Antigenicity of the region encoded by exon8 of the human serine protease, HtrA2/Omi, is associated with its protein solubility

HtrA2/Omi, a mitochondrial serine protease, is pivotal in regulating apoptotic cell death. To determine the location of antigenic determinants in HtrA2/Omi, we expressed a series of the N-terminally truncated HtrA2/Omi as GST fusion proteins in E. coli. We assessed protein solubility and antigenic reactivity of various N-terminally truncated HtrA2/Omi proteins by binding to glutathione beads and immunoblot analyses, respectively. We identified that the region encoded by exon8 of HtrA2/Omi was expressed as a highly soluble form and contains an antigenic determinant specifically recognized by a polyclonal serum against HtrA2/Omi. Our data provide evidence that protein solubility of the specific region in target proteins may contribute to the antigenicity.     

Expression and purification of the mitochondrial serine protease LACTB as an N-terminal GST fusion protein in Escherichia coli

LACTB is a mammalian mitochondrial protein sharing sequence similarity to the beta-lactamase/penicillin-binding protein family of serine proteases that are involved in bacterial cell wall metabolism. The physiological role of LACTB is unclear. In this study we have subcloned the cDNA of mouse LACTB (mLACTB) and produced recombinant mLACTB protein in Escherichia coli. When mLACTB was expressed as an N-terminal GST fusion protein (GST-mLACTB), full-length GST-mLACTB protein was recovered by glutathione-agarose affinity chromatography as determined by MALDI-TOF mass spectrometry and immunoblotting. Expression of mLACTB as a C-terminal GST fusion protein or with either an N- or C-terminal His6-tag resulted in proteolytic degradation of the protein and we were not able to detect full-length mLACTB. Analysis of GST-mLACTB by Fourier transform infrared spectrometry revealed the presence of alpha-helices, beta-sheets and turns, consistent with a well-defined secondary structure. These results show that mLACTB can be expressed as a GST fusion protein in E. coli and suggest that GST-mLACTB was properly folded.     

基于密码子优化策略的新型冠状病毒主蛋白酶在大肠杆菌中的表达条件优化与活性鉴定

新型冠状病毒主蛋白酶(Main protease,Mpro)在调控新冠病毒RNA复制中具有重要的生物学功能,且Mpro在冠状病毒中的进化高度保守并不易突变,已成为新型广谱抗冠状病毒药物开发的理想靶标之一.为了制备高纯度、高活性的Mpro,根据密码子偏爱性原则,将优化的Mpro基因分别连接到pET-21a与pET-28a...     

A novel 2-aminophenol 1,6-dioxygenase involved in the degradation of p-chloronitrobenzene by Comamonas strain CNB-1: purification, properties, genetic cloning and expression in Escherichia coli

Comamonas strain CNB-1 was isolated from a biological reactor treating wastewater from a p-chloronitrobenzene production factory. Strain CNB-1 used p-chloronitrobenzene as sole source of carbon, nitrogen, and energy. A 2-aminophenol 1,6-dioxygenase was purified from cells of strain CNB-1. The purified 2-aminophenol 1,6-dioxygenase had a native molecular mass of 130 kDa and was composed of - and -subunits of 33 and 38 kDa, respectively. This enzyme is different from currently known 2-aminophenol 1,6-dioxygenases in that it: (a) has a higher affinity for 2-amino-5-chlorophenol (K_m=0.77 M) than for 2-aminophenol (K_m=0.89 M) and (b) utilized protocatechuate as a substrate. These results suggested that 2-amino-5-chlorophenol, an intermediate during p-chloronitrobenzene degradation, is the natural substrate for this enzyme. N-terminal amino acids of the - and -subunits were determined to be T-V-V-S-A-F-L-V and M-Q-G-E-I-I-A-E, respectively. A cosmid library was constructed from the total DNA of strain CNB-1 and three clones (BG-1, BG-2, and CG-13) with 2-aminophenol 1,6-dioxygenase activities were obtained. DNA sequencing of clone BG-2 revealed a 15-kb fragment that contained two ORFs, ORF9 and ORF10, with N-terminal amino acid sequences identical to those of the - and -subunits, respectively, from the purified 2-aminophenol 1,6-dioxygenase. The enzyme was actively synthesized when the genes coding for the ORF9 and ORF10 were cloned into Escherichia coli.     

Characterization of DNA sequences encoding a novel isoform of the 55 kDa B regulatory subunit of the type 2A protein serine/threonine phosphatase of Arabidopsis thaliana

We have indentified a novel gene (AtB) encoding a previously uncharacterized isoform of the B regulatory subunit of the type 2A serine/threonine protein phosphatase (PP2A) of Arabidopsis, and show that mRNA derived from the AtB gene accumulates in all Arabidopsis organs. In addition, we examined the expression of the three genes encoding the A regulatory subunit of Arabidopsis PP2A and show these genes are expressed in all organs as well. Taken together, our results suggest a myriad of PP2A subunit combinations, possibly with distinct substrate specificities, may occur within each Arabidopsis cell.     

