类弹性蛋白多肽的从头设计、非色谱纯化及盐效应

旨在克隆、表达与纯化类弹性蛋白多肽,并测定类弹性蛋白的相变温度对不同的盐敏感程度。从头设计了类弹性蛋白多肽的序列并人工合成其编码基因片段,克隆至改造后的表达载体pET-22b中,构建重组表达载体,转化至大肠杆菌BL21(DE3) 中并诱导表达,采用可逆相变循环经高速离心对其进行纯化,并考察了盐类型及浓度对类弹性蛋白相变温度的影响。结果表明：0.4 mmol/L的Na2CO3能使25 μmol/L类弹性蛋白多肽 [KV8F-20] 相变温度降低至19 ℃,此类弹性蛋白多肽序列有望开发成一新型纯化标签,为今后     

类弹性蛋白标签在重组蛋白分离纯化中的应用

类弹性蛋白(elastin-like polypeptide,ELP)是一种非常有前途的重组蛋白分离纯化标签.这种人工合成的蛋白质多肽是由五肽重复序列单元(VPGXG)串联组成,具有温度诱导的可逆相变特性.ELP与目的蛋白融合后,赋予重组蛋白相类似的可逆相变性质.多次可逆相变循环(inverse transition cycling,ITC)之后,就可以从蛋白溶液混合液中选择性地分离出ELP融合蛋白,再经特异性酶切或者改变环境条件引发内含肽发生自我剪切去除ELP标签,从而得到单一的目的蛋白,实现简单快速分离纯化重组蛋白.目前,该技术已成功应用于原核大肠杆菌和植物表达系统中.大肠杆菌表达ELP-绿色荧光融合蛋白的最高产量可达1.6 g/L.这种非色谱分离纯化重组蛋白的方法具有技术简单、操作快速、成本低、易于扩大等优点.重点从该技术的原理、技术路线以及发展方向进行综述.     

类弹性蛋白多肽及其在生物医学材料的应用

类弹性蛋白多肽是一种人造基因工程蛋白质聚合物,其结构主要由五肽重复串连序列单元 (GVGXP) 的这一肽段单元重复组成。由于具有可逆相变特征,并可进行高通量生产,加之良好的生物相容性及生物可降解性,使其在新型生物医学材料方面展示了广阔的应用前景。概括了类弹性蛋白多肽的相变机理、合成方法及在生物医学材料上的应用,重点阐述了类弹性蛋白多肽在组织工程、靶向肿瘤、构造药物载体微粒的应用。     

温敏类弹性蛋白多肽的基因设计及重组克隆表达

温敏类弹性蛋白多肽(elastin-like polypeptides, ELPs)作为新型的药物载体,在肿瘤治疗中具有广阔的应用前景。本研究根据大肠杆菌密码子的偏好性和简并性,将高度连续重复氨基酸的多种遗传密码引入基因序列中,利用依次插入单体基因和递归定向连接技术,成功构建了以缬氨酸为客座氨基酸的ELPs基因的表达质粒库,即p ET28-ELP-V_5～pET28-ELP-V₅₀。将pET28-V₅₀转化至表达宿主Escherichia coli BL21(DE3)中,经重组菌的培养和IPTG诱导,SDS-PAGE结果显示ELP-V₅₀在大肠杆菌中成功获得了可溶性表达,与预期分子量大小一致。本研究为进一步构建不同分子量的ELPs基因库提供了新的思路,并为重组表达获得特定相变特性的多肽分子奠定了基础。     

溶剂特性对三臂星型类弹性蛋白多肽相变温度的影响

本文利用SpyTag/SpyCatcher特性构建了三臂星型结构的类弹性蛋白多肽(elastin like polypeptides, ELPs),考察其在不同溶剂,如分子拥挤试剂、osmolytes及深共熔溶剂(deep eutectic solvents,DESs)中的相变温度及行为,并与含有相同ELPs重复数的线性ELPs120作对比。结果表明：在不同浓度拥挤试剂PEG2000作用下,两种结构的ELPs相变温度均降低,当其各自浓度均为25 μmol/L时,三臂星型ELPs相变温度降低3℃～13℃,而ELPs120相变温度仅降低1.5℃～10.8℃。此外,在添加PEG2000后,三臂星型ELPs相变缓慢;在不同类型和浓度的osmolytes溶液中,25 μmol/L三臂星型ELPs相变温度明显要比线性ELPs高8℃左右;在DESs体系中,三臂星型ELPs有类似与水溶液中的相变行为,且其相变温度受到抑制,另外三臂星型ELPs和ELPs120在DESs/PBS体系中,与在(氯化胆碱+尿素)/PBS体系中的相变行为一致,其中当DESs体积含量为50%,ELPs120相变温度是最低的。由于ELPs在非单一缓冲液体系中的相变行为不同,这丰富了ELPs作为纯化标签的应用,且在非单一缓冲液体系中因降低了相变温度,节约了纯化融合蛋白的经济成本,同时也为研究ELPs拓扑结构与其相变行为之间的关系奠定理论基础。     

