Literature DB >> 21921272

Drosophila, genetic screens, and cardiac function.

Matthew J Wolf1, Howard A Rockman.   

Abstract

The fruit fly, Drosophila melanogaster, has been used to study genetics, development, and signaling for nearly a century, but only over the past few decades has this tremendous resource been the focus of cardiovascular research. Fly genetics offers sophisticated transgenic systems, molecularly defined genomic deficiencies, genome-wide transgenic RNAi lines, and numerous curated mutants to perform genetic screens. As a genetically tractable model, the fly facilitates gene discovery and can complement mammalian models of disease. The circulatory system in the fly comprises well-defined sets of cardiomyocytes, and methodological advances have permitted accurate characterization of cardiac morphology and function. Thus, fly genetics and genomics offer new approaches for gene discovery of adult cardiac phenotypes to identify evolutionarily conserved molecular signals that drive cardiovascular disease.

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Year:  2011        PMID: 21921272      PMCID: PMC3678974          DOI: 10.1161/CIRCRESAHA.111.244897

Source DB:  PubMed          Journal:  Circ Res        ISSN: 0009-7330            Impact factor:   17.367


  116 in total

1.  Ends-out, or replacement, gene targeting in Drosophila.

Authors:  Wei J Gong; Kent G Golic
Journal:  Proc Natl Acad Sci U S A       Date:  2003-02-14       Impact factor: 11.205

2.  Functional and evolutionary implications of enhanced genomic analysis of rhomboid intramembrane proteases.

Authors:  Marius K Lemberg; Matthew Freeman
Journal:  Genome Res       Date:  2007-10-15       Impact factor: 9.043

3.  A targeted gene knockout in Drosophila.

Authors:  Y S Rong; K G Golic
Journal:  Genetics       Date:  2001-03       Impact factor: 4.562

4.  A Drosophila tissue polarity locus encodes a protein containing seven potential transmembrane domains.

Authors:  C R Vinson; S Conover; P N Adler
Journal:  Nature       Date:  1989-03-16       Impact factor: 49.962

5.  FOXO/4E-BP signaling in Drosophila muscles regulates organism-wide proteostasis during aging.

Authors:  Fabio Demontis; Norbert Perrimon
Journal:  Cell       Date:  2010-11-24       Impact factor: 41.582

Review 6.  Cell signaling by receptor tyrosine kinases.

Authors:  Mark A Lemmon; Joseph Schlessinger
Journal:  Cell       Date:  2010-06-25       Impact factor: 41.582

7.  Phospholipid homeostasis regulates lipid metabolism and cardiac function through SREBP signaling in Drosophila.

Authors:  Hui-Ying Lim; Weidong Wang; Robert J Wessells; Karen Ocorr; Rolf Bodmer
Journal:  Genes Dev       Date:  2011-01-15       Impact factor: 11.361

8.  Components of wingless signalling in Drosophila.

Authors:  E Siegfried; E L Wilder; N Perrimon
Journal:  Nature       Date:  1994-01-06       Impact factor: 49.962

9.  Distinct effects of tafazzin deletion in differentiated and undifferentiated mitochondria.

Authors:  Devrim Acehan; Zaza Khuchua; Riekelt H Houtkooper; Ashim Malhotra; Johanna Kaufman; Frédéric M Vaz; Mindong Ren; Howard A Rockman; David L Stokes; Michael Schlame
Journal:  Mitochondrion       Date:  2008-12-11       Impact factor: 4.160

10.  Recombineering-mediated tagging of Drosophila genomic constructs for in vivo localization and acute protein inactivation.

Authors:  Koen J T Venken; Jaroslaw Kasprowicz; Sabine Kuenen; Jiekun Yan; Bassem A Hassan; Patrik Verstreken
Journal:  Nucleic Acids Res       Date:  2008-08-01       Impact factor: 16.971
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  26 in total

1.  The impact of Megf10/Drpr gain-of-function on muscle development in Drosophila.

Authors:  Isabelle Draper; Madhurima Saha; Hannah Stonebreaker; Robert N Salomon; Bahar Matin; Peter B Kang
Journal:  FEBS Lett       Date:  2019-03-12       Impact factor: 4.124

2.  Future translational applications from the contemporary genomics era: a scientific statement from the American Heart Association.

Authors:  Caroline S Fox; Jennifer L Hall; Donna K Arnett; Euan A Ashley; Christian Delles; Mary B Engler; Mason W Freeman; Julie A Johnson; David E Lanfear; Stephen B Liggett; Aldons J Lusis; Joseph Loscalzo; Calum A MacRae; Kiran Musunuru; L Kristin Newby; Christopher J O'Donnell; Stephen S Rich; Andre Terzic
Journal:  Circulation       Date:  2015-04-16       Impact factor: 29.690

Review 3.  Time-restricted feeding for prevention and treatment of cardiometabolic disorders.

Authors:  Girish C Melkani; Satchidananda Panda
Journal:  J Physiol       Date:  2017-04-25       Impact factor: 5.182

4.  Deletion of Siah-interacting protein gene in Drosophila causes cardiomyopathy.

Authors:  Michelle E Casad; Lin Yu; Joseph P Daniels; Matthew J Wolf; Howard A Rockman
Journal:  Mol Genet Genomics       Date:  2012-03-08       Impact factor: 3.291

5.  A Buoyancy-based Method of Determining Fat Levels in Drosophila.

Authors:  Kelsey E Hazegh; Tânia Reis
Journal:  J Vis Exp       Date:  2016-11-01       Impact factor: 1.355

6.  Obesity-associated cardiac dysfunction in starvation-selected Drosophila melanogaster.

Authors:  Christopher M Hardy; Ryan T Birse; Matthew J Wolf; Lin Yu; Rolf Bodmer; Allen G Gibbs
Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2015-07-01       Impact factor: 3.619

Review 7.  Mechanical Regulation of Cardiac Aging in Model Systems.

Authors:  Ayla O Sessions; Adam J Engler
Journal:  Circ Res       Date:  2016-05-13       Impact factor: 17.367

8.  Formin homology 2 domain containing 3 variants associated with hypertrophic cardiomyopathy.

Authors:  Eric C Wooten; Virginia B Hebl; Matthew J Wolf; Sarah R Greytak; Nicole M Orr; Isabelle Draper; Jenna E Calvino; Navin K Kapur; Martin S Maron; Iftikhar J Kullo; Steve R Ommen; J Martijn Bos; Michael J Ackerman; Gordon S Huggins
Journal:  Circ Cardiovasc Genet       Date:  2012-12-19

Review 9.  RNAi screening in Drosophila cells and in vivo.

Authors:  Stephanie E Mohr
Journal:  Methods       Date:  2014-02-24       Impact factor: 3.608

10.  SPARCling Study of a Drosophila Cardiomyopathy.

Authors:  Matthew J Wolf
Journal:  Circ Cardiovasc Genet       Date:  2016-04
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