Professor Thomas Brand

Publications


Journals

  • Froese A; Breher SS; Waldeyer C; Schindler RF; Nikolaev VO; Rinné S; Wischmeyer E; Schlueter J; et alBecher J; Simrick S; Vauti F; Kuhtz J; Meister P; Kreissl S; Torlopp A; Liebig SK; Laakmann S; Müller TD; Neumann J; Stieber J; Ludwig A; Maier SK; Decher N; Arnold HH; Kirchhof P; Fabritz L; Brand T. (22 Feb 2012). Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice. Journal of Clinical Investigation. Publisher weblink DOI.
  • Froese A; Breher SS; Waldeyer C; Schindler RF; Nikolaev VO; Rinné S; Wischmeyer E; Schlueter J; et alBecher J; Simrick S; Vauti F; Kuhtz J; Meister P; Kreissl S; Torlopp A; Liebig SK; Laakmann S; Müller TD; Neumann J; Stieber J; Ludwig A; Maier SK; Decher N; Arnold HH; Kirchhoff P; Fabritz L; Brand T. (22 Feb 2012). Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice. J Clin Invest. DOI.
  • Kirchmaier BC; Poon KL; Schwerte T; Huisken J; Winkler C; Jungblut B; Stainier DY; Brand T. (15 Mar 2012). The Popeye domain containing 2 (popdc2) gene in zebrafish is required for heart and skeletal muscle development. Dev Biol. 363:438-450. DOI.
  • Fiedler J; Jazbutyte V; Kirchmaier BC; Gupta SK; Lorenzen J; Hartmann D; Galuppo P; Kneitz S; et alPena JTG; Sohn-Lee C; Loyer X; Soutschek J; Brand T; Tuschl T; Heineke J; Martin U; Schulte-Merker S; Ertl G; Engelhardt S; Bauersachs J; Thum T. (9 Aug 2011). MicroRNA-24 Regulates Vascularity After Myocardial Infarction. CIRCULATION. 124:720-U178. Author weblink DOI.
  • Gingold-Belfer R; Bergman M; Alcalay Y; Schlesinger H; Aravot D; Berman M; Salman H; Brand T; et alKessler-Icekson G. (Jan 2011). Popeye domain-containing 1 is down-regulated in failing human hearts. Int J Mol Med. 27:25-31. DOI.
  • Torlopp A; Schlueter J; Brand T. (Nov 2010). Role of fibroblast growth factor signaling during proepicardium formation in the chick embryo. Dev Dyn. 239:spcone. DOI.
  • Torlopp A; Schlueter J; Brand T. (Sep 2010). Role of fibroblast growth factor signaling during proepicardium formation in the chick embryo. Dev Dyn. 239:2393-2403. DOI.
  • Brand T. (1 Oct 2010). Exciting news: catecholamines in induction and regionalization of the heart. Cardiovasc Res. 88:1-2. DOI.
  • Schlueter J; Brand T. (5 May 2009). A right-sided pathway involving FGF8/Snai1 controls asymmetric development of the proepicardium in the chick embryo. Proc Natl Acad Sci U S A. 106:7485-7490. DOI.
  • Jahr M; Schlueter J; Brand T; Männer J. (Oct 2008). Development of the proepicardium in Xenopus laevis. Dev Dyn. 237:3088-3096. DOI.
  • Froese A; Brand T. (Mar 2008). Expression pattern of Popdc2 during mouse embryogenesis and in the adult. Dev Dyn. 237:780-787. DOI.
  • Parnes D; Jacoby V; Sharabi A; Schlesinger H; Brand T; Kessler-Icekson G. (1 Sep 2007). The Popdc gene family in the rat: Molecular cloning, characterization and expression analysis in the heart and cultured cardiomyocytes. BIOCHIMICA ET BIOPHYSICA ACTA-GENE STRUCTURE AND EXPRESSION. 1769:586-592. Author weblink DOI.
  • Parnes D; Jacoby V; Sharabi A; Schlesinger H; Brand T; Kessler-Icekson G. (Sep 2007). The Popdc gene family in the rat: molecular cloning, characterization and expression analysis in the heart and cultured cardiomyocytes. Biochim Biophys Acta. 1769:586-592. DOI.
