Search Results - "Burch, John B.E"

Epicardially derived fibroblasts preferentially contribute to the parietal leaflets of the atrioventricular valves in the murine heart by Wessels, Andy, van den Hoff, Maurice J.B., Adamo, Richard F., Phelps, Aimee L., Lockhart, Marie M., Sauls, Kimberly, Briggs, Laura E., Norris, Russell A., van Wijk, Bram, Perez-Pomares, Jose M., Dettman, Robert W., Burch, John B.E.

“…The importance of the epicardium for myocardial and valvuloseptal development has been well established; perturbation of epicardial development results in…”
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Differential Notch Signaling in the Epicardium Is Required for Cardiac Inflow Development and Coronary Vessel Morphogenesis by del Monte, Gonzalo, Casanova, Jesús C, Guadix, Juan Antonio, MacGrogan, Donal, Burch, John B.E, Pérez-Pomares, José María, de la Pompa, José Luis

“…RATIONALE:The proepicardium is a transient structure comprising epicardial progenitor cells located at the posterior limit of the embryonic cardiac inflow. A…”
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Identification and characterization of a novel Schwann and outflow tract endocardial cushion lineage-restricted periostin enhancer by Lindsley, Andrew, Snider, Paige, Zhou, Hongming, Rogers, Rhonda, Wang, Jian, Olaopa, Michael, Kruzynska-Frejtag, Agnieszka, Koushik, Shrinagesh V., Lilly, Brenda, Burch, John B.E., Firulli, Anthony B., Conway, Simon J.

“…Periostin is a fasciclin-containing adhesive glycoprotein that facilitates the migration and differentiation of cells that have undergone…”
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Chicken repeat 1 (CR1) elements, which define an ancient family of vertebrate non-LTR retrotransposons, contain two closely spaced open reading frames by Haas, Naomi B, Grabowski, Joann M, Sivitz, Adam B, Burch, John B.E

“…Chicken repeat 1 (CR1) elements comprise a family of non-long terminal repeat (LTR) retrotransposons that have several noteworthy features. For example,…”
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Abnormal conduction and morphology in the atrioventricular node of mice with atrioventricular canal targeted deletion of Alk3/Bmpr1a receptor by Stroud, Dina Myers, Gaussin, Vinciane, Burch, John B E, Yu, Cindy, Mishina, Yuji, Schneider, Michael D, Fishman, Glenn I, Morley, Gregory E

“…The atrioventricular (AV) node is essential for the sequential excitation and optimized contraction of the adult multichambered heart; however, relatively…”
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Alk3/Bmpr1a Receptor Is Required for Development of the Atrioventricular Canal Into Valves and Annulus Fibrosus by Gaussin, Vinciane, Morley, Gregory E, Cox, Luk, Zwijsen, An, Vance, Kendra M, Emile, Lorin, Tian, Yimin, Liu, Jing, Hong, Chull, Myers, Dina, Conway, Simon J, Depre, Christophe, Mishina, Yuji, Behringer, Richard R, Hanks, Mark C, Schneider, Michael D, Huylebroeck, Danny, Fishman, Glenn I, Burch, John B.E, Vatner, Stephen F

“…Endocardial cushions are precursors of mature atrioventricular (AV) valves. Their formation is induced by signaling molecules originating from the AV…”
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Architectural Plan for the Heart: Early Patterning and Delineation of the Chambers and the Nodes by Christoffels, Vincent M., Burch, John B.E., Moorman, Antoon F.M.

“…During folding of the embryo, lateroanterior visceral mesoderm forms the embryonic tubular heart at the midline, just ventral to the foregut. In mice, this…”
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Epicardial Induction of Fetal Cardiomyocyte Proliferation via a Retinoic Acid-Inducible Trophic Factor by Chen, Tim H.-P., Chang, Tsai-Ching, Kang, Ji-One, Choudhary, Bibha, Makita, Takako, Tran, Chanh M., Burch, John B.E., Eid, Hoda, Sucov, Henry M.

