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The cardiovascular system. /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-014.mrc:104309940:12160
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-014.mrc:104309940:12160?format=raw

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001 6886418
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010 $z 34008174
020 $a0879696788 (cloth)
020 $a9780879696788 (cloth)
020 $a0879696796 (paper)
020 $a9780879696795 (paper)
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029 1 $aAU@$b000024783653
035 $a(OCoLC)ocm52430242
035 $a(OCoLC)52430242
035 $a(NNC)6886418
035 $a6886418
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050 4 $aQH301$b.C6 v. 67
050 14 $aQM178$b.C37 2002
082 04 $a570.6
084 $a44.85$2bcl
111 2 $aCold Spring Harbor Symposium on Quantitative Biology$n(67th :$d2002)
245 14 $aThe cardiovascular system /$cmeeting organized by Bruce Stillman and David Stewart.
260 $aCold Spring Harbor, N.Y. :$bCold Spring Harbor Laboratory Press,$c[2002], ©2002.
300 $axxi, 566 pages :$billustrations (some color), portraits ;$c28 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aCold Spring Harbor symposia on quantitative biology,$x0091-7451 ;$vv. 67
504 $aIncludes bibliographical references and indexes.
505 00 $tDevelopment of the Cardiovascular System -- $tCardiogenesis in the Drosophila Model: Control Mechanisms during Early Induction and Diversification of Cardiac Progenitors /$rS. Zaffran, X. Xu, P.C.H. Lo, H.-H. Lee and M. Frasch -- $tRegulation of Cardiac Muscle Differentiation in Xenopus laevis Embryos /$rT. Mohun, B. Latinkic, N. Towers and S. Kotecha -- $tGenetic Regulation of Cardiac Patterning in Zebrafish /$rD. Yelon, J.L. Feldman and B.R. Keegan -- $tZebrafish Hearts and Minds: Nodal Signaling in Cardiac and Neural Left-Right Asymmetry /$rS. Long, N. Ahmad and M. Rebagliati -- $tCardiac Left-Right Development: Are the Early Steps Conserved? /$rK.L. Kramer and H.J. Yost -- $tErythropoietin and Retinoic Acid Signaling in the Epicardium Is Required for Cardiac Myocyte Proliferation /$rI. Stuckmann and A.B. Lassar -- $tEndocardial Cushion Formation in Zebrafish /$rD.Y.R. Stainier, D. Beis, B. Jungblut and T. Bartman -- $tNeural Crest Migration and Mouse Models of Congenital Heart Disease /$rA.D. Gitler, C.B. Brown, L. Kochilas, J. Li and J.A. Epstein -- $tTranscription Factors in Cardiovascular Development -- $tHey bHLH Factors in Cardiovascular Development /$rA. Fischer, C. Leimeister, C. Winkler, N. Schumacher, B. Klamt, H. Elmasri, C. Steidl, M. Maier, K.-P. Knobeloch, K. Amann, A. Helisch, M. Sendtner and M. Gessler -- $tMolecular Mechanisms of Chamber-specific Myocardial Gene Expression: Transgenic Analysis of the ANF Promoter /$rE.M. Small and P.A. Krieg -- $tPitx Genes during Cardiovascular Development /$rC. Kioussi, P. Briata, S.H. Baek, A. Wynshaw-Boris, D.W. Rose and M.G. Rosenfeld -- $tPitx2 and Cardiac Development: A Molecular Link between Left/Right Signaling and Congenital Heart Disease /$rM. Campione, L. Acosta, S. Martinez, J.M. Icardo, A. Aranega and D. Franco -- $tRegulation of Cardiac Growth and Development by SRF and Its Cofactors /$rD. Wang, R. Passier, Z.