  • Schulte I; Schlueter J; Abu-Issa R; Brand T; Männer J. (Mar 2007). Morphological and molecular left-right asymmetries in the development of the proepicardium: a comparative analysis on mouse and chick embryos. Dev Dyn. 236:684-695. DOI.
  • Schlueter J; Brand T. (2007). Left-right axis development: examples of similar and divergent strategies to generate asymmetric morphogenesis in chick and mouse embryos. Cytogenet Genome Res. 117:256-267. DOI.
  • Ghatpande S; Brand T; Zile M; Evans T. (1 Aug 2006). Bmp2 and Gata4 function additively to rescue heart tube development in the absence of retinoids. DEVELOPMENTAL DYNAMICS. 235:2030-2039. Author weblink DOI.
  • Schlueter J; Männer J; Brand T. (15 Jul 2006). BMP is an important regulator of proepicardial identity in the chick embryo. Dev Biol. 295:546-558. DOI.
  • Torlopp A; Breher SS; Schlüter J; Brand T. (Mar 2006). Comparative analysis of mRNA and protein expression of Popdc1 (Bves) during early development in the chick embryo. Dev Dyn. 235:691-700. DOI.
  • Männer J; Schlueter J; Brand T. (Aug 2005). Experimental analyses of the function of the proepicardium using a new microsurgical procedure to induce loss-of-proepicardial-function in chick embryos. Dev Dyn. 233:1454-1463. DOI.
  • Brand T. (2005). The Popeye domain-containing gene family. Cell Biochem Biophys. 43:95-103. DOI.
  • Breher SS; Mavridou E; Brenneis C; Froese A; Arnold HH; Brand T. (1 Mar 2004). Popeye domain containing gene 2 (Popdc2) is a myocyte-specific differentiation marker during chick heart development. DEVELOPMENTAL DYNAMICS. 229:695-702. Author weblink DOI.
  • Linask KK; Han MD; Linask KL; Schlange T; Brand T. (1 Oct 2003). Effects of antisense misexpression of CFC on downstream flectin protein expression during heart looping. DEVELOPMENTAL DYNAMICS. 228:217-230. Author weblink DOI.
  • Brand T. (1 Jun 2003). Heart development: molecular insights into cardiac specification and early morphogenesis. Dev Biol. 258:1-19.
  • Schlange T; Arnold HH; Brand T. (Jul 2002). BMP2 is a positive regulator of Nodal signaling during left-right axis formation in the chicken embryo. Development. 129:3421-3429.
  • Hitz MP; Pandur P; Brand T; Kühl M. (Jul 2002). Cardiac specific expression of Xenopus Popeye-1. Mech Dev. 115:123-126.
  • Andree B; Fleige A; Arnold HH; Brand T. (1 Mar 2002). Mouse Pop1 is required for muscle regeneration in adult skeletal muscle. MOLECULAR AND CELLULAR BIOLOGY. 22:1504-1512. Author weblink DOI.
  • Kessler-Icekson G; Barhum Y; Schaper J; Schaper W; Kaganovsky E; Brand T. (2002). ANP expression in the hypertensive heart. Exp Clin Cardiol. 7:80-84.
  • Andrée B; Fleige A; Hillemann T; Arnold HH; Kessler-Icekson G; Brand T. (2002). Molecular and functional analysis of Popeye genes: A novel family of transmembrane proteins preferentially expressed in heart and skeletal muscle. Exp Clin Cardiol. 7:99-103.
  • Brand T; Andrée B; Schlange T. (2002). Molecular characterization of early cardiac development. Results Probl Cell Differ. 38:215-238.
  • Schlange T; Schnipkoweit I; Andree B; Ebert A; Zile MH; Arnold HH; Brand T. (15 Jun 2001). Chick CFC controls Lefty1 expression in the embryonic midline and nodal expression in the lateral plate. DEVELOPMENTAL BIOLOGY. 234:376-389. Author weblink DOI.
  • Barhum Y; Brand T; Kessler-Icekson G. (1 Jun 2001). Regulation of gene expression in the hypertensive heart. JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY. 33:A8-A8. Author weblink DOI.
