Genomics in the “Century of Biology”
完整基因组测序已为包括肺癌在内的若干种癌症类型的突变谱提供了线索。最新测序技术意味着,现在有可能从全基因组范围内来观察突变差异,而且现在研究人员对肺癌已经做到了这一点
Karen Dell: iBiology:Meet the world's best biologists through the Internet
Karen Dell来自美国细胞生物学学会,她将简述通过iBiology来获取生物学学习和交流的资源。
Keith Barry的大脑魔术表演
这是第一次, Keith Barry告诉我们的大脑如何愚弄我们的身体.Keith Barry邀请了观众参与令人瞠目结舌(甚至有点危险)的大脑魔术表演.
秦正红:DRAM1 regulates autophagy flux and Bid-mediated cell death via lysosomes
秦正红,博士,教授,神经药理专业博士生导师。1994年在美国宾州医学院研究生院获博士学位,先后在美国国家卫生研究院(NIH)及麻省总医院和哈佛大学医学院从事研究工作。2003年从哈佛大学引进,现为苏州大学医学部基础医学与生物科学学院科研中心实验室主任,中国药理学会生化药理学专业委员会委员,中国药理学会神经药理学专业委员会委员,美国神经科学学会会员。
Damage-regulated autophagy modulator1 (DRAM1), a novel TP53 target gene, is an evolutionarily conserved lysosomal protein and plays an essential role in TP53-dependent autophagy activation and apoptosis (Crighton et al, 2006). However, the mechanisms by which DRAM1 promotes autophagy and apoptosis are not clear.
3-Nitropropionic acid (3-NP) is an inhibitor of mitochondrial respiratory complex II. Intrastriatal administration of 3-NP produces neuropathology resemble to Huntington disease. 3-NP-induced neuronal death was involved in autophagy and apoptosis. In vitro studies with 3-NP in TP53 wt and null cells, 3-NP or CCCP increased the protein levels of DRAM1 in a TP53-dependent or independent manner. DRAM1 induction contributed to 3-NP-induced autophagy activation. Knock-down of DRAM1 with siRNA inhibited the activity of V-ATPase, acidification of lysosomes and activation of lysosomal proteases. Knock-down of DRAM1 reduced the clearance of autophagososmes.
3-NP also induced a transcription independent upregulation of BAX protein levels. Knock-down of DRAM1 suppressed the increase in BAX levels. Co-immunoprecipitation and pull-down studies revealed an interaction of DRAM1 and BAX protein. Stably expression of exogenous DRAM1 increased the half-life of BAX. Upregulation of DRAM1 recruited BAX to lysosomes and induced cathepsin B-dependent cleavage of Bid and cytochrome c release. Knockdown of DRAM1, BAX or inhibition of lysosomal enzymes reduced 3-NP-induced cytochrome c release and cell death.
these data suggest that DRAM1 plays important roles in regulating autophagy flux and apoptosis. DRAM1 promotes autophagy flux through a mechanism involves activation of V-ATPase and enhances the acidification of lysosomes. DRAM1 promotes apoptosis via a mechanism involving recruitment of BAX to lysosomes to trigger cathepsin B-mediated Bid cleavage.
Western Blot Using the invitrogen NuPAGE Novex Bis-Tris MiniGel System(Aubin Penna.Ph.D)
Western Blot Using the invitrogen NuPAGE Novex Bis-Tris MiniGel System(Aubin Penna.Ph.D)
端粒和端粒酶的作用 - Elizabeth Blackburn P1
本视频由科普中国和生物医学大讲堂出品
Elizabeth Blackburn (UCSF) Part 1: the Roles of Telomeres and Telomerase
Lecture Overview
Telomerase, a specialized ribonucleprotein reverse transcriptase, is important for long-term eukaryotic cell proliferation and genomic stability, because it replenishes the DNA at telomeres. thus depending on cell type telomerase partially or completely (depending on cell type) counteracts the progressive shortening of telomeres that otherwise occurs. Telomerase is highly active in many human malignancies, and a potential target for anti-cancer approaches. Furthermore, recent collaborative studies have shown the relationship between accelerated telomere shortening and life stress and that low telomerase levels are associated with six prominent risk factors for cardiovascular disease.
端粒和端粒酶在人类干细胞和癌症中的作用 - Elizabeth Blackburn P2
本视频由科普中国和生物医学大讲堂出品
Elizabeth Blackburn (UCSF) Part 2: Telomeres and Telomerase in Human Stem Cells and in Cancer
Telomerase, a specialized ribonucleprotein reverse transcriptase, is important for long-term eukaryotic cell proliferation and genomic stability, because it replenishes the DNA at telomeres. thus depending on cell type telomerase partially or completely (depending on cell type) counteracts the progressive shortening of telomeres that otherwise occurs. Telomerase is highly active in many human malignancies, and a potential target for anti-cancer approaches. Furthermore, recent collaborative studies have shown the relationship between accelerated telomere shortening and life stress and that low telomerase levels are associated with six prominent risk factors for cardiovascular disease.
控制老化的基因 - Cynthia Kenyon P1
本视频由科普中国和生物医学大讲堂出品
Cynthia Kenyon (UCSF) Part 1: Genes that Control Aging
Once it was thought that aging was just a random and haphazard process. Instead, the rate of aging turns out to be subject to regulation by transcription factors that respond to hormones and other signals. In the nematode C. elegans, in which many key discoveries about aging were first made, the aging process is subject to regulation by food intake, sensory perception, and signals from the reproductive system. Changing genes and cells that affect aging can lengthen lifespan by six fold, and can also delay age-related disease, such as the growth of tumors.
来自生殖系统的信号显示衰老的规律 - Cynthia Kenyon P2
本视频由科普中国和生物医学大讲堂出品
Cynthia Kenyon (UCSF) Part 2: the Regulation of Aging by Signals from the Reproductive System
Once it was thought that aging was just a random and haphazard process. Instead, the rate of aging turns out to be subject to regulation by transcription factors that respond to hormones and other signals. In the nematode C. elegans, in which many key discoveries about aging were first made, the aging process is subject to regulation by food intake, sensory perception, and signals from the reproductive system. Changing genes and cells that affect aging can lengthen lifespan by six fold, and can also delay age-related disease, such as the growth of tumors.