequence, RNA, Fungal, Genes, Mating Type, Fungal, biology.organism_classification, Neurospora, Open reading frame, behavior and behavior mechanisms, Chromosome Deletion, Mating Factor, Peptides, Mating-type region, Research Article

Abstract

The mating-type locus of the haploid filamentous fungus Neurospora crassa is a regulatory region that controls entry into the sexual cycle and prevents formation of mixed mating-type heterokaryons in the vegetative phase. The locus consists of alternative sequences called A and a. The A mating-type DNA sequence of Neurospora crassa is composed of a region of 5301 base pairs that has little similarity to the sequence present at the mating-type locus in an a mating-type strain. However, the sequences flanking the mating-type locus in the A haploid and a haploid genome are essentially identical. The region of the A mating-type sequence required for expression of the heterokaryon incompatibility and sexual functions has been localized to a single open reading frame (ORF) encoding a polypeptide of 288 amino acids. Sequence analysis of sterile, heterokaryon-compatible mutants reveals frameshift mutations in this same ORF. The putative 288-amino acid product has a region of similarity to the MAT alpha 1 polypeptide of Saccharomyces cerevisiae.

Published

1990

18. SAD-2 is required for meiotic silencing by unpaired DNA and perinuclear localization of SAD-1 RNA-directed RNA polymerase

Author

Denise Zickler, Namboori B. Raju, Robert L. Metzenberg, Gwenaël Ruprich-Robert, Patrick K. T. Shiu, Institut de génétique et microbiologie [Orsay] (IGM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, RNA-dependent RNA polymerase, Biology, medicine.disease_cause, behavioral disciplines and activities, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Prophase, RNA polymerase, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], mental disorders, medicine, Gene silencing, Gene, 030304 developmental biology, 0303 health sciences, Fungal protein, Mutation, Multidisciplinary, Molecular biology, chemistry, behavior and behavior mechanisms, psychological phenomena and processes, DNA, 010606 plant biology & botany

Abstract

A gene unpaired during the meiotic homolog pairing stage in Neurospora generates a sequence-specific signal that silences the expression of all copies of that gene. This process is called Meiotic Silencing by Unpaired DNA (MSUD). Previously, we have shown that SAD-1, an RNA-directed RNA polymerase (RdRP), is required for MSUD. We isolated a second gene involved in this process, sad-2 . Mutated Sad-2 RIP alleles, like those of Sad-1 , are dominant and suppress MSUD. Crosses homozygous for Sad-2 are blocked at meiotic prophase. SAD-2 colocalizes with SAD-1 in the perinuclear region, where small interfering RNAs have been shown to reside in mammalian cells. A functional sad-2 + gene is necessary for SAD-1 localization, but the converse is not true. The data suggest that SAD-2 may function to recruit SAD-1 to the perinuclear region, and that the proper localization of SAD-1 is important for its activity.

Published

2006

19. Norman Harold Horowitz, 1915-2005

Author

Robert L. Metzenberg

Subjects

Genetics, media_common.quotation_subject, Piano, Sense of humor, Art history, Environmental ethics, Biology, History, 20th Century, History, 21st Century, Newspaper, Enzymes, Evolution, Molecular, New graduate, Friendship, Wife, Molecular Biology, media_common, Perspectives

Abstract

AS a new graduate student of Herschel Mitchell at Caltech in 1951, I soon had occasion to visit Horowitz's office. I immediately noticed a newspaper clipping taped to the door. “It is a Privilege to be Living in the Same Century as Horowitz,” gushed the title. The article was, as it turned out, about a recent concert by Vladimir Horowitz, but it prepared me for the wry Horowitz sense of humor, always delivered deadpan. Later, there was Thanksgiving dinner at his house with his wife, Pearl, his son and daughter, and his mother. Norm sat down to the piano and we all sang old chestnuts. Vladimir he was not. But full of food and drink as we were and enthralled with our own wine-enhanced voices, it was a perfect evening. I left knowing Norm Horowitz and I had begun a lifelong friendship.

Published

2005

20. The 2005 Thomas Hunt Morgan Medal. Robert L. Metzenberg

Author

Eric U, Selker, Rowland H, Davis, and Robert L, Metzenberg

Subjects

The 2005 GSA Honors and Awards, Awards and Prizes, Genetics, History, 20th Century, History, 21st Century, United States

Published

2005

21. Multiple Functions of mfa-1, a Putative Pheromone Precursor Gene of Neurospora crassa

Author

Robert L. Metzenberg, Hyojeong Kim, and Mary Anne Nelson

Subjects

Mating type, DNA, Complementary, Mutant, Genes, Fungal, Molecular Sequence Data, Protein Prenylation, Mating Factor, Biology, Microbiology, Methylation, Pheromones, Neurospora crassa, Fungal Proteins, Open Reading Frames, Sequence Homology, Nucleic Acid, Point Mutation, Cysteine, Molecular Biology, Gene, 3' Untranslated Regions, Crosses, Genetic, Gene Library, Genetics, Fungal protein, Base Sequence, Genetic Complementation Test, Chromosome Mapping, General Medicine, Articles, Sequence Analysis, DNA, biology.organism_classification, Genes, Mating Type, Fungal, Protein Structure, Tertiary, Open reading frame, Blotting, Southern, Mutation, Protein prenylation, Nucleic Acid Conformation, Cell Division, Polymorphism, Restriction Fragment Length, Plasmids