  • Schlange T; Andree B; Arnold HH; Brand T. (1 Nov 2000). Expression analysis of the chicken homologue of CITED2 during early stages of embryonic development. MECHANISMS OF DEVELOPMENT. 98:157-160. Author weblink DOI.
  • Andrée B; Hillemann T; Kessler-Icekson G; Schmitt-John T; Jockusch H; Arnold HH; Brand T. (15 Jul 2000). Isolation and characterization of the novel popeye gene family expressed in skeletal muscle and heart. Dev Biol. 223:371-382. DOI.
  • Schneider A; Brand T; Zweigerdt R; Arnold H. (Jul 2000). Targeted disruption of the Nkx3.1 gene in mice results in morphogenetic defects of minor salivary glands: parallels to glandular duct morphogenesis in prostate. Mech Dev. 95:163-174.
  • Brand T; Butler-Browne G; Füchtbauer EM; Renkawitz-Pohl R; Brand-Saberi B. (2 May 2000). EMBO Workshop Report: Molecular genetics of muscle development and neuromuscular diseases Kloster Irsee, Germany, September 26-October 1, 1999. EMBO J. 19:1935-1941. DOI.
  • Schlange T; Andrée B; Arnold HH; Brand T. (1 Mar 2000). BMP2 is required for early heart development during a distinct time period. Mech Dev. 91:259-270.
  • Schneider A; Mijalski T; Schlange T; Dai WL; Overbeek P; Arnold HH; Brand T. (26 Aug 1999). The homeobox gene NKX3.2 is a target of left-right signalling and is expressed on opposite sides in chick and mouse embryos. CURRENT BIOLOGY. 9:911-914. Author weblink DOI.
  • Buchberger A; Schwarzer M; Brand T; Pabst O; Seidl K; Arnold HH. (May 1998). Chicken winged-helix transcription factor cFKH-1 prefigures axial and appendicular skeletal structures during chicken embryogenesis. Dev Dyn. 212:94-101. DOI.
  • Andrée B; Duprez D; Vorbusch B; Arnold HH; Brand T. (Jan 1998). BMP-2 induces ectopic expression of cardiac lineage markers and interferes with somite formation in chicken embryos. Mech Dev. 70:119-131.
  • Brand T; Andrée B; Schneider A; Buchberger A; Arnold HH. (Jun 1997). Chicken NKx2-8, a novel homeobox gene expressed during early heart and foregut development. Mech Dev. 64:53-59.
  • Pabst O; Schneider A; Brand T; Arnold HH. (May 1997). The mouse Nkx2-3 homeodomain gene is expressed in gut mesenchyme during pre- and postnatal mouse development. Dev Dyn. 209:29-35. DOI.
  • Brand T; Schneider A; Pabst O; Buchberger A; Arnold HH. (15 Oct 1996). Multiple members of the NKx homeobox gene family are expressed in vertebrate heart. CIRCULATION. 94:1738-1738. Author weblink.
  • Charng MJ; Kinnunen P; Hawker J; Brand T; Schneider MD. (15 Oct 1996). The FKBP-12 binding site is dispensable for growth suppression and transcriptional control by type I TGF beta receptors: Analysis by the yeast two-hybrid assay. CIRCULATION. 94:2354-2354. Author weblink.
  • Charng MJ; Kinnunen P; Hawker J; Brand T; Schneider MD. (20 Sep 1996). FKBP-12 recognition is dispensable for signal generation by type I transforming growth factor-beta receptors. JOURNAL OF BIOLOGICAL CHEMISTRY. 271:22941-22944.
  • Buchberger A; Pabst O; Brand T; Seidl K; Arnold HH. (1 May 1996). Chick NKx-2.3 represents a novel family member of vertebrate homologues to the Drosophila homeobox gene tinman: Differential expression of cNKx-2.3 and cNK-2.5 during heart and gut development. MECHANISMS OF DEVELOPMENT. 56:151-163. Author weblink DOI.
  • CHARNG MJ; HAWKER J; BRAND T; SCHNEIDER MD. (15 Oct 1995). MUTATIONAL ANALYSIS OF TYPE-I TGF-BETA RECEPTORS IMPLICATES THREONINE-200 AS CRUCIAL FOR SIGNALING. CIRCULATION. 92:1760-1760. Author weblink.
