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Literature DB >> 12727550

Understanding cardiovascular physiology in zebrafish and Xenopus larvae: the use of microtechniques.

Abstract

Zebrafish and Xenopus, genetically accessible vertebrates with an externally developing, optically clear embryo, are ideally suited for in vivo functional dissection of the embryonic development of the circulatory system. Physiological characterizations of the cardiovascular system are still imperative for a more complete understanding of the connections between genetic/epigenetic factors and cardiovascular development. Here, we review experimental tools and methods that have been developed to measure numerous cardiovascular parameters in these millimetre-sized animals.

Entities: Species

Mesh：

Year: 2003 PMID： 12727550 DOI： 10.1016/s1095-6433(03)00044-8

Source DB: PubMed Journal: Comp Biochem Physiol A Mol Integr Physiol ISSN： 1095-6433 Impact factor: 2.320

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Cited

11 in total

Review 1. Fishing for novel angiogenic therapies.

Authors: Kameha R Kidd; Brant M Weinstein
Journal: Br J Pharmacol Date: 2003-10 Impact factor: 8.739

2. Mutacytin-1, a New C-Type Lectin-Like Protein from the Venezuelan Cuaima (Lachesis muta muta Linnaeus, 1766) (Serpentes: Viperidae) Snake Venom Inducing Cardiotoxicity in Developing Zebrafish (Danio rerio) Embryos.

Authors: Yurisbeth Zanotty; Marco Álvarez; Lourdes Perdomo; Elda E Sánchez; María E Giron; Juan C Jimenez; Montamas Suntravat; Belsy Guerrero; Carlos Ibarra; Yuyibeth Montero; Rafael Medina; Luis F Navarrete; Alexis Rodríguez-Acosta
Journal: Zebrafish Date: 2019-05-30 Impact factor: 1.985

3. The Popeye domain containing 2 (popdc2) gene in zebrafish is required for heart and skeletal muscle development.

Authors: Bettina C Kirchmaier; Kar Lai Poon; Thorsten Schwerte; Jan Huisken; Christoph Winkler; Benno Jungblut; Didier Y Stainier; Thomas Brand
Journal: Dev Biol Date: 2012-01-28 Impact factor: 3.582

4. An optimized method for delivering flow tracer particles to intravital fluid environments in the developing zebrafish.

Authors: Michael P Craig; Steven D Gilday; Dana Dabiri; Jay R Hove
Journal: Zebrafish Date: 2012-09 Impact factor: 1.985

5. POPDC1(S201F) causes muscular dystrophy and arrhythmia by affecting protein trafficking.

Authors: Roland F R Schindler; Chiara Scotton; Jianguo Zhang; Chiara Passarelli; Beatriz Ortiz-Bonnin; Subreena Simrick; Thorsten Schwerte; Kar-Lai Poon; Mingyan Fang; Susanne Rinné; Alexander Froese; Viacheslav O Nikolaev; Christiane Grunert; Thomas Müller; Giorgio Tasca; Padmini Sarathchandra; Fabrizio Drago; Bruno Dallapiccola; Claudio Rapezzi; Eloisa Arbustini; Francesca Romana Di Raimo; Marcella Neri; Rita Selvatici; Francesca Gualandi; Fabiana Fattori; Antonello Pietrangelo; Wenyan Li; Hui Jiang; Xun Xu; Enrico Bertini; Niels Decher; Jun Wang; Thomas Brand; Alessandra Ferlini
Journal: J Clin Invest Date: 2015-12-07 Impact factor: 14.808

Understanding cardiovascular physiology in zebrafish and Xenopus larvae: the use of microtechniques.

Review 1. Fishing for novel angiogenic therapies.

2. Mutacytin-1, a New C-Type Lectin-Like Protein from the Venezuelan Cuaima (Lachesis muta muta Linnaeus, 1766) (Serpentes: Viperidae) Snake Venom Inducing Cardiotoxicity in Developing Zebrafish (Danio rerio) Embryos.

3. The Popeye domain containing 2 (popdc2) gene in zebrafish is required for heart and skeletal muscle development.

4. An optimized method for delivering flow tracer particles to intravital fluid environments in the developing zebrafish.

5. POPDC1(S201F) causes muscular dystrophy and arrhythmia by affecting protein trafficking.

6. Ischemia is not required for arteriogenesis in zebrafish embryos.

7. High resolution imaging of vascular function in zebrafish.

8. Noninvasive technique for measurement of heartbeat regularity in zebrafish (Danio rerio) embryos.

Review 9. Zebrafish models of cerebrovascular disease.

10. Label-free determination of hemodynamic parameters in the microcirculaton with third harmonic generation microscopy.