Gopal Jee Gopal scite author profile

In the recent past years, a large number of proteins have been expressed in Escherichia coli with high productivity due to rapid development of genetic engineering technologies. There are many hosts used for the production of recombinant protein but the preferred choice is E. coli due to its easier culture, short life cycle, well-known genetics, and easy genetic manipulation. We often face a problem in the expression of foreign genes in E. coli. Soluble recombinant protein is a prerequisite for structural, functional and biochemical studies of a protein. Researchers often face problems producing soluble recombinant proteins for over-expression, mainly the expression and solubility of heterologous proteins. There is no universal strategy to solve these problems but there are a few methods that can improve the level of expression, non-expression, or less expression of the gene of interest in E. coli. This review addresses these issues properly. Five levels of strategies can be used to increase the expression and solubility of over-expressed protein; (1) changing the vector, (2) changing the host, (3) changing the culture parameters of the recombinant host strain, (4) co-expression of other genes and (5) changing the gene sequences, which may help increase expression and the proper folding of desired protein. Here we present the resources available for the expression of a gene in E. coli to get a substantial amount of good quality recombinant protein. The resources include different strains of E. coli, different E. coli expression vectors, different physical and chemical agents and the co expression of chaperone interacting proteins. Perhaps it would be the solutions to such problems that will finally lead to the maturity of the application of recombinant proteins. The proposed solutions to such problems will finally lead to the maturity of the application of recombinant proteins.

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C-terminal domain of CagX is responsible for its interaction with CagT protein of Helicobacter pylori type IV secretion system

Gopal

Pal

Kumar

et al. 2015

Biochemical and Biophysical Research Communications

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Molecular cloning and expression kinetics of serum interferon stimulated gene for early pregnancy detection

Batra

Nanda

Kumar

et al. 2018

IJAR

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Interferon stimulated protein 15 is a well-known ubiquitin cross-reactive protein which is released from the ruminant uterus in response to interferon-tau (IFN-t) during conceptus implantation. This protein increases significantly during the early stages of pregnancy. Therefore, in the present study, Interferon stimulated gene (ISG15) coding region was isolated from buffalo blood at day 18 of pregnancy after artificial insemination. ISG15 was cloned in pET100 vector, overexpressed in E.coli and purified to investigate its properties. The protein was immunoblotted with mouse anti-His antibody to evaluate its characteristics after purification. To conclude, elucidation of protein properties in the prokaryotic system will provide an opportunity for understanding the basic biology of pre and post-implantation and development of a tool for early pregnancy diagnosis.

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Molecular characterization and polyclonal antibody generation against core component CagX protein ofHelicobacter pyloritype IV secretion system

et al. 2014

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Gram-negative bacteria Helicobacter pylori cause gastric ulcer, duodenal cancer, and found in almost half of the world's residents. The protein responsible for this disease is secreted through type IV secretion system (TFSS) of H. pylori. TFSS is encoded by 40-kb region of chromosomal DNA known as cag-pathogenicity island (PAI). TFSS comprises of three major components: cytoplasmic/inner membrane ATPase, transmembrane core-complex and outer membranous pilli, and associated subunits. Core complex consists of CagX, CagT, CagM, and Cag3(δ) proteins as per existing knowledge. In this study, we have characterized one of the important component of core-complex forming sub-unit protein, i.e., CagX. Complete ORF of CagX except signal peptide coding region was cloned and expressed in pET28a vector. Purification of CagX protein was performed, and polyclonal anti-sera against full-length recombinant CagX were raised in rabbit model. We obtained a very specific and high titer, CagX anti-sera that were utilized to characterize endogenous CagX. Surface localization of CagX was also seen by immunofluorescence microscopy. In short for the first time a full-length CagX was characterized, and we showed that CagX is the part of high molecular weight core complex, which is important for assembly and function of H. pylori TFSS.

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Gopal Jee Gopal

Strategies for the Production of Recombinant Protein in Escherichia coli

C-terminal domain of CagX is responsible for its interaction with CagT protein of Helicobacter pylori type IV secretion system

Molecular cloning and expression kinetics of serum interferon stimulated gene for early pregnancy detection

Molecular characterization and polyclonal antibody generation against core component CagX protein ofHelicobacter pyloritype IV secretion system

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