Abstract

A putative pheromone precursor gene of Neurospora crassa , mfa-1 (which encodes mating factor a -1), was identified as the most abundant clone in starved mycelial and perithecial cDNA libraries. Northern analysis demonstrated high mfa-1 expression in all mating type a tissues and suggested low expression levels in mat A tissues. The mfa-1 gene was expressed as an approximately 1.2-kb transcript predicted to encode a 24-residue peptide, followed by a long 3′ untranslated region (3′ UTR). The predicted MFA1 sequence showed 100% sequence identity to PPG2 of Sordaria macrospora and structural similarity (a carboxy-terminal CAAX motif) to many hydrophobic fungal pheromone precursors. Mutants with a disrupted open reading frame (ORF) in which the critical cysteine residue had been changed to a nonprenylatable residue, tyrosine (YAAX mutants), were isolated, as were mfa-1 mutants with intact ORFs but multiple mutations in the 3′ noncoding region (CAAX mutants). The 3′ UTR is required for the full range of mfa-1 gene activity. Both classes of mutants showed delayed and reduced vegetative growth (which was suppressed by supplementation with a minute amount [30 μM] of ornithine, citrulline, or arginine), as well as aberrant sexual development. When crossed as female parents to wild-type males, the CAAX and YAAX mutants showed greatly reduced ascospore production. No ascospores were produced in homozygous mfa-1 crosses. As males, YAAX mat a mutants were unable to attract wild-type mat A trichogynes (female-specific hyphae) or to initiate sexual development, while CAAX mat a mutants were able to mate and produce sexual progeny despite their inability to attract mat A trichogynes. In the mat A background, both CAAX and YAAX mutants showed normal male fertility but defective vegetative growth and aberrant female sexual development. Thus, the mfa-1 gene appears to have multiple roles in N. crassa development: (i) it encodes a hydrophobic pheromone with a putative farnesylated and carboxymethylated C-terminal cysteine residue, required by mat a to attract trichogynes of mat A ; (ii) it is involved in female sexual development and ascospore production in both mating types; and (iii) it functions in vegetative growth of both mating types.

Published

2002

22. Meiotic silencing by unpaired DNA: properties, regulation and suppression

Author

Robert L. Metzenberg and Patrick K. T. Shiu

Subjects

Genetics, Regulation of gene expression, Homeodomain Proteins, Base Sequence, fungi, Molecular Sequence Data, Biology, Repressor Proteins, chemistry.chemical_compound, Meiosis, Neurospora, chemistry, Gene Expression Regulation, Fungal, Homologous chromosome, Gene silencing, Amino Acid Sequence, Gene Silencing, Schizosaccharomyces pombe Proteins, Allele, Gene, DNA, Dominance (genetics), Research Article

Abstract

In Neurospora, a gene not paired with a homolog in prophase I of meiosis generates a signal that transiently silences all sequences homologous to it by a process called meiotic silencing by unpaired DNA (MSUD). Thus a deletion mutation in a heterozygous cross is formally “ascus-dominant” because its unpaired wild-type partner silences itself. We describe in detail the isolation of a mutation, Sad-1UV, that suppresses the dominance of various ascus-dominant mutations. Additional dominant, semidominant, and recessive Sad-1 alleles have been generated by RIP; the DNA of the dominant RIP alleles becomes methylated, but dim-2-dependent methylation is not necessary for silencing. The barrenness of homozygous Sad-1 crosses is not due to the failure to silence unpaired mating-type mat A-2 mat A-3 genes. Transcripts of sad-1+ can be detected during the sexual phase in a homozygous wild-type cross, indicating that the gene is expressed even if all DNA can pair normally. Meiotic silencing is confined to the ascus in which DNA is unpaired, and silencing does not spread to neighboring asci in a fruiting body of mixed genetic constitution.

Published

2002

23. Escape from het-6 incompatibility in Neurospora crassa partial diploids involves preferential deletion within the ectopic segment

Author

N. L. Glass, Christine Yang, Myron L. Smith, and Robert L. Metzenberg

Subjects

Genetics, Fungal protein, Neurospora crassa, Chromosomal translocation, Biology, Investigations, biology.organism_classification, Molecular biology, Translocation, Genetic, Fungal Proteins, Chromosome Walking, Multigene Family, Primer walking, Cosmid, Allele, Restriction fragment length polymorphism, Gene, Gene Deletion

