Details

Title

Prokaryotic expression, purification and antigenicity analysis of African swine fever virus pK205R protein

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2016

Numer

No 1

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

University of Warmia and Mazury in Olsztyn ; Polish Academy of Sciences Committee of Veterinary Sciences

Date

2016

Identifier

ISSN 1505-1773

References

Atuhaire (2013), Prevalence of African swine fever virus in apparently healthy domestic pigs in Uganda, BMC Vet Res, 9. ; Baneyx (2004), Recombinant protein folding and misfolding in Escherichia coli, Nat Biotechnol, 22. ; Liu (2011), Prokaryotic expression and purification of HA and HA polypeptides for serological analysis of the pandemic influenza virus, J Virol Methods, 1, doi.org/10.1016/j.jviromet.2011.04.005 ; Sanchez (2013), African swine fever virus controls the host transcription and cellular machinery of protein synthesis, Virus Res, 173. ; Cubillos (2013), African swine fever virus serodiagnosis : a general review with a focus on the analyses of African serum samples, Virus Res, 173. ; Diaz (2012), African swine fever virus strain Georgia in Ornithodoros erraticus ticks, Emerg Infect Dis, 18. ; Montgomery (1921), On a form of swine fever occurring in British East Africa ( Kenya Colony ), Journal of Comparative Pathology, 34. ; Takamatsu (2013), Cellular immunity in ASFV responses, Virus Res, 173. ; Pacheco (2012), A screening strategy for heterologous protein expression in Escherichia coli with the highest return of investment Protein, Purif, 81. ; Oganesyan (2013), African swine fever in the Russian Federation : spatio - temporal analysis and epidemiological overview, Virus Res, 173. ; Kirk (2014), Thermodynamics of imidazole - ligand binding to Ni - nitrilotriacetate in solution and covalently attached to agarose beads : imidazole , his - ( his - tag ) peptide and a new bis - imidazolo - dithiane Protein, Purif, 95. ; Ronish (2011), Design and verification of a highly reliable Linear - After - The - Exponential PCR ( LATE - PCR ) assay for the detection of African swine fever virus, J Virol Methods, 172. ; Gomez (2013), Pathology of African swine fever : the role of monocyte - macrophage, Virus Res, 173. ; Sampoli Benitez (2013), How DNA polymerase X preferentially accommodates incoming dATP opposite - oxoguanine on the template, Biophys J, 105. ; Gutierrez (2008), Expression , cellular localization and antibody responses of the African swine fever virus genes, Arch Virol, 602. ; Zhang (2003), Low temperature and glucose enhanced RNA polymerase - based plasmid stability for increasing expression of glucagon - like peptide - in Escherichia coli Protein, Purif, 7, 2. ; Glanville (2014), de Spatial multi - criteria decision analysis to predict suitability for African swine fever endemicity in Africa, BMC Vet Res, 10. ; Burrage (2013), African swine fever virus infection in Ornithodoros ticks, Virus Res, 173. ; Hu (2015), Expression , purification of IL - in Escherichia coli and production of polyclonal antibodies Protein, Purif, 107. ; Wieland (2011), Qualitative risk assessment in a data - scarce environment : a model to assess the impact of control measures on spread of African Swine Fever, Prev Vet Med, 99. ; Shenyang (2007), High - level prokaryotic expression of envelope exterior of membrane protein of porcine epidemic diarrhea virus, Vet Microbiol, 123. ; Paton (2011), Developing vaccines against foot - and - mouth disease and some other exotic viral diseases of livestock, Philos Trans Soc Lond Biol Sci, 366.

DOI

10.1515/pjvs-2016-0006

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