微滴式数字PCR检测血浆中非细胞游离DNA的eGFR突变
2013年作为PCR技术诞生30周年,在美丽的敦煌,2013第一届数字PCR前沿应用研讨会围绕PCR技术以及新一代的微滴式数字PCR在肿瘤标记分子领域的应用展开研讨,海内外知名的相关领域卓有建树的科学家采用大会报告以及专题讨论的形式,结合国际上转化医学研究的前沿动态与发展趋势,为大家带来一场生命科学的学术盛宴。
数字PCR技术在HeR-2基因扩增检测中的应用
2013年作为PCR技术诞生30周年,本次论坛将围绕PCR技术以及新一代的微滴式数字PCR在肿瘤标记分子领域的应用展开研讨,我们邀请了海内外知名的相关领域卓有建树的科学家采用大会报告以及专题讨论的形式,结合国际上转化医学研究的前沿动态与发展趋势,为大家带来一场生命科学的学术盛宴。
Regenerative medicine for brain and nerve repair
We isolated and propagated neural stem cells from the exposed brain tissue of the patients with open brain trauma, and then implanted neural stem cells with MRI-guided stereotactic device for the patients. Within 2-years follow-ups, the patients were investigated for functional recovery. Contrast to the case control group, implantation of neural stem cells was associated with a significant improvement in patient's neurological function. Investigations of stem cell therapy have required analysis of the fate and migration of implanted neural stem cells. Here, We demonstrate the feasibility of labeling human neural stem cells and retinal stem cells with nanoparticle and tracking of implanted cells in monkey and human central nervous system (CNS). This data demonstrates the possibility of stem cell therapy in CNS and collectively provide necessary foundation for overcoming challenges to the enhancement of translational regenerative medicine of brain and optic nerve injury.
郭彤:eClinical革新与趋势
A remarkable transformation is emerging of the way the biopharmaceutical industry conducts global clinical trials. Coupled with this much needed evolution are new challenges specific to the increasing role that information technology will play to enable the new clinical development landscape. Of the many challenges facing the biopharmaceutical industry today, the critical need for greater operational efficiency in clinical drug development is paramount. In the past decades, we have seen many technology advancements, including clinical trial management systems (CTMS), electronic trial master files (eTMFs), open standards, mobile access, tablets, and cloud computing. This presentation will discuss the above challenges and review the new trends of technology enabled solutions in clinical research. .
Study the pathological features of diseases using induced pluripotent stem cells derived form patient's somatic cells
The limited experimental access to disease-affected human tissues has severely impeded the elucidating of molecular mechanisms underlying disease development. Generation of induced pluripotent stem cells (iPSCs) by over-expression of defined transcription factors in somatic cells, in particular in those from patient somatic cells, presents an attractive and promising approach to model the early stages of diseases in vitro and to screen novel biomarkers as well as therapeutic medicines. Recently, many research groups have independently reported that patient-specific iPSC-derived cells recapitulated multiple features of pathological events of a particular disease, offering experimental evidence of utilizing patient-specific iPSCs to model diseases and reevaluate the current therapies. We have derived iPSC lines using somatic cells of patients suffering from Klinefelter's Syndrome (KS) and Alzheimer's Disease (AD) and explored the possibility to use these iPSC lines to recapitulate the pathological features of the diseases. Our results show that patient's specific iPSC lines provide good opportunity to study the development and treatment of diseases.
eZH2通过诱导异染色质形成来沉默 microRNA-218的表达
陈扬超博士就胰腺癌高风险基因eZH2通过诱导异染色质形成来沉默microRNA-218的表达的报告内容。
sRNA Induces the Large-scale Transdetermination of Mesenchymal Stem Cells into Hematopoietic Stem Cells in Human.
Mesenchymal stem cells (MSCs) can differentiate into cells of bone, endothelium, adipose tissue, cartilage, muscle, and brain. However, whether they can transdeterminate into hematopoietic stem cells (HSCs) remains unsolved. We report here that a subpopulation of human MSCs that are CD44+,CD29+, CD105+, CD166+,CD133-,CD34- could differentiate into hematopoietic stem cells (CD150+/CD133+/CD34+) and their descending blood cells in vitro, when transfected with new endogenous shRNAs The sRNA was high-effectively delivered into MSCs by a novel peptide means. These induced MSC-HSCs could form different types of hematopoietic colonies as nature-occurring HSCs did. Upon transplantation into sublethally irradiated NOD/SCID mice, these MSC-HSCs engrafted and differentiated into all hematopoietic lineages such as erythrocytes, lymphocytes, myelocytes and thrombocyte. More importantly, these induced HSCs could successfully engraft and effectively function in patients with severe aplastic anemia. Furthermore, we demonstrated the first evidence that the transdetermination of MSCs was induced by acetylation of histone proteins and activation of many transcriptional factors. Together, our findings identify the sRNAs that dictates a directed differentiation of MSCs toward HSCs and open up a new source for HSCs used for the treatment of blood diseases and artificial stem cell-made blood.
The Inner Life of the Cell
由哈佛大学制作的专业视频,描述了从细胞连接、细胞的运动到细胞膜的结构与功能,从细胞骨架到胞内物质的运输,从蛋白质合成到运输与分泌等等,揭示了生命的强大和奇妙。
Ge公司His标签蛋白纯化预装柱HisTrap™ FF Crude使用技巧
主要介绍了His标签蛋白纯化预装柱HisTrap™ FF Crude的实验过程,原理,说明,一般事项,样品制备,纯化操作, 按比例放大, 柱的清洗及保存等。