一种可促进重组蛋白表达量和稳定性的多功能纯化标签的开发与利用

自组装双亲短肽(Self-assembling amphipathic peptides,SAPs)是一类亲疏水氨基酸按一定规律分布、具有自聚合效应的短肽,融合在酶蛋白N端时,具有促进表达和稳定化的功能。根据前期研究结论,设计一条全新的基于SAPs (S1vw,HNANARARHNANARARHNANARARHNARARAR)的可促进融合蛋白表达和稳定性,并可用于镍柱亲和层析的多功能短肽标签,在大肠杆菌表达系统中,将S1vw以PT-linker(PTPPTTPTPPTTPTP)融合在碱性果胶酶(Alkaline polygalacturonate lyase,PGL)、脂肪氧合酶(Lipoxygenase,LOX)及绿色荧光蛋白(Green fluorescent protein,GFP)的N末端时,与对应的野生型相比,PGL及LOX的粗酶活分别提高了3.1倍和1.89倍,GFP的荧光强度提高了16.22倍。S1vw的3种融合酶均可用镍柱进行亲和纯化,并具有较高的回收率。PGL及LOX在对应的热处理条件下,与野生型相比,半衰期分别提高了2.16倍和3.2倍。将GFP-S1vw在枯草芽孢杆菌及毕赤酵母表达系统中表达,发现在枯草芽孢杆菌中融合蛋白表达量提高明显,但在毕赤酵母中表达量几乎没有改变。说明在原核表达体系中,S1vw可作为一种新型的促表达、稳定化及可纯化的多功能标签。     

Enhanced thermal stability of Pseudomonas aeruginosa lipoxygenase through modification of two highly flexible regions

Lipoxygenase (LOX; EC 1.13.11.12) is an enzyme which is widely used in food industry to improve aroma and rheological or baking properties of foods. A series of studies have proven that the flexible regions negatively relates to the thermal stability of enzymes. In this study, two highly flexible regions, residues^20–49 and residues^201–206, were modified to improve the thermal stability of LOX from Pseudomonas aeruginosa. Deletion of the first 20 and 30 residues of the former region increased the thermal stability of the LOX by 1.3- and 2.1-fold, respectively. Although deletion of the residues^201–206 led to a sharp reduction of both thermal stability and catalytic activity of the enzyme, the residue substitutions with the glycines (G204P, G206P, and G204P/G206P) or even glycine-rich linker (L6/PT) within this region increased the thermal stability of LOX by values ranging from 0.46- to 3.45-fold. To be noted, over 85 % of the specific activity was maintained in all thermally stabilized LOX mutants. Circular dichroism and fluorescence analysis showed that the overall secondary and tertiary structures were not significantly changed by these modifications. To the best of our knowledge, this is the first report on increasing the thermal stability of LOX by protein engineering without remarkably affecting the catalytic rate.     

Fusion of Self-Assembling Amphipathic Oligopeptides with Cyclodextrin Glycosyltransferase Improves 2-O-d-Glucopyranosyl-l-Ascorbic Acid Synthesis with Soluble Starch as the Glycosyl Donor

In this study, we fused six self-assembling amphipathic peptides (SAPs) with cyclodextrin glycosyltransferase (CGTase) from Paenibacillus macerans to catalyze 2-O-d-glucopyranosyl-l-ascorbic acid (AA-2G) production with cheap substrates, including maltose, maltodextrin, and soluble starch as glycosyl donors. The results showed that two fusion enzymes, SAP5-CGTase and SAP6-CGTase, increased AA-2G yields to 2.33- and 3.36-fold that of wild-type CGTase when soluble starch was used as a substrate. The cyclization activities of these enzymes decreased, while disproportionation activities increased. Enzymatic characterization of the two fusion enzymes was performed, and kinetics analysis of AA-2G synthesis confirmed the enhanced soluble starch specificity of SAP5-CGTase and SAP6-CGTase compared to that in the wild-type CGTase. As revealed by structure modeling of the fusion and wild-type CGTases, enhanced substrate-binding capacity may result from the increased number of hydrogen bonds present after fusion. This study demonstrates an effective protein fusion approach to improving the substrate specificity of CGTase for AA-2G synthesis. Fusion enzymes, especially SAP6-CGTase, are promising starting points for further development through protein engineering.     

