BIOMAT Database Logo BIOMAT Database Logo

The vacuolar ATPase of Neurospora crassa is indispensable: inactivation of the vma-1 gene by repeat-induced point mutation. 1996

T L Ferea, and B J Bowman
Department of Biology, Sinsheimer Laboratories, University of California, Santa Cruz 95064, USA. ferea@biology.ucsc.edu

To analyze the phenotype of cells lacking the vacuolar ATPase, we inactivated the vma-1 gene, which encodes the catalytic subunit of the enzyme. Because preliminary experiments suggested the vma-1 gene was essential, we developed a method of simultaneously inactivating the gene and complementing it with a functional copy. We call this method repeat-induced point mutation (RIP) & Rescue. Two strains, both of which contained an extra copy of the vma-1 gene, were mated. Progeny that had inherited a functional copy of the gene at an ectopic site in the genome were selected. In some of these progeny the endogenous vma-1 gene had been altered by the RIP process. Sequencing showed the endogenous vma-1 gene had been inactivated by multiple point mutations. Progeny from strains with an inactive endogenous vma-1 gene were inviable unless a functional copy of the gene cosegregated, indicating that the vacuolar ATPase is essential in Neurospora crassa.

UI MeSH Term Description Entries
D008969 Molecular Sequence Data Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as GENBANK, European Molecular Biology Laboratory (EMBL), National Biomedical Research Foundation (NBRF), or other sequence repositories. Sequence Data, Molecular,Molecular Sequencing Data,Data, Molecular Sequence,Data, Molecular Sequencing,Sequencing Data, Molecular
D009492 Neurospora crassa A species of ascomycetous fungi of the family Sordariaceae, order SORDARIALES, much used in biochemical, genetic, and physiologic studies. Chrysonilia crassa
D010641 Phenotype The outward appearance of the individual. It is the product of interactions between genes, and between the GENOTYPE and the environment. Phenotypes
D010957 Plasmids Extrachromosomal, usually CIRCULAR DNA molecules that are self-replicating and transferable from one organism to another. They are found in a variety of bacterial, archaeal, fungal, algal, and plant species. They are used in GENETIC ENGINEERING as CLONING VECTORS. Episomes,Episome,Plasmid
D012091 Repetitive Sequences, Nucleic Acid Sequences of DNA or RNA that occur in multiple copies. There are several types: INTERSPERSED REPETITIVE SEQUENCES are copies of transposable elements (DNA TRANSPOSABLE ELEMENTS or RETROELEMENTS) dispersed throughout the genome. TERMINAL REPEAT SEQUENCES flank both ends of another sequence, for example, the long terminal repeats (LTRs) on RETROVIRUSES. Variations may be direct repeats, those occurring in the same direction, or inverted repeats, those opposite to each other in direction. TANDEM REPEAT SEQUENCES are copies which lie adjacent to each other, direct or inverted (INVERTED REPEAT SEQUENCES). DNA Repetitious Region,Direct Repeat,Genes, Selfish,Nucleic Acid Repetitive Sequences,Repetitive Region,Selfish DNA,Selfish Genes,DNA, Selfish,Repetitious Region, DNA,Repetitive Sequence,DNA Repetitious Regions,DNAs, Selfish,Direct Repeats,Gene, Selfish,Repeat, Direct,Repeats, Direct,Repetitious Regions, DNA,Repetitive Regions,Repetitive Sequences,Selfish DNAs,Selfish Gene
D003433 Crosses, Genetic Deliberate breeding of two different individuals that results in offspring that carry part of the genetic material of each parent. The parent organisms must be genetically compatible and may be from different varieties or closely related species. Cross, Genetic,Genetic Cross,Genetic Crosses
D004706 Endodeoxyribonucleases A group of enzymes catalyzing the endonucleolytic cleavage of DNA. They include members of EC 3.1.21.-, EC 3.1.22.-, EC 3.1.23.- (DNA RESTRICTION ENZYMES), EC 3.1.24.- (DNA RESTRICTION ENZYMES), and EC 3.1.25.-.
D005800 Genes, Fungal The functional hereditary units of FUNGI. Fungal Genes,Fungal Gene,Gene, Fungal
D005821 Genetic Techniques Chromosomal, biochemical, intracellular, and other methods used in the study of genetics. Genetic Technic,Genetic Technics,Genetic Technique,Technic, Genetic,Technics, Genetic,Technique, Genetic,Techniques, Genetic
D006180 Proton-Translocating ATPases Multisubunit enzymes that reversibly synthesize ADENOSINE TRIPHOSPHATE. They are coupled to the transport of protons across a membrane. ATP Dependent Proton Translocase,ATPase, F0,ATPase, F1,Adenosinetriphosphatase F1,F(1)F(0)-ATPase,F1 ATPase,H(+)-Transporting ATP Synthase,H(+)-Transporting ATPase,H(+)ATPase Complex,Proton-Translocating ATPase,Proton-Translocating ATPase Complex,Proton-Translocating ATPase Complexes,ATPase, F(1)F(0),ATPase, F0F1,ATPase, H(+),Adenosine Triphosphatase Complex,F(0)F(1)-ATP Synthase,F-0-ATPase,F-1-ATPase,F0F1 ATPase,F1-ATPase,F1F0 ATPase Complex,H(+)-ATPase,H(+)-Transporting ATP Synthase, Acyl-Phosphate-Linked,H+ ATPase,H+ Transporting ATP Synthase,H+-Translocating ATPase,Proton-Translocating ATPase, F0 Sector,Proton-Translocating ATPase, F1 Sector,ATPase Complex, Proton-Translocating,ATPase Complexes, Proton-Translocating,ATPase, H+,ATPase, H+-Translocating,ATPase, Proton-Translocating,Complex, Adenosine Triphosphatase,Complexes, Proton-Translocating ATPase,F 0 ATPase,F 1 ATPase,F0 ATPase,H+ Translocating ATPase,Proton Translocating ATPase,Proton Translocating ATPase Complex,Proton Translocating ATPase Complexes,Proton Translocating ATPase, F0 Sector,Proton Translocating ATPase, F1 Sector,Triphosphatase Complex, Adenosine