  • Brand T; Schneider MD. (7 Apr 1995). Inactive type II and type I receptors for TGF beta are dominant inhibitors of TGF beta-dependent transcription. J Biol Chem. 270:8274-8284.
  • BRAND T; SCHNEIDER MD. (7 Apr 1995). INACTIVE TYPE-II AND TYPE-I RECEPTORS FOR TGF-BETA ARE DOMINANT INHIBITORS OF TGF-BETA-DEPENDENT TRANSCRIPTION. JOURNAL OF BIOLOGICAL CHEMISTRY. 270:8274-8284. Author weblink.
  • Zimmermann R; Andres J; Brand T; Frass O; Kluge A; Knoll R; Vogt A; Schaper W. (1 Jan 1995). Cardiac gene expression following short coronary occlusions. ZEITSCHRIFT FUR KARDIOLOGIE. 84:159-165. Author weblink.
  • Schneider MD; Brand T. (27 Mar 1995). Molecular analysis of TGF beta signal transduction. Dominant-inhibitory mutations of the type II and type I TGF beta receptor. Ann N Y Acad Sci. 752:309-316.
  • Brand T; Schneider MD. (Jan 1995). The TGF beta superfamily in myocardium: ligands, receptors, transduction, and function. J Mol Cell Cardiol. 27:5-18.
  • BRAND T; SCHNEIDER MD. (1 Jan 1995). THE TGF-BETA SUPERFAMILY IN MYOCARDIUM - LIGANDS, RECEPTORS, TRANSDUCTION, AND FUNCTION. JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY. 27:5-18. Author weblink DOI.
  • HEIN S; SCHOLZ D; FUJITANI N; RENNOLLET H; BRAND T; FRIEDL A; SCHAPER J. (1 Oct 1994). ALTERED EXPRESSION OF TITIN AND CONTRACTILE PROTEINS IN FAILING HUMAN MYOCARDIUM. JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY. 26:1291-1306. Author weblink DOI.
  • Hein S; Scholz D; Fujitani N; Rennollet H; Brand T; Friedl A; Schaper J. (Oct 1994). Altered expression of titin and contractile proteins in failing human myocardium. J Mol Cell Cardiol. 26:1291-1306. DOI.
  • BRAND T; SCHNEIDER MD. (1 Oct 1994). REGULATION OF GENE-EXPRESSION BY TRANSFORMING GROWTH-FACTOR-BETA (TGF-BETA) IS MEDIATED BY 2 INTERDEPENDENT SERINE-THREONINE KINASE RECEPTORS. CIRCULATION. 90:3-3. Author weblink.
  • BRAND T; SCHNEIDER MD. (1 Oct 1994). REGULATION OF GENE-EXPRESSION BY TRANSFORMING GROWTH-FACTOR-BETA (TGF-BETA) IS MEDIATED BY 2 INTERDEPENDENT SERINE-THREONINE KINASE RECEPTORS. CIRCULATION. 90:FI-FI. Author weblink.
  • Schneider MD; Kirshenbaum LA; Brand T; MacLellan WR. (Sep 1994). Control of cardiac gene transcription by fibroblast growth factors. Mol Reprod Dev. 39:112-117. DOI.
  • SCHNEIDER MD; MACLELLAN WR; KIRSHENBAUM LA; BRAND T. (1 Jan 1994). MOLECULAR APPROACHES TO CARDIAC DEVELOPMENT AND HYPERTROPHY. TEXAS HEART INSTITUTE JOURNAL. 21:2-5. Author weblink.
  • Schneider MD; MacLellan WR; Kirshenbaum LA; Brand T. (1994). Molecular approaches to cardiac development and hypertrophy. Tex Heart Inst J. 21:2-5.
  • Brand T; Sharma HS; Schaper W. (Nov 1993). Expression of nuclear proto-oncogenes in isoproterenol-induced cardiac hypertrophy. J Mol Cell Cardiol. 25:1325-1337. DOI.
  • BRAND T; SHARMA HS; SCHAPER W. (1 Nov 1993). EXPRESSION OF NUCLEAR PROTOONCOGENES IN ISOPROTERENOL-INDUCED CARDIAC-HYPERTROPHY. JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY. 25:1325-1337. Author weblink DOI.
