结论牛角膜内皮细胞中的水通道蛋白- 1在角膜内皮液体转运中起着重要作用,其表达改变可能导致角膜水肿和功能改变。
Conclusion AQP-1 in CBCEC play an important role in corneal endothelial cell's fluid transport, its expression change may cause corneal edema and function disorder.
目的克隆大鼠水通道蛋白4(AQP4)M23基因并构建其载体为进一步研究提供理论基础和研究工具。
Purpose: AQP4 M23 gene cloning and construction in the expression vector can provide us a research tool.
本文概述了水通道蛋白的发现和其对水分子的筛选传输机理。
This review summarizes the discovery of water channel proteins and their mechanism of water-specific transport.
除此之外,水通道蛋白还参与细胞的增殖、迁移和凋亡等一些重要生命活动。
Recent studies indicated that AQPs play a role in the physiological processes of tumor angiogenesis, cell migration and apoptosis.
结论:水通道蛋白1和血管内皮生长因子在视网膜缺血性疾病中起着重要的作用,二者可能共同影响了视网膜的水代谢过程。
CONCLUSION: AQP1 and VEGF may play an important role in various blinding ischemic ocular diseases, and coeffect the water metabolism of retina.
结论:水通道蛋白1和血管内皮生长因子在视网膜缺血性疾病中起着重要的作用,二者可能共同影响了视网膜的水代谢过程。
CONCLUSION: AQP1 and VEGF may play an important role in various blinding ischemic ocular diseases, and coeffect the water metabolism of retina.
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