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     [13] Kluck RM£¬Bossy Wetzel E£¬Green DR£¬et al.The release of cytochrome c from mitochondria£ºaprimary site for Bcl-2 regulation of apoptosis[J].Science£¬1997£¬275(5303)£º1132.

    [14] Wada A£¬Yokoo H£¬Yanagita T£¬et al.Lithium£ºpotential therapeutics against acute brain injuries and chronic neurodegenerative diseases[J].Pharmacol SCI£¬2005£¬99(4)£º307-321.

    [15] Shimizu S£¬Narita M£¬Tsujimoto Y.Bcl-2 family proteions regulate the release of apoptogenic cytochrome c by themitochondriam channel VDAC[J].Nature£¬1999£¬399(6375)£º483.

    [16] Ñî¾²Þ±£¬Ìï¾þ£¬×Þ·²£¬µÈ.µ±¹é¶Ô´óÊó¾ÖÔîÐÔȱѪÄÔ×é֯ϸ°ûµòÍöµÄ×÷ÓÃ[J].Î人´óѧѧ±¨£¬2004£¬25(1)£º4-18.

    [17] Oltvai ZN£¬Milliman CL£¬Korsmeyer SJ.Bcl-2 heterodimerizes in vivo with a conserved homolog£¬Bax£¬that accelerates programmed cell death[J].Cell£¬1993£¬74 (4)£º609-619.

    [18] Hellman L£¬Pettersson U.Structure and evolution of the heavy chain from rat immunoglobulin E[J].Nucleic Acids Resaerch£¬1982£¬10(19)£º6441-6449.

    [19] Pappas BA£¬Torte JC£¬Davidson CM£¬et a1.Chronic reducetion of cerebral blood flow in the aduh rat£ºlate-emerging CA1 cell loss and memodysfunction[J].Brain Res£¬1996£¬708(1-2)£º50-58.

    [20] Brambrink A M£¬Schneider A£¬Noga H£¬et a1.Toleranceinducing dose of 3-nitropropionic acid m odulates bcl-2 and bax balance in the rat brain£ºa potential mechanism of chemical preconditioning[J].Cereb Blood Flow Metab£¬2005£¬20(10)£º1425-1436.

    

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