A non-covalent NH2-terminal pro-region aids the production of active aqualysin I (a thermophilic protease) without the COOH-terminal pro-sequence in Escherichia coli

The precursor of aqualysin I, an extracellular protease produced by Thermus aquaticus, consists of four domains: an N-terminal signal peptide, an N-terminal pro-sequence, the protease domain and a C-terminal pro-sequence. In an Escherichia coli expression system, mature and active aqualysin I is formed by treatment at 65 degrees C and the N-pro-sequence is required for its production. Complete deletion of the C-pro-sequence did not affect the production of active aqualysin I, indicating that the C-pro-sequence is not essential. A non-covalent N-pro-region was separately synthesized from the protease domain with or without the C-pro-sequence. In this system, mature and active aqualysin I was detected only when the C-pro-sequence was deleted.     

Gene cloning and expression in Escherichia coli of a bi-functional beta-D-xylosidase/alpha-L-arabinosidase from Sulfolobus solfataricus involved in xylan degradation

An open reading frame encoding a putative bi-functional β-d-xylosidase/α-l-arabinosidase (Sso3032) was identified on the genome sequence of Sulfolobus solfataricus P2, the predicted gene product showing high amino-acid sequence similarity to bacterial and eukaryal individual β-d-xylosidases and α-l-arabinosidases as well as bi-functional enzymes such as the protein from Thermoanaerobacter ethanolicus and barley. The sequence was PCR amplified from genomic DNA of S. solfataricus P2 and heterologous gene expression obtained in Escherichia coli, under optimal conditions for overproduction. Specific assays performed at 75°C revealed the presence in the transformed E. coli cell extracts of this archaeal activity involved in sugar hydrolysis and specific for both substrates. The recombinant protein was purified by thermal precipitation of the host proteins and ethanol fractionation and other properties, such as high thermal activity and thermostability could be determined. The protein showed a homo-tetrameric structure with a subunit of molecular mass of 82.0 kDa which was in perfect agreement with that deduced from the cloned gene. Northern blot analysis of the xarS gene indicates that it is specifically induced by xylan and repressed by monosaccharides like d-glucose and l-arabinose.     

A novel recombinant system for functional expression of myonecrotic snake phospholipase A(2) in Escherichia coli using a new fusion affinity tag

A novel recombinant expression system in Escherichia coli was developed using conger eel galectin, namely, congerin II, as an affinity tag. This system was applied for the functional expression of myotoxic lysine-49-phospholipase A₂ ([Lys⁴⁹]PLA₂), termed BPII and obtained from Protobothrops flavoviridis (Pf) venom. Recombinant Pf BPII fused with a congerin tag has been successfully expressed as a soluble fraction and showed better quantitative yield when folded correctly. The solubility of the recombinant congerin II-tagged BPII increased up to >90% in E. coli strain JM109 when coexpressed with the molecular chaperones GroEL, GroES, and trigger factor (Tf). The tag protein was cleaved by digestion with restriction protease, such as α-thrombin or Microbacterium liquefaciens protease (MLP), to obtain completely active recombinant BPII. Thus, the congerin-tagged fusion systems containing the cleavage recognition site for α-thrombin or MLP were demonstrated to be highly efficient and useful for producing proteins of desired solubility and activity.     

Frameshift events associated with the lysyl-tRNA and the rare arginine codon, AGA, in Escherichia coli: a case study involving the human Relaxin 2 protein

Human Relaxin 2 is an insulin-related peptide hormone with a mass of 19,084 Da. The mRNA contains a number of arginine codons that are rarely used by Escherichia coli to produce highly expressed proteins. As a result, expressing this recombinant protein in E. coli is problematic. When human Relaxin 2 was expressed in E. coli BL21 (DE3), several forms of the protein were made. One species had the expected molecular weight (19,084 Da). A second species observed had a molecular weight of 21,244 Da. A third minor species had a molecular weight of 17,118 Da. These aberrant molecular weights can be explained as follows. First, a sequence CGA-AAA-AAG-AGA, containing the rare arginine codons CGA and AGA was the site of the +1 frameshift that generated the 21,244 Da species. Since there was a limited supply of this arginyl-tRNA, the peptidyl-tRNA moved +1 nucleotide to occupy the codon and resumed protein synthesis. Second, a -1 frameshift associated with 'slippery A' sequence XXA-AAA-AAG accounted for 10% of the product with a mass of 17,118 Da. Presumably, the shift to -1 also occurred because there was a paucity of the arginyl-tRNAArgucu. Introduction of a plasmid coding for the cognate tRNA for AGA and site directed mutagenesis prevented the formation of both frameshift species.