Widespread Elimination of Naturally Occurring Neuronal Death inBax-Deficient Mice
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[1] S. Korsmeyer,et al. Bax Deletion Further Orders the Cell Death Pathway in Cerebellar Granule Cells and Suggests a Caspase-independent Pathway to Cell Death , 1997, The Journal of cell biology.
[2] Kevin A. Roth,et al. bax Deficiency Prevents the Increased Cell Death of Immature Neurons in bcl-x-Deficient Mice , 1997, The Journal of Neuroscience.
[3] John Calvin Reed,et al. Activation of CPP32 during apoptosis of neurons and astrocytes , 1997, Journal of neuroscience research.
[4] G. Schneider,et al. Bcl-2 promotes regeneration of severed axons in mammalian CNS , 1997, Nature.
[5] S. McMahon,et al. Adult Mammalian Sensory and Motor Neurons: Roles of Endogenous Neurotrophins and Rescue by Exogenous Neurotrophins after Axotomy , 1997, The Journal of Neuroscience.
[6] S. Korsmeyer,et al. Bcl-2 gene family in the nervous system. , 1997, Annual review of neuroscience.
[7] I. Fariñas,et al. Lack of Neurotrophin-3 Results in Death of Spinal Sensory Neurons and Premature Differentiation of Their Precursors , 1996, Neuron.
[8] Keisuke Kuida,et al. Decreased apoptosis in the brain and premature lethality in CPP32-deficient mice , 1996, Nature.
[9] J. Martinou,et al. ICE-like proteases execute the neuronal death program , 1996, Current Opinion in Neurobiology.
[10] S. Korsmeyer,et al. BAX Is Required for Neuronal Death after Trophic Factor Deprivation and during Development , 1996, Neuron.
[11] W. ElShamy,et al. Requirement of neurotrophin-3 for the survival of proliferating trigeminal ganglion progenitor cells. , 1996, Development.
[12] M. Barbacid,et al. Synchronous Onset of NGF and TrkA Survival Dependence in Developing Dorsal Root Ganglia , 1996, The Journal of Neuroscience.
[13] H. Thoenen,et al. Inactivation of bcl-2 Results in Progressive Degeneration of Motoneurons, Sympathetic and Sensory Neurons during Early Postnatal Development , 1996, Neuron.
[14] R. Oppenheim,et al. A Novel Type of Programmed Neuronal Death in the Cervical Spinal Cord of the Chick Embryo , 1996, The Journal of Neuroscience.
[15] A. Blaschke,et al. Widespread programmed cell death in proliferative and postmitotic regions of the fetal cerebral cortex. , 1996, Development.
[16] P. Martini,et al. An intrinsic time limit between genesis and death of individual neurons in the developing retinal ganglion cell layer , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[17] A. Davies,et al. Bax promotes neuronal survival and antagonises the survival effects of neurotrophic factors. , 1996, Development.
[18] J. Trachtenberg,et al. Schwann cell apoptosis at developing neuromuscular junctions is regulated by glial growth factor , 1996, Nature.
[19] S. Korsmeyer,et al. Bax-Deficient Mice with Lymphoid Hyperplasia and Male Germ Cell Death , 1995, Science.
[20] A. Meyer-Franke,et al. Characterization of the signaling interactions that promote the survival and growth of developing retinal ganglion cells in culture , 1995, Neuron.
[21] Y. Yarden,et al. Neu differentiation factor is a neuron-glia signal and regulates survival, proliferation, and maturation of rat schwann cell precursors , 1995, Neuron.
[22] Matthew J. Brauer,et al. Modulation of apoptosis by the widely distributed Bcl-2 homologue Bak , 1995, Nature.
[23] al. et,et al. Massive cell death of immature hematopoietic cells and neurons in Bcl-x-deficient mice , 1995, Science.
[24] S. Korsmeyer,et al. Bad, a heterodimeric partner for Bcl-xL and Bcl-2, displaces bax and promotes cell death , 1995, Cell.
[25] R. Mirsky,et al. Fibroblast Growth Factors and Insulin Growth Factors Combine to Promote Survival of Rat Schwann Cell Precursors Without Induction of DNA Synthesis , 1995, The European journal of neuroscience.
[26] John Calvin Reed,et al. Immunohistochemical determination of in vivo distribution of Bax, a dominant inhibitor of Bcl-2. , 1994, The American journal of pathology.
[27] Jean-Claude Martinou,et al. Overexpression of BCL-2 in transgenic mice protects neurons from naturally occurring cell death and experimental ischemia , 1994, Neuron.
[28] R. Mirsky,et al. The schwann cell precursor and its fate: A study of cell death and differentiation during gliogenesis in rat embryonic nerves , 1994, Neuron.
[29] B. Barres,et al. Programmed cell death and the control of cell survival: lessons from the nervous system. , 1993, Science.
[30] S. Korsmeyer,et al. Bcl-2 heterodimerizes in vivo with a conserved homolog, Bax, that accelerates programed cell death , 1993, Cell.
[31] M. Sendtner,et al. Does oligodendrocyte survival depend on axons? , 1993, Current Biology.
[32] A. Davies,et al. The proto-oncogene bcl-2 can selectively rescue neurotrophic factor-dependent neurons from apoptosis , 1993, Cell.
[33] W. Richardson,et al. Cell death and control of cell survival in the oligodendrocyte lineage , 1992, Cell.
[34] Matthew H. Kaufman,et al. The Atlas of Mouse Development , 1992 .
[35] Dr. Kyrill Yurjevich Reznikov. Cell Proliferation and Cytogenesis in the Mouse Hippocampus , 2012, Advances in Anatomy Embryology and Cell Biology.
[36] R. Oppenheim. Cell death during development of the nervous system. , 1991, Annual review of neuroscience.
[37] R. W. Young,et al. Cell death during differentiation of the retina in the mouse , 1984, The Journal of comparative neurology.
[38] C. Lance‐Jones,et al. Motoneuron cell death in the developing lumbar spinal cord of the mouse. , 1982, Brain Research.