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Chapter 124  Megakaryocyte and Platelet Structure  1869


            24.  Patel-Hett S, Richardson JL, Schulze H, et al: Visualization of micro-  32.  Bender  M,  Thon  JN,  Ehrlicher  AJ,  et al:  Microtubule  sliding  drives
               tubule growth in living platelets reveals a dynamic marginal band with   proplatelet elongation and is dependent on cytoplasmic dynein. Blood
               multiple microtubules. Blood 111:4605, 2008.          125:860, 2015.
            25.  Freson  K,  De  Vos  R,  Wittevrognel  C,  et al:  The  β1-tubulin  Q43P   33.  Begonja A, Hoffmeister KM, Hartwig JH, et al: FlnA-null megakaryo-
               functional  polymorphism  reduces  the  risk  of  cardiovascular  disease  in   cytes prematurely release large and fragile platelets that circulate poorly.
               men  by  modulating  platelet  function  and  structure.  Blood  106:2356,   Blood 118:2285, 2011.
               2005.                                              34.  Bender  M,  Eckly  A,  Hartwig  JH:  ADF/n-cofilin-dependent  actin
            26.  Nakamura  F,  Stossel TP,  Hartwig  JH: The  filamins:  organizers of  cell   turnover  determines  platelet  formation  and  sizing.  Blood  116:1767,
               structure and function. Cell Adh Migr 5:160, 2011.    2010.
            27.  Nakamura F, Pudas R, Heikkinen O, et al: The structure of the GP1b-  35.  Bender M, Stritt S, Nurden P, et al: Megakaryocyte-specific Profilin1-
               filamin A complex. Blood 107:1925, 2005.              deficiency  alters  microtubule  stability  and  causes  a  Wiskott-Aldrich
            28.  Eckly  A,  Heijnen  H,  Pertuy  F,  et al:  Biogenesis  of  the  demarcation   syndrome-like platelet defect. Nat Commun 5:4746, 2014.
               membrane system (DMS) in megakaryocytes. Blood 123:921, 2014.  36.  Pleines I, Dütting S, Cherpokova D, et al: Defective tubulin organiza-
            29.  Wandall HH, Rumjantseva V, Sørensen AL, et al: The origin and func-  tion and proplatelet formation in murine megakaryocytes lacking Rac1
               tion of platelet glycosyltransferases. Blood 120:626, 2012.  and Cdc42. Blood 122:3178, 2013.
            30.  Chen  Y,  Aardema  J,  Kale  S,  et al:  Loss  of  the  F-BAR  protein  CIP4   37.  Pleines I, Hagedorn I, Gupta S: Megakaryocyte-specific RhoA deficiency
               reduces  platelet  production  by  impairing  membrane-cytoskeleton   causes  macrothrombocytopenia  and  defective  platelet  activation  in
               remodeling. Blood 22:1695, 2013.                      hemostasis and thrombosis. Blood 119:1054, 2012.
            31.  Bender  M,  Giannini  S,  Grozovsky  R,  et al:  Dynamin  2-dependent   38.  Diagouraga B, Grichine A, Fertin A, et al: Motor-driven marginal band
               endocytosis is required for normal megakaryocyte development in mice.   coiling promotes cell shape change during platelet activation. J Cell Biol
               Blood 125:1014, 2015.                                 204:177, 2014.
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