-P. Liu, C.H. Shin, Z. Wang, S. Li, L.B. Sutherland, E. Small, P.A. Krieg and E.N. Olson -- $tHomeodomain Factor Nkx2-5 in Heart Development and Disease /$rR.P. Harvey, D. Lai, D. Elliott, C. Biben, M. Solloway, O. Prall, F. Stennard, A. Schindeler, N. Groves, L. Lavulo, C. Hyun, T. Yeoh, M. Costa, M. Furtado and E. Kirk -- $tCauses of Clinical Diversity in Human TBX5 Mutations /$rT. Huang, J.E. Lock, A.C. Marshall, C. Basson, J.G. Seidman and C.E. Seidman -- $tMolecular Mechanisms of Ventricular Hypoplasia /$rD. Srivastava, P.D. Gottlieb and E.N. Olson -- $tHypoxia, HIFs, and Cardiovascular Development /$rM.C. Simon, D. Ramirez-Bergeron, F. Mack, C.-J. Hu, Y. Pan and K. Mansfield -- $tQuiescent Hypervascularity Mediated by Gain of HIF-1[alpha] Function /$rJ.M. Arbeit -- $tVascular Biology -- $tThe Diverse Roles of Integrins and Their Ligands in Angiogenesis /$rR.O. Hynes, J.C. Lively, J.H. McCarty, D. Taverna, S.E. Francis, K. Hodivala-Dilke and Q. Xiao -- $tArteries, Veins, Notch, and VEGF /$rB.M. Weinstein and N.D. Lawson -- $tCell Cycle Signaling and Cardiovascular Disease /$rE.G. Nabel, M. Boehm, L.M. Akyurek, T. Yoshimoto, M.F. Crook, M. Olive, H. San and X. Qu -- $tSelective Functions of Angiopoietins and Vascular Endothelial Growth Factor on Blood Vessels: The Concept of "Vascular Domain" /$rT.N. Sato, S. Loughna, E.C. Davis, R.P. Visconti and C.D. Richardson -- $tSurvival Mechanisms of VEGF and PlGF during Microvascular Remodeling /$rJ.N. Upalakalin, I. Hemo, C. Dehio, E. Keshet and L.E. Benjamin -- $tMolecular Mechanisms of Lymphangiogenesis /$rT. Makinen and K. Alitalo -- $tProtease-activated Receptors in the Cardiovascular System /$rS.R. Coughlin -- $tMigration of Monocytes/Macrophages In Vitro and In Vivo Is Accompanied by MMP12-dependent Tunnel Formation and by Neovascularization /$rM. Anghelina, A. Schmeisser, P. Krishnan, L. Moldovan, R.H. Strasser and N.I. Moldovan -- $tThe Role of EG-VEGF in the Regulation of Angiogenesis in Endocrine Glands /$rJ. LeCouter, R. Lin and N. Ferrara -- $tProfiling the Molecular Diversity of Blood Vessels /$rR. Pasqualini and W. Arap -- $tTumor Angiogenesis -- $tVEGF-A Induces Angiogenesis, Arteriogenesis, Lymphangiogenesis, and Vascular Malformations /$rJ.A. Nagy, E. Vasile, D. Feng, C. Sundberg, L.F. Brown, E.J. Manseau, A.M. Dvorak and H.F. Dvorak -- $tAngiogenesis and Lymphangiogenesis in Tumors: Insights from Intravital Microscopy /$rR.K. Jain -- $tA Genetic Approach to Understanding Tumor Angiogenesis /$rR. Benezra, P. de Candia, H. Li, E. Romero, D. Lyden, S. Rafii and M. Ruzinova -- $tDiscovery of Type IV Collagen Non-collagenous Domains as Novel Integrin Ligands and Endogenous Inhibitors of Angiogenesis /$rR. Kalluri -- $tComplementary and Coordinated Roles of the VEGFs