As emerging artificial biomimetic membranes, smart or intelligent membranes that are able to respond to environmental stimuli are attracting ever-increasing interests from various fields. Their permeation properties i...As emerging artificial biomimetic membranes, smart or intelligent membranes that are able to respond to environmental stimuli are attracting ever-increasing interests from various fields. Their permeation properties including hydraulic permeability and diffusional permeability can be dramatically controlled or adjusted self-regulatively in response to small chemical and/or physical stimuli in their environments. Such environmental stimuli-responsive smart membranes could find myriad applications in numerous fields ranging from controlled release to separations. Here the trans-membrane mass-transfer and membrane separation is introduced as the beginning to initiate the requirement of smart membranes, and then bio-inspired design of environmental stimuli-responsive smart membranes and four essential elements for smart membranes are introduced and discussed. Next, smart membrane types and their applications as smart tools for controllable mass-transfer in controlled release and separations are reviewed. The research tooics in the near future are also suggested.展开更多
Objective: To clone and analyze the structure of a novel gene, named EST 1 (endoplasmic reticulum localized seven span transmembrane protein 1) and to analyze the expression pattern and intracellular location of EST 1...Objective: To clone and analyze the structure of a novel gene, named EST 1 (endoplasmic reticulum localized seven span transmembrane protein 1) and to analyze the expression pattern and intracellular location of EST 1. Methods: The cDNA library was screened to isolate novel cDNA fragment. The structure of novel gene was analysed by computer software. Expression of EST 1 was analyzed by dot blot and Northern blotting. Intracellular localization was observed after EST 1 enhanced green fluorescence protein (EGFP) fusion gene was transfected into mammalian cells. Results: The full length cDNA of mouse EST 1 was 1 802 bp, with a 1 293 bp open reading frame encoding 431 amino acids. It was predicated that protein encoded by EST 1 contained a signal peptide sequence at the N terminus, seven putative transmembrane domains, and an ER retaining signal at the C terminus. EST 1 EGFP fusion protein showed an ER like intracellular distribution in mammalian cells. Expression pattern analysis showed that EST 1 is expressed in all tissues examined. Conclusion: EST 1 is encoding a putative seven span transmembrane protein localized in endoplasmic reticulum. EST 1 was expressed in all tissues examined, suggesting an essential function of EST 1 in cells.展开更多
基金Supported by the National Basic Research Program of China (2009CB623407), and the National Natural Science Foundation of China (20825622, 20806049, 20906064, 20990220, 21036002, 21076127, 21136006).
文摘As emerging artificial biomimetic membranes, smart or intelligent membranes that are able to respond to environmental stimuli are attracting ever-increasing interests from various fields. Their permeation properties including hydraulic permeability and diffusional permeability can be dramatically controlled or adjusted self-regulatively in response to small chemical and/or physical stimuli in their environments. Such environmental stimuli-responsive smart membranes could find myriad applications in numerous fields ranging from controlled release to separations. Here the trans-membrane mass-transfer and membrane separation is introduced as the beginning to initiate the requirement of smart membranes, and then bio-inspired design of environmental stimuli-responsive smart membranes and four essential elements for smart membranes are introduced and discussed. Next, smart membrane types and their applications as smart tools for controllable mass-transfer in controlled release and separations are reviewed. The research tooics in the near future are also suggested.
基金SupportedbytheNationalNaturalScienceFoundation (No .39970 376) andtheMinistryofScienceandTechnologyofChina (No .2 0 0 1CB50 990 6)
文摘Objective: To clone and analyze the structure of a novel gene, named EST 1 (endoplasmic reticulum localized seven span transmembrane protein 1) and to analyze the expression pattern and intracellular location of EST 1. Methods: The cDNA library was screened to isolate novel cDNA fragment. The structure of novel gene was analysed by computer software. Expression of EST 1 was analyzed by dot blot and Northern blotting. Intracellular localization was observed after EST 1 enhanced green fluorescence protein (EGFP) fusion gene was transfected into mammalian cells. Results: The full length cDNA of mouse EST 1 was 1 802 bp, with a 1 293 bp open reading frame encoding 431 amino acids. It was predicated that protein encoded by EST 1 contained a signal peptide sequence at the N terminus, seven putative transmembrane domains, and an ER retaining signal at the C terminus. EST 1 EGFP fusion protein showed an ER like intracellular distribution in mammalian cells. Expression pattern analysis showed that EST 1 is expressed in all tissues examined. Conclusion: EST 1 is encoding a putative seven span transmembrane protein localized in endoplasmic reticulum. EST 1 was expressed in all tissues examined, suggesting an essential function of EST 1 in cells.
