Cloning and expression of anti-mullerian hormone partial gene and preparation of polyclonal antibody

Abstract Objective To clone, express and purify C12orf49 recombinant protein. To prepare rabbit anti-C12orf49 protein polyclonal antibody in order to further elucidate its biological function. Methods PCR was used to amplify the gene C12orf49 in vitro. pET-32a (+)-C12orf49, the recombinant protein prokaryotic expression vector, was transformed into E. coli. IPTG was used as the inductive agent to obtain C12orf49 recombinant protein, and the recombinant protein was analyzed with sodium dodecyl sulfatepolyacrylamide gel electrophoresis (SDS-PAGE) and Western blot. Specific polyclonal antibody was derived from rabbits that immunized by recombinant protein. ELISA and Western blot were used to test its titer and specificity, respectively. MTT cell proliferation experiment was carried out to observe effect of the protein on proliferation of HepG2 cells. Results The C12orf49 recombinant protein was expressed in a large quantity. Data of ELISA indicated that the titer of polyclonal antibody was higher than 1:1 280 000. And the antibody also had a good specificity, confirmed by Western blot. C12orf49 recombinant protein may had a advanced effect on the proliferation of HepG2 cells. Conclusions Using C12orf49 recombinant protein, we can obtain the polyclonal antibody with great titer and good specificity. Human novel gene C12orf49 encoded protein could promote the proliferation of HepG2 cells.

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cDNA cloning and expression of a gamma-aminobutyric acidA receptor epsilon-subunit in rat brain

European Journal of Neuroscience ◽

10.1046/j.1460-9568.2000.01343.x ◽

2000 ◽

Vol 12 (12) ◽

pp. 4318-4330 ◽

Cited By ~ 7

Author(s):

Nathalie Moragues ◽

Philippe Ciofi ◽

Pierrette Lafon ◽

Marie-Francoise Odessa ◽

Gerard Tramu ◽

...

Keyword(s):

Rat Brain ◽

Cdna Cloning ◽

Cloning And Expression ◽

Epsilon Subunit

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Evaluation of germ plasm for resistant to Soybean mosaic virus (SMV)

JURNAL AGRI-TEK Jurnal Penelitian Ilmu-Ilmu Eksakta ◽

10.33319/agtek.v21i1.66 ◽

2020 ◽

Vol 21 (1) ◽

pp. 6-9

Author(s):

Wuye Ria Andayanie

Keyword(s):

Abiotic Stress ◽

Environmental Factors ◽

Mosaic Virus ◽

Polyclonal Antibody ◽

Symptom Severity ◽

Germ Plasm ◽

Polyclonal Antibodies ◽

Soybean Mosaic Virus ◽

High Yield ◽

High Yields

Soybean superior varieties with high yields and are resistant to abiotic stress have been largely released, although some varieties grown in the field are not resistant to SMV. In addition, the opportunity to obtain lines of hope as prospective varieties with high yield and resistance to SMV is very small. The method for evaluating soybean germplasm is based on serological observations of 98 accessions of leaf samples from SMV inoculation with T isolate. The evaluation results of 98 accessions based on visual observations showed 31 genotypes reacting very resistant or healthy to mild resistant category to SMV T isolate with a percentage of symptom severity of 0 −30 %. Among 31 genotypes there are 2 genotypes (PI 200485; M8Grb 44; Mlg 3288) with the category of visually very resistant and resistant, respectively and Mlg 3288 with the category of mild resistant. They have a good agronomic appearance with a weight of 100 seeds (˃10 g) and react negatively with polyclonal antibodies to SMV, except Mlg 3288 reaction is not consistent, despite the weight of 100 seeds (˃ 10 g). Leaf samples from 98 accessions revealed various symptoms of SMV infection in the field. This diversity of symptoms is caused by susceptibility to accession, when infection occurs, and environmental factors. Keywords—: soybean; genotipe; Soybean mosaic virus (SMV); disease severity; polyclonal antibody

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A novel purified polyclonal antibody towards T-Pit is a reliable marker of corticotroph cell differentiation

Endocrine Abstracts ◽

10.1530/endoabs.49.gp155 ◽

2017 ◽

Author(s):

Evelina Sjostedt ◽

Jens Bollerslev ◽

Fredrik Ponten ◽

Olivera Casar-Borota

Keyword(s):

Cell Differentiation ◽

Polyclonal Antibody ◽

Reliable Marker

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Cloning and Expression of Recombinant Human Insulin Gene in Pichia pastoris

International Journal of Pharmaceutical Quality Assurance ◽

10.25258/ijpqa.10.1.22 ◽

2019 ◽

Vol 10 (01) ◽

Author(s):

Rafid A. Abdulkareem

Keyword(s):

Pichia Pastoris ◽

Human Insulin ◽

Expression Vector ◽

Expression System ◽

Insulin Gene ◽

Cloning And Expression ◽

Pcr Analysis ◽

Major Band ◽

Human Insulin Gene ◽

Pichia Pastoris Expression System

The main goal of the current study was cloning and expression of the human insulin gene in Pichia pastoris expression system, using genetic engineering techniques and its treatment application. Total RNA was purified from fresh normal human pancreatic tissue. RNA of good quality was chosen to obtain a first single strand cDNA. Human preproinsulin gene was amplified from cDNA strand, by using two sets of specific primers contain EcoR1 and Notl restriction sites. The amplified preproinsulin gene fragment was double digested with EcoRI and Not 1 restriction enzymes, then inserted into pPIC9K expression vector. The new pPIC9K-hpi constructive expression vector was transformed by the heat-shock method into the E.coli DH5α competent cells. pPic9k –hpi, which was propagated in the positive transformant E. coli cells, was isolated from cells and then linearised by restriction enzyme SalI, then transformed into Pichia pastoris GS115 using electroporation method. Genomic DNA of His+ transformants cell was extracted and used as a template for PCR analysis. The results showed, that the pPic9k – hpi was successfully integrated into the P. pastoris genome, for selected His+ transformants clones on the anticipated band at 330 bp, which is corresponded to the theoretical molecular size of the human insulin gene. To follow the insulin expression in transformans, Tricine–SDS gel electrophoresis and Western blot analysis were conducted. The results showed a successful expression of recombinant protein was detected by the presence of a single major band with about (5.8 KDa) on the gel. These bands correspond well with the size of human insulin with the theoretical molecular weight (5.8 KDa).

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