and Angiopoietins during Normal and Pathologic Vascular Formation /$rN.W. Gale, G. Thurston, S. Davis, S.J. Wiegand, J. Holash, J.S. Rudge and G.D. Yancopoulos -- $tInvolvement of G Proteins in Vascular Permeability Factor/Vascular Endothelial Growth Factor Signaling /$rD. Mukhopadhyay and H. Zeng -- $tTargeted Delivery of Mutant Raf Kinase to Neovessels Causes Tumor Regression /$rJ.D. Hood and D.A. Cheresh -- $tCombining Antiangiogenic Agents with Metronomic Chemotherapy Enhances Efficacy against Late-stage Pancreatic Islet Carcinomas in Mice /$rG. Bergers and D. Hanahan -- $tGenetics and Genomics of the Cardiovascular System -- $tZebrafish: The Complete Cardiovascular Compendium /$rC.A. MacRae and M.C. Fishman -- $tConsomic Rats for the Identification of Genes and Pathways Underlying Cardiovascular Disease /$rR.J. Roman, A.W. Cowley, Jr., A. Greene, A.E. Kwitek, P.J. Tonellato and H.J. Jacob -- $tA Mouse Model of Congenital Heart Disease: Cardiac Arrhythmias and Atrial Septal Defect Caused by Haploinsufficiency of the Cardiac Transcription Factor Csx/Nkx2.5 /$rM. Tanaka, C.I. Berul, M. Ishii, P.Y. Jay, H. Wakimoto, P. Douglas, N. Yamasaki, T. Kawamoto, J. Gehrmann, C.T. Maguire, M. Schinke, C.E. Seidman, J.G. Seidman, Y. Kurachi and S. Izumo -- $tGenetic Dissection of the DiGeorge Syndrome Phenotype /$rF. Vitelli, E.A. Lindsay and A. Baldini -- $tA Missense Mutation in a Highly Conserved Region of CASQ2 Is Associated with Autosomal Recessive Catecholamine-induced Polymorphic Ventricular Tachycardia in Bedouin Families from Israel /$rM. Eldar, E. Pras and H. Lahat -- $tRegulation of the Heart -- $tCalcium-dependent Gene Regulation in Myocyte Hypertrophy and Remodeling /$rR.S. Williams and P. Rosenberg -- $tA Gradient of Myosin Regulatory Light-chain Phosphorylation across the Ventricular Wall Supports Cardiac Torsion /$rJ.S. Davis, S. Hassanzadeh, S. Winitsky, H. Wen, A. Aletras and N.D. Epstein -- $tMolecular and Functional Maturation of the Murine Cardiac Conduction System /$rS. Rentschler, G.E. Morley and G.I. Fishman -- $tThe Yin/Yang of Innate Stress Responses in the Heart /$rD.L. Mann -- $tRegulatory Networks Controlling Mitochondrial Energy Production in the Developing, Hypertrophied, and Diabetic Heart /$rB.N. Finck, J.J. Lehman, P.M. Barger and D.P. Kelly -- $tHeart Disease and Failure -- $tMolecular Epidemiology of Hypertrophic Cardiomyopathy /$rH. Morita, S.R. DePalma, M. Arad, B. McDonough, S. Barr, C. Duffy, B.J. Maron, C.E. Seidman and J.G. Seidman -- $tThe Sarcoglycan Complex in Striated and Vascular Smooth Muscle /$rM.T. Wheeler, M.J. Allikian, A. Heydemann and E.M. McNally -- $tThe MLP Family of Cytoskeletal Z Disc Proteins and Dilated Cardiomyopathy: A Stress Pathway Model for Heart Failure Progression /$rM. Hoshijima, M. Pashmforoush, R. Knoll and K.R. Chien -- $tFrom Sarcomeric Mutations to Heart Disease: Understanding Familial Hypertrophic Cardiomyopathy /$rA. Maass, J.P. Konhilas, B.L. Stauffer and L.A. Leinwand -- $tVascular Endothelium in Tissue Remodeling: Implications for Heart Failure /$rS.M. Dallabrida and M.A. Rupnick -- $tUsing a Gene-switch Transgenic Approach to Dissect Distinct Roles of MAP Kinases in Heart Failure /$rB.G. Petrich, P. Liao and Y. Wang -- $tG-Protein-coupled Receptor Function in Heart Failure /$rS.V. Naga Prasad, J. Nienaber and H.A. Rockman -- $tHypertension, Atherosclerosis, and Lipid Homeostasis --
