Title
Efficient cloning of tilapia lake virus complementary DNAs using an in vivo strategy in baker's yeast
Date Issued
01 December 2021
Access level
open access
Resource Type
journal article
Publisher(s)
John Wiley and Sons Inc
Abstract
Cloning and protein expression in heterologous systems are very useful tools for the study of viral proteins. In this work, an in vivo cloning strategy was applied using the yeast Saccharomyces cerevisiae, as an efficient and low-cost method to clone several cDNAs from the tilapia lake virus (TiLV). Samples of infected tilapia Oreochromis niloticus tissues were taken and used to isolate their RNA and to obtain and clone the ten viral cDNAs in a shuttle plasmid. The cloning efficiencies range from 5 to 100% but for seven of the cDNAs the values were above 40%, demonstrating the high efficiency of the method.
Start page
1209
End page
1220
Volume
52
Issue
6
Language
English
OCDE Knowledge area
Biología marina, Biología de agua dulce, Limnología
Subjects
Scopus EID
2-s2.0-85105595677
Source
Journal of the World Aquaculture Society
ISSN of the container
08938849
Source funding
Source project
Sponsor(s)
We thank the Fish Research and Production Center (CINPIS) at the National Agrarian University La Molina, and the several tilapia producers who kindly provided the samples needed for our work. We thank all other members of the “Laboratory of Biological Chemistry and Bioanalysis” for help and discussions. This research was supported by grant 177‐2015 by Fondecyt (National Fund for Scientific and Technological Development and Technological Innovation) awarded to the Doctoral Program in Biological Sciences and Engineering at the National Agrarian University La Molina.
We thank the Fish Research and Production Center (CINPIS) at the National Agrarian University La Molina, and the several tilapia producers who kindly provided the samples needed for our work. We thank all other members of the ?Laboratory of Biological Chemistry and Bioanalysis? for help and discussions. This research was supported by grant 177-2015 by Fondecyt (National Fund for Scientific and Technological Development and Technological Innovation) awarded to the Doctoral Program in Biological Sciences and Engineering at the National Agrarian University La Molina.
Sources of information:
Directorio de Producción Científica
Scopus