Dayhoff et al., "Atlas of Protein Sequence and Structure" vol. 5 (1972) pp. 89-99. |
Merrifield, Science, vol. 150 (Oct. 8, 1965) pp. 178-185. |
Nussbaun et al., J. Biol. Chem. vol. 255 No. 21 pp. 10183-10187. |
Rosenblatt et al., Biochemistry, vol. 20 (1981) pp. 7246-7250. |
Chorev, et al., "First highly potent cyclic parathyroid hormone-related peptide (PTHrP) antagonist", Peptides (1990) pp. 736-737. |
Biochem., (1974), vol. 13, No. 9, pp. 1994-2000, R.T. Sauer et al. The Amino Acid Sequence of Porcine Parathyroid Hormone. |
J. of Bone and Mineral Res., (1992), vol. 7, No. 1, pp. 65-72, J.M. Hock et al. Effects of Continuous and Intermittent Administration and Inhibition of Resorption on the Anabolic Response of Bone to Parathyroid Hormone. |
Clin. Science, (1982), vol. 62, pp. 389-396, E. Hefti et al. Increase of Whole-body Calcium and Skeletal Mass in Normal and Osteoporotic Adult Rats Treated with Parathyroid Hormone. |
Metab. Bone Dis. & Rel. Res., (1984), vol. 5, pp. 177-181, M. Gunness-Hey et al. Increased Trabecular Bone Mass in Rats Treated with Human Synthetic Parathyroid Hormone. |
J. of Bone & Mineral Res., (1991), vol. 6, No. 10, pp. 1071-1080, C.C. Liu et al. Preexisting Bone Loss Associated with Ovariectomy in Rats is Reversed by Parathyroid Hormone. |
Endocrinology, (1988), vol. 122, No. 6, pp. 2899-2904, J.M. Hock et al. Human Parathyroid Hormone-(1-34) Increases Bone Mass in Ovariectomized and Orchidectomized Rats. |
Science, (1987), vol. 238, pp. 1566-1568, N. Horiuchi et al. Similarity of Synthetic Peptide from Human Tumor to Parathyroid Hormone in Vivo and in Vitro. |
Science (1987), vol. 238, pp. 156-1570, B.E. Kemp et al. Parathyroid Hormone-Related Protein of Malignancy: Active Synthetic Fragments. |
J. of Clin. Invest., (1987), vol. 80, pp. 1803-1807, G.J. Strewler et al. Parathyroid Hormonelike Protein from Human Renal Carcinoma Cells. |
Proceedings of the Eleventh American Peptide Symposium, (1989). Second Generation of Potent Parathyroid Hormone (PTH) Antagonists. |
J. of Biological Chem., (1991), vol. 266, No. 3, pp. 1997-2004, F.E. Cohen et al. Analogues of Parathyroid Hormone Modified at Positions 3 and 6. |
Biophysical J., (1967), vol. 7, pp. 121-135, M. Schiffer et al. Use of Helical Wheels to Represent the Structures of Proteins and to Identify Segments with Helical Potential. |
Adv. Enzymol., (1978), vol. 47, pp. 45-147, P.Y. Chou et al. Prediction of the Secondary Structure of Proteins from Their Amino Acid Sequence. |
J. of the Amer. Chem. Society, (1979), pp. 3703-3704, D. Fukushima et al. A Synthetic Amphiphilic Helical Docosapeptide with the Surface Properties of Plasma Apolipoprotein A-I. |
Proc. Natl. Acad. Sci., (1980), vol. 77, No. 6, pp. 3154-3158, H.J. Pownall et al. Activation of Lecithin:Cholesterol Acyltransferase by a Synthetic Model Lipid-Associating Peptide. |
J. of Bio. Chem., (1980), vol. 255, No. 23, pp. 11464-11472, P. Kanellis et al. Studies of Synthetic Peptide Analogs of the Amphipathic Helix. |
Nature, (1982), vol. 299, pp. 371-374, D. Eisenberg et al. The Helical Hydrophobic Moment: A Measure of the Amphiphilicity of a Helix. |
Biochimica et Biophysica Acta., (1991), vol. 1086, pp. 106-114, L.R. McLean et al. Examination of the Peptide Sequence Requirements for Lipid-Binding. Alternative Pathways for Promoting the Interaction of Amphipathic .alpha.-Helical Peptides with Phosphatidylcholine. |
J. of Lipid Res., (1992), vol. 33, pp. 141-166, J.P. Segrest et al. The Amphipathic Helix in the Exchangeable Apolipoproteins: A Review of Secondary Structure and Function. |
Gene, (1985), vol. 39, pp. 239-245, T. Kempe et al. Multiple-copy Genes: Production and Modification of Monomeric Peptides from Large Multimeric Fusion Proteins. |
Bio/Technology, (1986), vol. 4, pp. 565-568, T. Kempe et al. Production and Characterization of Growth Hormone Releasing Factor Analogs Through Recombinant DNA and Chemical Techniques. |
Bio/Technology, (1988), vol. 6, pp. 190-192, T. Kempe et al. ([Homoserine.sub.31 ]-Salmon Calcitonin I: Fully Active Analogue of Calcitonin Synthesized by Recombinant DNA Techniques. |