Changing Patterns: An Atypical Autobiography |
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Page 93
... organism , puts no special imprint on the disease it causes . Malaria , due to a relatively large organism , is spread like the small arbo- viruses by mosquitoes , and the two organisms show curiously similar details of development in ...
... organism , puts no special imprint on the disease it causes . Malaria , due to a relatively large organism , is spread like the small arbo- viruses by mosquitoes , and the two organisms show curiously similar details of development in ...
Page 103
... organism , and after working with it for some months went to see Herald Cox who , at the Montana laboratory , was studying another rickettsial infection . The micro - organism that he was working with had been obtained from a tick ...
... organism , and after working with it for some months went to see Herald Cox who , at the Montana laboratory , was studying another rickettsial infection . The micro - organism that he was working with had been obtained from a tick ...
Page 189
... organisms - such as bac- teria . A small living organism is taken into the substance of another , both are composed of fundamentally similar material but the larger organism must contrive to disintegrate the whole chemical structure of ...
... organisms - such as bac- teria . A small living organism is taken into the substance of another , both are composed of fundamentally similar material but the larger organism must contrive to disintegrate the whole chemical structure of ...
Contents
Objectives and a Background | 1 |
Development of a Biologist | 14 |
Medical Beginnings | 25 |
Copyright | |
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academic active America amongst animal antibody antigen approach Australia autoimmune disease baby bacteria bacteriophage bacterium birds blood body BURNET cancer cavity chapter chick embryos clinical clonal selection clone course culture diphtheria discovery effective embryo encephalitis epidemic experimental experiments fluid genetic guinea-pig Hall Institute herpes Hospital human immune immunological important infection infectious disease influenza virus inoculated interest isolated laboratory large numbers later lecture living London look Medical Research medicine Melbourne mice Mildura million molecular biology molecule monkey months mosquito mouse multiply mutation myxoma virus myxomatosis nature Newcastle disease Nobel normal organism patient perhaps phage physician polio poliomyelitis possible probably produce proliferation protein psittacosis Q fever rabbit reason red cells relevant responsible result rickettsia Royal scientific scientists sense serum significant skin species staphylococci story strain techniques Terang theory thymus tion tissue tolerance toxin vaccine virulence viruses