Terminal diversification of the myocyte lineage generates Purkinje fibers of the cardiac conduction system

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Bastide, B., Neyses, L., Ganten, D., Paul, M., Willecke, K. and Traub, O (1993). Gap junction protein connexin40 is preferentially expressed in vascular endothelium and conductive bundles of rat myocardium and is increased under hypertensive conditions. Circ Res 73, 1138-1149.[Abstract/Free Full Text]

Chan-Thomas, P. S., Thompson, R. P., Robert, B., Yacoub, M. H. and Barton, P. J (1993). Expression of homeobox genes Msx-1 ( Hox-7) and Msx-2 (Hox-8) during cardiac development in the chick. Dev. Dyn 197, 203-216.[Medline]

d'Amico-Martel A. and Noden D (1983). Contributions of placodal and neural crest cells to avian cranial peripheral ganglia. Am. J. Anat 166, 445-68.[Medline]

Davies F (1930). The conducting system of the bird's heart. J. Anat 64, 129-146.[Medline]

de Groot, I. J. M., Sanders, E., Visser, S. D., Lamers, W. H., de Jong, F., Los, J. A. and Moorman, A. F. M (1987). Isomyosin expression in developing chick atria: a marker for the development of conductive tissue?. Anat. Embryol 176, 515-523.[Medline]

de Jong, F., Opthof T., Wilde, A. A. M., Janse, M. J., Charles, R., Lamers, W. H. and Moorman, A. F. M (1992). Persisting zones of slow impulse conduction in developing chick hearts. Circ. Res 71, 240-250.[Abstract/Free Full Text]

Dougherty, J. P. and Temin, H. M (1986). High mutation rate of a spleen necrosis virus-basedretrovirus vector. Mol. Cell Biol 6, 4387-4395.[Abstract/Free Full Text]

Gonzalez-Sanchez, A. and Bader, D (1985). Characterization of a myosin heavy chain in the conductive system of the adult and developing chicken heart. J. Cell Biol 100, 270-275.[Abstract/Free Full Text]

Gorza, L., S. Schiaffino and Vitadello, M (1988). Heart conduction system: A neural crest derivative?. Brain Res 457, 360-366.[Medline]

Gorza, L. and Vitadello, M (1989). Distribution of conduction system fibers in the developing and adult rabbit heart revealed by an antineurofilament antibody. Circ. Res 65, 360-369.[Abstract/Free Full Text]

Gourdie, R. G., Severs, N. J. and Green, C. R (1991). Gap junction distribution in adult mammalian myocardium revealed by an antipeptide antibody and laser scanning confocal microscopy. J. Cell. Sci 99, 41-55.[Abstract/Free Full Text]

Gourdie, R. G., Green, C. R., Severs, N. J. and Thompson, R. P (1992). Immunolabelling patterns of gap junction connexins in the developing and mature rat heart. Anat. Embryol 185, 363-378.[Medline]

Gourdie, R. G., C. R.,. Green, N. J., Severs, R. H. anderson and Thompson, R. P (1993). Evidence for a distinct gap-junctional phenotype in ventricular conduction tissues of the developing and mature avian heart. Circ. Res 72, 278-289.[Abstract/Free Full Text]

Gourdie, R. G., Severs, N. J., Green, C. R. Rothery, S., Germroth, P. G. and Thompson, R. P (1993). The spatial distribution and relative abundance of gap junctional connexin40 and connexin43 correlate to functional properties of the components of the atrioventricular conduction system. J. Cell Sci 105, 985-991.[Abstract]

Gros, D., Jarry-Guichard, T., Ten-Velde, I., de-Maziere, A., van Kempen, M. J., Davoust, J., Briand, J. P., Moorman, A. F. and Jongsma, H. J (1994). Restricted distribution of connexin40, a gap junctional protein, in mammalian heart. Circ. Res 74, 839-851.[Abstract/Free Full Text]

Hamburger, V. and Hamilton, H. L (1951). A series of normal stages in the development of the chick embryo. J. Morphol 88, 49-92.