  • MacLellan WR; Brand T; Schneider MD. (Nov 1993). Transforming growth factor-beta in cardiac ontogeny and adaptation. Circ Res. 73:783-791.
  • MACLELLAN WR; BRAND T; SCHNEIDER MD. (1 Nov 1993). TRANSFORMING GROWTH-FACTOR-BETA IN CARDIAC ONTOGENY AND ADAPTATION. CIRCULATION RESEARCH. 73:783-791. Author weblink.
  • Brand T; MacLellan WR; Schneider MD. (5 Jun 1993). A dominant-negative receptor for type beta transforming growth factors created by deletion of the kinase domain. J Biol Chem. 268:11500-11503.
  • BRAND T; ABDELLATIF MM; SCHNEIDER MD. (13 Mar 1993). DOMINANT NEGATIVE MUTANTS OF THE TYPE-II TGF-BETA RECEPTOR AND P21 H-RAS INHIBIT TGF-BETA DEPENDENT SKELETAL ALPHA-ACTIN TRANSCRIPTION IN CARDIAC-MUSCLE-CELLS. JOURNAL OF CELLULAR BIOCHEMISTRY. 208-208. Author weblink.
  • SCHNEIDER MD; MACLELLAN WR; BRAND T; ABDELLATIF M; LEE TC; SCHWARTZ RJ. (13 Mar 1993). MOLECULAR MECHANISMS OF TGF-BETA SIGNAL TRANSDUCTION IN CARDIAC-MUSCLE-CELLS. JOURNAL OF CELLULAR BIOCHEMISTRY. 186-186. Author weblink.
  • MARTORANA PA; BRAND T; GARDI C; VANEVEN P; DESANTI MM; CALZONI P; MARCOLONGO P; LUNGARELLA G. (1 Feb 1993). THE PALLID MOUSE - A MODEL OF GENETIC ALPHA-1-ANTITRYPSIN DEFICIENCY. LABORATORY INVESTIGATION. 68:233-241. Author weblink.
  • BRAND T; SHARMA HS; FLEISCHMANN KE; DUNCKER DJ; MCFALLS EO; VERDOUW PD; SCHAPER W. (1 Dec 1992). PROTOONCOGENE EXPRESSION IN PORCINE MYOCARDIUM SUBJECTED TO ISCHEMIA AND REPERFUSION. CIRCULATION RESEARCH. 71:1351-1360. Author weblink.
  • Sharma HS; Wünsch M; Brand T; Verdouw PD; Schaper W. (1992). Molecular biology of the coronary vascular and myocardial responses to ischemia. J Cardiovasc Pharmacol. 20 Suppl 1:S23-S31.
  • BRAND T; MILTING H; ZIPPEL M; JOCKUSCH H. (3 Jun 1991). DIFFERENTIAL SYNTHESIS BY CULTURED ATRIAL AND VENTRICULAR RAT CARDIAC MYOCYTES OF MYOSIN LIGHT CHAIN ISOFORMS. FEBS LETTERS. 283:289-290. Author weblink DOI.
  • Brand T; Milting H; Zippel M; Jockusch H. (3 Jun 1991). Differential synthesis by cultured atrial and ventricular rat cardiac myocytes of myosin light chain isoforms. FEBS Lett. 283:289-290.
  • BRAND T; MUNKEL B; SHARMA HS; BLEESE N; SCHAPER W; SCHAPER J. (1 Feb 1991). INSITU HYBRIDIZATION STUDY OF MYOSIN HEAVY-CHAIN EXPRESSION IN HUMAN HEART-FAILURE. JOURNAL OF MUSCLE RESEARCH AND CELL MOTILITY. 12:85-85. Author weblink.
  • SCHAPER J; HEIN S; BRAND T; SCHAPER W. (1 Jan 1989). CONTRACTILE PROTEINS AND THE CYTOSKELETON IN ISOLATED RAT MYOCYTES. JOURNAL OF APPLIED CARDIOLOGY. 4:423-429. Author weblink.
  • BRAND T; JOCKUSCH H. (1 Jan 1987). DIFFERENTIAL PROPERTIES OF RAT ATRIAL AND VENTRICULAR MUSCLE-CELLS IN CULTURE. EUROPEAN JOURNAL OF CELL BIOLOGY. 43:8-8. Author weblink.

