Data regarding a new, vector-enzymatic DNA fragment amplification-expression technology for the construction of artificial, concatemeric DNA, RNA and proteins, as well as biological effects of selected polypeptides obtained using this method - Publication - Bridge of Knowledge

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Data regarding a new, vector-enzymatic DNA fragment amplification-expression technology for the construction of artificial, concatemeric DNA, RNA and proteins, as well as biological effects of selected polypeptides obtained using this method

Abstract

Applications of bioactive peptides and polypeptides are emerging in areas such as drug development and drug delivery systems. These compounds are bioactive, biocompatible and represent a wide range of chemical properties, enabling further adjustments of obtained biomaterials. However, delivering large quantities of peptide derivatives is still challenging. Several methods have been developed for the production of concatemers – multiple copies of the desired protein segments. We have presented an efficient method for the production of peptides of desired length, expressed from concatemeric Open Reading Frame. The method employs specific amplification-expression DNA vectors. The main methodological approaches are described by Skowron et al., 2020 [1]. As an illustration of the demonstrated method's utility, an epitope from the S protein of Hepatitis B virus (HBV) was amplified. Additionally, peptides, showing potentially pro-regenerative properties, derived from the angiopoietin-related growth factor (AGF) were designed and amplified. Here we present a dataset including: (i) detailed protocols for the purification of HBV and AGF – derived polyepitopic protein concatemers, (ii) sequences of the designed primers, vectors and recombinant constructs (iii) data on cytotoxicity, immunogenicity and stability of AGF-derived polypeptides.

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Authors (20)

  • Photo of prof. dr hab. Piotr Skowron

    Piotr Skowron prof. dr hab.

  • Photo of  Natalia Krawczun

    Natalia Krawczun

  • Photo of  Joanna Żebrowska

    Joanna Żebrowska

  • Photo of  Daria Krefft

    Daria Krefft

  • Photo of  Olga Żołnierkiewicz

    Olga Żołnierkiewicz

  • Photo of  Marta Bielawa

    Marta Bielawa

  • Photo of  Joanna Jeżewska-Frąckowiak

    Joanna Jeżewska-Frąckowiak

  • Photo of dr Łukasz Janus

    Łukasz Janus dr

  • Photo of  Małgorzata Witkowska

    Małgorzata Witkowska

  • Photo of  Małgorzata Palczewska

    Małgorzata Palczewska

  • Photo of mgr Adriana Schumacher

    Adriana Schumacher mgr

  • Photo of  Anna Wardowska

    Anna Wardowska

  • Photo of  Milena Deptuła

    Milena Deptuła

  • Photo of dr Artur Czupryn

    Artur Czupryn dr

  • Photo of dr hab. Piotr Mucha

    Piotr Mucha dr hab.

  • Photo of dr hab. Arkadiusz Piotrowski

    Arkadiusz Piotrowski dr hab.

  • Photo of dr hab. Sylwia Rodziewicz-Motowidło

    Sylwia Rodziewicz-Motowidło dr hab.

  • Photo of  Michal Pikuła

    Michal Pikuła

  • Photo of  Agnieszka Zylicz-Stachula

    Agnieszka Zylicz-Stachula

Keywords

Details

Category:
Articles
Type:
artykuły w czasopismach
Published in:
Data in Brief no. 28,
ISSN: 2352-3409
Language:
English
Publication year:
2020
Bibliographic description:
Skowron P., Krawczun N., Żebrowska J., Krefft D., Żołnierkiewicz O., Bielawa M., Jeżewska-Frąckowiak J., Janus Ł., Witkowska M., Palczewska M., Schumacher A., Wardowska A., Deptuła M., Czupryn A., Mucha P., Piotrowski A., Sachadyn P., Rodziewicz-Motowidło S., Pikuła M., Zylicz-Stachula A.: Data regarding a new, vector-enzymatic DNA fragment amplification-expression technology for the construction of artificial, concatemeric DNA, RNA and proteins, as well as biological effects of selected polypeptides obtained using this method// Data in Brief -Vol. 28, (2020), s.105069-
DOI:
Digital Object Identifier (open in new tab) 10.1016/j.dib.2019.105069
Verified by:
Gdańsk University of Technology

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