| scholarly article | Q13442814 |
| P50 | author | Murray Clarke | Q63919085 |
| David B. Jones | Q110229241 | ||
| P2093 | author name string | Simon B Brown | |
| John Savill | |||
| Brendon S Noble | |||
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| Morphological aspects of glucocorticoid-induced cell death in human lymphoblastoid cells | Q67443294 | ||
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| Bcl-x is a regulatory factor of apoptosis and differentiation in megakaryocytic lineage cells | Q74314712 | ||
| Constitutive apoptosis in human neutrophils requires synergy between calpains and the proteasome downstream of caspases | Q77520993 | ||
| Calpain functions in a caspase-independent manner to promote apoptosis-like events during platelet activation | Q78225184 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 577-587 | |
| P577 | publication date | 2003-02-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Compartmentalized megakaryocyte death generates functional platelets committed to caspase-independent death | |
| P478 | volume | 160 |
| Q33380951 | 15-deoxy-delta12,14-PGJ2 enhances platelet production from megakaryocytes |
| Q33402025 | A megakaryocyte with no platelets: anti-platelet antibodies, apoptosis, and platelet production |
| Q30478057 | A novel role for microtubules in apoptotic chromatin dynamics and cellular fragmentation |
| Q33303491 | A systems-biology analysis of isogenic megakaryocytic and granulocytic cultures identifies new molecular components of megakaryocytic apoptosis |
| Q33299579 | A ubiquitin ligase complex regulates caspase activation during sperm differentiation in Drosophila |
| Q35416666 | Actin inhibition increases megakaryocyte proplatelet formation through an apoptosis-dependent mechanism |
| Q38695213 | Anaplasma phagocytophilum infection modulates expression of megakaryocyte cell cycle genes through phosphatidylinositol-3-kinase signaling |
| Q27016041 | Apoptosis: role in myeloid cell development |
| Q53581386 | Bcl-2 family proteins are essential for platelet survival. |
| Q40387246 | CD46 plays a key role in tailoring innate immune recognition of apoptotic and necrotic cells |
| Q33377273 | CD8+ T cells suppress autologous megakaryocyte apoptosis in idiopathic thrombocytopenic purpura |
| Q33383251 | Caspase activation is involved in early megakaryocyte differentiation but not in platelet production from megakaryocytes |
| Q37848054 | Cell death assays for drug discovery |
| Q33391076 | Contributions of TRAIL-mediated megakaryocyte apoptosis to impaired megakaryocyte and platelet production in immune thrombocytopenia |
| Q34331948 | Determination of apoptotic and necrotic cell death in vitro and in vivo. |
| Q39052443 | Differential regulation of the apoptotic machinery during megakaryocyte differentiation and platelet production by inhibitor of apoptosis protein Livin |
| Q37417290 | Dynamic Regulation of a Ribosome Rescue Pathway in Erythroid Cells and Platelets |
| Q40408299 | Enforced expression of KDR receptor promotes proliferation, survival and megakaryocytic differentiation of TF1 progenitor cell line. |
| Q38187494 | Ex vivo production of platelets from stem cells |
| Q54642108 | Heat-shock protein 60 translocates to the surface of apoptotic cells and differentiated megakaryocytes and stimulates phagocytosis. |
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| Q27310713 | IL-1α induces thrombopoiesis through megakaryocyte rupture in response to acute platelet needs |
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| Q33397149 | Megakaryocytes possess a functional intrinsic apoptosis pathway that must be restrained to survive and produce platelets |
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| Q28088519 | Megakaryopoiesis and platelet production: insight into hematopoietic stem cell proliferation and differentiation |
| Q30483213 | Metalloproteinase regulation improves in vitro generation of efficacious platelets from mouse embryonic stem cells |
| Q33416435 | Mitoquinone restores platelet production in irradiation-induced thrombocytopenia |
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| Q81028266 | Platelet biology for the clinician-scientist: an evolution of understanding |
| Q33413970 | Platelet production proceeds independently of the intrinsic and extrinsic apoptosis pathways |
| Q37196840 | Platelets: developmental biology, physiology, and translatable platforms for preclinical investigation and drug development. |
| Q38764769 | Proplatelet formation in megakaryocytes is associated with endoplasmic reticulum stress |
| Q33938189 | Proplatelet formation of megakaryocytes is triggered by autocrine-synthesized estradiol |
| Q36185474 | Proposed megakaryocytic regulon of p53: the genes engaged to control cell cycle and apoptosis during megakaryocytic differentiation |
| Q39428071 | Regulation of fas/fas ligand-mediated apoptosis by nuclear factor of activated T cells in megakaryocytes |
| Q33431667 | Regulation of platelet lifespan by apoptosis |
| Q58720234 | Role of p53 and transcription-independent p53-induced apoptosis in shear-stimulated megakaryocytic maturation, particle generation, and platelet biogenesis |
| Q37126477 | Sepsis alters the megakaryocyte-platelet transcriptional axis resulting in granzyme B-mediated lymphotoxicity. |
| Q34293014 | Shear enhances thrombopoiesis and formation of microparticles that induce megakaryocytic differentiation of stem cells. |
| Q33615612 | Slowed decay of mRNAs enhances platelet specific translation |
| Q41834899 | Systems analysis of effector caspase activation and its control by X-linked inhibitor of apoptosis protein |
| Q64109244 | The Coagulation and Immune Systems Are Directly Linked through the Activation of Interleukin-1α by Thrombin |
| Q34851384 | The Feverfew plant-derived compound, parthenolide enhances platelet production and attenuates platelet activation through NF-κB inhibition |
| Q50355706 | The Plant Hormone Abscisic Acid Is a Prosurvival Factor in Human and Murine Megakaryocytes |
| Q33369405 | The biogenesis of platelets from megakaryocyte proplatelets |
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