d-阿洛酮糖3-差向异构酶重组枯草芽孢杆菌构建及固定化应用

d-阿洛酮糖3-差向异构酶 (d-allulose-3-epimerase) 是异构化d-果糖生成d-阿洛酮糖 (d-allulose) 的关键酶。为提高d-阿洛酮糖3-差向异构酶的热稳定性并获得可重复使用的d-阿洛酮糖3-差向异构酶重组枯草芽孢杆菌固定化细胞,N端融合双亲短肽,通过聚丙烯酰胺凝胶电泳 (SDS-PAGE) 分析,异源d-阿洛酮糖3-差向异构酶在枯草芽孢杆菌中正确折叠,蛋白大小为33 kDa。40 ℃孵育48 h,SAP1-DSDPEase残余酶活仍保持在58%。固定化细胞最优条件为海藻酸钠浓度2%、二氧化钛添加量1︰4 (二氧化钛︰海藻酸钠)、氯化钙溶液浓度2%、戊二醛0.02%作为交联剂。该条件下固定化细胞酶活回收率高达82%,固定化细胞与游离细胞相比,最适反应温度不变均为80 ℃,热稳定性提高,连续10次操作使用,酶活回收率仍保留58%,机械强度仍保持100%,转化率仍保持在28.8%,残余酶活保持在70.5%。在海藻酸钠溶液中加入二氧化钛可减少固定化细胞的细胞泄露,增大了机械强度。     

Effect of codon-optimized E. coli signal peptides on recombinant Bacillus stearothermophilus maltogenic amylase periplasmic localization,yield and activity

Recombinant proteins can be targeted to the Escherichia coli periplasm by fusing them to signal peptides. The popular pET vectors facilitate fusion of target proteins to the PelB signal. A systematic comparison of the PelB signal with native E. coli signal peptides for recombinant protein expression and periplasmic localization is not reported. We chose the Bacillus stearothermophilus maltogenic amylase (MA), an industrial enzyme widely used in the baking and brewing industry, as a model protein and analyzed the competence of seven, codon-optimized, E. coli signal sequences to translocate MA to the E. coli periplasm compared to PelB. MA fusions to three of the signals facilitated enhanced periplasmic localization of MA compared to the PelB fusion. Interestingly, these three fusions showed greatly improved MA yields and between 18- and 50-fold improved amylase activities compared to the PelB fusion. Previously, non-optimal codon usage in native E. coli signal peptide sequences has been reported to be important for protein stability and activity. Our results suggest that E. coli signal peptides with optimal codon usage could also be beneficial for heterologous protein secretion to the periplasm. Moreover, such fusions could even enhance activity rather than diminish it. This effect, to our knowledge has not been previously documented. In addition, the seven vector platform reported here could also be used as a screen to identify the best signal peptide partner for other recombinant targets of interest.     

RNAi mediated silencing of lipoxygenase gene to maintain rice grain quality and viability during storage

Lipoxygenase (LOX) is a common enzyme which catalyzes lipid peroxidation of seeds and consequently enhances seed quality deterioration and decreases seed viability. During seed storage, peroxidation of unsaturated fatty acids occur due to enhancement of LOX activity which directly leads to reduction in seed vigour and deterioration of grain nutritional quality. This study was undertaken to overcome these problem during rice seed storage by attenuating LOX activity using RNAi technology. To improve seed storage stability, we down regulated LOX gene activity by using a functional fragment of the LOX gene under the control of both constitutive (CaMV35S) and aleurone-specific (Oleosin-18) promoter separately. To understand the storage stability, RNAi–LOX seeds and non-transgenic control seeds were subjected to accelerated aging at 45 °C and 85 % relative humidity for 14 days. Our studies demonstrate that down regulation of LOX activity reduces the seed quality deterioration under storage condition. In addition GC–MS analysis revealed that reduction of fatty acid level in non-transgenic seeds during storage was higher when compared with that of transgenic rice seeds. Furthermore, the transgenic rice seeds with reduced LOX activity exhibited enhanced seed germination efficiency after storage than that of non-transgenic rice seeds. This study will have direct impact on nutritional stability of quality rice grains.     

