Meeting Announcement 2007 Shanghai International Symposium on Stem Cell Research

We are delighted to announce an international symposium on stem cell research to be held in Shanghai on November 6-9, 2007. This meeting is co-organized by Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences and several other research institutions in China, together with the International Society for Stem Cell Research （ISSCR）. This is the first time ISSCR co-organizes a meeting with other organizations. ISSCR will organize a delegacy of 8-10 members to participate the symposium.[第一段]     

单细胞技术在干细胞研究中的应用

干细胞是具有自我更新和分化潜能的异质性细胞群体。基于细胞群体水平的干细胞研究不能满足深入认识干细胞生物学本质及实际应用的需要。近年来,单细胞相关技术不断发展和成熟,并正在干细胞基础研究及其相关领域中获得迅速应用。该文以造血干细胞为主要例举,就实验研究中常用的单细胞分离、单细胞克隆分析、单细胞移植、单细胞实时定量PCR及单细胞测序等技术原理及其应用进行综述。     

Stem cells by the shore: Meeting summary of the 2008 MDI Stem Cell Symposium

A diverse group of stem cell biologists converged on the Mount Desert Island Biological Laboratory (MDIBL) on August 8th and 9th, 2008 for the seventh annual Mount Desert Island Stem Cell Symposium co-hosted by the Mount Desert Island Biological Laboratory and the Jackson Laboratory. The focus of this year’s meeting was epigenetics, a timely topic given the remarkable progress in the area of nuclear reprogramming.     

First International Phylogenetic Nomenclature Meeting: a report

The First International Phylogenetic Nomenclature Meeting convened in Paris from July 6–9, 2004 in the Muséum National d'Histoire Naturelle. This meeting marked a turning point in the history of biological nomenclature — the inauguration of a new society (the International Society for Phylogenetic Nomenclature) that will soon launch a code of phylogenetic nomenclature (the PhyloCode) that will represent a fundamental change in the way in which taxon names are defined.     

Stem Cell Regulation by the Haemopoietic Stem Cell Niche

Both cellular as well as extracellular matrix components of the stem cell microenvironment, or niche, are critical in stem cell regulation. Recent data highlight a central role for osteoblasts and their by product osteopontin as a key part of the hematopoietic stem cell (HSC) niche. Herein we describe a model for the yin and yang of HSC regulation mediated by osteoblasts. In this respect, osteoblasts synthesise proteins with opposing effects on HSC proliferation and differentiation highlighting their pivotal role in adult hematopoiesis. Although osteoblasts play a central role in HSC regulation other stromal and microenvironmental cell types and their extracellular matrix proteins also contribute to this biology. For example, the glycosaminoglycan hyaluronic acid as well as the membrane bound form of stem cell factor are also key regulators of HSC. Osteopontin and these “niche” molecules are not only involved in regulation of HSC quiescence but also effect HSC homing, trans-marrow migration and lodgement. Accordingly this leads us to expand upon Schofield’s niche hypothesis: we propose that the HSC niche is critical for attraction of primitive hematopoietic progenitors to the endosteal region and tightly tethering them within this location, and by doing so placing them into intimate contact with cells such as osteoblasts whose extracellular products are able to exquisitely regulate their fate.