Hiruma, T. and Hirakow, R (1989). Epicardial formation in embryonic chick heart: computer-aided reconstruction, scanning and transmission electron microscopic studies. Am. J. Anat 184, 129-138.[Medline]

Ikeda, T., Iwasaki, K., Shimokawa, I., Sakai, H, Ito, H. and Matsuo, T (1990). Leu-7 immunoreactivity in human and rat embryonic hearts, with special reference to the development of the conduction tissue. Anat. Embryol 182, 553-562.[Medline]

Kanter, H. L., Laing, J. G., Beau, S. L. and Beyer, E. C. and Saffitz, J. E (1993). Distinct patterns of connexin expression in canine Purkinje fibers and ventricular muscle. Circ. Res 72, 1124-1131.[Abstract/Free Full Text]

Kirby, M. L (1988). Role of extracardiac factors in heart development. Experientia, 44, 944-951.[Medline]

Kirby, M. L., Kumiski, D. H., Myers, T., Cerjan, C. and Mishima, N (1993). Backtransplantation of cardiac neural crest cells cultured in LIF rescues heart development. Dev. Dynam 198, 296-311.[Medline]

Kirby, M. L. and Stewart, D. E (1983). Neural crest origin of cardiac ganglion cells in the chick embryo: identification and extirpation. Devel. Biol 97, 433-443.[Medline]

Lamers, W. H., A., Te Kortshot, J. A. Los and Moorman, A. F. M (1987). Acetylcholinesterase in prenatal rat heart: a marker for the early development of the cardiac conductive tissue?. Anat. Rec 217, 361-370.[Medline]

Lamers, W. H., Geerts, W. J. C. and Moorman, A. F. M (1990). Distribution pattern of acetylcholinesterase in early embryonic chicken hearts. Anat. Rec 228, 297-305.[Medline]

Lamers, W. H., De Jong, F., De Groot, I. J. M. and Moorman, A. F. M (1991). The developmant of the avian conduction system, a review. Europ. J. Morphol 29, 233-253.[Medline]

McCabe, C. F., Thompson, R. P. and Cole, G. J (1992). Distribution of the novel developmentally-regulated protein EAP-300 in the embryonic chick nervous system. Dev. Brain Res 66, 11-23.[Medline]

Mikawa, T., Fischman, D. A., Dougherty, J. P. and Brown, A. M. C (1991). In vivo analysis of a new LacZ retrovirus vector suitable for lineage marking in avian and other species. Exp. Cell. Res 195, 516-523.[Medline]

Mikawa, T., Borisov, T. A., Brown, A. M. C. and Fischman, D. A (1992). Clonal analysis of cardiac morphogenesis in the chicken embryo using a replication-defective retrovirus: I. Formation of the ventricular myocardium. Devel. Dynam 193, 11-23.[Medline]

Mikawa, T., Cohen-Gould, L. and Fischman, D. A (1992). Clonal analysis of cardiac morphogenesis in the chicken embryo using a replication-defective retrovirus. III: Polyclonal origin of adjacent ventricular myocytes. Devel. Dynam 195, 133-141.[Medline]

Nakagawa, M., Thompson, R. P., Terracio, L. and Borg, T. K (1993). Developmental anatomy of HNK-immunoreactivity in the embryonic rat heart: co-distribution with early conduction tissue. Anat. Embryol 187, 445-460.[Medline]

Poelmann, R. E., Gittenberger-de Groot, A. C., Mentink, M. T., B\232kenkamp, R. and Hogers, B (1993). Development of the cardiac coronary vascular endothelium, studied with antiendothelial antibodies, in chicken-quail chimeras. Circ. Res 73, 559-568.[Abstract/Free Full Text]

Reckless, J., Pritchard, K., Marston, S. B., Fleetwood, G. and Tilling, L (1993). Caldesmon isoform changes associated with intimal proliferation in the rabbit carotid artery. Europ. Heart J 14, 60-.

Sanders, E., Moorman, A. F. M. and Lamers, W. H (1984). The local expression of adult chicken myosins during development. I. The three days embryonic chicken heart. Anat. Embryol., 174, 187-193.