Development of a chimeric hemicellulase to enhance the xylose production and thermotolerance

Xylan is an abundant plant cell wall polysaccharide and its reduction to xylose units for subsequent biotechnological applications requires a combination of distinct hemicellulases and auxiliary enzymes, mainly endo-xylanases and ß-xylosidases. In the present work, a bifunctional enzyme consisting of a GH11 endo-1,4-β-xylanase fused to a GH43 β-xylosidase, both from Bacillus subtilis, was designed taking into account the quaternary arrangement and accessibility to the substrate. The parental enzymes and the resulting chimera were successfully expressed in Escherichia coli, purified and characterized. Interestingly, the substrate cleavage rate was altered by the molecular fusion improving at least 3-fold the xylose production using specific substrates as beechwood xylan and hemicelluloses from pretreated biomass. Moreover, the chimeric enzyme showed higher thermotolerance with a positive shift of the optimum temperature from 35 to 50 °C for xylosidase activity. This improvement in the thermal stability was also observed by circular dichroism unfolding studies, which seems to be related to a gain of stability of the β-xylosidase domain. These results demonstrate the superior functional and stability properties of the chimeric enzyme in comparison to individual parental domains, suggesting the molecular fusion as a promising strategy for enhancing enzyme cocktails aiming at lignocellulose hydrolysis.     

Partial purification of sequestered particles of phytochrome from oat (Avenu sativa L.) seedlings

Sequestered particles of phytochrome (SAPs) were partially purified from red-light-irradiated oat coleoptiles. Phytochrome pelletability was enhanced by using buffers containing 10 mM Mg²⁺ or high concentrations (0.6–0.8 M) of orthophosphate (Pi). Combining the pelletability of phytochrome in the presence of Mg²⁺ with that in the presence of 0.6 Pi resulted in a strong enrichment (about 100-fold) of pelletable phytochrome. Antisera were raised against Mg²⁺-Pi-pellets from darkgrown seedlings. Using these antisera, no evidence was found by Western blotting and immunocytochemistry that SAPs contain major proteins other than phytochrome. The major contamination of these enriched SAP preparations consisted of protein crystals which are probably catalase. The preparations contained methyltransferase and protein-kinase activities which were not associated with SAPs. Phytochrome purified from SAPs served as a substrate for protein-kinase activity but not for the methyltransferase activity. Phytochrome itself did not show any kinase activity.Abbreviations ME 2-mercaptoethanol - PAGE polyacrylamide gel electrophoresis - Pfr far-red-light-absorbing form of phytochrome - PMSF phenylmethylsulfonyl fluoride - SAP sequestered area of phytochrome - SDS sodium dodecyl sulfate This work was supported by Deutsche Forschungsgemeinschaft. The competent technical assistance of Karin Fischer is gratefully acknowledged.     

Ion exchange immobilization of changed beta-galactosidase fusions for lactose hydrolysis

The use of charged peptides fused to enzymes for immobilization onto ion-exchange membranes was explored for the enzyme x-galactosidase. The additional charged peptides, containing 1, 5, 11, and 16 aspartates, fused to x-galactosidase, for the most part did not interfere with the kinetic behavior for lactose hydrolysis. There was a 2-fold decline in V(m) for the 16-aspartate fusion, but the others were quite similar to the wild type enzyme (BGWT). BGWT and the fusions all retained approximately 50% of their activities when adsorbed onto ion-exchange membranes. In contrast to BGWT, the enhanced binding strength of the 11 aspartate fusion provided the ability to hydrolyze whey permeate at 0.3 M ionic strength without enzyme leakage, and to immobilize the enzyme directly from diluted cell extract with 83% purity. (c) 1994 John Wiley & Sons, Inc.     

东亚人群毛干蛋白中单氨基酸多态性检测方法建立与个体识别应用

目的 毛干是案件现场常见的生物物证，目前缺少有效的个体识别方法而未能在案件调查和法庭诉讼中发挥作用。毛干蛋白质组中的单氨基酸多态性（SAP）蕴含着个体遗传差异信息，可应用于个体识别。方法 为研究毛干物证SAP个体差异，本文使用离子液体对12份2 cm长的毛干样本（6人，每人2根）经过前处理后，进行LC-MS/MS质谱检测，分析毛干中的蛋白质组成。然后利用自建的东亚人群SAP蛋白质序列数据库，对质谱数据进行搜库分析，依据自建的SAP与SNP对应注释表信息，推导出SAP对应的nsSNP分型，并且与外显子测序nsSNP结果比较，进而验证SAP检测的准确性。最后，利用验证准确的SAP分型进行随机匹配概率的计算。结果 12份样品共计获得321个SAP，每个样本平均为（131±17）个。6人的随机匹配概率数值范围为1.4×10^-4~1.0×10^-9。结论 本文建立了东亚人群毛干蛋白中SAP检测方法，并验证了个体识别应用的能力，为法庭科学中毛干个体识别提供了有力的工具和新的思路。     

