Genotype identification of Math1/LacZ knockout mice based on real-time PCR with SYBR Green I dye

Knockout mice are widely used in all fields of biomedical research. Determining the genotype of every newborn mouse is a tedious task, usually performed by Southern blot hybridization or Polymerase Chain Reaction (PCR). We describe here a quick and simple genotype identification assay based on real-time PCR and SYBR Green I dye, without using fluorescent primers. The discrimination between the wild type and targeted alleles is based on a PCR design that leads to a different melting temperature for each product. The identification of the genotype is obvious immediately after amplification, and no post-PCR manipulations are needed, reducing cost and time. Therefore, while the real-time PCR amplification increases the sensitivity, the fact that the reactions tubes are never opened after amplification, reduces the risk of contamination and eliminates errors, which are common during the repeated handling of dozens of samples from the same mouse line. The protocol we provide was tested on Math1 knockout mice, but is general, and may be utilized for any knockout line and real-time thermocycler, without any further modification, accessories or special reagents.

The blood-testis barrier in Aphanius dispar (Teleostei)

Thin sections of normal testes from the cyprinodont Aphanius dispar were studied by electron microscopy after intravascular injection of live specimens with horseradish peroxidase. The intercellular space in the spermatogenic cysts is marked differently by the tracer according to the degree of differentiation of the germ cells. Spermatogonia and gonocytes undergoing meiosis are surrounded by a dark band of the marker. This band gradually disappears during spermiogenesis. In cysts containing ripe spermatozoa, the marker penetrates a short distance between the bases of adjoining Sertoli cells bordering the cysts, but is arrested by tight junctional complexes near the lumian of the cysts. The tight junctions between the Sertoli cells provide a permeability barrier between the vascular spaces of the stroma and the lumina of ripe cysts.