Abstract

Self-incompatible het-6 OR/het-6 PA partial diploids of Neurospora crassa were selected from a cross involving the translocation strain, T(IIL → IIIR)AR18, and a normal sequence strain. About 25% of the partial diploids exhibited a marked increase in growth rate after 2 weeks, indicating that “escape” from het-6 incompatibility had occurred. Near isogenic tester strains with different alleles (het-6 OR and het-6 PA) were constructed and used to determine that 80 of 96 escape strains tested were het-6 PA, retaining the het-6 allele found in the normal-sequence LGII position; 16 were het-6 OR, retaining the allele in the translocated position. Restriction fragment length polymorphisms in 45 escape strains were examined with probes made from cosmids that spanned the translocated region. Along with electrophoretic analysis of chromosomes from three escape strains, RFLPs showed that escape is associated with deletion of part of one or the other of the duplicated DNA segments. Deletions ranged in size from ~70 kbp up to putatively the entire 270-kbp translocated region but always included a 35-kbp region wherein we hypothesize het-6 is located. The deletion spectrum at het-6 thus resembles other cases where mitotic deletions occur such as of tumor suppressor genes and of the hprt gene (coding for hypoxanthine-guanine phosphoribosyl-transferase) in humans.

Published

1996

24. Bird Medium: an alternative to Vogel Medium

Author

Robert L. Metzenberg

Subjects

Biology

Published

2004

25. Inactivation of the Neurospora crassa gene encoding the mitochondrial protein import receptor MOM19 by the technique of 'sheltered RIP'

Author

Frank E. Nargang, Roland Lill, Helmut Schneider, Troy A. A. Harkness, Walter Neupert, and Robert L. Metzenberg

Subjects

Genotype, Mutant, Blotting, Western, Genes, Fungal, Molecular Sequence Data, Receptors, Cytoplasmic and Nuclear, Investigations, medicine.disease_cause, Neurospora crassa, Fungal Proteins, 03 medical and health sciences, Transformation, Genetic, Genetics, medicine, Point Mutation, Amino Acid Sequence, DNA, Fungal, Gene, Selectable marker, 030304 developmental biology, Repetitive Sequences, Nucleic Acid, Heterokaryon, 0303 health sciences, Mutation, biology, Base Sequence, 030302 biochemistry & molecular biology, fungi, Crassa, biology.organism_classification, Recombinant Proteins, Mitochondria, Blotting, Southern, Kinetics, medicine.anatomical_structure, Mutagenesis, Site-Directed, Nucleus, Plasmids

Abstract

We have used a technique referred to as "sheltered RIP" (repeat induced point mutation) to create mutants of the mom-19 gene of Neurospora crassa, which encodes an import receptor for nuclear encoded mitochondrial precursor proteins. Sheltered RIP permits the isolation of a mutant gene in one nucleus, even if that gene is essential for the survival of the organism, by sheltering the nucleus carrying the mutant gene in a heterokaryon with an unaffected nucleus. Furthermore, the nucleus harboring the RIPed gene contains a selectable marker so that it is possible to shift nuclear ratios in the heterokaryons to a state in which the nucleus containing the RIPed gene predominates in cultures grown under selective conditions. This results in a condition where the target gene product should be present at very suboptimal levels and allows the study of the mutant phenotype. One allele of mom-19 generated by this method contains 44 transitions resulting in 18 amino acid substitutions. When the heterokaryon containing this allele was grown under conditions favoring the RIPed nucleus, no MOM19 protein was detectable in the mitochondria of the strain. Homokaryotic strains containing the RIPed allele exhibit a complex and extremely slow growth phenotype suggesting that the product of the mom-19 gene is important in N. crassa.

Published

1994

26. Amplification of the nucleolus organizer region during the sexual phase of Neurospora crassa

Author

David K. Butler and Robert L. Metzenberg

Subjects

Genetics, Strain (chemistry), biology, Neurospora crassa, Nucleolus, Reproduction, Gene Amplification, biology.organism_classification, Neurospora, DNA, Ribosomal, Nucleolus Organizer Region, Sister chromatids, Nucleolus organizer region, DNA, Fungal, Developmental biology, Ribosomal DNA, Genetics (clinical)

Abstract

Previously we have shown that the nucleolus organizer region (NOR) of Neurospora crassa displays frequent size changes during crosses. In these initial studies, we observed that decreases in NOR size are far more common than increases. Here, we have investigated the inheritance of NOR size in a strain with an unusually small NOR. We call this strain SNO for small nucleolus organizer. We found that progeny that inherit their rDNA from SNO receive either an NOR that is larger than that of SNO or, rarely, the same size, but never an NOR that is smaller than that of SNO. The number of progeny that inherit their NOR from SNO is not significantly different from the number that inherit their NOR from the other parent in the cross. This argues against the idea that the failure to find progeny with NORs smaller than that of SNO is due to inviability of spores carrying such an NOR, or that it is due to unconscious bias by the experimenter against isolating such spores. These results can most easily be explained by a combination of unequal sister chromatid exchanges in the rDNA, or sister chromatid conversion, coupled with selection against nuclei harboring small NORs during the premeiotic phase of the Neurospora life cycle. Other, less conventional, explanations are also possible, such as "directed" increase in the target NOR without corresponding loss at some other NOR.