影响类弹性蛋白多肽自组装成微球的因素及其作用机制

影响类弹性蛋白多肽(ELPs)自组装成微球的因素较多,目前尚缺乏系统研究。以类弹性蛋白多肽[KV8F]n为对象,利用动态光散射仪测定了不同条件下其自组装成微球的粒径。结果表明:随着分子量的增加ELPs形成的微球粒径也随之增大,粒径的均一度减小;当盐浓度低于0.4 mol/L时,盐浓度的增加,微球粒径相应增加,而盐浓度高于0.4 mol/L则呈减少的趋势,但粒径均大于1.1μm;而当ELPs末端融合木聚糖酶和1,3-丙二醇氧化还原酶后,其自组装形成的微球粒径急剧减小,约为游离ELPs的1/10,分别为151.0 nm和174.2 nm。导致这种现象的原因可能是酶分子和ELPs通过静电引力相互作用后,酶分子的空间位阻妨碍了ELPs分子的聚集。     

高中综合实验设计——以"表达和纯化红色荧光蛋白标记的类弹性蛋白"为例

以类弹性蛋白(elastin-like polypeptide,ELP)作为非色谱纯化标签,分离纯化红色荧光蛋白 mCherry.ELP 与△ I-CM(intein cleavage mutant)的 N 端连接,mCherry 片段与△I-CM的C端连接,在ELP的N端插入GFP片段,用于检测蛋白纯度.采用低温诱导...     

双功能结构域重组FN多肽表达质粒的构建及其表达产物的功能

构建了纤维结合素（ＦＮ）的双功能结构域重组多肽的两个表达质粒,在大肠杆菌中表达了两个重组多肽：ＣＨ５０（ＦＮ的Ｐｒｏ１２３９Ｓｅｒ１５１５经Ｍｅｔ和Ａｌａ１６９０Ｔｈｒ１９６０相连）和ＣＨ５６（ＦＮ的Ｐｒｏ１２３９Ｔｈｒ１９６０）。两个多肽都具有结合肝素的功能,可通过肝素琼脂糖亲和层析得到纯品,所得纯品亦都具有结合细胞的功能。ＣＨ５０和ＣＨ５６的制备为进一步研究其抑制肿瘤转移的作用奠定了基础     

ELP[Ⅰ]50标签在重组硫氧还蛋白分离纯化中的应用及PEG对其相变温度的影响

[目的]使用自行设计的类弹性蛋白(Elastin-like protein,ELP) ELP[Ⅰ]50作为非色谱纯化标签,分离纯化重组硫氧还蛋白(Thioredoxin,Trx),并研究聚乙二醇(Polyethyleneglycol,PEG)对ELP[Ⅰ]50-Trx相变温度(Inverse temperature transition,Tt)的影响.[方法]人工合成Trx基因,将其亚克隆到自行构建的表达载体pET28编码ELP[Ⅰ]50标签下游,转入大肠杆菌BLR(DE3)进行表达.融合蛋白表达后,采用可逆相变循环(Inverse transition cycling,ITC)分离纯化,并检测不同浓度PEG时的Tt值.[结果]成功表达、分离纯化出融合蛋白ELP[Ⅰ]50-Trx,检测出该蛋白浓度为25 μmol/L时,Tt为28.6℃;而当PEG的浓度为5％、10％、15％、20％时,Tt分别降至22.3℃、15.9℃、6℃、0℃.[结论]ELP[Ⅰ]50标签高效纯化重组蛋白具有操作简便、成本较低、易于扩大的优势,而PEG能降低蛋白的Tt值,进一步增强分离纯化效果,扩大使用范围,可望应用于分离纯化多种重组蛋白.     

