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Vol.5 No.1 – 12 : Gelatin-coated magnetic nanoparticles-based DNA isolation method: A comparison with commercial DNA isolation kits from whole blood

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By: Kelly S Levano1,2, Luis Jaramillo-Valverde1,2, Elizabeth Delgado1,2, Heinner Guio1,2*

1INBIOMEDIC Research and Technological Center, Lima, Peru;

 2ALBIOTEC, Lima, Peru;

Abstract

DNA isolation is the first step for most molecular tests, thus indicating the importance of using a reliable and suitable method for this procedure. The use of magnetic nanoparticles for blood DNA isolation offers several advantages including: subjecting little mechanical stress to your sample, obtaining higher quality and quantity of DNA and non-laborious procedures. In this study, we isolate genomic DNA using gelatin-coated magnetic nanoparticles from blood samples and test its use compare with three commercial blood DNA isolation kits.  DNA purity and yield were assessed by measuring absorbance at A260/A280 and by agarose gel electrophoresis. The suitability of the isolated DNA for downstream applications was analyzed by end-point PCR and Sanger sequencing. In this study, gelatin-coated magnetite particles for genomic DNA isolation provide an efficient, simple, and inexpensive method that does not require the use of commercial blood DNA Isolation Kit.

Gelatin-coated magnetic nanoparticles-based DNA isolation method A comparison with commercial DNA isolation kits from whole blood

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Vol.4 No.2 – 1 : Protective Effects of α-lipoic acid on Biological changes Induced by α-cypermethrin in Testis Rats

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By : A. Sedky and A. Ali

 

Abstract

α-cypermethrin is one of the most potent insecticide used worldwide.This study was planned to evaluate the possible role of α-lipoic acid in α-cypermethrin induced toxicity in rats. The treated groups were;the control, α-cypermethrin, α-lipoic acid and α-cypermethrin and α-lipoic acid groups. Our results showed that administration of α-cypermethrin caused significant decrease in RBC count, PCV and Hb content and an increase of WBC count. Also, α- cypermethrin caused significant increase in the levels of cholesterol, TGs, LDL-Cand VLDL-C, while the HDL-C was decreased.In addition, α-cypermethrin caused reduction in serum testosterone, FSH, and LH levels in intoxicated rats. Furthermore, the co-administration of α-lipoic acid mitigated the toxicity of α-cypermethrin by partially normalizing these biochemical parameters. Our results were supported by histopathological observations of testis. Our data suggest that α-lipoic acid may have a protective role against α-cypermethrin induced toxicity in rats.

cyp testis 3 corrected

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