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Radioisotopes and Poultry*

Published online by Cambridge University Press:  18 September 2007

F. R. Mraz
Affiliation:
Agricultural Research Laboratory of The University of TennesseeOak RidgeTennesseefn02

**Operated by the Tennessee Agricultural Experiment Station for the U.S. Atomic Energy Commission under Contract No. AT-40-1-GEN-242

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Copyright © Cambridge University Press 1965

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References

REFERENCES

1.Abe, T., Kaneko, T. and Hosoda, T. 1959. Studies on the yolk deposition in laying hens. II. Observations of the physiological half-life of serum phosphorus compounds and the yolk deposition in laying hens. Bull. Nat. Inst. Agri. Sci., Japan Ser. G, No. 18:229.Google Scholar
2.Adamson, L. F., Leeper, G. K. and Ross, E. 1961. Influence of dietary fats and cholesterol on tissue lipids in chickens. J. Nutrition 73: 247.CrossRefGoogle Scholar
3.Bauman, V. K. 1959. Physiological role of calcium compounds in the blood of hens. Fizio. Biochim. Pitan. sel'skohoz. zivoin., Akad. Nauk. Latv., SSR, Riga, p125 from Abstract. Worlds' Poultry Sci. J. 17:315 (1961).Google Scholar
4.Belanger, L. F. and Migicovsky, B. B. 1963. Bone cell formation and survival in H3-thymidine-labeled chicks under various conditions. Anat. Rec. 145:385.CrossRefGoogle ScholarPubMed
5.Brace, K. C. and Altland, P. D. 1956. Life span of the duck and chicken erythrocyte as determined with C14. Proc. Soc. Exp. Biol. Med. 92: 615.CrossRefGoogle Scholar
6.Bragg, D. B., Martin, W. G. and Patrick, H. 1962. The influence of levels and sources of calcium and vitamin D3 on the biological half-life of Ca45 in the chick. Poultry Sci. 41: 1797.CrossRefGoogle Scholar
7.Branson, H., Brooks, M. and Piper, P. F. 1950. The order of utilization of phosphorus in the egg by the chick embryo. Science. 112:357.CrossRefGoogle ScholarPubMed
8.Budowski, P., Bottino, N. R. and Reiser, R. 1961. Lipid transport in the laying hen and the incubating egg. Arch. Biochem. Biophys. 93:483.CrossRefGoogle Scholar
9.Chang, M. L. W. and Johnson, B. C. 1957. Nicotinic acid metabolism. 3. C14 carboxyl-labeled nicotinamide and nicotinic acid in the chick. J. Biol. Chem. 226:799.Google Scholar
10.Chargaff, E. 1942. The formation of the phosphorus compounds in egg yolk. J. Biol. Chem. 142:505.CrossRefGoogle Scholar
11.Clegg, R. E., Ericson, A. T., Hein, R. E., McFarland, R. H. and Leonard, G. W. 1956. An electrophoretic component responsible for calcium binding in the blood sera of chickens. J. Biol. Chem. 219:447.CrossRefGoogle ScholarPubMed
12.Clegg, R. E., Hein, R. E., Suelter, C. H. and McFarland, R. H. 1955. The distribution of radioactive phosphorus in the electrophoretic compounds of egg yolk proteins. Poultry Sci. 35:210.CrossRefGoogle Scholar
13.Coates, M. E. and Holdsworth, E. S. 1961. Vitamin D3 and absorption of calcium in the chick. Brit. J. Nutrition 15:131.CrossRefGoogle ScholarPubMed
14.Cook, S. F., Scott, K. G. and Abelson, P. 1937. The deposition of radiophosphorus in tissues of growing chicks. Proc. Nat. Acad. Sci. 23:528.CrossRefGoogle Scholar
15.Dinning, J. S. and Young, R. S. 1959. The role of vitamin B12 in thymine biosynthesis by chick bone marrow. J. Biol. Chem. 234:1199.CrossRefGoogle ScholarPubMed
