Add to ORKGA new area of Mathematics called Mathematical Biology has been created quite recently which uses mathematical models to explain and diagram biological systems. Infections are all around us whether it is as small and nonthreatening as a wart on your foot or as life threatening as HIV. The question then arises why some pathogens act more violently than others, and we intend on creating a model that will help explain the differences in pathogenicities across infections. A series of models were created to explain how we might be able to change a pathogen into a lighter less deadly strain
The continuum between mutualistic and pathogenic symbioses has been an underlying theme for understa...
Emerging diseases pose a continual threat to public health. Fast multiplication and high rates of ge...
AbstractEvolution is a key aspect of the biology of many pathogens, driving processes ranging from i...
Humans are constant victims of infectious diseases. Biomedical research during this century has led ...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Infectious diseases are continuing to threaten humankind. While some diseases have been controlled, ...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Abstract Background Taking as a pattern, the T4 and lambda viruses interacting with each other and w...
© The Author(s) 2015. This article is published with open access at Springerlink.com Abstract Pathog...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
The continuum between mutualistic and pathogenic symbioses has been an underlying theme for understa...
Emerging diseases pose a continual threat to public health. Fast multiplication and high rates of ge...
AbstractEvolution is a key aspect of the biology of many pathogens, driving processes ranging from i...
Humans are constant victims of infectious diseases. Biomedical research during this century has led ...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Mathematical models have many applications in infectious diseases: epidemiologists use them to forec...
Infectious diseases are continuing to threaten humankind. While some diseases have been controlled, ...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Abstract Background Taking as a pattern, the T4 and lambda viruses interacting with each other and w...
© The Author(s) 2015. This article is published with open access at Springerlink.com Abstract Pathog...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
Evolution is a key aspect of the biology of many pathogens, driving processes ranging from immune es...
The continuum between mutualistic and pathogenic symbioses has been an underlying theme for understa...
Emerging diseases pose a continual threat to public health. Fast multiplication and high rates of ge...
AbstractEvolution is a key aspect of the biology of many pathogens, driving processes ranging from i...