Your search keyword '"Berl Oakley"' showing total 3 results

1. Fusion PCR and gene targeting in Aspergillus nidulans

Author

Edyta, Szewczyk, Tania, Nayak, C Elizabeth, Oakley, Heather, Edgerton, Yi, Xiong, Naimeh, Taheri-Talesh, Stephen A, Osmani, Berl R, Oakley, and Berl, Oakley

Subjects

biology, Protoplasts, Gene Transfer Techniques, Gene targeting, Promoter, Protein engineering, Protoplast, biology.organism_classification, Molecular biology, Polymerase Chain Reaction, General Biochemistry, Genetics and Molecular Biology, Aspergillus nidulans, Gene Targeting, DNA microarray, Gene, Selectable marker

Abstract

We describe a rapid method for the production of fusion PCR products that can be used, generally without band purification, to transform Aspergillus nidulans. This technique can be used to replace genes; tag genes with fluorescent moeties or epitope tags; or replace endogenous promoters with regulatable promoters, by introducing an appropriate selective cassette (e.g., fluorescent protein + selectable marker). The relevant genomic fragments and cassette are first amplified separately by PCR using primers that produce overlapping ends. A second PCR using 'nested' primers fuses the fragments into a single molecule with all sequences in the desired order. This procedure allows a cassette to be amplified once, frozen and used subsequently in many fusion PCRs. Transformation of nonhomologous recombination deficient (nkuADelta) strains of A. nidulans with fusion PCR products results in high frequencies of accurate gene targeting. Fusion PCR takes less than 2 d. Protoplast formation and transformation takes less than 1 d.

Published

2007

2. Molecular and genetic methods for studying mitosis and spindle proteins in Aspergillus nidulans

Author

Nr, Morris, Dr, Kirsch, and Berl Oakley

Subjects

Fungal Proteins, Microscopy, Mitosis, Microtubules, Aspergillus nidulans

3. Isolation of mip (microtubule-interacting protein) mutations of Aspergillus nidulans

Author

Cf, Weil, Ce, Oakley, and Berl Oakley

Subjects

Genetic Linkage, Mutation, Temperature, Chromosome Mapping, Cell Biology, Benomyl, DNA, Fungal, Molecular Biology, Microtubule-Associated Proteins, Alleles, Aspergillus nidulans, Research Article

Abstract

We identified four mutations in two previously undescribed loci involved in microtubule function in Aspergillus nidulans as extragenic suppressors of benA33, a heat-sensitive beta-tubulin mutation. Three of the four mutations map to a locus closely linked to riboB on linkage group VIII; we designated this locus mipA (for microtubule-interacting protein). We were not able to map the remaining suppressor because of chromosomal rearrangements. However, since it recombines with riboB at a significantly higher frequency than the mipA alleles, it is unlikely to be in mipA; thus, we designated it mipB1. The mip mutations are not allelic to the previously identified loci that encode alpha- and beta-tubulin, and it is likely that mipA and mipB encode previously unidentified nontubulin proteins involved in microtubule function. Each of the mip mutations suppresses the heat sensitivity conferred by benA33 and suppresses the blockage of nuclear division and movement conferred by this mutation at high temperatures. Interactions between mipA and benA are allele specific. All of the mipA mutations are cryptic in a wild-type benA background but cause cold sensitivity in combination with benA33. These mutations also confer cold sensitivity in combination with benA31 and benA32 and reduce the resistance conferred by these mutations to the antimicrotubule agent benomyl but do not suppress the heat sensitivity conferred by these alleles. Finally, the mipA alleles suppress the heat sensitivity conferred by benA11, benA17, and benA21 but do not confer cold sensitivity in combination with these alleles.