Sanes, J. R., Rubenstein, J. L. and Nicolas, J. F (1986). Use of a recombinant retrovirus to study post-implantation cell lineage in mouse embryos. EMBO J 5, 3133-3142.[Medline]

Turner, D. L. and Cepko, C. L (1987). A common progenitor for neurons and glia persists in rat retina late in development. Nature 328, 131-136.[Medline]

van Kempen, M. J., Fromaget, C., Gros, D., Moorman A. F. and Lamers, W. H (1991). Spatial distribution of connexin43, the major cardiac gap junction protein, in the developing and adult rat heart. Circ. Res 68, 1638-1651.[Abstract/Free Full Text]

Vitadello, M., Matteoli, M. and Gorza, L (1990). Neurofilament proteins are co-expressed with desmin in heart conduction system myocytes. J. Cell Sci 97, 11-21.[Abstract/Free Full Text]

Waldo, K. L. Kumiski D. H. and Kirby, M. L (1994). Association of the cardiac neural crest with development of the coronary arteries in the chick embryo. Anat. Rec 239, 315-331.[Medline]

Wessels, A. Vermeulen, J. L. Verbeek, F. J., Viragh, S., Kalman, F., Lamers, W. H. and Moorman, A. F (1992). Spatial distribution of \324tissue-specific' antigens in the developing human heart and skeletal muscle. III. An immunohistochemical analysis of the distribution of the neural tissue antigen G1N2 in the embryonic heart; implications for the development of the atrioventricular conduction system. Anat. Rec 232, 97-111.[Medline]

Ying, L., James, T. N., Yamamoto, S. and Terasaki, F (1993). Cardiac conduction system in the chicken embryo: Gross anatomy plus light and electron microscopy. Anat. Rec 236, 493-510.[Medline]

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				T. Nakamura, M. C. Colbert, and J. Robbins Neural Crest Cells Retain Multipotential Characteristics in the Developing Valves and Label the Cardiac Conduction System Circ. Res., June 23, 2006; 98(12): 1547 - 1554. [Abstract] [Full Text] [PDF]

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				J Boullin and J M Morgan The development of cardiac rhythm Heart, July 1, 2005; 91(7): 874 - 875. [Full Text] [PDF]

				J. A. Airey, G. Almeida-Porada, E. J. Colletti, C. D. Porada, J. Chamberlain, M. Movsesian, J. L. Sutko, and E. D. Zanjani Human Mesenchymal Stem Cells Form Purkinje Fibers in Fetal Sheep Heart Circulation, March 23, 2004; 109(11): 1401 - 1407. [Abstract] [Full Text] [PDF]

				C. E. Hall, R. Hurtado, K. W. Hewett, M. Shulimovich, C. P. Poma, M. Reckova, C. Justus, D. J. Pennisi, K. Tobita, D. Sedmera, et al. Hemodynamic-dependent patterning of endothelin converting enzyme 1 expression and differentiation of impulse-conducting Purkinje fibers in the embryonic heart Development, February 1, 2004; 131(3): 581 - 592. [Abstract] [Full Text] [PDF]

				A. F. M. MOORMAN and V. M. CHRISTOFFELS Cardiac Chamber Formation: Development, Genes, and Evolution Physiol Rev, October 1, 2003; 83(4): 1223 - 1267. [Abstract] [Full Text] [PDF]

				M. Reckova, C. Rosengarten, A. deAlmeida, C. P. Stanley, A. Wessels, R. G. Gourdie, R. P. Thompson, and D. Sedmera Hemodynamics Is a Key Epigenetic Factor in Development of the Cardiac Conduction System Circ. Res., July 11, 2003; 93(1): 77 - 85. [Abstract] [Full Text] [PDF]

				D. L. Brutsaert Cardiac Endothelial-Myocardial Signaling: Its Role in Cardiac Growth, Contractile Performance, and Rhythmicity Physiol Rev, January 1, 2003; 83(1): 59 - 115. [Abstract] [Full Text] [PDF]

				S. Rentschler, J. Zander, K. Meyers, D. France, R. Levine, G. Porter, S. A. Rivkees, G. E. Morley, and G. I. Fishman Neuregulin-1 promotes formation of the murine cardiac conduction system PNAS, August 6, 2002; 99(16): 10464 - 10469. [Abstract] [Full Text] [PDF]

				D. Franco and J. M. Icardo Molecular characterization of the ventricular conduction system in the developing mouse heart: topographical correlation in normal and congenitally malformed hearts Cardiovasc Res, February 1, 2001; 49(2): 417 - 429. [Abstract] [Full Text] [PDF]

				S Rentschler, D. Vaidya, H Tamaddon, K Degenhardt, D Sassoon, G. Morley, J Jalife, and G. Fishman Visualization and functional characterization of the developing murine cardiac conduction system Development, January 5, 2001; 128(10): 1785 - 1792. [Abstract] [PDF]