Related Publications

T L Ferea, and B J Bowman
Vacuolar ATPase of Neurospora crassa: electron microscopy, gene characterization and gene inactivation/mutation.
November 1992, The Journal of experimental biology,
T L Ferea, and B J Bowman
Isolation of the vma-4 gene encoding the 26 kDa subunit of the Neurospora crassa vacuolar ATPase.
July 1995, Biochimica et biophysica acta,
T L Ferea, and B J Bowman
Recurrence of repeat-induced point mutation (RIP) in Neurospora crassa.
April 1991, Genetics,
T L Ferea, and B J Bowman
The proteolipid subunit of the Neurospora crassa vacuolar ATPase: isolation of the protein and the vma-3 gene.
April 1994, Molecular & general genetics : MGG,
T L Ferea, and B J Bowman
The vacuolar ATPase of Neurospora crassa.
August 1992, Journal of bioenergetics and biomembranes,
T L Ferea, and B J Bowman
Disruption of vma-1, the gene encoding the catalytic subunit of the vacuolar H(+)-ATPase, causes severe morphological changes in Neurospora crassa.
January 2000, The Journal of biological chemistry,
T L Ferea, and B J Bowman
DNA methylation associated with repeat-induced point mutation in Neurospora crassa.
October 1995, Molecular and cellular biology,
T L Ferea, and B J Bowman
A cytosine methyltransferase homologue is essential for repeat-induced point mutation in Neurospora crassa.
June 2002, Proceedings of the National Academy of Sciences of the United States of America,
T L Ferea, and B J Bowman
Relics of repeat-induced point mutation direct heterochromatin formation in Neurospora crassa.
March 2009, Genome research,
T L Ferea, and B J Bowman
Characterization of a Neurospora crassa photolyase-deficient mutant generated by repeat induced point mutation of the phr gene.
October 1999, Fungal genetics and biology : FG & B,
Copied contents to your clipboard!