“…Mouse embryos lacking the retinoic acid receptor RXRα properly undergo the early steps of heart development, but then fail to initiate a proliferative…”
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Apoptosis in the developing mouse heart by Barbosky, Laura, Lawrence, David K., Karunamuni, Ganga, Wikenheiser, Jamie C., Doughman, Yong‐Qiu, Visconti, Richard P., Burch, John B.E., Watanabe, Michiko

“…Apoptosis occurs at high frequency in the myocardium of the developing avian cardiac outflow tract (OFT). Up‐ or down‐regulating apoptosis results in defects…”
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Response to Letters Regarding Article, “Abnormal Conduction and Morphology in the Atrioventricular Node of Mice with Atrioventricular Canal Targeted Deletion of Alk3/Bmpr1a Receptor” by Stroud, Dina Myers, Yu, Cindy, Fishman, Glenn I., Morley, Gregory E., Gaussin, Vinciane, Burch, John B.E., Mishina, Yuji, Schneider, Michael D.

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Regulation of GATA gene expression during vertebrate development by Burch, John B.E.

“…GATA factors regulate critical events in hematopoietic lineages (GATA-1/2/3), the heart and gut (GATA-4/5/6) and various other tissues. Transgenic approaches…”
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The sinus venosus progenitors separate and diversify from the first and second heart fields early in development by Mommersteeg, Mathilda T.M., Domínguez, Jorge N., Wiese, Cornelia, Norden, Julia, de Gier-de Vries, Corrie, Burch, John B.E., Kispert, Andreas, Brown, Nigel A., Moorman, Antoon F.M., Christoffels, Vincent M.

“…Aims During development, the heart tube grows by differentiation of Isl1+/Nkx2-5+ progenitors to the arterial and venous pole and dorsal mesocardium. However,…”
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The serosal mesothelium is a major source of smooth muscle cells of the gut vasculature by Wilm, Bettina, Ipenberg, Annemieke, Hastie, Nicholas D, Burch, John B E, Bader, David M

“…Most internal organs are situated in a coelomic cavity and are covered by a mesothelium. During heart development, epicardial cells (a mesothelium) move to and…”
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A role for bone morphogenetic proteins in the induction of cardiac myogenesis by Schultheiss, T M, Burch, J B, Lassar, A B

“…Little is known about the molecular mechanisms that govern heart specification in vertebrates. Here we demonstrate that bone morphogenetic protein (BMP)…”
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Bone Marrow Cells Transdifferentiate to Cardiomyocytes When Introduced into the Embryonic Heart by Eisenberg, Carol A., Burch, John B.E., Eisenberg, Leonard M.

“…Since rates of cardiomyocyte generation in the embryo are much higher than within the adult, we explored whether the embryonic heart would serve as useful…”
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GATA-4/5/6, a subfamily of three transcription factors transcribed in developing heart and gut by Laverriere, A.C. (Fox Chase Cancer Center, Philadelphia, PA.), MacNeill, C, Mueller, C, Poelmann, R.E, Burch, J.B.E, Evans, T

“…We describe experiments which show that: 1) two previously identified members of the GATA family of transcription factors (both of which were originally called…”
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Common role for each of the cGATA-4/5/6 genes in the regulation of cardiac morphogenesis by Jiang, Yongmei, Tarzami, Sima, Burch, John B.E., Evans, Todd

“…The GATA‐4/5/6 genes encode transcription factors implicated previously in the regulation of cardiac‐specific differentiation programs. However, recent…”
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Subfamilies of CR1 non-LTR retrotransposons have different 5′UTR sequences but are otherwise conserved by Haas, Naomi B., Grabowski, Joann M., North, Jeff, Moran, John V., Kazazian, Haig H., Burch, John B.E.

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Modular Regulation of cGATA-5 Gene Expression in the Developing Heart and Gut by MacNeill, Colin, French, Randall, Evans, Todd, Wessels, Andy, Burch, John B.E.

“…The evolutionarily conserved GATA-5 transcription factor is an early and persistent marker of heart and gut development in diverse vertebrate species. To…”
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The Chicken GATA-6 Locus Contains Multiple Control Regions That Confer Distinct Patterns of Heart Region-specific Expression in Transgenic Mouse Embryos by He, Chao-Zhen, Burch, John B.E.

“…The GATA-6 transcription factor is expressed in cardiogenic cells and during subsequent stages of heart development in diverse vertebrate species. To gain…”
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