212 



INDEX 



chromatophores, 104 



grana, 104 

 Physiopathological role of lysosomes, 145-155 



in athrocytosis, 146 



in engulfing processes, 146-149 



in intracellular digestion, 146-149 



in necrosis, 151-155 



in pathological autolysis, 1 51-155 



in physiological autolysis, 149-151 



in pinocytosis, 146-148 



in protein breakdown, 1 50-1 51 

 Polymerization of lignin, 43 

 Protein matrix, 53-56 



catechol oxidation, 56 



collagen, 5i-53» 56 



effect on quinone polymerization, 51-53 



fibrin, 51-53. 56 

 Protein synthesis in isolated nuclei, 1 91-196 



dependency on DNA, 191-192 



DNA substitutes, 192-194, 199-200 



effect of DNAase, 191-194 



effect of DNA restoration, 1 91-194 



effect of polycations on, 193-194 

 Protein synthesis in RNP granules, 10 

 Proteolysis by chymotrypsin at solid-liquid in- 

 terface, 33 

 Pterogonia, 54 

 Pyrogallol oxidation, 57-58 



effects of cellulose and DNA, 57 



w -lipoprotein, 99 



(,)uinone polymerization, 50-54 



Jvedox components of ETP, 94 

 Replication of DNA, 172-175 



mechanism, 173-175 

 Respiratory chain, 95-98 



coenzyme Q, 98 



component sequence, 96-97 



fixed and motile components, 97, 98 

 Ribonucleoprotein particles, 71, 74, 160-162 



relation to intracisternal granules, 74 



site of protein synthesis, 161-162 

 RNA, 8, 70, 71, 117-121, 124, 164, 176-184 



in Golgi fractions, 117, 118-121, 125 



nucleolar, 8, 176-184 



nucleus to cytoplasm movement, 8 



soluble (S-RNA), 163 

 RNA synthesis, 175-184 



hypothesis, 182-183 



in nucleolus, 176-184 



in situ studies, 175-176 



rates of, 179-183 



relation to DNA, 175-177, 183-184 

 RNA synthesis in isolated nuclei, 199-201 



adenosine and orotic acid uptake, 199 

 R. iiihnim, 106-108 



S tuclhiromyces cerevisiae, 29, 31 



Sedimentation constants, 133 



Self-digestion of pepsin-albumin fibers, 32- 



33 

 Siderosomes, 140 



Sodium effect on nuclear function, 201-203 

 Spirogyra, 105 

 S-RNA (soluble RNA), 163-166 



amino acitl binding by, 163-165 



amino acitl transfer by, 166 



nucleotide binding by, 164 

 Sucrose inversion, 30 

 Surface activity of enzymes, 27-29 



factors, 28 



in cells, 29 



in soil, 28 

 Surface pH (pHs), 23-31 



and bulk pH (pHb), difference between, 

 23-31 



at protein surfaces, 26, 27 



effect on chymotrypsin activity, 27 



1 echniques in cell study, 1-17 



centrifugal isolation, 8-11 



electron microscopy, 2—8 



phase contrast cinematography, 2 



phase contrast micrography, 2, 3 



radioautography, 8 



specific cytochcmical staining, 11-17 

 Templates, 175-176, 182-183 



in DNA replication, 175 



in RNA synthesis, 175-176, 182-183 

 Thymidine, 172-175 



tritium-labeled, 172-175 



utilization in DNA synthesis, 172-175 

 Tnideaantiii, DNA, RNA synthesis in, 176 

 Tritium, 172-175 



-labeled cytidine, 176 



-labeled thymidine, 172-175, 183 

 Trypsin-ergosterol complex, 33 

 Tiilbagliia, DNA synthesis in, 176 



