Al-Hashimi, I., D.P. Dickinson, and M.J. Levine: Purification, Molecular Cloning, and Sequencing of Salivary Cystatin SA-I. J. Biol. Chem. 263:9381-9387 (1988 ).
2.
Al-Hashimi, I. and M.J. Levine: Characterization of in vivo Salivary-Derived Enamel Pellicle. Arch. Oral Biol. 34:289-295 (1989).
3.
Aoba, T. and E.C. Moreno: Preparation of Hydroxyapatite Crystals and Their Behavior as Seeds for Crystal Growth. J. Dent. Res. 63:874-880 (1984).
4.
Aoba, T., E.C. Moreno, and D.I. Hay: Inhibition of Apatite Crystal Growth by the Amino-Terminal Segment of Human Salivary Acidic Proline-Rich Proteins. Calcif. Tiss. Int. 36:651-658 (1984).
Bode, W., R. Engh, D. Musil, U. Thiele, R. Huber, A. Karshikov, J. Brzin, J. Kos, and V. Turk: The 2.0 A X-ray Crystal Structure of Chicken Egg White Cystatin and its Possible Mode of Interaction with Cysteine Proteinases. EMBO J. 7:2593-2599 (1988).
7.
Chou, P.Y. and G.D. Fasman: Prediction of Protein Conformation. Biochemistry13:222-245 (1974).
8.
Gamier, J., D.J. Osguthorpe, and B. Robson, Analysis of the Accuracy and Implications of Simple Methods for Predicting the Secondary Structure of Globular Proteins. J. Mol. Biol. 120:97-120 (1978).
9.
Gron, P.: Saturation of Human Saliva with Calcium Phosphates. Arch. Oral Biol. 18:1385-1392 (1973).
10.
Hauschka, P.V. and S.A. Carr: Calcium-Dependant a-Helical Structure in Osteocalcin. Biochemistry21:2538-2547 (1982).
11.
Hay, D.I.: The Isolation from Human Parotid Saliva of a Tyrosine-Rich Acidic Peptide Which Exhibits High Affinity for Hydroxyapatite Surfaces. Arch. Oral Biol. 18:1531-1541 (1973).
12.
Hay, D.I. and D.H. Schlesinger: Human Salivary Statherin: A Peptide Inhibitor of Calcium Phosphate Precipitation. In: Calcium-Binding Proteins and Calcium Function. Proc. Int. Symp. on Calcium-Binding Proteins and Structure, pp. 401-408. (R. M. Wasserman, D. H. McLennan, and F. Siegel, Eds.) Elsevier, New York (1977).
13.
Hay, D.I. and E.C. Moreno: Differential Adsorption and Chemical Affinities of Proteins for Apatite Surfaces. J. Dent. Res. 58B:930-940 (1979).
14.
Hay, D.I., D.J. Smith, S.K. Schluckebier, and E.C. Moreno: Relationship between Concentration of Human Salivary Statherin and Inhibition of Calcium Phosphate Precipitation in Stimulated Human Parotid Saliva. J. Dent. Res. 63:857-863 (1984).
15.
Hay, D.I. and E.C. Moreno: Statherin and the Acidic Proline-rich Proteins. In Human Saliva: Clinical Chemistry and Microbiology, chap. 5, pp. 131-150. (J. O. Tenovuo, Ed.) CRC Press, Boca Raton, FL (1989).
16.
Hlady, V. and H. Furedi-Milhofer: Adsorption of Human Serum Albumin on Precipitated Hydroxyapatite. J. Coll. Interf. Sci. 69:460-468 (1979).
17.
Isemura, S., E. Saitoh, S. Ito, M. Isemura, and K. Sanada: Cystatin S: A Cysteine Proteinase Inhibitor of Human Saliva. J. Biochem. 96:1311-1314 (1984).
18.
Isemura, S., E. Saitoh, and K. Sanada: Characterization of a New Cysteine Proteinase Inhibitor of Human Saliva, Cystatin SN, Which Is Immunologically Related to Cystatin S. FEBS Lett. 198:145-149 (1986).
19.