16.Dixon, F. J. 1947. Distribution of P32 in incubated eggs. Proc. Soc. Exp. Biol. Med. 66:532.CrossRefGoogle Scholar
17.Driggers, J. C. and Comar, C. L. 1949. The secretion of radioactive calcium (Ca45) in the hen's egg. Poultry Sci. 28:420.CrossRefGoogle Scholar
18.Driggers, J. C., Shirley, R. L., Davis, G. K. and Mehrhof, N. R. 1951. The transference of radioactive calcium and phosphorus from hen to chick. Poultry Sci. 30:199.CrossRefGoogle Scholar
19.Drori, D., Volcani, R., Feige, Y., Shalmon, E. and Passy, N. 1964. Factors affecting calcium-45 and strontium-85 transfer in the laying hen. Poultry Sci. 43:486.CrossRefGoogle Scholar
20.Edwards, H. M. Jr., and Mraz, F. R. 1961. Transference to egg and chick of the radionuclides strontium-89, calcium-45 and barium-133 when administered to laying hens. Poultry Sci. 40:493.CrossRefGoogle Scholar
21.Edwards, H. M. Jr., Nugara, D. and Driggers, J. C. 1961. Effect of calcium and phosphorus levels in the diet on magnesium metabolism in chickens. Symposium on the use of radioisotopes in animal biology and the medical sciencesMexico City, p 83.Google Scholar
22.Edwards, H. M. Jr., Nugara, D. and Driggers, J. C. 1962. Fate of endogenous Mg28 in laying hens. Poultry Sci. 41:1975.CrossRefGoogle Scholar
23.Ferguson, T. M., Trunnell, J. B., Dennis, B., Wade, P. and Couch, J. R. 1957. The influence of vitamin B12 deficiency on the uptake of I131 by the thyroid gland in adult and embryonic chickens. Endocrinology. 60:28.CrossRefGoogle Scholar
24.Fujita, H. and Nagata, S. 1962. Histological studies on the functional development of the thyroid gland of the chick embryo. 1. Histochemical observations. Arch. Histol. Japonicum 22:187.CrossRefGoogle Scholar
25.Gillis, M. B., Keane, K. W. and Collins, R. A. 1957. Comparative metabolism of phytate and inorganic P32 by chicks and poults. J. Nutrition 62:13.CrossRefGoogle ScholarPubMed
26.Hahn, L. and Hevesy, G. 1937. Origin of egg yolk lecithin. Nature 140: 1059.CrossRefGoogle Scholar
27.Halevy, S. and Geyer, R. P. 1961. Comparison of lipid metabolism of chicken embryo organs and cells in culture. Proc. Soc. Exp. Biol. Med. 108: 6.CrossRefGoogle ScholarPubMed
28.Halkelt, J. A. E., Peters, T. Jr. and Ross, J. F. 1958. Studies on the deposition and nature of egg yolk iron. J. Biol. Chem. 231:187.CrossRefGoogle Scholar
29.Halverson, A. W., Hills, C. L. and Whitehead, E. I. 1964. Studies on selenium toxicity and chondroitin sulfate and taurine biosynthesis in the chick embryo. Arch. Biochem. Biophys. 107:88.CrossRefGoogle ScholarPubMed
30.Hansborough, A. L. and Khan, M. 1951. The initial function of the chick thyroid gland with the use of radioiodine I131 J. Exp. Zool. 116:447.CrossRefGoogle ScholarPubMed
31.Hashizume, T., Nozaki, H., Hiroe, K., Horii, S., Takei, Y., Morimoto, H. and Kaishio, Y. 1952. Calcium metabolism in the laying hen. 1. Absorption, excretion and retention of radioactive Ca45. Bull. Nat. Inst. Agri. Sci., Japan, Ser. No. G., 4:129.Google Scholar
32.Hendler, R. W. 1961. Some properties and the possible metabolic significance of amino acid-lipid complexes. Biochem. Biophys. Acta 49: 297.CrossRefGoogle ScholarPubMed
