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Hybrid silks hold a great potential as specific biomaterials due to its controlled mechanical properties. To produce fibers with tunable properties, here we firstly made chimeric proteins in vitro, called W2C4CT and W2C8CT, with ligation of MaSp repetitive modules (C) with AcSp modules (W) by intein trans splicing technology from smaller precursors without final yield reduction. Intein mediated chimeric proteins form fibers at a low concentration of 0.4 mg/mL in 50 mM K3PO4 pH 7.5 just drawn by hand. Hybrid fibers show smoother surface, and also have stronger chemical resistance as compared with fibers from W2CT (W fibers) and mixture of W2CT/C8CT (MHF8 fibers). Fibers from chimeric protein W2C4CT (HFH4) have improved mechanical properties than W fibers; however, with more C modules W2C8CT fibers (HFH8) properties decreased, indicates the length proportion of various modules is very important and should be optimized for fibers with specific properties. Generally, hybrid silks generated via chimeric proteins, which can be simplified by intein trans splicing, has greater potential to produce fibers with tunable properties. Our research shows that intein mediated directional protein ligation is a novel way to make large chimeric spider silk proteins and hybrid silks. © 2016 Wiley Periodicals, Inc. Biopolymers 105: 385–392, 2016. 相似文献
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Tzu‐Yin Liu Wen‐Chun Chou Wei‐Yuan Chen Ching‐Yi Chu Chen‐Yi Dai Pei‐Yu Wu 《The Plant journal : for cell and molecular biology》2018,94(3):426-438
Despite the great interest in identifying protein–protein interactions (PPIs) in biological systems, only a few attempts have been made at large‐scale PPI screening in planta. Unlike biochemical assays, bimolecular fluorescence complementation allows visualization of transient and weak PPIs in vivo at subcellular resolution. However, when the non‐fluorescent fragments are highly expressed, spontaneous and irreversible self‐assembly of the split halves can easily generate false positives. The recently developed tripartite split‐GFP system was shown to be a reliable PPI reporter in mammalian and yeast cells. In this study, we adapted this methodology, in combination with the β‐estradiol‐inducible expression cassette, for the detection of membrane PPIs in planta. Using a transient expression assay by agroinfiltration of Nicotiana benthamiana leaves, we demonstrate the utility of the tripartite split‐GFP association in plant cells and affirm that the tripartite split‐GFP system yields no spurious background signal even with abundant fusion proteins readily accessible to the compartments of interaction. By validating a few of the Arabidopsis PPIs, including the membrane PPIs implicated in phosphate homeostasis, we proved the fidelity of this assay for detection of PPIs in various cellular compartments in planta. Moreover, the technique combining the tripartite split‐GFP association and dual‐intein‐mediated cleavage of polyprotein precursor is feasible in stably transformed Arabidopsis plants. Our results provide a proof‐of‐concept implementation of the tripartite split‐GFP system as a potential tool for membrane PPI screens in planta. 相似文献
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Purification of Escherichia coli RNA polymerase using a self-cleaving elastin-like polypeptide tag 总被引:1,自引:0,他引:1
Baley A Fong Alison R Gillies Iraj Ghazi Gary LeRoy Kathleen C Lee Lars F Westblade David W Wood 《Protein science : a publication of the Protein Society》2010,19(6):1243-1252
A self‐cleaving elastin‐like polypeptide (ELP) tag was used to purify the multisubunit Escherichia coli RNA polymerase (RNAP) via a simple, nonchromatographic method. To accomplish this, the RNAP α subunit was tagged with a self‐cleaving ELP‐intein tag and coexpressed with the β, β′, and ω subunits. The assembled RNAP was purified with its associated subunits, and was active and acquired at reasonable yield and purity. To remove residual polynucleotides bound to the purified RNAP, two polymer precipitation methods were investigated: polyethyleneimine (PEI) and polyethylene (PEG) precipitation. The PEG procedure was shown to enhance purity and was compatible with downstream ELP‐intein purification. Thus, this simple ELP‐based method should be applicable for the nonchromatographic purification of other recombinant, in vivo‐assembled multisubunit complexes in a single step. Further, the simplicity and low cost of this method will likely facilitate scale up for large‐scale production of additional multimeric protein targets. Finally, this technique may have utility in isolating protein interaction partners that associate with a given target. 相似文献
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基于蛋白质内含子的蛋白质纯化自我断裂标签已经被广泛使用超过15年之久.但这一系统体内表达过程的提前断裂一直是限制这一技术广泛应用的瓶颈,特别是在需要高温表达和长表达周期的真核表达系统中.本研究介绍了一种利用小肽控制的基于蛋白质内含子和非层析标签ELP(elastin-like polypeptide)的自我断裂系统.在这一系统中,蛋白质内含子的体内外活性严格受到其结构互补小肽控制.在体内表达不含有互补小肽时,蛋白质内含子不具有活性;而在体外添加结构互补小肽,蛋白质内含子结构恢复并发生C端断裂反应释放目的蛋白.由于非层析标签ELP的引入,因此整个纯化过程可以简单地通过几步机械沉淀完成.此外,这一系统反应pH、小肽与前体蛋白之间的摩尔比及断裂速率也一并进行了系统的研究. 相似文献