Published

1993

27. Insertional Mutagenesis in Neurospora Crassa: Cloning and Molecular Analysis of the Preg(+) Gene Controlling the Activity of the Transcriptional Activator Nuc-1

Author

Seogchan Kang and Robert L. Metzenberg

Subjects

Saccharomyces cerevisiae Proteins, Transcription, Genetic, Genes, Fungal, Molecular Sequence Data, Saccharomyces cerevisiae, Investigations, Neurospora, Neurospora crassa, Insertional mutagenesis, Fungal Proteins, chemistry.chemical_compound, Plasmid, Species Specificity, Complementary DNA, Cyclins, Genetics, Amino Acid Sequence, Cloning, Molecular, Site-directed mutagenesis, Gene, Alleles, Phylogeny, biology, Base Sequence, Phosphorus, biology.organism_classification, Molecular biology, Repressor Proteins, Mutagenesis, Insertional, chemistry, Sequence Alignment, DNA, Transcription Factors

Abstract

The transcriptional activator NUC-1 controls the transcription of the genes for phosphorus acquisition enzymes, and its activity is regulated by the negative regulatory factors, PREG and PGOV In this report, we describe the cloning and molecular analysis of the preg+ gene. In Neurospora crassa, as in higher eukaryotes, transformation frequently results in nonhomologous integration of transforming DNA. Insertion of transforming DNA into host genes mutates the gene and provides a molecular tag for cloning it. We obtained two mutants that have an insertion in the preg+ and pgov+ genes, respectively, among 2 x 10(5) transformants. The preg+ gene was cloned by screening a Neurospora genomic DNA library with DNA sequences flanking the transforming DNA of the rescued plasmid. Northern analysis showed that the transcription of the preg+ gene is not regulated by phosphate. The carboxy-terminal half of PREG shows strong homology with Saccharomyces cerevisiae PHO80 whose function is analogous to that of PREG. The pregc mutations are located in the well conserved residues which may directly interact with the residues in the regulatory domain of NUC-1.

Published

1993

28. A minichromosome of LGVI from crossing two quasi-terminal reciprocal translocations

Author

Robert L. Metzenberg and M J Orbach

Subjects

Genetics, Minichromosome, Terminal (electronics), Chromosomal translocation, Biology, Reciprocal

Published

2000

29. The role of similarity and difference in fungal mating

Author

Robert L. Metzenberg

Subjects

Genetics, Mating type, Similarity (network science), Reproduction, Genes, Fungal, Fungi, Biology, Mating, Mating system, Alleles, Crosses, Genetic, Perspectives

Published

1990

30. A simple way to make a dilution series

Author

Robert L. Metzenberg

Subjects

Series (mathematics), Simple (abstract algebra), Applied mathematics, Mathematics, Dilution

Published

2006

31. Vogel's Medium N salts: avoiding the need for ammonium nitrate

Author

Robert L. Metzenberg

Subjects

chemistry.chemical_compound, Chemistry, Ammonium nitrate, Inorganic chemistry

Published

2003

32. Cloning and characterization of the pho-2 + gene encoding a repressible alkaline phosphatase in Neurospora crassa

Author

Jeff Grotelueschen, Yoav Peleg, N.L. Glass, and Robert L. Metzenberg

Subjects

inorganic chemicals, Genes, Fungal, Molecular Sequence Data, DNA, Recombinant, Neurospora crassa, Genetics, Amino Acid Sequence, Cloning, Molecular, Gene, chemistry.chemical_classification, Cloning, Base Sequence, biology, urogenital system, Intron, Nucleic acid sequence, General Medicine, Alkaline Phosphatase, biology.organism_classification, Molecular biology, Amino acid, Open reading frame, chemistry, Biochemistry, Alkaline phosphatase

Abstract

The Neurospora crassa phosphate-repressible alkaline phosphatase-encoding gene pho -2 + was cloned and its nucleotide sequence was determined. An open reading frame was found that contains four introns and encodes a putative protein of 555 amino acids. ‘Activator-independent expression’ of ectopically integrated pho -2 + was observed, as noted before for ectopically integrated pho -4 + .

Published

1994

33. Improved selection for inositol-utilization following transformation of Neurospora crassa

Author

Robert L. Metzenberg

Subjects

chemistry.chemical_compound, Transformation (genetics), chemistry, Biochemistry, Inositol, Biology, biology.organism_classification, Selection (genetic algorithm), Neurospora crassa

Published

2002

34. Robust and efficient synthetic method for forming DNA microarrays

Author

Gabriel P. Lopez, Patricia L. Dolan, Linnea K. Ista, Yang Wu, Robert L. Metzenberg, and Mary Anne Nelson

Subjects

Biology, Fluorescence, chemistry.chemical_compound, Nucleic acid thermodynamics, Complementary DNA, Genetics, Polylysine, DNA, Fungal, NAR Methods Online, Fluorescent Dyes, Oligonucleotide Array Sequence Analysis, Neurospora crassa, Gene Expression Profiling, Hybridization probe, Nucleic Acid Hybridization, Reproducibility of Results, DNA, Carbocyanines, Silanes, Molecular biology, Combinatorial chemistry, Gene expression profiling, chemistry, Gene chip analysis, Protein microarray, Adsorption, Glass, DNA microarray, DNA Probes