Prediction of Deleterious Non-Synonymous SNPs Based on Protein Interaction Network and Hybrid Properties

Non-synonymous SNPs (nsSNPs), also known as Single Amino acid Polymorphisms (SAPs) account for the majority of human inherited diseases. It is important to distinguish the deleterious SAPs from neutral ones. Most traditional computational methods to classify SAPs are based on sequential or structural features. However, these features cannot fully explain the association between a SAP and the observed pathophysiological phenotype. We believe the better rationale for deleterious SAP prediction should be: If a SAP lies in the protein with important functions and it can change the protein sequence and structure severely, it is more likely related to disease. So we established a method to predict deleterious SAPs based on both protein interaction network and traditional hybrid properties. Each SAP is represented by 472 features that include sequential features, structural features and network features. Maximum Relevance Minimum Redundancy (mRMR) method and Incremental Feature Selection (IFS) were applied to obtain the optimal feature set and the prediction model was Nearest Neighbor Algorithm (NNA). In jackknife cross-validation, 83.27% of SAPs were correctly predicted when the optimized 263 features were used. The optimized predictor with 263 features was also tested in an independent dataset and the accuracy was still 80.00%. In contrast, SIFT, a widely used predictor of deleterious SAPs based on sequential features, has a prediction accuracy of 71.05% on the same dataset. In our study, network features were found to be most important for accurate prediction and can significantly improve the prediction performance. Our results suggest that the protein interaction context could provide important clues to help better illustrate SAP''s functional association. This research will facilitate the post genome-wide association studies.     

Construction of a high sensitive Escherichia coli alkaline phosphatase reporter system for screening affinity peptides

An enzyme-linker-peptide fusion protein reporter system was constructed for sensitive analysis of affinity of peptide ligands to their receptor. An E. coli alkaline phosphatase (EAP) mutant enzyme with high catalytic activity was selected as the reporter protein. Interaction of affinity peptide and streptavidin was applied as demonstration of the method. Three affinity peptides, strep-tag I (SI), strep-tag II (SII) and streptavidin binding peptide (SBP) were genetically fused to the C-terminal of EAP respectively, with an insertion of a flexible linker peptide in between. The enzyme activity of the EAP fusions showed no obvious change. After expression and purification, the EAP-affinity peptide fusions were applied to the streptavidin modified surface. Binding of the fusions to the surface through interaction of affinity peptides to streptavidin was indicated by color generated from conversion of the substrate by EAP. The relative affinity and specificity of each affinity peptides to the immobilized streptavidin were then evaluated with high sensitivity and broad detection range. This method may be used for effective high-throughput screening of high affinity peptide from the peptide pool.     

Use of Ubiquitin Fusions to Augment Protein Expression in Transgenic Plants

A major goal of plant biotechnology is the production of genetically engineered crops that express natural or foreign proteins at high levels. To enhance protein accumulation in transgenic plants, we developed a set of vectors that express proteins and peptides as C-terminal translational fusions with ubiquitin (UBQ). Studies of several proteins in tobacco (Nicotiana tabacum) showed that: (a) proteins can be readily expressed in plants as UBQ fusions; (b) by the action of endogenous UBQ-specific proteases (Ubps), these fusions are rapidly and precisely processed in vivo to release the fused protein moieties in free forms; (c) the synthesis of a protein as a UBQ fusion can significantly augment its accumulation; (d) proper processing and localization of a protein targeted to either the apoplast or the chloroplast is not affected by the N-terminal UBQ sequence; and (e) single amino acid substitutions surrounding the cleavage site can inhibit in vivo processing of the fusion by Ubps. Noncleavable UBQ fusions of β-glucuronidase became extensively modified, with additional UBQs in planta. Because multiubiquitinated proteins are the preferred substrates of the 26S proteasome, noncleavable fusions may be useful for decreasing protein half-life. Based on their ability to augment protein accumulation and the sequence specificity of Ubps, UBQ fusions offer a versatile way to express plant proteins.     