Chapters in books

  • Mikawa T; Brand T. Epicardial lineage, origins and fates. In Heart Development and Regeneration,. (in the press). Rosenthal (ed); N (ed); Harvey (ed); RP (ed). Elsevier, San Diego (2010).
  • Brand T. Regulatory Networks in Cardiac Development. In Cell signaling and growth factors in development: from molecules to organogenesis. 841-908. Unsicker (ed); K (ed); Krieglstein (ed); K (ed). Wiley VCH, New York (2006).
  • Brand T; Andree B; Schlange T. Molecular Characterization of Early Cardiac Development. In Results and Problems in Cell Differentiation. 38:215-238. Brand-Saberi B (ed). Springer, Heidelberg (2002).
  • Schaper J; Speiser B; Brand T. The cytoskeleton and extracellular matrix in human hearts with dilated cardiomyopathy. In Idiopathic Dilated Cardiomyopathy. 75-80. Mcmanus HRFRKB (ed). Springer, Berlin (1993).
  • Brand T; Schaper J; Munkel B; Sharma HS; Bleese N; Schaper W. In situ hybridization study on MHC expression in human heart failure. In Muscle and Motility. 3:175-180. Maréchal (ed); G (ed); Carraro (ed); U (ed). Intercept, Andover (1990).
  • Brand T; Jockusch H; Rippegather G; Forssmann WG. Storage and secretion of atrial natriuretic peptide (ANP) by cultured atrial and ventricular cells from the neonatal rat. In Functional morphology of the endocrine heart. 69-74. Forssmann (ed); G W (ed); Scheuermann (ed); W D (ed); Alt (ed); J (ed). Springer, New York (1988).

Conferences

  • Schindler R; Simrick S; Brand T. Nuclear localization of members of the popeye domain containing (Popdc) protein family. 2nd Congress of the European-Society-of-Cardiology Council on Basic Cardiovascular Science - Frontiers in Cardiovascular Biology, 30 Mar 2012 - 1 Apr 2012. 93:S98-S98. OXFORD UNIV PRESS (15 Mar 2012). Author weblink.
  • Poon KL; Kirchmaier BC; Schwerte T; Huisken J; Winkler C; Jungblut BC; Stainier DY; Brand T. Aberrant skeletal muscle formation and heart function in popdc2 deficient zebrafish embryos. 2nd Congress of the European-Society-of-Cardiology Council on Basic Cardiovascular Science - Frontiers in Cardiovascular Biology, 30 Mar 2012 - 1 Apr 2012. 93:S90-S90. OXFORD UNIV PRESS (15 Mar 2012). Author weblink.
  • Schlueter J; Brand T. Pericardial origin of proepicardial progenitor cells in the avian embryo. 2nd Congress of the European-Society-of-Cardiology Council on Basic Cardiovascular Science - Frontiers in Cardiovascular Biology, 30 Mar 2012 - 1 Apr 2012. 93:S9-S9. OXFORD UNIV PRESS (15 Mar 2012). Author weblink.
  • Brand T; Froese A; Breher SS; Schlueter J; Waldeyer C; Kirchmaier B; Kuhtz J; Torlopp A; et alVauti F; Mueller TD; Winkler CW; Schwerte T; Arnold H-H; Kirchhof P; Fabritz L. The Popeye Domain Containing 2 (Popdc2) Gene is Essential for Sinus Node Function. 81st Annual Scientific Session of the American-Heart-Association, 8 Nov 2008 - 12 Nov 2008. 118:S323-S323. LIPPINCOTT WILLIAMS & WILKINS (28 Oct 2008). Author weblink.
  • Yang K; Doughman Y-Q; Zaidi S; Brand T; Yang Y; Watanabe M. Expression analysis of CITED2 mRNA during chicken heart development. Experimental Biology 2007 Annual Meeting, 28 Apr 2007 - 2 May 2007. 21:A200-A200. FEDERATION AMER SOC EXP BIOL (1 Apr 2007). Author weblink.
