Expression and purification of the transcription factor StMsn2 from Setosphaeria turcica in Escherichia coli

Background: In Saccharomyces cerevisiae, Msn2, which acts as a key transcription factor downstream the MAPKHOG cascade pathway, also regulates the expression of genes related to stress responses. However, little is known about the regulation mechanisms of the transcription factor in Setosphaeria turcica. Results: In this study, a zinc finger DNA-binding protein, designated as StMSN2, was cloned from S. turcica. Sequencing results showed that StMSN2 had a 1752 bp open reading frame (ORF), which was interrupted by an intron (135 bp) and encoded a putative 538-amino acid protein. Phylogenetic analysis further revealed that StMsn2 was more closely related to Msn2 of Aspergillus parasiticus. StMSN2 was cloned into the pET-28a vector with His (Histidine) tags and induced with 1 mM IPTG (isopropyl-ß-D-thiogalactoside) at 37°C. The recombinant His-tagged StMsn2 was purified, and a band of size approximately 58.8 kDa was obtained. The high specificity of the polyclonal antibody Msn2-2 was detected with the StMsn2 protein from S. turcica and prokaryotic expression system, respectively. Conclusions: A new gene, named StMSN2, with 1617 bp ORF was cloned from S. turcica and characterized using bioinformatics methods. StMsn2 was expressed and purified in a prokaryotic system. A polyclonal antibody, named Msn2-2, against StMsn2 with high specificity was identified.

Predominant T-B-combined epitopes and their immunogenicity of P6 outer membrane protein of nontypeable Haemophilus influenzae / 中国人兽共患病学报

The aim of this study is to investigate the distribution and sequence conservation of P6 outer membrane protein (OMP6)-encoding gene of nontypeable Haemophilus influenzae isolates as well as screen and identify the predominant T-and B-cell (T-B)-combined antigenic epitopes in OMP6 sequences and their immunogenicity.The entire omp6 genes of NTHi isolates were amplified by PCR and the amplification products were sequenced after T-A cloning.By using bioinformatic softwares,the sequence conservation and membrane location of OMP6 were analyzed as well as the T-B-combined antigenic epitopes in OMP6 were predicted.The immunogenicity and immunoreactivity of T-B-combined antigenic epitope peptides displayed by recombinant phage PⅢ proteins (rPⅢ) were determined by Western Blot assay and ELISA.The PCR showed that all the 35 NTHi isolates tested were detectable for omp6 gene.The identities of nucleotide and amino acid sequences of omp6 genes from 28 strains in the NTHi isolates were 98.3％-100％ and 99.3 ％-100％,respectively.OMP6 of NTHi was predicted as an outer membrane superficial protein that contains OMP6-2-25,OMP6-61-86 and OMP6-98-126 predicted T-B-combined antigenic epitopes.The immunoblotting assay and ELISA confirmed that OMP6-2-25 presented stronger hybridization band with NTHi antisera while 96.9％ (59/62),69.4％ (43/62) and 74.2％ (46/62) of serum samples from NTHi-infected children were positive for OMP6-2-25,OMP6-61-86 and OMP6-98-126 T-B-combined antigenic epitope peptides,respectively.All the results lead to a conclusion thatomp6 is an extensive distribution and sequence conserved gene of NTHi,and OMP6-2-25 is the predominant T-B-combined antigenic epitopes which can be used as the candidates for developing multiple antigenic peptide vaccine against NTHi.

Synthesis of multiple antigenic peptide vaccine based on predominant epitopes of Helicobacter pylori UreB protein and immunoprotection of the vaccine / 中华微生物学和免疫学杂志

