Techniques for augmentation of exogenous DNA uptake by ovine spermatozoa.

Sperm mediated gene transfer can be an inexpensive and simple method in animal transgenesis; however its efficiency is poor, mainly due to the spermatozoa's lesser uptake of exogenous DNA. In the present study, the effects of lipofection and other augmentation techniques, such as sperm freezing and spermatozoa treatment with triton X100 and DMSO, on exogenous DNA uptake by sheep spermatozoa and motility of sperms with plasmid uptake were evaluated. In the first experiment, ram sperms were incubated with a complex of rhodamine labeled plasmid (p-EGFP) and Lipofectamine 2000(TM). In the second, spermatozoa were treated with Triton X-100(TM) or DMSO or were frozen without cryoprotectant. The results indicated that there was no significant difference (P<0.05) in the transfection rates and in the uptake intensity of lipofected sperms with 300 and 600 ng of plasmid in comparison with control group, i.e. transfected without lipofectamine. Furthermore, lipofection could not improve sperm motility during true plasmid uptake. Almost all of triton X100 treated and frozen-thawed spermatozoa had absorbed foreign DNA, though all were immotile. In spermatozoa treated with 0.1% DMSO, plasmid absorption rate (69.40%) was significantly higher (P<0.05) than untreated spermatozoa (57.80%), but sperm motility was not significantly different from control group. In conclusion, lipofectamine(®) 2000 could neither improve transfection rate, nor support motility in transfected sperms. The methods inducing membrane disruption like, freeze-thaw and triton X100 treatment, can be used in ICSI-sperm mediated gene transfer without the need for sperm selection, provided that they cause no damage to sperm nucleus.

A structural model of the anaphase promoting complex co-activator (Cdh1) and in silico design of inhibitory compounds.

Anaphase promoting complex (APC) controls cell cycle and chromosome segregation. The APC activation occurs after binding of co-activators, cdh1 and cdc20. Cdh1 plays a role in cancer pathogenesis and is known as a potential drug target. The main aim of this study was prediction of 3D structure of cdh1 and designing the inhibitory compounds based on the structural model. First, 3D structure of cdh1 was predicted by means of homology modelling and molecular dynamics tools, MODELLER and Gromacs package, respectively. Then, inhibitory compounds were designed using virtual screening and molecular docking by means AutoDock package. The overall structure of cdh1 is propeller like and each DW40 repeat contains four anti-parallel beta-sheets. Moreover, binding pocket of the inhibitory compounds was determined. The results might be helpful in finding a suitable cdh1 inhibitor for the treatment of cancer.

Carrier testing and prenatal diagnosis of haemophilia B by SSCP in an Iranian family.

Haemophilia B is an X-linked recessive bleeding disorder caused by multiple molecular defects in factor IX gene. During our genotyping programme of haemophilia B patients, a family from the west of Iran was referred to us. We first detected the mutation in the index case of the family by single-strand conformation polymorphism (SSCP) technique. This technique was then applied in carrier detection and prenatal diagnosis for females of this family. Sequencing later revealed the mutation as being G to A at 20519.