A novel method for genetic transformation of yeast cells using oligoelectrolyte polymeric nanoscale carriers

Yevhen Filyak; Nataliya Finiuk; Nataliya Mitina; Oksana Bilyk; Vladimir Titorenko; Olesya Hrydzhuk; Alexander Zaichenko; Rostyslav Stoika

doi:10.2144/000113980

BioTechniques (Jan 2013)

A novel method for genetic transformation of yeast cells using oligoelectrolyte polymeric nanoscale carriers

Yevhen Filyak,
Nataliya Finiuk,
Nataliya Mitina,
Oksana Bilyk,
Vladimir Titorenko,
Olesya Hrydzhuk,
Alexander Zaichenko,
Rostyslav Stoika

Affiliations

Yevhen Filyak: 1Department of Cell Proliferation and Apoptosis, Institute of Cell Biology, NAS of Ukraine, Lviv, Ukraine
Nataliya Finiuk: 1Department of Cell Proliferation and Apoptosis, Institute of Cell Biology, NAS of Ukraine, Lviv, Ukraine
Nataliya Mitina: 3Institute of Chemistry and Chemical Technologies, Lviv National Polytechnic University, Lviv, Ukraine
Oksana Bilyk: 1Department of Cell Proliferation and Apoptosis, Institute of Cell Biology, NAS of Ukraine, Lviv, Ukraine
Vladimir Titorenko: 4Biology Department, Concordia University, Montreal, Quebec, Canada
Olesya Hrydzhuk: 1Department of Cell Proliferation and Apoptosis, Institute of Cell Biology, NAS of Ukraine, Lviv, Ukraine
Alexander Zaichenko: 3Institute of Chemistry and Chemical Technologies, Lviv National Polytechnic University, Lviv, Ukraine
Rostyslav Stoika: 1Department of Cell Proliferation and Apoptosis, Institute of Cell Biology, NAS of Ukraine, Lviv, Ukraine

DOI: https://doi.org/10.2144/000113980
Journal volume & issue: Vol. 54, no. 1
pp. 35 – 43

Abstract

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The genetic transformation of target cells is a key tool in modern biological research, as well as in many gene therapy and biotechnology applications. Here we describe a new method for delivery of DNA into several industrially important species of yeast, including Saccharomyces cerevisiae. Our method is based on the use of a novel nanoscale oligoelectrolyte polymer possessing a comb-like structure as a carrier molecule. Direct comparisons to standard transformation methods clearly show that our approach: (i) yields two times more transformants of Hansenula polymorpha NCYC 495 compared to electroporation approaches and 15 times more transformants compared to lithium acetate protocols, as well as (ii) 5 times more Pichia pastoris GS115 transformants compared to electroporation and 79 times more transformants compared to lithium acetate. Taken together, these results clearly indicate genetic transformation of yeasts using oligoelectrolyte polymer carriers is a highly effective means of gene delivery.

Published in BioTechniques

ISSN: 0736-6205 (Print); 1940-9818 (Online)
Publisher: Future Science Ltd
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: https://www.future-science.com/journal/BTN

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