				M. L. Valencik and J. A. McDonald Cardiac expression of a gain-of-function {alpha}5-integrin results in perinatal lethality Am J Physiol Heart Circ Physiol, January 1, 2001; 280(1): H361 - H367. [Abstract] [Full Text] [PDF]

				S. A. Fisher, B. L. Langille, and D. Srivastava Apoptosis During Cardiovascular Development Circ. Res., November 10, 2000; 87(10): 856 - 864. [Abstract] [Full Text] [PDF]

				K Takebayashi-Suzuki, M Yanagisawa, R. Gourdie, N Kanzawa, and T Mikawa In vivo induction of cardiac Purkinje fiber differentiation by coexpression of preproendothelin-1 and endothelin converting enzyme-1 Development, January 8, 2000; 127(16): 3523 - 3532. [Abstract] [PDF]

				G Cheng, W. Litchenberg, G. Cole, T Mikawa, R. Thompson, and R. Gourdie Development of the cardiac conduction system involves recruitment within a multipotent cardiomyogenic lineage Development, January 11, 1999; 126(22): 5041 - 5049. [Abstract] [PDF]

				R. G. Gourdie, Y. Wei, D. Kim, S. C. Klatt, and T. Mikawa Endothelin-induced conversion of embryonic heart muscle cells into impulse-conducting Purkinje fibers PNAS, June 9, 1998; 95(12): 6815 - 6818. [Abstract] [Full Text] [PDF]

				A. C. Gittenberger-de Groot, M.-P. F.M. Vrancken Peeters, M. M.T. Mentink, R. G. Gourdie, and R. E. Poelmann Epicardium-Derived Cells Contribute a Novel Population to the Myocardial Wall and the Atrioventricular Cushions Circ. Res., June 1, 1998; 82(10): 1043 - 1052. [Abstract] [Full Text] [PDF]

				A. F.M. Moorman, F. de Jong, M. M.F.J. Denyn, and W. H. Lamers Development of the Cardiac Conduction System Circ. Res., April 6, 1998; 82(6): 629 - 644. [Full Text] [PDF]

				M Watanabe, A Choudhry, M Berlan, A Singal, E Siwik, S Mohr, and S. Fisher Developmental remodeling and shortening of the cardiac outflow tract involves myocyte programmed cell death Development, January 10, 1998; 125(19): 3809 - 3820. [Abstract] [PDF]

				G. Serbedzija, J. Chen, and M. Fishman Regulation in the heart field of zebrafish Development, January 3, 1998; 125(6): 1095 - 1101. [Abstract] [PDF]

				T. Alyonycheva, L. Cohen-Gould, C. Siewert, D. A. Fischman, and T. Mikawa Skeletal Muscle�Specific Myosin Binding Protein-H Is Expressed in Purkinje Fibers of the Cardiac Conduction System Circ. Res., May 19, 1997; 80(5): 665 - 672. [Abstract] [Full Text]

				S. Schiaffino Protean Patterns of Gene Expression in the Heart Conduction System Circ. Res., May 19, 1997; 80(5): 749 - 750. [Full Text]

				M. Fishman and K. Chien Fashioning the vertebrate heart: earliest embryonic decisions Development, January 6, 1997; 124(11): 2099 - 2117. [Abstract] [PDF]

				J. Ewart, M. Cohen, R. Meyer, G. Huang, A Wessels, R. Gourdie, A. Chin, S. Park, B. Lazatin, S Villabon, et al. Heart and neural tube defects in transgenic mice overexpressing the Cx43 gap junction gene Development, January 4, 1997; 124(7): 1281 - 1292. [Abstract] [PDF]

				C. Eisenberg, R. Gourdie, and L. Eisenberg Wnt-11 is expressed in early avian mesoderm and required for the differentiation of the quail mesoderm cell line QCE-6 Development, January 1, 1997; 124(2): 525 - 536. [Abstract] [PDF]

				B. D. Angst, L. U.R. Khan, N. J. Severs, K. Whitely, S. Rothery, R. P. Thompson, A. I. Magee, and R. G. Gourdie Dissociated Spatial Patterning of Gap Junctions and Cell Adhesion Junctions During Postnatal Differentiation of Ventricular Myocardium Circ. Res., January 1, 1997; 80(1): 88 - 94. [Abstract] [Full Text]