| Literature DB >> 31139547 |
Hee Sang You1,2, Yeon Jeong Ok2, Eun Jeong Lee3, Sang Sun Kang3, Sung Hee Hyun1,2.
Abstract
The nuclear localization signal (NLS) marks proteins for transport to the nucleus and is used in various applications in many fields. NLSs are used to achieve efficient and stable transport of biomolecules. Previously, commercial vectors used in NLS studies contained three iterations of the NLS sequence, but these sequences can affect experimental results and alter protein function. Here, we investigated a new vector using a single classical NLS sequence with a mutation in pDsRed2-C1-wt to reduce experimental artifacts. In the newly constructed pDsRed2-C1-1NLS vector, the NLS sequence is placed near the multiple cloning sites of pDsRed2-C1-wt, and the multiple cloning site region was designed to facilitate insertion of the desired gene by site-directed mutagenesis. Fluorescent protein expression in the nucleus can be visually confirmed. The results show that the fluorescent protein was bound to the transport protein. The constructed vector had a cell survival rate of 89-95% and a transfection efficiency of 39-56% when introduced into animal cells, which are similar to those of other NLS vectors. Additionally, the constructed NLS vector can be used to demonstrate complementary binding between target proteins, and that the target protein is transported by the NLS transport system. Especially, we show that the vector can be useful for experiments involving the S100A10 gene. In addition, the constructed vector is useful for studies of genes and proteins that show potential for gene therapy or drug delivery applications.Entities:
Keywords: Nuclear localization signal; S100A10; Single construction of sequence; Transfection efficiency; Vector; Viability
Year: 2019 PMID: 31139547 PMCID: PMC6534648 DOI: 10.1007/s13205-019-1770-0
Source DB: PubMed Journal: 3 Biotech ISSN: 2190-5738 Impact factor: 2.406