[The niches and pathways of animal pathogens].

Infectious diseases are not a relict of the past but a topical phenomenon determined by complex evolution of the currently existing and constantly changing microbial agents and their hosts. With regard to abundance of species within the microbial kingdom and rate of its changes and development, it is difficult to predict the role of the microbial factor in mortality of humans and animals. The study and generalization of sequential similarities of microbial virulence factors after the completion of genome sequencing of principal pathogens can play a positive role in this direction. At present, molecular-genetic methods allow us to study the phylogenetic relationships of microbes and categorize them according to new criteria. The efficient control of diseases caused by microbes requires knowledge on their physiological and ecological niche from which they penetrate, in various ways, into the host organisms and, under suitable conditions, induce mass diseases. This process has several stages and, in the recent period, it is increasingly affected by human activities. The knowledge on all participants in this process, i.e. the microbe and its niche, factors of virulence and pathways of their dissemination, requires a scientifically based surveillance. Abundance and variability is characteristic for both microbial kingdom and microbial niche. Some identification of pathogenic properties of microorganisms and factors affecting their movement from their niche to the recipients results in activation of old classical diseases (e.g. plague, cholera, tuberculosis etc.) or emerging of new, so far unknown infections diseases ("emerging inf. disease"--EID), caused for example by lentiviruses, oncoviruses, filiviruses, bartonella, borrelia etc. This has provided the basis for establishment of new medical trends and approaches, such as "Emergency medicine" or "Travel medicine", expressing their purpose by their names. The control of existing or proposed infectious diseases in the 21st century (in which majority of factors such as urbanization, environmental factors, evolution of the microbial kingdom, will contribute to the persistence or "emergence" of new diseases) will be affected by the input of new knowledge in the field of molecular biology, such as introduction of biosensors, genetic tests, microchips, new generation of DNA vaccines, enteric vaccines and antibodies produced by transgenic animal bioreactors or plants, "customized" vaccines assessed for individual genetic profiles, etc. (Tab. 5, Ref. 21.)