Abstract

The field of DNA microarray technology has necessitated the cooperative efforts of interdisciplinary scientific teams to achieve its primary goal of rapidly measuring global gene expression patterns. A collaborative effort was established to produce a chemically reactive surface on glass slide substrates to which unmodified DNA will covalently bind for improvement of cDNA microarray technology. Using the p-aminophenyl trimethoxysilane (ATMS)/diazotization chemistry that was developed, microarrays were fabricated and analyzed. This immobilization method produced uniform spots containing equivalent or greater amounts of DNA than commercially available immobilization techniques. In addition, hybridization analyses of microarrays made with ATMS/diazotization chemistry showed very sensitive detection of the target sequence, two to three orders of magnitude more sensitive than the commercial chemistries. Repeated stripping and re-hybridization of these slides showed that DNA loss was minimal, allowing multiple rounds of hybridization. Thus, the ATMS/diazotization chemistry facilitated covalent binding of unmodified DNA, and the reusable microarrays that were produced showed enhanced levels of hybridization and very low background fluorescence.

Published

2001

35. Evolution of transcription-regulating proteins: A brief, critical appraisal

Author

Robert L. Metzenberg

Subjects

Critical appraisal, Transcription (biology), Genetics, General Medicine, Computational biology, Biology

Published

1997

36. The structural gene for a phosphorus-repressible phosphate permease in Neurospora crassa can complement a mutation in positive regulatory gene nuc-1

Author

Robert L. Metzenberg, B J Mann, R A Akins, and A M Lambowitz

Subjects

Genetics, Regulation of gene expression, biology, Structural gene, RNA, Cell Biology, biology.organism_classification, Molecular biology, Neurospora crassa, fluids and secretions, Transcription (biology), Phosphate permease, Molecular Biology, Gene, Regulator gene

Abstract

van+, a gene encoding a phosphorus-repressible phosphate permease, was isolated by its ability to complement nuc-1, a positive regulatory locus that normally regulates van+ expression. This was unexpected because the nuc-1 host already contained a resident van+ gene. Plasmids carrying van+ complemented a nuc-2 mutation as well. Probing of RNA from untransformed wild-type (nuc-1+) and constitutive (nuc-1c) strains by van+ probes indicated that levels of the van+ transcript were subject to control by nuc-1+. Probing of the same RNAs with a cosmid clone, containing approximately 15 kilobases of upstream and downstream DNA, revealed no other detectable phosphorus-regulated transcripts within this 40-kilobase region of the chromosome.

Published

1988

37. GENETIC CONTROL OF PHOSPHATE-METABOLIZING ENZYMES IN NEUROSPORA CRASSA: RELATIONSHIPS AMONG REGULATORY MUTATIONS

Author

William Chia, Robert L. Metzenberg, and Barbara S. Littlewood

Subjects

Genetic Linkage, Operon, Investigations, medicine.disease_cause, Models, Biological, Neurospora, Phosphates, Neurospora crassa, fluids and secretions, Cistron, Genes, Regulator, Genetics, medicine, Regulator gene, Recombination, Genetic, Mutation, biology, Membrane Transport Proteins, Alkaline Phosphatase, biology.organism_classification, Genetic code, Phenotype, Genetic Code, Epistasis

Abstract

In Neurospora crassa, the phosphate-metabolizing enzymes are made during phosphate starvation, but not under phosphate sufficiency. The synthesis of these enzymes is controlled by three regulatory genes: pcon-nuc-2, preg and nuc-1. pcon-nuc-2 and preg are closely linked. A model of the hierarchical relationships among these regulatory genes is presented. Studies of double mutants and revertants confirm several predictions of the model. It has been found that nuc-2 (null) and pconc (constitutive) mutations reside in the same cistron. pregc (constitutive) mutations are epistatic to nuc-2 mutations. nuc-1 (null) mutations are epistatic to all others.

Published

1975

38. GENETIC CONTROL OF PHOSPHORUS ASSIMILATION IN NEUROSPORA CRASSA: DOSE-DEPENDENT DOMINANCE AND RECESSIVENESS IN CONSTITUTIVE MUTANTS

Author

Robert L. Metzenberg and William Chia

Subjects

Cell Nucleus, Genetics, Heterozygote, Neurospora crassa, biology, Mutant, Epistasis, Genetic, Phosphorus, Heterozygote advantage, Investigations, Alkaline Phosphatase, biology.organism_classification, Neurospora, fluids and secretions, Genes, Mutation, Epistasis, Allele, Gene, Dominance (genetics)

Abstract

Mutants called nuc-1C, constitutive for alkaline phosphatase synthesis, were isolated and mapped very close to nuc-1 mutants in which this enzyme is not expressed. nuc-1 is epistatic to nuc-1C. nuc-1C acts only if it is cis to normal nuc-1 function. The preparation of partial diploids heterozygous for various nuc-1 alleles is described; nuc-1C is dominant to nuc-1+, which in turn is dominant to nuc-1. In heterocaryons with nuc-1+, nuc-1C is dominant when it is present in high proportion, but essentially recessive if it is present in low proportions. In heterocaryons with nuc-1, nuc-1C is again dominant when present in high proportions, but in low proportions it "complements" to give essentially normal repressibility. A model of regulation consistent with these findings is presented.

