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ROLE OF TRANSFORMING GROWTH FACTOR β(TGF-β)IN REPAIRING OF BONE DEFECTS 被引量:4
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作者 孙玉鹏 张皖清 +3 位作者 陆裕朴 胡蕴玉 马富成 陈万禄 《Chinese Medical Sciences Journal》 CAS CSCD 1996年第4期209-214,共6页
TGF-β is a multifunctional cytokine that regulates many aspects of cellular function, including periosteal mesenchymal cell proliferation, differentiation. This experiment is to study its effects on bone defect repai... TGF-β is a multifunctional cytokine that regulates many aspects of cellular function, including periosteal mesenchymal cell proliferation, differentiation. This experiment is to study its effects on bone defect repair. A rabbit radial bone defect model was used to evaluate the effect of TGF-β, which was extracted and purified from bovine blood platelets, on the healing of a large segmental osteoperiosteal defect. A 1. 5-centimeter segmental defect was created in the mid-upper part of the radial shaft of adult rabbits. The defect was filled with implant containing TGF-β that consisted of carrier and bovine TGF-β. Limbs served as controls received carrier alone. The defectswere examined radiographically and histologically at 4, 8,12 , 16 and 20 weeks after implantation. The results showed that in TGF-β implant group . the defect areas at 12 weeks post operation were bridged by uniform new bone and the cut ends of cortex could not be seen;while in control group, the defects remained clear. Only a small amount of new bone formed as a cap on the cut bone ends. In the experimental group, new lamellar and woven bone formed in continuity with the cut ends of the cortex. An early medullar canal appears to be forming and contained normal-appearancing marrow elements; while the control group displayed entirely fibrous tissue within the defect site. Remnants of the cancellous bone carrier were observed in the control specimen. These data demonstrate that exogenous TGF-β initiate osteogenesis and stimulate the bone defects repair in animal model. 展开更多
关键词 transforming growth factor beta bone defects bone repair
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植物重金属镉积累调控机制及其应用研究进展 被引量:2
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作者 彭佳师 王娅婷 +17 位作者 王梦琦 卢玲丽 汪鹏 李柱 李赛 陈思颖 孟栓 顾天宇 徐文忠 晁振飞 黄煜琪 金崇伟 晁代印 陈彩艳 吴龙华 滕应 赵方杰 龚继明 《植物生理学报》 CAS CSCD 北大核心 2024年第2期185-210,共26页
镉(Cd)容易通过食物链对人体产生毒害,其引起的“痛痛病”是人类历史上重要的公共卫生事件。Cd是我国当前土壤中的主要无机污染物,“镉大米”等事件仍时有发生,严重威胁粮食安全和人体健康。植物作为初级生产者,是人体Cd暴露的的主要途... 镉(Cd)容易通过食物链对人体产生毒害,其引起的“痛痛病”是人类历史上重要的公共卫生事件。Cd是我国当前土壤中的主要无机污染物,“镉大米”等事件仍时有发生,严重威胁粮食安全和人体健康。植物作为初级生产者,是人体Cd暴露的的主要途径。因此,阐释Cd向植物迁移、在植物体内的转运以及植物的Cd耐受机理,并依此指导低Cd作物的遗传改良和Cd污染环境的植物修复就具有重要的意义。本文综述了近10年来人们在植物Cd积累的调控机理、应对Cd污染的作物改良以及植物修复等方面的基础研究和应用成果,同时也探讨了该领域未来亟待解决的一些重要科学问题以及作物遗传改良设计的途径。 展开更多
关键词 低镉作物育种 植物修复 重金属超积累 修复型作物
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