Detection of antibodies against customized epitope: use of a coating antigen employing VEGF as fusion partner

Diagnosis of many infectious, autoimmune diseases and cancers depends on the detection of specific antibodies against peptide epitope by enzyme-linked immunosorbent assay (ELISA). However, small peptides are difficult to be coated on the plate surfaces. In this study, we selected GnRH as a model hapten to evaluate whether VEGF₁₂₁ would be suitable as an irrelevant hapten-carrier to develop a universal platform for specific antibodies detection. Firstly, GnRH was fused to the C terminus of VEGF₁₂₁ and the resultant fusion protein VEGF–GnRH expressed effectively as inclusion bodies in Escherichia coli. Thereafter, VEGF–GnRH was easily purified to near homogeneity with a yield of about 235 mg from 2.1 L induced culture. At last, VEGF–GnRH was used to perform ELISA and western blot, and our results suggested that VEGF–GnRH was capable of detecting anti-GnRH antibodies in sera both qualitatively and quantitatively. Indeed, previous studies of our laboratory had demonstrated that other fusion proteins such as VEGF–Aβ10, VEGF–GRP, VEGF–CETPC, and VEGF–βhCGCTP37 were able to detect their corresponding antibodies specifically. Therefore, VEGF₁₂₁ may be a suitable irrelevant fusion partner of important diagnostic peptide markers. Our works would shed some light on the development of a universal platform for detection of specific antibodies.     

Thermal stability properties of an antifreeze protein from the desert beetle Microdera punctipennis

An insect antifreeze protein gene Mpafp698 was cloned by the RT-PCR approach from the desert beetle Microdera punctipennis. The gene was constructed and heterogeneously expressed in Escherichia coli as fusion proteins, His-MpAFP698, glutathione S-transferase (GST)-MpAFP698, and maltose-binding protein (MBP)-MpAFP698. The thermostability and thermal hysteresis activity of these proteins were determined, with the aim of elucidating the biological characteristics of this protein. The approximate thermal hysteresis (TH) value of the purified His-MpAFP698 was 0.37 °C at 0.84 mg/ml, and maintained approximately 95.7% of the TH activity at 100 °C for 5 min. Furthermore, heat incubation showed that MBP-MpAFP698 was 10 °C more thermostable than MBP protein, indicating that MpAFP698 could, to some extent, improve the thermal stability of the fused partner MBP protein. This study suggests that MpAFP698 has a high thermal stability and could be used to improve the thermal stability of the less stable proteins by producing fusion proteins, which could be used for biotechnological purposes.     

Isolation and analysis of surface antigens of filarial nematode Setaria digitata.

Surface antigens of adult filarial parasite S. digitata was isolated by employing techniques from manual dissection to treatment with detergents. Among the surface antigen preparations (SAPs), the activities of marker enzymes such as alkaline phosphatase, adenosine triphosphatase and 5' nucleotidase were higher with that isolated by triton X-100 technique (SAP2). On SDS-PAGE, the SAP2 has three major proteins with molecular weights 17, 29 and 36 KD which were consistent with the PBS soluble cuticular proteins (SAP1). Besides these, few other minor protein bands were also observed with the other SAPs. All SAPs were antigenic and showed positive reaction against antiserum to SAP2, and the results confirmed the SAP2 as a better preparation. The release of 29 KD surface protein during in vitro culture of adult parasite and its cross-reactivity with antiserum to surface antigens revealed the possible natural shedding of surface molecules into the host system.     

Enhancing the Stability and Solubility of the Glucocorticoid Receptor Ligand-Binding Domain by High-Throughput Library Screening

The human glucocorticoid receptor ligand-binding domain (hGR-LBD) is an important drug target for the treatment of various diseases. However, the low intrinsic stability and solubility of hGR-LBD have rendered its purification and biophysical characterization difficult. In order to overcome these problems, we have stabilized hGR-LBD by a combination of random mutagenesis and high-throughput screening using fluorescence-activated cell sorting (FACS) with enhanced green fluorescent protein (eGFP) as folding reporter. Two plasmid-encoded gene libraries of hGR-LBD fused to the egfp gene were expressed in Escherichia coli, followed by eight rounds of FACS screening, in each of which 10⁸ cells were analyzed. The hgr-lbd mutants isolated by this approach contained numerous amino acid exchanges, and four beneficial ones (A605V, V702A, E705G, and M752T) were followed up in detail. Their characterization showed that the fluorescence of hGR-LBD-eGFP fusions is correlated linearly with the stability and solubility of hGR-LBD in the absence of eGFP. When combined, the four exchanges increased the thermal stability of hGR-LBD by more than 8 °C and enhanced its purification yield after expression in E. coli by about 26-fold. The introduction of three beneficial exchanges into the homologous ligand-binding domain of mouse enabled its X-ray structure determination at high resolution, which showed how the exchanges stabilize the protein and revealed atomic details that will guide future drug design. Our results demonstrate that large eGFP fusion libraries can be screened by FACS with extreme sensitivity and efficiency, yielding stabilized eukaryotic proteins suitable for biophysical characterization and structure determination.     