33.Heninger, R. W. and Newcomer, W. S. 1964. Plasma protein binding, half-life and erythrocyte uptake of thyroxine and triiodothyronine in chickens. Proc. Soc. Exp. Biol. Med. 116: 624.CrossRefGoogle ScholarPubMed
34.Hevesy, G., Levi, H. and Rebbe, O. 1938. The origin of phosphorus compounds in the embryo of the chicken. J. Biochem. 32:2147.CrossRefGoogle ScholarPubMed
35.Himeno, K., Komiyama, T. and Saegusa, K. 1961. Studies on in vivo measurements of thyroidal uptake of I131 in the chicken. Bull. Natl. Inst. Agri. Sci., Japan Ser. G., No.: 20 269.Google Scholar
36.Holland, J. P. 1963. The protein bound iodine in the fowl. Poultry Sci. 42:1446.CrossRefGoogle Scholar
37.Hopwood, M. L. and Gassner, F. X. 1962. Metabolism of C14-diethylstilbesterol in the chicken: Retention and excretion. Endocrinology 70:880.CrossRefGoogle ScholarPubMed
38.Hunt, E. L. and Wolken, J. J. 1948. The distribution of phosphorus-32 in early chick embryos. J. Exp. Zool. 109:109.CrossRefGoogle ScholarPubMed
39.Hurwitz, S. 1964. Bone composition and Ca45 retention in fowl as influenced by egg formation. Am. J. Physiol. 206:198.CrossRefGoogle ScholarPubMed
40.Huston, T. M., Edwards, H. M. Jr. and Williams, J. J. 1962. The effects of high environmental temperature on thyroid secretion rate of domestic fowl. Poultry Sci. 41:640.CrossRefGoogle Scholar
41.Itoh, H. and Hatano, T. 1960. Effects of vitamin D and Ca:P ratios on calcium metabolism in the chick. Tohoku J. Agri. Res. 11 :357.Google Scholar
42.Itoh, H. and Hatano, T. 1964. Comparison of calcium metabolism in various bones of growing chicks in varying states of vitamin D supplementation. Poultry Sci. 43:70.CrossRefGoogle Scholar
43.Jackson, J. T., Machlin, L. J., Brandenburger, E. A., Kellogg, W. L. and Denton, C. A. 1953. Retention of Co60-labeled vitamin B12 in chickens. Proc. Soc. Exp. Biol. Med. 83:221.CrossRefGoogle Scholar
44.Jackson, J. T., Mangan, G. F., Machlin, L. J. and Denton, C. A. 1955. Absorption of vitamin B12 from the cecum of the hen. Proc. Soc. Exp. Biol. Med. 89:225.CrossRefGoogle ScholarPubMed
45.Jackson, J. T., Pearson, P. B. and Denton, C. A. 1959. Metabolism of C14labeled trypto phan in the developing chick embryo. Arch. Biochem. Biophys. 79:131.CrossRefGoogle Scholar
46.Jensen, L. S., Walter, E. D. and Dunlap, J. S. 1963. Influence of dietary vitamin E and selenium on distribution of Se75 in the chick. Proc. Soc. Exp. Biol. Med. 112: 899.CrossRefGoogle ScholarPubMed
47.Jensen, W. N., Ashenbrucker, H., Cartwright, G. E. and Wintrobe, M. M. 1953. The uptake in vitro of radioactive iron by avian erythrocytes. J. Lab. Clin. Med. 42:833.Google ScholarPubMed
48.Johnston, P. M. 1958. Autoradiographic studies of the utilization of Ca45 by the chick embryo. J. Biophys. Biochem. Cytol. 4:163.CrossRefGoogle ScholarPubMed
49.Johnston, P. M. and Comar, C. L. 1955. Distribution and contribution of calcium from the albumen, yolk and shell to the developing chick embryo. Am. J. Physiol. 183:365.CrossRefGoogle Scholar
50.Johnston, P. M. and Harvey, J. A. N. 1963. Utilization of cystine-S35 by the chick embryo. Am. J. Physiol. 205:1304.CrossRefGoogle ScholarPubMed
51.Jowsey, J. R., Berlie, M. R., Spinks, J. W. T. and O'neil, J. B. 1956. Uptake of calcium by the laying hen and subsequent transfer from egg to chick. Poultry Sci. 35: 1234.CrossRefGoogle Scholar