ObjectiveTo generate a prokaryotic expression system of series predominant epitopes (UreB322 and UreB527) of Helicobacter pylori UreB protein,and to synthesize a multiple antigenic peptide (MAP) vaccine by linking both the two epitopes with a peptide carrier (Poly-Asp-Lys),and to determine the immunogenicity and immunoprotection of the MAP vaccine.MethodsLinking primer PCR was performed to generate an enterokinase(EK) site-containing series UreB322 and UreB527 epitope encoding gene for construction of its prokaryotic expression system.The expressed target recombinant fusion protein 8 ×[rEK-UreB322-EK-UreB527-EK] was hydrolyzed with EK and then rUreB322-EK and rUreB527-EK epitope peptides were extracted using a Sephadex G-25 column.rUreB322-EK,rUreB527-EK and Poly-Asp-Lys were linked using carbodiimide method to produce a MAP vaccine (MAP-rUreB322/B527).The antigenicity and immunoreactivity of each of the two epitope peptides and MAP-rUreB322/527 were determined by ELISA and Western blot assay.An animal H.pylori strain SS1-infected model in BALB/c mice was used to detect the immunoprotection of MAP-rUreB322/527.ResultsAn octuple-repeated series UreB322-UreB527 encoding gene and its prokaryotic expression system were obtained.The yield of target fusion protein 8×[rEKUreB322-EK-rUreB527-EK] was as high as 48％ of the total bacterial proteins.EK hydrolyzed the target fusion protein completely into rUreB322-EK and rUreB527-EK peptides.The linking ratio of rUreB322-EK,rUreB527-EK and Poly-Asp-Lys was as high as 92.5％.The antibody against whole cell of H.pylori and rUreB-IgG could recognize and combine with the rUreB322-EK,rUreB527-EK or MAP-rUreB322/527.The specific serum antibody level in MAP-rUreB322/527-immunized mice was significantly higher than that in rUreB-immunized mice (P＜0.05).The immunoprotective rates(83.3％ and 91.7％ ) by immunization with50 or 100 μg MAP-rUreB322/527 in the H.pyloristrain SSI-infected mice were significantly higher that those(d1.7％ and 50.0％ ) by immunization with equal rUreB(P＜0.05).ConclusionAn gene composed for encoding a repeated series predominant epitopes of H.pylori UreB protein and its prokaryotic expression system are successfully generated in this study.MAP-rUreB322/527,the multiple antigenic peptide vaccine based on the two predominant epitopes of UreB,can noticeably increase the immunoprotection in H.py/or/infected mice.

Antigenic epitopes analyses and expression of P-glycoprotein / 中国癌症杂志

Purpose:To study antigenic epitopes and expression of P glycoprotein.Methods:The secondary structure and surface properties of P glycoprotein was studied by many methods , designed a pair of primers to amplify DNA with PCR. The product was inserted into a pGEM T vector, sequenced and cloned into pGEX 2T vector, established a high expression recombinant vector named pGEX Pgp,which was transferred into DH5? and expressed , identified and purified. Results:Antigenic epitopes in extracellular fragment of P glycoprotein were identified in amino acid residues 82 115(I),741 760(IV) and 800 816(V). SDS PAGE analysis indicated that the expressed protein was about 30?10 3 (30 kD).Conclusions:High level expression of the target gene fragment was established for preparation of its antibody and biospanning its specific peptide using random phage library , which became the basis for the targeting treatment of MDR. [

Preparation of monoclonal antibodies against SARS coronavirus nucleocapsid protein and preliminary analysis of antigenic epitopes / 重庆医科大学学报

Objective:To prepare monoclonal antibodies with high specificity against different regions of N protein and to analyze antigenic epitopes of SARS-CoV N protein.Methods: Balb/ c mice were immunized with purified different region N protein to prepare McAb by hybridoma technique and select by indirect ELISA.Both of these McAbs were characterized for their antibody titre in the culture supernatant as well as ascites,class,subclass and affinity analysis.The antigen specificity for McAb were evaluated and confirmed by Western blot.The binding site and capability of McAb were observed by ELISA additive assay.Results: Seven hybridoma cell lines secreting monoclonal antibodies against SARS-CoV N1 and two hybridoma cell lines secreting monoclonal antibodies against SARS-CoV N2 were obtained.About the immunoglobulin subclass of McAb,six were IgG1,two were IgG2b and one was IgG3.Western blot showed that the McAbs reacted specifically with SARS-CoV N protein.ELISA additive assay indicated that two antibodies against SARS-CoV N1 recognized same epitopes,while others recognized distinct epitopes.Conclusion: We successfully obtained nine specific McAbs against the different region SARS-CoV N protein after expression and purification of the different part SARS-CoV N protein.It shows that the N1 McAb recognizs the N-terminus of the N protein whereas the N2 McAb recognizs the C-terminus.