Johnsson, M., C.F. Richardson, F.A. Scannapieco, M.J. Levine, and G.H. Nancollas: The Influence of Salivary Proteins on the Growth, Aggregation and Surface Properties of Hydroxyapatite Particles. In: Material Synthesis Utilizing Biological Processes, (P. C. Rieke, P. D. Calvert, and M. Alper, Eds.) Mat. Res. Soc. Proc. 174:81-86 (1990).
20.
Johnsson, M., C.F. Richardson, E.J. Bergey, M.J. Levine, and G.H. Nancollas: The Effects of Human Salivary Cystatins and Statherin on Hydroxyapatite Crystallization. Arch. Oral Biol. 36:631-636 (1991).
21.
Kauffman, D.L. and P.J. Keller: Relationship of the Basic Glycoprotein to the Basic Proline-Rich Proteins in Human Parotid Saliva. Arch. Oral Biol. 28:61-67 (1983).
22.
Kawagishi, S., E.F. Fahim, K.H. Wong, and A. Bennick: Purification and Characterization of Subunits of a High Molecular Weight Human Salivary Mucin. Arch. Oral Biol. 35:265-272 (1990).
23.
Kresak, M., E.C. Moreno, R.T. Zahradnik, and D.I. Hay: Adsorption of Amino Acids onto Hydroxyapatite. J. Coll. Interf. Sci. 59:283-292 (1977).
24.
Loomis, R.E., A. Prakophol, M.J. Levine, M.S. Reddy, and P.C. Jones: Biochemical and Biophysical Comparison of Two Mucins from Human Submandibular-Sublingual Saliva. Arch. Biochem. Biophys. 258:452-464 (1987).
25.
Lowry, O.H., N.J. Roseborough, A.L. Farr, and R.J. Randall: Protein Measurement with the Folin Phenol Reagent. J. Biol. Chem. 193:265-275 (1951).
26.
Mayo, J.W. and D.M. Carlson: Isolation and Properties of Four α-Amylase Isoenzymes from Human Submandibular Saliva. Arch. Biochem. Biophys. 163:498-506 (1974).
27.
Meyer, J.L. and G.H. Nancollas: The Influence of Multidentate Organic Phosphonates on the Crystal Growth of Hydroxyapatite. Calcif. Tiss. Int. 13:295-303 (1973).
28.
Moreno, E.C., M. Kresak, and R.T. Zahradnik: Physicochemical Aspects of Fluoride-Apatite Systems Relevant to the Study of Dental Caries. Caries Res. 11(Suppl. 1):142-171 (1977).
29.
Moreno, E.C., M. Kresak, and D.I. Hay: Adsorption of Two Human Parotid Salivary Macromolecules on Hydroxy-, Fluorhydroxy- and Fluorapatite. Arch. Oral Biol. 23:525-533 (1978).
30.
Moreno, E.C., K. Varughese, and D.I. Hay: Effect of Human Salivary proteins on the Precipitation Kinetics of Calcium Phosphates. Calcif. Tiss. Int. 28:7-16 (1979).
31.
Moreno, E.C., K. Varughese, and D.I. Hay: Crystal Growth of Calcium Apatites from Dilute Solutions. J. Cryst. Growth53:20-30 (1981).
32.
Moreno, E.C., M. Kresak, and D.I. Hay: Adsorption Thermodynamics of Acidic Proline-Rich Human Salivary Proteins onto Calcium Apatites. J. Biol. Chem. 257:2981-2989 (1982).
33.
Moreno, E.C., M. Kresak, and D.I. Hay: Adsorption of Molecules of Biological Interest onto Hydroxyapatite. Calcif. Tiss. Int. 36:48-59 (1984).
34.
Moreno, E.C., M. Kresak, J.J. Lane, and D.I. Hay: Adsorption of Proteins, Peptides and Organic Acids from Binary Mixtures onto Hydroxyapatite. Langmuir3:511-519 (1987).
35.
Oppenheim, F.G., D.I. Hay, and C. Franzblau: -Proline-Rich Proteins from Human Parotid Saliva. I. Isolation and Partial Characterization. Biochemistry10:4233-4238 (1971).
36.
