Submolecular Biology and Cancer; Contents; Introduction; The living state and cancer; A note on cancer and possible relationships to submolecular biology; Energy bands and charge transfer in proteins; Discussion; Electronic structure of proteins and DNA: solid-state aspects; Discussion; The mechanism of conduction in proteins; Discussion; Electronic and dielectric properties of protein -- methylglyoxal complexes; Discussion; Free radicals in cancer; Discussion; Whole-body nuclear magnetic resonance scanning: n.m.r. studies of tumour cells; Discussion
Quantum chemical investigations of charge- transfer interactions in relation to the electronic theory of cancerDiscussion; The search for new cancerostatic agents; Discussion; Thermal copoly(amino acids) as inhibitors of glyoxalase I; Discussion; Interactions of methylglyoxal with methylamine; Discussion; Methylglyoxal production in human blood; Discussion; Formation and properties of reactive aldehydes; Discussion; Biological activity of methylglyoxal and related aldehydes; Discussion; Carcinostatic activity of methylglyoxal and related substances in tumour-bearing mice; Discussion
Biochemical studies of transient intermediates in relation to chemical carcinogenesisDiscussion; General discussion; Index contributors; Subject index