  • Fabritz L; Liebig SK; Froese A; Fortmueller L; Neumann J; Breithardt G; Brand T; Kirchhof P. Popdc1, a gene of the Popeye family, is involved in heart rate adaptation to stress. World Congress of Cardiology, 2 Sep 2006 - 6 Sep 2006. 27:810-811. OXFORD UNIV PRESS (1 Aug 2006). Author weblink.
  • Brand T. Molecular characterization of the Popeye domain containing gene family. 28th Annual International-Society-for-Heart-Research North American Section Meeting, 13 Jun 2006 - 16 Jun 2006. 40:989-989. ACADEMIC PRESS LTD ELSEVIER SCIENCE LTD (1 Jun 2006). Author weblink DOI.
  • Kessler-Icekson G; Dick J; Hochhauser E; Parnes D; Jacoby V; Schlesinger H; Brand T. The popeye domain containing-1 (popdc1) gene product is required for heart recovery from ischemia-reperfusion injury in the mouse. 28th Annual International-Society-for-Heart-Research North American Section Meeting, 13 Jun 2006 - 16 Jun 2006. 40:973-974. ACADEMIC PRESS LTD ELSEVIER SCIENCE LTD (1 Jun 2006). Author weblink DOI.
  • Brand T. The Popqye domain-containing gene family. 1st International Conference on Recent Advances in Biomedical and Therapeutic Sciences, 13 Jan 2004 - 15 Jan 2004. 43:95-103. HUMANA PRESS INC (1 Jan 2005). Author weblink DOI.
  • Breher S; Brand T. Biochemical characterization of POP1 protein and cloning of Pop2 cDNAs from the chick embryo. Annual Meeting of the Deutschen-Gesellschaft-fur-Zellbiologie/Gesellschaft-fur-Entwicklungsbiologie, 26 Mar 2003 - 29 Mar 2003. 82:93-93. URBAN & FISCHER VERLAG (1 Mar 2003). Author weblink.
  • Brand T. BMP2 is a positive regulator of Nodal signaling during left-right axis formation. Annual Meeting of the Deutschen-Gesellschaft-fur-Zellbiologie/Gesellschaft-fur-Entwicklungsbiologie, 26 Mar 2003 - 29 Mar 2003. 82:93-93. URBAN & FISCHER VERLAG (1 Mar 2003). Author weblink.
  • Froese A; Meysing M; Brand T. Characterization of the promoter-proximal elements of the murine Popeye 2 (Pop2) gene. Annual Meeting of the Deutschen-Gesellschaft-fur-Zellbiologie/Gesellschaft-fur-Entwicklungsbiologie, 26 Mar 2003 - 29 Mar 2003. 82:92-92. URBAN & FISCHER VERLAG (1 Mar 2003). Author weblink.
  • SCHNEIDER MD; BRAND T. MOLECULAR ANALYSIS OF TGF-BETA SIGNAL-TRANSDUCTION - DOMINANT-INHIBITORY MUTATIONS OF THE TYPE-II AND TYPE-I TGF-BETA RECEPTOR. NATO Advanced Research Workshop on Cardiac Growth and Regeneration, 19 Jun 1994 - 24 Jun 1994. 752:309-316. NEW YORK ACAD SCIENCES (1 Jan 1995). Author weblink DOI.
  • SCHNEIDER MD; KIRSHENBAUM LA; BRAND T; MACLELLAN WR. CONTROL OF CARDIAC GENE-TRANSCRIPTION BY FIBROBLAST GROWTH-FACTORS. MCDB/ISU Symposium on Fibroblast Growth Factors and Their Receptors in Development and Disease, 17 Sep 1993 - 20 Sep 1993. 39:112-117. WILEY-LISS (1 Sep 1994). Author weblink DOI.
  • SHARMA HS; WUNSCH M; BRAND T; VERDOUW PD; SCHAPER W. MOLECULAR-BIOLOGY OF THE CORONARY VASCULAR AND MYOCARDIAL RESPONSES TO ISCHEMIA. FRANZ GROSS HYPERTENSION SYMP - CARDIOVASCULAR HYPERTROPHY : FROM MOLECULAR BIOLOGY TO CLINICS, THERAPY, AND PREVENTION, 7 Mar 1991 - 9 Mar 1991. 20:S23-S31. LIPPINCOTT-RAVEN PUBL (1 Jan 1992). Author weblink DOI.
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