Oppenheim, F.G., T. Xu, F.M. McMillan, S.M. Levitz, R.D. Diamond, G.D. Offner, and R.F. Troxler: Histatins, a Novel Family of Histidine-Rich Proteins in Human Parotid Secretions. J. Biol. Chem. 263:7472-7477 (1988 ).
37.
Oppenheim, F.G.: Salivary Histidine-Rich Proteins. In: Human Saliva: Clinical Chemistry and Microbiology, Chap. 6, pp. 151-160. ( J. O. Tenovuo, Ed.) CRC Press, Boca Raton, FL (1989).
38.
Pierrot, M., J.P. Astier, B. Abadie, and G. Marchis-Mouren: Preliminary X-ray Investigation of a New Crystalline Variety of Porcine Pancreatic a-Amylase. FEBS Lett. 79:105-108 (1977).
39.
Raj, A.P., M. Johnsson, M.J. Levine and G.H. Nancollas: Salivary Statherin: Dependance of Charge Sequence, Hydrophobility, Hydrogen Bonding Potency and Helical Conformation for Adsorption and Inhibition of Mineralization. J. Biol. Chem. 267:5967-5976 (1992).
40.
Ramasubbu, N., M.S. Reddy, E.J. Bergey, G.G. Haraszthy, S.-D. Soni, and M.J. Levine: Large-Scale Purification and Characterization of the Major Phosphoproteins and Mucins of Human Submandibular-Sublingual Saliva. Biochem. J. 280:341-352 (1991).
41.
Robinson, R., D.L. Kauffman, M.M.Y. Waye, M. Blum, A. Bennick, and P.J. Keller: Primary Structure and Possible Origin of the Non-Glycosylated Basic Proline-Rich Protein of Human Submandibular/Sublingual Saliva. Biochem. J. 263:497-503 (1989).
42.
Saitoh, E., S. Isemura, K. Sanada, H.S. Kim, O. Smithies, and N. Maeda: Cystatin Superfamily. Evidence That Family II Cystatin Genes Are Evolutionary Related to Family III Cystatin Genes. Biol. Chem. Hoppe Seyler369:191-197 (1988).
43.
Schlesinger, D.H. and D.I. Hay: Complete Covalent Structure of Statherin, a Tyrosine-Rich Acidic Peptide Which Inhibits Calcium Phosphate Precipitation from Human Parotid Saliva. J. Biol. Chem. 252:1689-1695 (1977).
44.
Schlesinger, D.H. and D.I. Hay: Primary Structure of the Acidic Tryptic Fragment of Human and Monkey Salivary Anionic Proline-Rich Proteins. Int. J. Peptide Protein Res. 17:34-41 (1981).
45.
Schlesinger, D.H., A. Buku, H.R. Wyssbrod, and D.I. Hay: Chemical Synthesis of Phosphoseryl-Phosphoserine, a Partial Analogue of Human Salivary Statherin, a Protein Inhibitor of Calcium Phosphate Precipitation in Human Saliva. Int. J. Peptide Protein Res. 30:257-262 (1987).
46.
Tabak, L.A., M. J. Levine, N.K. Jain, A.R. Bryan, R.E. Cohen, L.D. Monte, S.J. Zawacki, G.H. Nancollas, A. Slomiany, B.L. Slomiany: Adsorption of Human Salivary Mucins to Hydroxyapatite. Arch. Oral Biol. 30:423-427 (1985).
47.
Taves, D.R. and R.C. Reedy: A Structural Basis for the Transphosphorylation of Nucleotides with Hydroxyapatite. Calcif. Tiss. Res. 3:284-292 (1969).
48.
Tomson, M.B. and G.H. Nancollas: Mineralization Kinetics: A Constant Composition Study. Science200:1059-1060 (1978).
49.
Tseng, C.C., R.E. Loomis, D.I. Hay, and M.J. Levine: Secondary Structural Characterization of a Synthetic Peptide from a Salivary Statherin. J. Dent. Res.66(Spec. Iss): No. 305 (1987 ).
50.
Wong, R.S.C., T. Hofmann, and A. Bennick: The Complete Primary Structure of a Proline-Rich Phosphoprotein from Human Saliva. J. Biol. Chem. 254:4800-4808 (1979 ).
