Eastoe, J.E. , and Eastoe, L.B.: The Organic Constituents of Mammalian Compact Bone, Biochem. J. 57: 453, 1954.
2.
Eastoe, J.E. : The Amino-Acid Composition of Mammalian Collagen and Gelatin, Biochem. J. 61: 589, 1955.
3.
Neuman, R.E. : The Amino-Acid Composition of Gelatins, Collagens and Elastins From Different Sources, Arch. Biochem. 24: 289, 1949.
4.
McClcan, F.C., and Urist, M.R.: Bone, Chicago, 1955, The University of Chicago Press, p. 31.
5.
Robinson, R.A. and Watson, M.C.: Crystal-Collagen Relationships in Bone as Observed in the Electron Microscopy. III. Crystal and Collagen Morphology as a Function of Age, Ann. New York Acad. Sc. 60: 596, 1955.
6.
Robinson, R.A.: Electron Micrography of Bone in Metabolic Interrelations, Tr. Third Conference, New York, 1951, Josiah Macy, Jr., Foundation , p. 271.
7.
Eastoe, J.E.: The Organic Matrix in Bone in The Biochemistry and Physiology of Bone , edited by G. G. Bourne, New York, 1956, Academic Press, Inc., p. 81.
8.
Neuman, W.F. , Toribara, T.Y., and Mulryan, B.J.: The Surface Chemistry of Bone. VII. The Hydration Shell, J. Am. Chem. Soc. 75: 4239, 1953 .
9.
Glegg, R.E., and Eidinger, D.: A Method for Fractionating the Carbohydrate Component of Bone, Arch. Biochem. & Biophys. 55: 19, 1955.
10.
Dische, Z., Danilezenko, A., and Zelmenis, G.: The Neutral Heteropolysaccharides in Connective Tissue, Ciba Foundation Symposium on the Chemistry and Biology of Mucopolysaccharides, edited by G. E. W. Wolstenholme and M. O'Connor, Boston, 1958, Little, Brown & Company, p. 116.
11.
Dickens, F.: The Citric Acid Content of Animal Tissues, J. Soc. Chem. Ind . 59: 135, 1940.
12.
Leach, A.A.: The Lipids of Ox Compact Bone, Biochem. J. 69: 429, 1958.
13.
Boyd, E.S., and Neuman, W.F.: The Surface Chemistry of Bone. V. The Ion-Binding Properties of Cartilage , J. Biol. Chem. 193: 243, 1951.
14.
Farber, S.J. , Schubert, M., and Schuster, N.: The Binding of Cations by Chondroitin Sulfate , J. Clin. Invest. 36: 1715, 1957.
15.
Glimcher, M.J. , Hodge, A.J., and Schmitt, F.O.: Macromolecular Aggregation States in Relation to Mineralization: The Collagen-Hydroxy Apatite System as Studied In Vitro, Proc. Nat. Acad. Sc. 43: 860, 1957.
16.
Solomons, C.C. , and Irving, J.T.: Studies in Calcification. The Reaction of Some Hard- and Soft-Tissue Collagens With 1-Fluoro 2:4 Dinitrobenzene , Biochem. J.68: 499, 1958.
17.
Bowes, J.H., Elliott, R.G., and Moss, J.A.: Some Differences in the Composition of Collagen and Extracted Collagen and Their Relation to Fibre Formation and Dispersion in The Nature and Structure of Collagen, Edited by J. T. Randall, New York, 1953, Academic Press, p. 199.
18.
Woodin, A.M. : The Corneal Mucopolysaccharide, Biochem. J. 51: 319, 1952.
19.
Highberger, J.H., Gross, J., and Schmitt, F. 0. : The Interaction of Mucoprotein With Soluble Collagen: An Electron Microscope Study, Proc. Nat. Acad. Sc. U. S. 37: 286, 1951.
20.
Gross, J., Highberger, J.H., and Schmitt, F. O. : Some Factors Involved in the Fibrogenesis of Collagen In Vitro, Proc Soc. Exper. Biol. & Med. 80: 462, 1952.
21.
Gross, J., Highberger, J.H., and Schmitt, F. 0.: Collagen Structures Considered as States of Aggregation of a Kinetic Unit. The Tropocollagen Particle, Proc. Nat. Acad. Sc. U. S. 40: 679, 1954.
22.
Schubert, M. , and Hamerman, D.: Metachromasia; Chemical Theory and Histochemical Use, J. Histochem. 4: 159, 1956.
23.
Hale, A.J.: The Histochemistry of Polysaccharides, Internat. Rev. Cytol . 6: 193, 1957.
24.
McGee-Russell, S.M.: Histochemical Methods for Calcium, J. Histochem. 6: 22, 1958.
25.
Cameron, G.R. : The Staining of Calcium, J. Path. Bact. 33: 929, 1930.
26.
Cobb, J.D.: Relation of Glycogen, Phosphorylase, and Ground Substance to Calcification of Bone, A. M. A. Arch. Path. 55: 496, 1953.
27.
Heller-Steinberg, M.: Ground Substance, Bone Salts, and Cellular Activity in Bone Formation and Destruction, Am. J. Anat. 89: 347, 1951.
