ABSTRACT
BACKGROUND: Transgenic mice are being considered as invaluable tool in biological sciences towards comprehension of the cause of the genetic diseases. Manipulated embryonic stem (ES) cells are used to produce loss-of-function mutant mice. Microinjection of manipulated ES cells into blastocoel cavity, and morula fusion are the two main techniques in producing transgenic mice. So far, no reports have dealt with the comparison of these two methodologies provide. OBJECTIVE: The object of this study was to determine advantages and disadvantages of knockout mouse creation protocols. MATERIALS AND METHODS: Both blastocyst microinjection and morula aggregation were implemented to produce chimeric mice and the advantages and disadvantages of each technique were evaluated. For this, embryonic stem cells were transfected with a GFP-expression vector. In blastocyst microinjection technique, first transfected ES cell were cultured and appropriate colonies were selected. The cells were microinjected to blastocoel cavity of the expanded blastocyst. In morula aggregation technique, the transfected ES cell colonies were sandwiched between two naked morulas. After 16 h incubation in a 5% CO2 at 37 °C the morulas and infected ES cell were aggregated to produce a new morula. All the injected blastocyst and aggregated morulas were transferred to uterus of foster mice. The new born mice were analyzed for chimera confirmation. RESULTS: Five chimeric mice (21.75%) from morula aggregation and eight chimeric mice (63%) from blastocyst microinjection were born. The results indicated that both techniques can be used to generate chimeric mouse, however the success rate was higher in blastocyst microinjection. CONCLUSION: Morula fusion stands out where the required instrumentations are in place. Furthermore, the quality of ES cells plays a prominent role in the success rate. When the cell quality is low the blastocoel microinjection is recommended. The microinjection technique is more effective than morula aggregation.
ABSTRACT
The full-length fusion (F) genes of 51 Newcastle disease (ND) strains isolated from chickens in Asia during the period 2008-2011 were genetically analyzed. Phylogenetic analysis showed that genotype VII of NDV still predominant in the domestic poultry of Asia. The sub-genotype VIIb circulated in the Iran and Indian sub-continent countries, whereas VIId sub-genotype existed in Far East countries. The non-synonymous to synonymous substitutions ratio was calculated 0.27 for VIId sub-genotype and 0.51 for VIIb sub-genotype indicates purifying/stabilizing selection which resulted in a low evolution rate in F gene of VIIb sub-genotype. There is evidence of localized positive selection when comparing these sub-genotypes protein sequences. Five codons in F gene of ND viruses had a posterior probability >90% using the Bayesian method, indicating these sites were under positive selection. To identify sites under positive selection; amino acid substitution classified depends on their radicalism and neutrality. The results indicate that although most positions were under purifying selection and can be eliminated, a few positions located in sub-genotype specific regions were subject to positive selection.
