Richard Kurtz scite author profile

CyP-40 cyclophilins are found in association with molecular chaperone Hsp90⅐steroid receptor complexes. The amino-terminal portion of these cyclophilins harbors the characteristic peptidyl-prolyl isomerase (PPIase) domain, whereas three copies of the tetratricopeptide (TPR) motif, a structure shown to be involved in protein-protein interactions, and a putative calmodulinbinding domain are located in the carboxyl-terminal half of the protein. The TPR domains mediate binding to Hsp90, but a requirement for the PPIase domain has not been established. To address this, we have investigated the effects of mutations that alter the PPIase domain of the Saccharomyces cerevisiae CyP-40 homolog, Cpr7. Because Cpr7 is required for rapid growth and full Hsp90 activity, a functional assessment of the PPIase domain could be performed in vivo. A mutation in the catalytic domain altering a conserved site predicted to be essential for isomerase activity did not compromise Cpr7 function. Furthermore, deletion of the entire PPIase domain did not significantly affect growth or Hsp90-mediated steroid receptor activity. These results indicate that the TPR-containing carboxyl terminus of Cpr7 is sufficient for fundamental Cpr7-dependent activity.

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An Interscholastic Network To Generate LexA Enhancer Trap Lines inDrosophila

Kockel

Griffin

Ahmed

et al. 2019

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Binary expression systems like the LexA-LexAop system provide a powerful experimental tool kit to study gene and tissue function in developmental biology, neurobiology, and physiology. However, the number of well-defined LexA enhancer trap insertions remains limited. In this study, we present the molecular characterization and initial tissue expression analysis of nearly 100 novel StanEx LexA enhancer traps, derived from the StanEx 1 index line. This includes 76 insertions into novel, distinct gene loci not previously associated with enhancer traps or targeted LexA constructs. Additionally, our studies revealed evidence for selective transposase-dependent replacement of a previously-undetected KP element on chromosome III within the StanEx 1 genetic background during hybrid dysgenesis, suggesting a molecular basis for the over-representation of LexA insertions at the NK7.1 locus in our screen. Production and characterization of novel fly lines were performed by students and teachers in experiment-based genetics classes within a geographically diverse network of public and independent high schools. Thus, unique partnerships between secondary schools and university-based programs have produced and characterized novel genetic and molecular resources in Drosophila for open-source distribution, and provide paradigms for development of science education through experience-based pedagogy.

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An Interscholastic Network to Generate LexA Enhancer Trap Lines inDrosophila

Kockel¹,

Griffin²,

Ahmed³

et al. 2019

Preprint

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Binary expression systems like the LexA-LexAop system provide a powerful experimental tool kit to study gene and tissue function in developmental biology, neurobiology and physiology. However, the number of well-defined LexA enhancer trap insertions remains limited. In this study, we present the molecular characterization and initial tissue expression analysis of nearly 100 novel StanEx LexA enhancer traps, derived from the StonEx1 index line. This includes 76 insertions into novel, distinct gene loci not previously associated with enhancer traps or targeted LexA constructs. Additionally, our studies revealed evidence for selective transposase-dependent replacement of a previously-undetected KP element on chromosome III within the StanEx1 genetic background during hybrid dysgenesis, suggesting a molecular basis for the over-representation of LexA insertions at the NK7.1 locus in our screen. Production and characterization of novel fly lines were performed by students and teachers in experiment-based genetics classes within a geographically diverse network of public and independent high schools. Thus, unique partnerships between secondary schools and university-based programs have produced and characterized novel genetic and molecular resources in Drosophila for open-source distribution, and provide paradigms for development of science education through experience-based pedagogy.

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Analysis of Chromosome/Allele Loss in Genetically Unstable Yeast by Quantitative Real-Time PCR

Kurtz

Nickoloff

2005

BioTechniques

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Detecting Instability Genomic instability is most often associated with the malignant progression of cancers, although in some cases, such as p53 deficiency, it can also be involved in the earlier initiation stages. This instability, the causes of which are still being researched and debated, manifests through a continuum of genetic changes, from point mutations to chromosome loss. The diploid yeast, Saccharomyces cerevisiae, has proven to be an excellent model for studying a variety of types of chromosome or allelic loss. Using this organism as a model system, Lo et al. (p. 685) have developed a rapid real-time PCR protocol for analyzing such loss, abrogating the need for time-consuming Southern blot analysis. By determining the concentration of a marker gene relative to a robust control gene that is resistant to genetic change due to haplo-insufficiency (both copies of the gene are required for cell viability), the authors could reproducibly detect chromosome loss. This method was shown to have accuracy comparable with Southern blotting. It could also be performed more quickly and without the need for hazardous radioactivity.

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Richard Kurtz

The Peptidyl-prolyl Isomerase Domain of the CyP-40 Cyclophilin Homolog Cpr7 Is Not Required to Support Growth or Glucocorticoid Receptor Activity in Saccharomyces cerevisiae

An Interscholastic Network To Generate LexA Enhancer Trap Lines inDrosophila

An Interscholastic Network to Generate LexA Enhancer Trap Lines inDrosophila

Analysis of Chromosome/Allele Loss in Genetically Unstable Yeast by Quantitative Real-Time PCR

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