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An Interscholastic Network To Generate LexA Enhancer Trap Lines in Drosophila.
Kockel, Lutz; Griffin, Catherine; Ahmed, Yaseen; Fidelak, Lauren; Rajan, Arjun; Gould, Ethan P; Haigney, Myles; Ralston, Benjamin; Tercek, Rex J; Galligani, Lara; Rao, Sagar; Huq, Lutfi; Bhargava, Hersh K; Dooner, Ailis C; Lemmerman, Emily G; Malusa, Ruby F; Nguyen, Tran H; Chung, Julie S; Gregory, Sara M; Kuwana, Kiyomasa M; Regenold, Jonathan T; Wei, Alexander; Ashton, Jake; Dickinson, Patrick; Martel, Kate; Cai, Connie; Chen, Carissa; Price, Stephen; Qiao, Jeffrey; Shepley, David; Zhang, Joanna; Chalasani, Meghana; Nguyen, Khanh; Aalto, August; Kim, ByungJun; Tazawa-Goodchild, Erik; Sherwood, Amanda; Rahman, Ahmad; Wu, Sum Ying Celeste; Lotzkar, Joel; Michaels, Serena; Aristotle, Hillary; Clark, Antigone; Gasper, Grace; Xiang, Evan; Schlör, Frieda Luna; Lu, Melissa; Haering, Kate; Friberg, Julia; Kuwana, Alyssa.
Afiliación
  • Kockel L; Dept. of Developmental Biology, Stanford University School of Medicine, Stanford CA 94305.
  • Griffin C; Phillips Exeter Academy, Exeter, NH 03833.
  • Ahmed Y; Phillips Exeter Academy, Exeter, NH 03833.
  • Fidelak L; Phillips Exeter Academy, Exeter, NH 03833.
  • Rajan A; Phillips Exeter Academy, Exeter, NH 03833.
  • Gould EP; Phillips Exeter Academy, Exeter, NH 03833.
  • Haigney M; Phillips Exeter Academy, Exeter, NH 03833.
  • Ralston B; Phillips Exeter Academy, Exeter, NH 03833.
  • Tercek RJ; Phillips Exeter Academy, Exeter, NH 03833.
  • Galligani L; Phillips Exeter Academy, Exeter, NH 03833.
  • Rao S; Phillips Exeter Academy, Exeter, NH 03833.
  • Huq L; Phillips Exeter Academy, Exeter, NH 03833.
  • Bhargava HK; Phillips Exeter Academy, Exeter, NH 03833.
  • Dooner AC; Phillips Exeter Academy, Exeter, NH 03833.
  • Lemmerman EG; Phillips Exeter Academy, Exeter, NH 03833.
  • Malusa RF; Phillips Exeter Academy, Exeter, NH 03833.
  • Nguyen TH; Phillips Exeter Academy, Exeter, NH 03833.
  • Chung JS; Phillips Exeter Academy, Exeter, NH 03833.
  • Gregory SM; Phillips Exeter Academy, Exeter, NH 03833.
  • Kuwana KM; Phillips Exeter Academy, Exeter, NH 03833.
  • Regenold JT; Phillips Exeter Academy, Exeter, NH 03833.
  • Wei A; Phillips Exeter Academy, Exeter, NH 03833.
  • Ashton J; Phillips Exeter Academy, Exeter, NH 03833.
  • Dickinson P; Phillips Exeter Academy, Exeter, NH 03833.
  • Martel K; Phillips Exeter Academy, Exeter, NH 03833.
  • Cai C; Phillips Exeter Academy, Exeter, NH 03833.
  • Chen C; Phillips Exeter Academy, Exeter, NH 03833.
  • Price S; Phillips Exeter Academy, Exeter, NH 03833.
  • Qiao J; Phillips Exeter Academy, Exeter, NH 03833.
  • Shepley D; Phillips Exeter Academy, Exeter, NH 03833.
  • Zhang J; Phillips Exeter Academy, Exeter, NH 03833.
  • Chalasani M; Phillips Exeter Academy, Exeter, NH 03833.
  • Nguyen K; Phillips Exeter Academy, Exeter, NH 03833.
  • Aalto A; Phillips Exeter Academy, Exeter, NH 03833.
  • Kim B; Phillips Exeter Academy, Exeter, NH 03833.
  • Tazawa-Goodchild E; Phillips Exeter Academy, Exeter, NH 03833.
  • Sherwood A; Phillips Exeter Academy, Exeter, NH 03833.
  • Rahman A; Phillips Exeter Academy, Exeter, NH 03833.
  • Wu SYC; Phillips Exeter Academy, Exeter, NH 03833.
  • Lotzkar J; Phillips Exeter Academy, Exeter, NH 03833.
  • Michaels S; Phillips Exeter Academy, Exeter, NH 03833.
  • Aristotle H; Phillips Exeter Academy, Exeter, NH 03833.
  • Clark A; Phillips Exeter Academy, Exeter, NH 03833.
  • Gasper G; Phillips Exeter Academy, Exeter, NH 03833.
  • Xiang E; Phillips Exeter Academy, Exeter, NH 03833.
  • Schlör FL; Phillips Exeter Academy, Exeter, NH 03833.
  • Lu M; Phillips Exeter Academy, Exeter, NH 03833.
  • Haering K; Phillips Exeter Academy, Exeter, NH 03833.
  • Friberg J; Phillips Exeter Academy, Exeter, NH 03833.
  • Kuwana A; Phillips Exeter Academy, Exeter, NH 03833.
G3 (Bethesda) ; 9(7): 2097-2106, 2019 07 09.
Article en En | MEDLINE | ID: mdl-31040111
ABSTRACT
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 StanEx1 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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Texto completo: 1 Base de datos: MEDLINE Asunto principal: Proteínas Bacterianas / Animales Modificados Genéticamente / Serina Endopeptidasas / Regulación de la Expresión Génica / Elementos de Facilitación Genéticos / Drosophila Límite: Animals Idioma: En Revista: G3 (Bethesda) Año: 2019 Tipo del documento: Article
Texto completo
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Texto completo: 1 Base de datos: MEDLINE Asunto principal: Proteínas Bacterianas / Animales Modificados Genéticamente / Serina Endopeptidasas / Regulación de la Expresión Génica / Elementos de Facilitación Genéticos / Drosophila Límite: Animals Idioma: En Revista: G3 (Bethesda) Año: 2019 Tipo del documento: Article