505 80 $tSalt and Blood Pressure: New Insight from Human Genetic Studies /$rR.P. Lifton, F.H. Wilson, K.A. Choate and D.S. Geller -- $tGene-targeting Studies of the Renin--Angiotensin System: Mechanisms of Hypertension and Cardiovascular Disease /$rS.B. Gurley, T.H. Le and T.M. Coffman -- $tModulation of Endothelial NO Production by High-density Lipoprotein /$rC. Mineo and P.W. Shaul -- $tPlaque Angiogenesis: Its Functions and Regulation /$rK.S. Moulton -- $tExtracellular Superoxide Dismutase, Uric Acid, and Atherosclerosis /$rH.U. Hink and T. Fukai -- $tSREBPs: Transcriptional Mediators of Lipid Homeostasis /$rJ.D. Horton, J.L. Goldstein and M.S. Brown -- $tGenetic Defenses against Hypercholesterolemia /$rH.H. Hobbs, G.A. Graf, L. Yu, K.R. Wilund and J.C. Cohen -- $tRepairing the Cardiovascular System -- $tInsulin-like Growth Factor Isoforms in Skeletal Muscle Aging, Regeneration, and Disease /$rN. Winn, A. Paul, A. Musaro and N. Rosenthal -- $tCellular Therapies for Myocardial Infarct Repair /$rC.E. Murry, M.L. Whitney, M.A. Laflamme, H. Reinecke and L.J. Field -- $tGene Therapy for Cardiac Arrhythmias /$rE. Marban, H.B. Nuss and J.K. Donahue -- $tMyocardial Disease in Failing Hearts: Defective Excitation--Contraction Coupling /$rX.H.T. Wehrens and A.R. Marks -- $tSummary: The Coming of Age of Cardiovascular Science /$rC.E. Seidman and J.G. Seidman.
530 $aAlso available via the World Wide Web.
650 0 $aCardiovascular system$vCongresses.$0http://id.loc.gov/authorities/subjects/sh2009118409
650 0 $aHeart$vCongresses.
650 0 $aCardiovascular system$xGenetic aspects$vCongresses.
650 0 $aCardiovascular receptors$vCongresses.
650 2 $aCardiovascular System.$0https://id.nlm.nih.gov/mesh/D002319
650 2 $aCardiovascular Diseases.$0https://id.nlm.nih.gov/mesh/D002318
650 2 $aHeart Diseases.$0https://id.nlm.nih.gov/mesh/D006331
650 2 $aBlood Vessels.$0https://id.nlm.nih.gov/mesh/D001808
650 2 $aHypertension.$0https://id.nlm.nih.gov/mesh/D006973
655 2 $aCongress.$0https://id.nlm.nih.gov/mesh/D016423
650 7 $aCongresses.
650 17 $aHart en bloedvaten.$2gtt
710 2 $aCold Spring Harbor Laboratory.$0http://id.loc.gov/authorities/names/n81077245
700 1 $aStillman, Bruce.$0http://id.loc.gov/authorities/names/n87918278
700 1 $aStewart, David J.$q(David Johnston)$0http://id.loc.gov/authorities/names/n2003145800
830 0 $aCold Spring Harbor symposia on quantitative biology (Series) ;$vv. 67.$0http://id.loc.gov/authorities/names/n42007418
856 41 $uhttp://www.cshl-symposium.org/toc/sqb/67/1$zConnect to free full text online.
852 80 $boff,bio$h570.6$iC67 v.67