Literature DB >> 20536286

Why Drosophila to study phototransduction?

William L Pak1.   

Abstract

This review recounts the early history of Drosophila phototransduction genetics, covering the period between approximately 1966 to 1979. Early in this period, the author felt that there was an urgent need for a new approach in phototransduction research. Through inputs from a number of colleagues, he was led to consider isolating Drosophila mutants that are defective in the electroretinogram. Thanks to the efforts of dedicated associates and technical staff, by the end of this period, he was able to accumulate a large number of such mutants. Particularly important in this effort was the use of the mutant assay protocol based on the "prolonged depolarizing afterpotential." This collection of mutants formed the basis of the subsequent intensive investigations of the Drosophila phototransduction cascade by many investigators.

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Year:  2010        PMID: 20536286      PMCID: PMC2923386          DOI: 10.3109/01677061003797302

Source DB:  PubMed          Journal:  J Neurogenet        ISSN: 0167-7063            Impact factor:   1.250


  60 in total

Review 1.  Neuronal TRP channels: thermometers, pathfinders and life-savers.

Authors:  Karel Talavera; Bernd Nilius; Thomas Voets
Journal:  Trends Neurosci       Date:  2008-05-09       Impact factor: 13.837

2.  A multivalent PDZ-domain protein assembles signalling complexes in a G-protein-coupled cascade.

Authors:  S Tsunoda; J Sierralta; Y Sun; R Bodner; E Suzuki; A Becker; M Socolich; C S Zuker
Journal:  Nature       Date:  1997-07-17       Impact factor: 49.962

3.  Genetic dissection of the Drosophila nervous system by means of mosaics.

Authors:  Y Hotta; S Benzer
Journal:  Proc Natl Acad Sci U S A       Date:  1970-11       Impact factor: 11.205

4.  Drosophila rhodopsin: photochemistry, extraction and differences in the norp AP12 phototransduction mutant.

Authors:  S E Ostroy; M Wilson; W L Pak
Journal:  Biochem Biophys Res Commun       Date:  1974-08-05       Impact factor: 3.575

5.  INAF, a protein required for transient receptor potential Ca(2+) channel function.

Authors:  C Li; C Geng; H T Leung; Y S Hong; L L Strong; S Schneuwly; W L Pak
Journal:  Proc Natl Acad Sci U S A       Date:  1999-11-09       Impact factor: 11.205

6.  Drosophila locus with gene-dosage effects on rhodopsin.

Authors:  N J Scavarda; J O'tousa; W L Pak
Journal:  Proc Natl Acad Sci U S A       Date:  1983-07       Impact factor: 11.205

7.  DAG lipase activity is necessary for TRP channel regulation in Drosophila photoreceptors.

Authors:  Hung-Tat Leung; Julie Tseng-Crank; Eunju Kim; Cecon Mahapatra; Shikoh Shino; Ying Zhou; Lingling An; Rebecca W Doerge; William L Pak
Journal:  Neuron       Date:  2008-06-26       Impact factor: 17.173

8.  The trp gene is essential for a light-activated Ca2+ channel in Drosophila photoreceptors.

Authors:  R C Hardie; B Minke
Journal:  Neuron       Date:  1992-04       Impact factor: 17.173

9.  Drosophila retinal degeneration A gene encodes an eye-specific diacylglycerol kinase with cysteine-rich zinc-finger motifs and ankyrin repeats.

Authors:  I Masai; A Okazaki; T Hosoya; Y Hotta
Journal:  Proc Natl Acad Sci U S A       Date:  1993-12-01       Impact factor: 11.205

10.  Microspectrophotometry of arthropod visual screening pigments.

Authors:  G K Strother; A J Casella
Journal:  J Gen Physiol       Date:  1972-05       Impact factor: 4.086
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  11 in total

1.  Exploring the genetic underpinnings of brain and behavioral disorders.

Authors:  Wei-Dong Yao; Chun-Fang Wu
Journal:  J Neurogenet       Date:  2014 Mar-Jun       Impact factor: 1.250

2.  Two novel forms of ERG oscillation in Drosophila: age and activity dependence.

Authors:  Atsushi Ueda; Scott Woods; Ian McElree; Tristan C D G O'Harrow; Casey Inman; Savantha Thenuwara; Muhammad Aftab; Atulya Iyengar
Journal:  J Neurogenet       Date:  2018-04-24       Impact factor: 1.250

Review 3.  Drosophila visual transduction.

Authors:  Craig Montell
Journal:  Trends Neurosci       Date:  2012-04-10       Impact factor: 13.837

4.  TRP and Rhodopsin Transport Depends on Dual XPORT ER Chaperones Encoded by an Operon.

Authors:  Zijing Chen; Hsiang-Chin Chen; Craig Montell
Journal:  Cell Rep       Date:  2015-10-08       Impact factor: 9.423

Review 5.  PDA (prolonged depolarizing afterpotential)-defective mutants: the story of nina's and ina's--pinta and santa maria, too.

Authors:  William L Pak; Shikoh Shino; Hung-Tat Leung
Journal:  J Neurogenet       Date:  2012-01-27       Impact factor: 1.250

6.  Simple ways to measure behavioral responses of Drosophila to stimuli and use of these methods to characterize a novel mutant.

Authors:  Lar L Vang; Alexei V Medvedev; Julius Adler
Journal:  PLoS One       Date:  2012-05-23       Impact factor: 3.240

7.  Human intellectual disability genes form conserved functional modules in Drosophila.

Authors:  Merel A W Oortveld; Shivakumar Keerthikumar; Martin Oti; Bonnie Nijhof; Ana Clara Fernandes; Korinna Kochinke; Anna Castells-Nobau; Eva van Engelen; Thijs Ellenkamp; Lilian Eshuis; Anne Galy; Hans van Bokhoven; Bianca Habermann; Han G Brunner; Christiane Zweier; Patrik Verstreken; Martijn A Huynen; Annette Schenck
Journal:  PLoS Genet       Date:  2013-10-31       Impact factor: 5.917

8.  Drosophila melanogaster rhodopsin Rh7 is a UV-to-visible light sensor with an extraordinarily broad absorption spectrum.

Authors:  Kazumi Sakai; Kei Tsutsui; Takahiro Yamashita; Naoyuki Iwabe; Keisuke Takahashi; Akimori Wada; Yoshinori Shichida
Journal:  Sci Rep       Date:  2017-08-04       Impact factor: 4.379

Review 9.  Drosophila sensory receptors-a set of molecular Swiss Army Knives.

Authors:  Craig Montell
Journal:  Genetics       Date:  2021-03-03       Impact factor: 4.562

10.  Miro, a Rho GTPase genetically interacts with Alzheimer's disease-associated genes (Tau, 42 and Appl) in Drosophila melanogaster.

Authors:  Komal Panchal; Anand Krishna Tiwari
Journal:  Biol Open       Date:  2020-09-03       Impact factor: 2.422
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