Kapronczay Károly szerk.: Orvostörténeti közlemények 226-229. (Budapest, 1914)
TANULMÁNYOK - Elek Gábor: 2013-ban volt Bauer Ervin halálának 75. évfordulója
ELEK, Gábor: In 2013 was the 75th anniversary of Ervin Bauer s death 219 Table: Comparison of Bauer and Keller 's opinion about the electrostatic phenomena in some vital processes The hypotheses Keller 1918 Bauer 1935 Page numbers in parentheses are from the two books mentioned in the following row Numbering is arbitrary Keller: Die Elektrizität in der Zelle (Electricity in the cell) 1918, Wien Bauer: TeoperauecKafl BnoJionui (Theoretical Biology) 2002 edition, SanktPeterburg 1. Origin of the static electricity In the living tissue there are many electrically charged noints. which are positives or negatives compared to one another (1, 16, 84-93, 172-178). Some nrotein molecules are electric dinoles. which have differently large from each other moment 1202-203. 228-230). 2. Origin of the potential energy The distribution of these chareed points forms an electric field whose spatial arrangement is characteristic of species, gender, age, etc (22, 103-106, 121-124). The various protein electric dipoles are parallel ordered in a quasi crystal lattice (micelle). Moments cannot extinguish each other as their seize is different on the proteins with unlike molecular weights. The living crystal matrix is full of characteristically distributed defects (194-198, 245). 3. Performance of work The chanae of charges or rather of the electric field results in doing work (142-145). This change is always depending on the direction (vectorial quantity). Material- (80-84), solutiontransport (137-141), electrophoresis (168-172). The decrease of the size of the dipole moment (shortening of some protein molecules) results in doing work (202-203). Specificity of the work is canalised by the systemic forces (as for example by force of inertia in physics 100-102). 4. Assimilation and dissimilation Distribution of the charges characteristic of assimilation is changed to its opposite by the dissimilation, that is the inverse (complementary) pattem of the charged points emerges. The energetic eauilibrium of the system is always statistical (73-89, 140-142). Although assimilation diminishes the size of the dipole moment of these proteins, the oolaritv is maintained, it does not change in its inverse. The energy deliberated by dissimilation restores the original size of the dipole moment (the length of he protein molecule) almost completely. Therefore the energetic non-eauilibrium of the system is permanent (134. 196. 2231.