Published

1979

39. Heterogeneity of 5 S RNA in Fungal Ribosomes

Author

Robert L. Metzenberg, Judith N. Stevens, and Eric U. Selker

Subjects

Genetics, Gel electrophoresis, Multidisciplinary, Neurospora crassa, biology, Xenopus, fungi, RNA, RNA, Fungal, Ribosomal RNA, biology.organism_classification, Ribosome, Neurospora, Aspergillus nidulans, Bacillus cereus, Species Specificity, RNA, Ribosomal, Escherichia coli, Animals, Coding region, Electrophoresis, Polyacrylamide Gel, Gene

Abstract

Neurospora crassa has at least seven types of 5S RNA genes (alpha, beta, gamma, epsilon, delta, zeta, and eta) with different coding regions. A high resolution gel electrophoresis system was developed to separate minor 5S RNA's from the major 5S RNA (alpha). A study of several Neurospora crassa strains, four other species in the genus Neurospora, members of two closely related genera, and three distantly related genera demonstrated that 5S RNA heterogeneity is common among fungi. In addition, different 5S RNA's are present in Neurospora ribosomes. The finding that fungal ribosomes are structurally heterogeneous suggests that ribosomes may be functionally heterogeneous as well.

Published

1985

40. Concerted Evolution of Dispersed Neurospora crassa 5S RNA Genes: Pattern of Sequence Conservation Between Allelic and Nonallelic Genes

Author

E. Morzycka-Wroblewska, Eric U. Selker, J. N. Stevens, and Robert L. Metzenberg

Subjects

Genetics, Polymorphism, Genetic, Concerted evolution, Base Sequence, Neurospora crassa, biology, Crassa, RNA, DNA Restriction Enzymes, Cell Biology, biology.organism_classification, Biological Evolution, Genome, Neurospora, Genes, RNA, Ribosomal, Transcription (biology), Genes, Regulator, Nucleic Acid Conformation, Gene conversion, Gene, Molecular Biology, Alleles, Research Article

Abstract

About 100 genes coding for 5S RNA in Neurospora crassa are dispersed throughout the genome (Selker et al., Cell 24:815-818, 1981; R. L. Metzenberg, J. N. Stevens, E. U. Selker, and E. Morzycka-Wroblewska, manuscript in preparation). The majority of them correspond to the most abundant species (alpha) of 5S RNA found in the cell. Gene conversion, gene transposition, or both may be responsible for the maintenance of sequence homogeneity (concerted evolution) of alpha-type 5S genes. To explore these possibilities, we isolated and characterized separate 5S regions from two distantly related laboratory strains of N. crassa. Restriction and sequence analyses revealed no differences in molecular location of allelic 5S genes between the two strains. However, the DNA sequences around the 5S genes are ca. 10% divergent. We concluded that transposition is not frequent enough to account for the concerted evolution of N. crassa alpha-5S genes. In contrast to sequence divergence in the flanking regions between the two strains, the 5S transcribed regions are identical (with one exception), suggesting that these genes are being corrected. We have found that flanking sequences of various N. crassa 5S genes within each strain are largely different. Thus, if the correction mechanism is based on gene conversion, it is limited to the transcribed regions of the genes. However, we did find a short region of consensus including the sequence TATA located 25 to 30 nucleotides preceding the position of transcription initiation. This region may be involved in the transcription of N. crassa 5S genes.

Published

1985

41. Properties of Repressible Alkaline Phosphatase from Wild Type and a Wall-less Mutant of Neurospora crassa

Author

Earl G. Burton and Robert L. Metzenberg

Subjects

chemistry.chemical_classification, Growth medium, biology, fungi, Wild type, Cell Biology, biology.organism_classification, Biochemistry, Molecular biology, Neurospora crassa, chemistry.chemical_compound, Enzyme, chemistry, Alkaline phosphatase, Molecular Biology, Polyacrylamide gel electrophoresis, Mycelium, Derepression

Abstract

The repressible alkaline phosphatase of Neurospora crassa was purified from both the mycelium of a wild type strain and from the medium in which cultures of the slime mutant (which lacks the normal cell wall) had been grown. The enzyme preparations from the two sources had similar amino acid compositions, immunological properties, specific activities, thermal stabilities, and kinetic constants, but differed in a number of other properties. Both enzyme preparations contained carbohydrate, but the carbohydrate content of the enzyme isolated from slime medium was almost double that of the enzyme from wild type mycelium (24 and 14%, respectively). The molecular weight of the enzyme secreted by slime cells, estimated by gel filtration on Sephadex G-200 and polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, was higher than that of the enzyme from wild type mycelium by an amount consistent with its increased carbohydrate content. Electrophoresis at pH 4.7 and 9.5 indicated that the enzyme isolated from slime medium is more anionic than the enzyme from wild type mycelium. Chemical analysis revealed the presence of approximately 8 phosphate groups per enzyme molecule in the purified slime extracellular enzyme, whereas the wild type enzyme contained less than 0.5 phosphate molecule per enzyme molecule. The presence of phosphate in the slime extracellular enzyme, and the lack of significant amounts of phosphate in the wild type mycelial enzyme, was also demonstrated by determination of 32P associated with the enzymes isolated from the two sources following derepression in the presence of 32PO43-. A significant portion of the repressible alkaline phosphatase produced by derepressed wild type N. crassa was found to be secreted into the growth medium. The electrophoretic mobility of the enzyme isolated from the wild type culture medium resembled that of the enzyme isolated from the slime culture medium rather than that of the enzyme isolated from wild type mycelium.