28.
Engel, M.B. : Mobilization of Mucoprotein by Parathyroid Extract, A. M. A. Arch. Path. 53: 339, 1952.
29.
Rogers, H.J. : Concentration and Distribution of Polysaceharides in Human Cortical Bone and the Dentin of Teeth, Nature, London164: 625, 1949.
30.
Bevelander, G., and Johnson, P.S.: A Histochemical Study of the Development of Membrane Bone, Anat. Rec. 108: 1, 1950.
31.
Levine, M.D. , Rubin, P.S., Follis, R.H., Jr., and Howard , J.E.: Histochemical Studies on Calcinosis Universalis With Respect to the Possible Relationship Between Normal and Pathological Calcification in Metabolic Interrelations, Tr. First Conference, New York, 1949, Josiah Macy, Jr., Foundation, p. 41.
32.
Pritchard, J.J.: A Cytological and Histochemical Study of Bone and Cartilage Formation in the Rat, J. Anat. 86: 259, 1952.
33.
Belanger, L.F. : Autoradiographic Visualization of the Entry and Transit of S35 in Cartilage, Bone and Dentin of Young Rats and the Effect of Hyaluronidase In Vitro, Canad. J. Broochem. & Physiol. 32: 161, 1954.
34.
Follis, R.H. , Jr., and Berthrong , M.: Histochemical Studies on Cartilage and Bone . I. The Normal Pattern, Bull. Johns Hopkins Hosp. 85: 281, 1949.
35.
Lorber, M. : A Study of the Histochemical Reactions of the Dental Cementum and Alveolar Bone, Anat. Rec. Ill: 129, 1951.
36.
Sylven, B.: Cartilage and Chondroitin Sulphate. II. Chondroitin Sulphate and the Physiological Ossification of Cartilage, J. Bone & Joint Surg. 29: 973, 1947.
37.
Burstone, M.S. : A Histochemical Study of Irradiated Bone, Am. J. Path. 28: 1133, 1952.
38.
Laskin, D.M. , and Engel, M.B.: Bone Metabolism and Bone Resorption After Parathyroid Extract, A. M. A. Arch. Path. 62: 296, 1956.
39.
Schajowicz, F. , and Cabrini, R.L.: The Effect of Acids (Decalcifying Solutions) and Enzymes on the Histochemical Behavior of Bone and Cartilage , J. Histochem. 3: 122, 1955.
40.
Yaeger, J.A. : Metliacrylate Embedding and Sectioning of Calcified Bone, Stain Tech. 33: 229, 1958.
41.
Hotchkiss, R.D. : A Microchemical Reaction Resulting in the Staining of Polysaccharide Structures in Fixed Tissue Preparations, Arch. Biochem. 16: 131, 1948.
42.
Lillie, R. O.: Histopathologie Technique and Practical Histochemistry , New York, 1954, The Blakiston Co., Inc., pp. 264, 275, 346.
43.
Gersh, I. : Improved Histochemical Methods for Chloride, Phosphate-Carbonate and Potassium Applied to Skeletal Muscle, Anat. Rec. 70: 311, 1938.
44.
McManus, J.F.A. : Histological and Histochemical Uses of Periodic Acid, Stain Tech. 23: 99, 1948.
45.
Lillie, R.D. : Factors Influencing Periodic Acid-Schiff Reaction of Collagen Fibers, J. Histochem. 1: 353, 1953.
46.
Kramer, H., and Windrum, G.M.: The Metachromatic Staining Reaction, J. Histochem . 3: 227, 1955.
47.
Sylven, B.: Ueber das Vorkommen von Hockmolekularen Estersehwefelsauren im Granulationsgewebe und bei der Epithelregeneration, Acta chir. scandinav. 86: Suppl. 66, 1941.
48.
Dempsey, E.S. , Bunting, H., Singer , M., and Wislocki, G.B.: The Dye Binding Capacity and Other Chemo-Histological Properties of Mammalian Mucopolysaccharides , Anat. Rec. 98: 417, 1947.
49.
DeBellis, R. , Mandl, I., MacLennan , J.D., and Howes, E.L.: Separation of Proteolytic Enzymes of Clostridium histolyticum, Nature, London174: 1191, 1954 .
50.
Gersh, I. : Ground Substance and Plasticity of Connective Tissues, Harvey Lect. (1949-1950), 45: 211, 1952.
51.
Gersh, I., and Catchpole, H.R.: The Organization of Ground Substance and Basement Membrane and Its Signficance for Tissue Injury, Disease and Growth, Am. J. Anat. 85: 457, 1949.
52.
Jackson, E.L. : Periodic Acid Oxidation in Organic Reactions , edited by R. Adams, New York, 1954, John Wiley & Sons , vol. 2, p. 341.
53.
Arnold, J.S. , and Jee, W.S.S.: Bone Growth and Osteoclastic Activity as Indicated by Radioautographic Distribution of Plutonium, Am. J. Anat. 101: 367, 1957.
54.
Scott, B.L. , and Pease, O.C.: Electron Microscopy of the Epiphyseal Apparatus , Anat, Rec. 126: 465, 1956.
