312 



SUBJECT INDEX 



Lipids in keratinizing tissues 59, 222 

 Liver, growth after hepatectomy 140 

 Location of cystine residues 245 et seq. 

 Logistic law of growth 139 

 Long spacings 11, 165 et seq. 



— and short spacings, independence of 

 166 



— in electron microscope 19, 167 



— theories of origin 170 



Low angle diffraction patterns 11, 

 165 et seq., 



— of keratins 166 (Fig. 68), 168 



(Fig. 69) 



Macrofibrils in fibrous keratin 123, 



125, 187, 186 (Fig. 80), 224 (Plates 



13, 14A, 15, 16) 

 Macromolecules and biology 1 

 Malpighian layers and cells 57, 80 



et seq. 

 Mammary glands 59 

 Matrix, in electron micrographs 223, 



224 



— of fibrous keratin (y-component) 



248 



— plus filament model and X-ray 



scattering 4, 193 



— protein (y-keratin) as interfila- 



mental cement 188, 223, 246 

 et seq. 

 Mechanical trauma as growth stimulant 



149 

 Mechanochemical phenomena 249 et 



seq. 

 Medulla of hair 71, 73, 97, 268 et seq. 

 Melanin 276 et seq. 

 Melanization, chemistry of 279, 280, 



281 

 Melanocyte(s) 27 



— activity and hair cycle 282 



— and keratinizing cells 278 



— and pigmentation 276 et seq. 



— in hair follicle 97 (Fig. 42), 100 

 Membraneous systems of cytoplasm, 



definition 46 



— nomenclature of 47, 48 (Fig. 23) 

 (Plates 4, 5, 6, 7, 10) 



Membrane(s) adhesion and morpho- 

 genesis 84 et seq. 



in hair follicle 97 (Fig. 42), 



98 (Fig. 43), 99 



Membrane(s) as tubules derived from 

 cuticle of hair and wool 267 et seq. 



— chemical character 261 



— enclosed particulates 45 



— in keratinized tissues 260 



— morphology 262 



Metabolic enzymes in keratinizing 



tissues 221 

 Metachromasy 54, 221 

 Metaplasia 62, 63, 233 



— cyclic 144 (Fig. 59) 

 Microbodies in keratinizing tissues 



233 (Plates 22, 23 A) 

 Microsomes 1 1 1 et seq. 

 Mitochondria, definition 45 



— in basal layer cells 81 

 Mitochondrial enzymes 115, 116, 221. 

 Mitosis in basal layer 82, 135 et seq. 

 Mitotic apparatus 30 

 Modulations 63 



Molecular, and macromolecular struc- 

 tures 4, 119, 123, 161 



— configuration in supercontracted 

 state 258 et seq. 



— macromolecular and histological 



units of fibrous keratin 186 

 (Fig. 80) 



— structure of degraded keratins 163 



et seq. 

 Mouse, diurnal cycles in epidermis 

 136 



— ear epidermis, mitosis control in 



149 



— skin 94 



Mucinogenic cells, cyclic changes in 



145 

 Mucopolysaccharides 54, 58, 61, 84, 



221 

 Muscle, X-ray pattern of 15, 168 

 Myelinic forms 46 

 Myosin (actomyosin) 15, 121, 168 



Nails, nature of 69 



— thiol reaction in 217 (Fig. 95) 

 Neurokeratin 79 

 Non-crystalline fraction 190 et seq. 



— molecular structure in 192 



— in silk 192 

 Non-keratinous residues 270 et seq. 



— as ^-keratoses 238 