Published

1974

42. REVERSAL OF A NEUROSPORA TRANSLOCATION BY CROSSING OVER INVOLVING DISPLACED rDNA, AND METHYLATION OF THE rDNA SEGMENTS THAT RESULT FROM RECOMBINATION

Author

David D. Perkins, Edward G. Barry, Robert L. Metzenberg, Eric U. Selker, and Namboori B. Raju

Subjects

Recombination, Genetic, Genetics, Neurospora crassa, biology, Nucleolus, Chromosomal translocation, Locus (genetics), Investigations, biology.organism_classification, DNA, Ribosomal, Methylation, Molecular biology, Neurospora, Translocation, Genetic, Chromosomal crossover, Nucleolus Organizer Region, Crossing Over, Genetic, Nucleolus organizer region, Ribosomal DNA, Crosses, Genetic

Abstract

In translocation OY321 of Neurospora crassa, the nucleolus organizer is divided into two segments, a proximal portion located interstitially in one interchange chromosome, and a distal portion now located terminally on another chromosome, linkage group I. In crosses of Translocation x Translocation, exceptional progeny are recovered nonselectively in which the chromosome sequence has apparently reverted to Normal. Genetic, cytological, and molecular evidence indicates that reversion is the result of meiotic crossing over between homologous displaced rDNA repeats. Marker linkages are wild type in these exceptional progeny. They differ from wild type, however, in retaining an interstitial block of rRNA genes which can be demonstrated cytologically by the presence of a second, small interstitial nucleolus and genetically by linkage of an rDNA restriction site polymorphism to the mating-type locus in linkage group I. The interstitial rDNA is more highly methylated than the terminal rDNA. The mechanism by which methylation enzymes distinguish between interstitial rDNA and terminal rDNA is unknown. Some hypotheses are considered.

Published

1986

43. REGULATION OF PHOSPHATE METABOLISM IN NEUROSPORA CRASSA: IDENTIFICATION OF THE STRUCTURAL GENE FOR REPRESSIBLE ALKALINE PHOSPHATASE

Author

John F. Lehman, Robert L. Metzenberg, and Robert E. Nelson

Subjects

Genetics, Neurospora crassa, Operon, Structural gene, Mutant, Acid phosphatase, Chromosome Mapping, Cross Reactions, Investigations, Biology, Alkaline Phosphatase, biology.organism_classification, Neurospora, Molecular biology, Antibodies, Genes, Biochemistry, Mutation, biology.protein, Alkaline phosphatase, Enzyme Repression, Regulator gene

Abstract

Five additional mutants of Neurospora crassa have been isolated that lack the repressible alkaline phosphatase. The mutations in these strains map at a previously assigned locus on Linkage Group V designated pho-2 (Gleason and Metzenberg 1974). The five new mutants, as well as three previously isolated by Gleason and Metzenberg (1974), were examined for the presence of cross-reacting material to antibody prepared against purified wild-type enzyme. Two of the mutants produced high levels of cross-reacting material, thus providing evidence that the pho-2 locus includes the structural gene for the repressible alkaline phosphatase. Two revertants were obtained from one of the mutants that contained cross-reacting material. Neither revertant produced an enzyme that could be distinguished physicochemically from that of wild type. A method for measuring very low levels of repressible alkaline phosphatase in crude extracts is also described.

Published

1976

44. Genetic Alteration of Pore Size and Other Properties of the Neurospora Cell Wall

Author

Robert L. Metzenberg and John R. Trevithick

Subjects

Glucosamine, Autoanalysis, Microbial Physiology and Metabolism, Glycoside Hydrolases, biology, Strain (chemistry), Molecular mass, Mutant, Wild type, Dextrans, Hexosamines, biology.organism_classification, Microbiology, Neurospora, Permeability, Neurospora crassa, Cell wall, Invertase, Biochemistry, Cell Wall, Propylene Glycols, Mutation, Biophysics, Molecular Biology

Abstract

Trevithick, John R. (University of Wisconsin Medical School, Madison), Robert L. Metzenberg and Donald F. Costello. Genetic alteration of pore size and other properties of the Neurospora cell wall. J. Bacteriol. 92:1016-1020. 1966.-Several properties of the cell walls of wild type and the osmotic mutant of Neurospora crassa have been examined. The peameability of the isolated cell walls to polyethylene glycol and dextran polymers of different molecular weights was investigated by the volume of distribution technique. The exclusion thresholds were evaluated by a statistical treatment. The molecular weights corresponding to these thresholds for wild type and osmotic were approximately 4,750 and 18,500, respectively; these values are significantly different. The cell walls of osmotic appeared to be thinner, more easily broken, and more easily compressed to ribbonlike shapes, whereas those of wild type were tubular and strong. Chemical analysis showed that osmotic walls had roughly a 30-fold higher galactosamine-glucosamine ratio than did wild type. It is proposed that the osmotic mutant has a cell wall with abnormally large pores, and that this may account for the increased rate of egress of invertase and the decreased fractionation of light from heavy invertase in this strain.

