遗传学实验技术

The number of rat strains increased considerably in the last decade and will increase continuously during the next years. This requires enough space for maintaining vital strains and techniques for cryobanking, which can be applied not only in specialised rat ressource centres but also in r ...

Although in vitro and in vivo fertilization are powerful tools for restoring conserved sperm as well as stocked males in the rat, the techniques have progressively gained importance. However, the techniques are not used extensively for efficient production of rat offspring, because the t ...

More than 500 inbred rat strains have been developed during the past 100 years for a wide range of biomedical applications. In addition to these traditionally bred strains, many induced mutants and several thousand mutagenized sperm samples have recently been generated. At present this hu ...

Each translational approach in medical research forces the establishment of neurobehavioral screening systems, dedicated to fill the gap between postgenomic generation of state-of-the-art animal models (i.e. transgenic rats) on the one hand and their added value for really predi ...

LEW and BN rats, that behave in opposite ways for their susceptibility to various immune-mediated diseases, provide a powerful model to investigate the molecular and genetic bases of immune system physiology and dysregulation. Using this model, we addressed the question of the genetic co ...

Psychiatric diseases are very debilitating and some of them highly prevalent (e.g., depression or anxiety). The rat remains one model of choice in this discipline to investigate the neural mechanisms underlying normal and pathological traits. Genomic tools are now applied to identify ge ...

In cardiovascular research, the rat has been the main model of choice for decades. Experimental procedures were developed to generate cardiovascular disease states in this species, such as systemic and pulmonary hypertension, cardiac hypertrophy and failure, myocardial infarc ...

The spontaneously hypertensive rat (SHR) is the most widely used animal model of essential hypertension and accompanying metabolic disturbances. In this model, the use of whole genome sequencing and gene expression profiling techniques, linkage and correlation analyses in recom ...

Current understanding of the mechanisms underlying renal disease in humans is incomplete. Consequently, our ability to prevent the occurrence of renal disease or treat kidney disease once it develops is limited. There are objective difficulties in investigating kidney disease di ...

Genetic mapping and positional cloning of genetically complex traits in the laboratory rat (Rattus norvegicus) has recently led to the identification of various susceptibility genes in different rat models. Rat genetics has benefited from revolutionary advances in molecular bi ...

Rat has been the major model species used in several biomedical fields, notably in drug development and toxicology, including carcinogenicity testing. Rat is also a useful model in basic cancer research. Several rat models of monogenic (Mendelian) human hereditary cancers are availab ...

The use of transgenesis is relatively rare in rats, and this is because of the relative difficulty in adding foreign genes by the conventional methods. Gene knock out and knock in by the conventional techniques of homologous recombination remain difficult in rats. This situation would be less c ...

The rat is an important system for modeling human disease. Four years ago, the rich 150-year history of rat research was transformed by the sequencing and annotation of the rat genome, ushering in an era of exceptional opportunity for identifying genes and pathways underlying disease phenoty ...

Transgenic animals are very useful models that can be utilized for the analysis of temporal and spatial gene expression in vivo. However, generation of a transgenic animal may become problematic if the presence of the transgene leads to conditions which are toxic or lethal to cell growth. In an eff ...

Here we describe an efficient technique to generate transgenic rats by microinjection of short DNA fragments. We have focused on optimal conditions for superovulation of prepubescent females Sprague–Dawley (CD) strains to have good quality embryos, pseudopregnant females, zyg ...

Transgenic rats with a simple plasmid vector smaller than 20 Kb show insufficient expression and tissue specificity of the introduced transgene. Vectors derived from yeast artificial chromosome (YAC) and bacterial artificial chromosome (BAC), consisting of DNA fragments up to ∼1 Mb ( ...

Lentiviral vectors are now well recognized as good vehicles for gene delivery. This is because they can efficiently transduce both dividing and post-mitotic cells, and stably integrate into the host genome allowing for long-term expression of the transgene. Their potential utility for ...

Intracytoplasmic sperm injection (ICSI) has been successfully achieved in mice and rats using a piezo-driven injection pipette, with the offspring rate of 30%. The ICSI technique was applied not only to rescue infertile male strains but also to produce transgenic rodents. The ICSI-media ...

DNA methylation is an important and potentially heritable component of the epigenetic machinery that has a major role in the control of gene expression and can be deregulated in many diseases. This modification of genomic DNA can be assessed using the methylated DNA immunoprecipitation ( ...

Genome-wide sequence-specific methylation analysis has become a readily available and affordable procedure in epigenetic laboratories. Most of these procedures are based on immunoprecipitation, microarrays, or next generation deep bisulfite sequencing. However, most ...