ELP[I]50标签在重组硫氧还蛋白分离纯化中的应用及PEG对其相变温度的影响

【目的】使用自行设计的类弹性蛋白(Elastin-like protein, ELP) ELP[I]50作为非色谱纯化标签, 分离纯化重组硫氧还蛋白(Thioredoxin, Trx), 并研究聚乙二醇(Polyethylene glycol, PEG)对ELP[I]50-Trx相变温度(Inverse temperature transition, Tt)的影响。【方法】人工合成Trx基因, 将其亚克隆到自行构建的表达载体pET28编码ELP[I]50标签下游, 转入大肠杆菌BLR(DE3)进行表达。融合蛋白表达后, 采用可逆相变循环(Inverse transition cycling, ITC)分离纯化, 并检测不同浓度PEG时的Tt值。【结果】成功表达、分离纯化出融合蛋白ELP[I]50-Trx, 检测出该蛋白浓度为25 μmol/L时, Tt为28.6 °C; 而当PEG的浓度为5%、10%、15%、20%时, Tt分别降至22.3 °C、15.9 °C、6 °C、0 °C。【结论】ELP[I]50标签高效纯化重组蛋白具有操作简便、成本较低、易于扩大的优势, 而PEG能降低蛋白的Tt值, 进一步增强分离纯化效果, 扩大使用范围, 可望应用于分离纯化多种重组蛋白。     

Expression and purification of recombinant proteins from Escherichia coli: Comparison of an elastin-like polypeptide fusion with an oligohistidine fusion

Thermally responsive elastin like polypeptides (ELPs) can be used to purify proteins from Escherichia coli culture when proteins are expressed as a fusion with an ELP. Nonchromatographic purification of ELP fusion proteins, termed inverse transition cycling (ITC), exploits the reversible soluble-insoluble phase transition behavior imparted by the ELP tag. Here, we quantitatively compare the expression and purification of ELP and oligohistidine fusions of chloramphenicol acetyltransferase (CAT), blue fluorescent protein (BFP), thioredoxin (Trx), and calmodulin (CalM) from both a 4-h culture with chemical induction of the plasmid-borne fusion protein gene and a 24-h culture without chemical induction. The total protein content and functional activity were quantified at each ITC purification step. For CAT, BFP, and Trx, the 24-h noninduction culture of ELP fusion proteins results in a sevenfold increase in the yield of each fusion protein compared to that obtained by the 4-h-induced culture, and the calculated target protein yield is similar to that of their equivalent oligohistidine fusion. For these proteins, ITC purification of fusion proteins also results in approximately 75% recovery of active fusion protein, similar to affinity chromatography. Compared to chromatographic purification, however, ITC is inexpensive, requires no specialized equipment or reagents, and because ITC is a batch purification process, it is easily scaled up to accommodate larger culture volumes or scaled down and multiplexed for high-throughput, microscale purification; thus, potentially impacting both high-throughput protein expression and purification for proteomics and large scale, cost-effective industrial bioprocessing of pharmaceutically relevant proteins.     

Harnessing synthetic biology to enhance heterologous protein expression

The ability to express heterologous proteins in microbial hosts is crucial for many areas of research and technology. In most cases, however, successful expression and purification of the desired protein require fusion to another protein. To date, all fusion partners have been chosen from natural sequences, which evolved for other purposes, and may not be optimal fusion partners. However, the rise of synthetic biology and protein design make it possible to design and optimize fusion proteins using novel sequences that did not arise in nature. Here, we describe a series of De novo Expression Enhancer Proteins (DEEPs) that facilitate high‐level expression and facile purification of heterologous proteins and peptides. To test the DEEP system, a de novo protein was fused to several target proteins covering a range of sizes and solubilities. In all cases, fusions to DEEP outperformed fusions to SUMO, a commonly used natural fusion partner. The availability of novel proteins that can be engineered for specific fusion applications could be beneficial to enhance the expression of a wide range of heterologous proteins.     

人era真核表达载体的构建

Era是一个独特的含有RNA结合KH结构域的G蛋白亚家族,哺乳类era新近被克隆,目前还没有关于其功能的研究报道。构建了带流感病毒血凝素9肽表位标签（HA tag）的野生型人era基因的真核表达载体,瞬时转染体外培养细胞CHO,Western blot鉴定表明目的的基因得到表达。为深入探讨人era基因的功能奠定了坚实的基础。     

Biodegradation of elastin-like polypeptide nanoparticles

Protein polymers are repetitive polypeptides produced by ribosomal biosynthetic pathways; furthermore, they offer emerging opportunities in drug and biopharmaceutical delivery. As for any polymer, biodegradation is one of the most important determinants affecting how a protein polymer can be utilized in the body. This study was designed to characterize the proteolytic biodegradation for a library of protein polymers derived from the human tropoelastin, the Elastin-like polypeptides (ELPs). ELPs are of particular interest for controlled drug delivery because they reversibly transition from soluble to insoluble above an inverse phase transition temperature (T(t)). More recently, ELP block copolymers have been developed that can assemble into micelles; however, it remains unclear if proteases can act on these ELP nanoparticles. For the first time, we demonstrate that ELP nanoparticles can be degraded by two model proteases and that comparable proteolysis occurs after cell uptake into a transformed culture of murine hepatocytes. Both elastase and collagenase endopeptidases can proteolytically degrade soluble ELPs. To our surprise, the ELP phase transition was protective against collagenase but not to elastase activity. These findings enhance our ability to predict how ELPs will biodegrade in different physiological microenvironments and are essential to develop protein polymers into biopharmaceuticals.     