Published

1966

45. ISOLATION AND CHARACTERIZATION OF A NATURALLY OCCURRING COFACTOR OF CARBAMYL PHOSPHATE BIOSYNTHESIS

Author

Leo M. Hall, Philip P. Cohen, and Robert L. Metzenberg

Subjects

biology, Organic chemicals, N-Acetylglutamate synthase, Cell Biology, Carbamyl Phosphate, Isolation (microbiology), Biochemistry, Cofactor, chemistry.chemical_compound, Liver metabolism, Biosynthesis, chemistry, biology.protein, Molecular Biology

Published

1958

46. Altered repression of some enzymes of sulfur utilization in a temperature-conditional lethal mutant of Neurospora

Author

Robert L. Metzenberg and Judith W. Parson

Subjects

Mutant, Thiosulfates, Lyases, chemistry.chemical_element, In Vitro Techniques, Neurospora, Enzyme Repression, chemistry.chemical_compound, Methionine, Sulfites, Psychological repression, chemistry.chemical_classification, Multidisciplinary, biology, Temperature, Membrane Transport Proteins, biology.organism_classification, Sulfur, Enzyme, chemistry, Biochemistry, Mutation, Sulfatases, Oxidoreductases, Research Article, Sulfur utilization

Published

1966

47. Further Studies on the Mechanism of Action of Carbamyl Phosphate Synthetase

Author

Margaret Marshall, Philip P. Cohen, W.G. Miller, and Robert L. Metzenberg

Subjects

chemistry.chemical_classification, Enzyme, Biochemistry, Mechanism of action, Chemistry, medicine, Cell Biology, Carbamyl Phosphate, medicine.symptom, Molecular Biology

Published

1959

48. REGULATION OF PHOSPHATE METABOLISM IN NEUROSPORA CRASSA. CHARACTERIZATION OF REGULATORY MUTANTS

Author

Robert L. Metzenberg, Mary K. Gleason, Sandra K. Ahlgren, and John F. Lehman

Subjects

Mutant, Investigations, Neurospora, Phosphates, Neurospora crassa, Phosphorus metabolism, Methionine, fluids and secretions, Genes, Regulator, Genetics, Crossing Over, Genetic, Phosphate permease, Crosses, Genetic, biology, Sulfates, Permease, fungi, Temperature, Wild type, Chromosome Mapping, Membrane Transport Proteins, Biological Transport, Hydrogen-Ion Concentration, Alkaline Phosphatase, biology.organism_classification, Diploidy, Phenotype, Biochemistry, Mutation, Alkaline phosphatase, Phosphorus Radioisotopes, Cell Division

Abstract

A mutant of Neurospora crassa, called UW-6, differs from wild type in being partially constitutive for synthesis of a species of alkaline phosphatase, and also for a species of phosphate permease that has a high affinity for phosphate at high pH. UW-6 is possibly allelic with a mutant called nuc-2 that was previously isolated by Ishikawa. nuc-2 has the converse phenotype, in that it cannot be derepressed for either of these two activities. UW-6 is co-dominant with its wild-type allele in heterokaryons and in partial diploids. An unlinked mutant, nuc-1, is like nuc-2 in that it fails to make the alkaline phosphatase or the permease referred to above. nuc-1 is epistatic to UW-6 in the double mutant. The control of phosphorus metabolism is discussed, and is compared with some other control systems in filamentous fungi.

Published

1973

49. Carbamyl Phosphate Synthetase: Studies on the Mechanism of Action

Author

Philip P. Cohen, Robert L. Metzenberg, and Margaret Marshall

Subjects

chemistry.chemical_classification, biology, Cell Biology, Carbamyl Phosphate, Biochemistry, Carbamoyl phosphate synthetase I, Enzyme, chemistry, Mechanism of action, biology.protein, medicine, medicine.symptom, Molecular Biology

Published

1958

50. Biochemical Studies on Amphibian Metamorphosis

Author

Philip P. Cohen, Robert L. Metzenberg, and Woon Ki Paik

Subjects

chemistry.chemical_classification, biology, Chemistry, media_common.quotation_subject, Cell Biology, Amphibian metamorphosis, Anatomy, Metabolism, biology.organism_classification, Biochemistry, Tadpole, Liver metabolism, Nucleic acid, Nucleotide, Metamorphosis, Molecular Biology, media_common

Published

1961