Fusion Peptides from Oncogenic Chimeric Proteins as Putative Specific Biomarkers of Cancer

Chromosomal translocations encoding chimeric fusion proteins constitute one of the most common mechanisms underlying oncogenic transformation in human cancer. Fusion peptides resulting from such oncogenic chimeric fusions, though unique to specific cancer subtypes, are unexplored as cancer biomarkers. Here we show, using an approach termed fusion peptide multiple reaction monitoring mass spectrometry, the direct identification of different cancer-specific fusion peptides arising from protein chimeras that are generated from the juxtaposition of heterologous genes fused by recurrent chromosomal translocations. Using fusion peptide multiple reaction monitoring mass spectrometry in a clinically relevant scenario, we demonstrate the specific, sensitive, and unambiguous detection of a specific diagnostic fusion peptide in clinical samples of anaplastic large cell lymphoma, but not in a diverse array of benign lymph nodes or other forms of primary malignant lymphomas and cancer-derived cell lines. Our studies highlight the utility of fusion peptides as cancer biomarkers and carry broad implications for the use of protein biomarkers in cancer detection and monitoring.A cancer biomarker is generally an analyte that indicates the presence or extent of a specific form of cancer. A useful cancer biomarker should reliably distinguish between benign and malignant states and, ideally, distinguish one form of cancer from other, related differential diagnoses. Many human cancers contain recurrent chromosomal translocations and chimeric gene fusions that could be exploited as cancer-specific biomarkers (1, 2). Indeed, several structural aberrations are specific and pathognomonic for distinct types of cancer (3). Moreover, as new molecular therapies increasingly target oncogenic fusion proteins, the detection and quantitation of these proteins may also provide important, direct therapeutic guidance (4–6). Although genomic techniques targeting fusion partner genes are routinely used for diagnosing cancers, fusion peptides resulting from oncogenic chimeric fusions are unexplored as biomarker candidates for cancer detection. The specificity and qualitative/binary nature (i.e. present or absent) of fusion proteins in specific tumor types make these analytes attractive candidates for cancer detection.Advances in mass spectrometry permit the direct and unbiased interrogation of proteins and peptides in complex mixtures with unambiguous identification of specific proteins (7, 8). Multiple reaction monitoring (MRM)¹ via mass spectrometry is a powerful approach for the targeted detection of biomarker candidates in a complex background (9). MRM involves the focused interrogation of specific m/z windows for the precursor analyte, as well as selected fragment ions, following MS/MS analysis. By focusing only on specific m/z windows, one increases the sensitivity of detection dramatically, and within the context of a complex mixture there is the potential for a reproducible dynamic range spanning ≥4 orders of magnitude (10, 11).Despite their enormous potential as biomarkers, fusion peptides resulting from oncogenic chimeric fusions have not been exploited for the specific and sensitive detection of cancer. Here we demonstrate the detection of unique fusion peptides that are specific for various forms of cancer. To demonstrate applicability in a clinically relevant scenario, we show the utility of our MRM-based MS approach combined with an innovative double stable isotope strategy for the identification of nucleophosmin-anaplastic lymphoma kinase (NPM-ALK) fusion peptide arising from the corresponding chimeric fusion protein for the identification of NPM-ALK-positive anaplastic large cell lymphoma (ALCL). We show the exquisite specificity and sensitivity of this fusion peptide (FP) MRM approach and the extraordinary accuracy of its application with clinical biopsy material.     

Protein Purification with C-Terminal Fusion of Maltose Binding Protein

For affinity-chromatography-based purification of proteins that are prone to abnormal termination of translation or that may not be modified at their N-termini, affinity tags are needed which can be fused to the C-terminus. In this publication we describe that maltose binding protein (MBP) fused to the C-terminus of the plant photoreceptor phytochrome B allows purification of the fusion protein via amylose affinity chromatography. After overexpression in yeast a 125-fold enrichment could be achieved. The spectral properties of phytochrome B were not impaired by the fusion and purification. These results demonstrate that not only the widely used N-terminal fusions of MBP but also C-terminal fusions can be employed for protein purification.