利用游离型表达质粒强化毕赤酵母表达木聚糖酶

巴斯德毕赤酵母是用途广泛的蛋白表达系统。目前用于毕赤酵母的质粒主要以整合型质粒为主,很少见到游离的质粒用于外源基因的表达。文中通过将来源于酵母自身的自主复制序列连接到酵母整合型表达载体pGAP中构成自主复制的游离型表达载体pGAPZαA-PARS,将该载体用于表达木聚糖酶基因。转化毕赤酵母后同传统的整合型表达菌株相比,以甘油为碳源时最高酶活达到343 U/mL,比整合型表达提高了45.9%。同时游离载体表达重组酶比活相对整合表达提高了81.2%。为了节约发酵成本,进一步研究了分别以甘油、葡萄糖、蔗糖、混合碳源(蔗糖︰甘油=1︰2)等不同碳源下游离型重组菌株的表达水平。发现甘油表达水平最高,蔗糖最低,但是以工业葡萄糖为碳源时产酶成本最低。由于pGAP载体不需要以甲醇为碳源,因而文中所构建的游离载体pGAPZαA-PARS极大促进了毕赤酵母在食品行业中的应用。同时,游离型载体可大幅度提高表达水平,为进一步研究提高GAP启动子的高效表达奠定了基础。     

Secretion of elastin-like polypeptides with different transition temperatures by Pichia pastoris

Like natural tropoelastin, polypeptides based on an elastin-like VPGXG repeat have a characteristic inverse temperature response, which leads to coacervate formation above a certain transition temperature and which could be useful for a variety of applications. The key advantage of elastin-like polypeptides (ELPs) over (tropo)elastin is a full control over this temperature response by adjustment of either the amino acid composition or the chain length, according to insights provided by extensive research. Future application of ELPs will require efficient ELP production systems, and in a previous article, we described the successful use of Pichia pastoris for secreted production of an ELP, with an overall yield of ≈ 200 mg L(-1). In this study, we investigated the influence of changed amino acid composition and chain length on the yield of secreted ELP. We have found that both parameters have a distinct impact on the overall yield, with higher yield for shorter and more hydrophilic ELPs. Because yield and transition temperature (Tt) thus appear to be positively correlated, we hypothesize that good solubility of ELP below the Tt promotes the secreted production and coacervate formation above Tt decreases it.     

一种高效、稳定的分泌型原核表达载体的构建及应用

以本室构建的原核表达载体pTO-T7为基础载体,PCR合成ompT引导序列,插入该载体多克隆位点上游,构建了分泌型原核表达载体pTO—OT。将2个外源基因克隆至pTO—OT,2个重组质粒在大肠杆菌中均得以高效表达,表达量为25％～30％。Western印迹分析证实了重组蛋白在大肠杆菌中表达后可被信号肽酶有效识别,切割后的重组蛋白具有良好的免疫学活性。对重组表达菌株的连续传代实验证实了该表达载体具有良好的遗传稳定性,显示了该原核表达载体在基因工程中的应用价值。     

海栖热袍菌极耐高温木聚糖酶基因xynB64在大肠杆菌中的融合表达

来源于极端嗜热菌海栖热袍菌(Thermotoga maritima MSB8)的木聚糖酶B具有极高的热稳定性,在饲料、造纸、能源和食品医药行业具有巨大应用潜力。携带酶基因xynB64的pET28a(+)重组载体在宿主大肠杆菌BL21(DE3)中诱导表达,重组酶活力较低。更换宿主为携带稀有tRNA基因的大肠杆菌:BL21-CodonPlus(DE3)-RIPL和Rosetta(DE3)后,酶活力分别提高了197%和277%,但是后者中的表达会形成部分包涵体。宿主菌为大肠杆菌Rosetta(DE3),更换载体为4种融合表达载体pET32a(+)、pET42a(+)、pET43.1a(+)和pMAL-c2X进行表达,重组酶分别融合了Trx、GST、Nus和MBP标签。其中Rosetta(DE3)/pMAL-c2X-xynB64表达酶活力最高,相当于Rosetta(DE3)/pET28a-xynB64表达酶的88%,而且目的酶表达量占全细胞蛋白的40%,几乎不形成包涵体。