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Genetically engineered spider silk‐like block copolymers were studied to determine the influence of polyalanine domain size on secondary structure. The role of polyalanine block distribution on β‐sheet formation was explored using FT‐IR and WAXS. The number of polyalanine blocks had a direct effect on the formation of crystalline β‐sheets, reflected in the change in crystallinity index as the blocks of polyalanines increased. WAXS analysis confirmed the crystalline nature of the sample with the largest number of polyalanine blocks. This approach provides a platform for further exploration of the role of specific amino acid chemistries in regulating the assembly of β‐sheet secondary structures, leading to options to regulate material properties through manipulation of this key component in spider silks.
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Prytherch Z Job C Marshall H Oreffo V Foster M BéruBé K 《Macromolecular bioscience》2011,11(11):1467-1477
The respiratory tract is the primary site of exposure to airborne compounds, with the bronchial epithelium providing one of the first lines of defence. A growing need exists for an accurate in vitro model of the bronchial epithelium. Here, normal human bronchial epithelial (NHBE) cells cultured at an air/liquid interface create a fully differentiated, in-vivo-like model of the human bronchial epithelium. Developmental characterisation includes (i) trans-epithelial electrical resistance, (ii) morphology and (iii) bronchial cell specific stains/markers. It is concluded that the basal/progenitor cells create a pseudo-stratified, mucociliary NHBE model containing basal, serous, Clara, goblet and ciliated cells, reflective of the normal human bronchial epithelium (days 24-33 ALI culture). 相似文献
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离子液体具有不挥发性、非易燃性、离子电导率高、物化性能稳定、电化学窗口宽、结构多样性与可设计性等诸多优良特性,近年来已在电化学、生物、绿色化学等领域发挥着至关重要的作用。本文综述了离子液体在生物方面的一些应用:作为理想的载体将目标基因或者药物运送到靶细胞中达到治疗的目的;探究离子液体的毒性对生物体的影响从而达到杀灭癌细胞等特殊细胞或绿色降解的目的;利用其电催化活性好、灵敏度高等特性制成生物传感器用于电化学检测;将离子液体作为核酸分离的载体,使得核酸的分离的过程简化、效率提高。 相似文献
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关于微重力电流体力学 总被引:2,自引:0,他引:2
以空间生物制品后处理技术为背景,阐明了微重力电流体力学的一些基本问题,并讨论了研究这些问题的可能的技术路线。 相似文献
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Cationic polymers have been chemically modified with a variety of targeting molecules such as peptides, proteins, antibodies, sugars and vitamins for targeted delivery of nucleic acid drugs to specific cells. Stimuli‐sensitive polymers exhibiting different size, charge and conformation in response to physiological signals from specific cells have also been utilized for targeted delivery. To achieve target‐specific delivery of nucleic acids, conjugation chemistry is critical to produce stable nanosized polyplexes tethered with cell‐recognizable ligands for facile cellular uptake via a receptor‐mediated endocytic pathway. In this review, synthetic strategies of functional cationic polymers with various targeting ligands are presented.
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Dorothee E. Borchmann Tom P. Carberry Marcus Weck 《Macromolecular rapid communications》2014,35(1):27-43
Polymer‐protein conjugates are biohybrid macromolecules derived from covalently connecting synthetic polymers with polypeptides. The resulting materials combine the properties of both worlds: chemists can engineer polymers to stabilize proteins, to add functionality, or to enhance activity; whereas biochemists can exploit the specificity and complexity that Nature has bestowed upon its macromolecules. This has led to a wealth of applications, particularly within the realm of biomedicine. Polymer‐protein conjugation has expanded to include scaffolds for drug delivery, tissue engineering, and microbial inhibitors. This feature article reflects upon recent developments in the field and discusses the applications of these hybrids from a biomaterials standpoint.