World Small Animal Veterinary Association Global Dental Guidelines.

Dental, oral, and maxillofacial diseases are some of the most common problems in small animal veterinary practice. These conditions create significant pain as well as localized and potentially systemic infection. As such, the World Small Animal Veterinary Association (WSAVA) believes that un- and under treated oral and dental diseases pose a significant animal welfare concern. Dentistry is an area of veterinary medicine which is still widely ignored and is subject to many myths and misconceptions. Effective teaching of veterinary dentistry in the veterinary school is the key to progression in this field of veterinary medicine, and to the improvement of welfare for all our patients globally. These guidelines were developed to provide veterinarians with the information required to understand best practices for dental therapy and create realistic minimum standards of care. Using the three-tiered continuing education system of WSAVA, the guidelines make global equipment and therapeutic recommendations and highlight the anaesthetic and welfare requirements for small animal patients. This document contains information on common oral and dental pathologies, diagnostic procedures (an easily implementable and repeatable scoring system for dental health, dental radiography and radiology) and treatments (periodontal therapy, extractions). Further, there are sections on anaesthesia and pain management for dental procedures, home dental care, nutritional information, and recommendations on the role of the universities in improving veterinary dentistry. A discussion of the deleterious effects of anaesthesia free dentistry (AFD) is included, as this procedure is ineffective at best and damaging at worst. Throughout the document the negative effects of undiagnosed and/or treated dental disease on the health and well-being of our patients, and how this equates to an animal welfare issue, is discussed.

[Early castration--a way of birth control in guinea pigs]. / Frühkastration--eine Chance zur Geburtenkontrolle beim Meerschweinchen.

Guinea pigs are gaining popularity as companion animals. However, their enormous reproduction rate often leads to problems. We describe a method with which male guinea pigs can be castrated at the age of two to three weeks, which is clearly before sexual maturity and sale in the pet shops.

Glyceraldehyde-3-phosphate dehydrogenase is a nonhistone protein and a possible activator of transcription in neurons.

A single-stranded DNA-binding protein of Mr 35,000 (35K protein) was isolated from calf cerebral cortex by affinity chromatography on immobilized double-stranded and single-stranded DNA. Its localization in the nuclear compartment was demonstrated by immunohistochemistry. Previous studies had uncovered a homologous nonhistone chromosomal protein in the nuclei of rat cerebral cortex neurons, cerebellar neurons, oligodendrocytes, and liver cells. The rat protein accumulated in the nuclear compartment of neurons in exact temporal coincidence with the arrest of cell division and the initiation of terminal differentiation. Therefore, in the present work, the 35K protein was tested for an activating role in RNA transcription. During the course of this study we became aware that the 35K protein was identical to a glycolytic enzyme, glyceraldehyde-3-phosphate dehydrogenase (GAPDH, EC 1.2.1.12). When authentic GAPDH from rabbit skeletal muscle was injected into Xenopus laevis oocytes, it greatly stimulated RNA polymerase II transcription, whereas the 35K protein from calf brain did not. This apparent discrepancy was partially resolved by the finding that rabbit muscle GAPDH could be fractionated into two components by affinity chromatography on single-stranded DNA cellulose. Only 5% of the applied protein was retained on the column and could be eluted with a shallow salt gradient identical to the one used for the isolation of the 35K protein. This single-stranded DNA-binding component of rabbit muscle GAPDH did not stimulate transcription. Apparently, the 35K protein from calf brain corresponded to this single-stranded DNA-binding subfraction, which explained its failure to activate transcription.(ABSTRACT TRUNCATED AT 250 WORDS)

Z-DNA immunoreactivity in rat tissues.

Recently, it has been shown that natural and synthetic deoxynucleotide polymers can adopt a left-handed helical structure (termed Z-DNA) in appropriate conditions (see, for example, refs 1 and 2 and the references therein). In contrast to the more familiar right-handed B-DNA, Z-DNA is strongly immunogenic, and polyclonal and monoclonal antibodies against Z-DNA have been elicited. By using such antibodies, immunoreactivity for Z-DNA has been detected in the polytene chromosomes of two dipteran species, in the macronucleus of a ciliated protozoon, and in certain plant nuclei (cited in ref. 11). In view of the possible importance of Z-DNA as a genomic regulatory signal, it would be highly desirable to know whether Z-DNA also occurs in mammals. We have therefore initiated an immunohistochemical study of various rat tissues by using three antisera specific for Z-DNA, and the peroxidase-antiperoxidase technique for visualization of tissue-bound antibodies. Here we demonstrate that the nuclei of many, but not all, types of rat cells exhibit Z-DNA immunoreactivity, suggesting that Z-DNA may exist naturally in mammalian chromatin.