52.Jowsey, J. R., Oliver, W. F., Maw, W. A. and Common, R. H. 1953. Observations on the mineral metabolism of pullets. X. The effects of gonadal hormones on the retentions and turnover of calcium by the skeleton. Canad. J. Agri. Sci. 33:216.Google Scholar
53.Julian, L. M. 1953. Studies on the developing chicken embryo with the use of radioactive phosphorus. 1. Uptake of P32 by the body and selected tissues of the chicken embryo between the ninth and nineteenth day of incubation. Am. J. Vet. res. 14:129.Google Scholar
54.Julian, L. M. and Cole, L. J. 1953. Studies on the developing chicken embryo with the use of radioactive phosphorus. II. Incorporation of P32 into tissue phosphorus fractions. Am. J. Vet. Res. 14:137.Google ScholarPubMed
55.Kaplan, A., Witkop, B. and Udenfriend, S. 1964. Conversion of proline-C14 to collagen trans-3-hydroxy proline C14 in the chick embryo. J. Biol. Chem. 239:2559.CrossRefGoogle Scholar
56.Keane, K. W., Collins, R. A. and Gillis, M. B. 1956. Isotopic tracer studies on the effect of vitamin D on calcium metabolism in the chick. Poultry Sci. 35:1216.CrossRefGoogle Scholar
57.Kelly, E. K. and Branson, H. 1952. A study of biological variability: The distribution of P32 in the phosphorus compounds of the 8-day chick embryo. Poultry Sci. 31:466.CrossRefGoogle Scholar
58.Klain, G. and Johnson, B. C. 1962. Metabolism of labeled aminoethanol glycine and arginine in the chick. J. Biol. Chem. 237:123.CrossRefGoogle ScholarPubMed
59.Klein, J. R. 1959. Net synthesis of heme from protoporphyrin and iron by extracts of duck erythrocytes. Proc. Soc. Exp. Biol. Med. 101:6.CrossRefGoogle ScholarPubMed
60.Klein, J. R. 1959. Metabolism of iron in the duck. Am. J. Physiol. 196:656.CrossRefGoogle ScholarPubMed
61.Kobayashi, H. and Gorbman, A. 1960. Radioiodine utilization in the chick. Endocrinology 66:795.CrossRefGoogle ScholarPubMed
62.Kowalewski, K. 1958. Uptake of radiosulfate in growing bones of cockerels treated with cortisone and certain anabolic androgenic steroids. Endocrinology 63: 759.CrossRefGoogle ScholarPubMed
63.Krishnamurthy, S. and Bieri, J. G. 1963. The absorption, storage and metabolism of alpha-tocopherol-C14 in the rat and chicken. J. Lipid Res. 4:330.CrossRefGoogle ScholarPubMed
64.Krishnamurthy, S., Bieri, J. G. and Andrews, E. L. 1963. Metabolism and biological activity of vitamin A acid in the chick. J. Nutrition 79: 503.CrossRefGoogle ScholarPubMed
65.Kritchevsky, D., Grau, C. R., Tolbert, B. M. and Krueckel, B. J. 1951. Distribution of radioactivity in the egg after feeding sodium acetate-I-C14. Proc. Soc. Exp. Biol. Med. 76:741.CrossRefGoogle Scholar
66.Kritchevsky, D. and Kirk, M. R. 1951. Radioactive eggs. II. Distribution of radioactivity in yolks. Proc. Soc. Exp. Biol. Med. 78:200.CrossRefGoogle ScholarPubMed
67.Krusner, H. F. and Novik, I. E. 1958. Experimental data on the sexual process in the fowl. Zivotnovodstvo 20:55 from Abstract, World's Poultry Sci. J. 15:299 (1959).Google Scholar
68.Labella, F. S. 1964. Stimulation of thyroidal I131 release in the day-old chick by a single injection of thyroxine or propylthiouracil. Endocrinology 74:294.CrossRefGoogle ScholarPubMed
69.Lee, C. C. and Wolterink, L. F. 1955. Metabolism of cobalt60 in chickens. Poultry Sci. 34:764.CrossRefGoogle Scholar
70.Lepp, A., Wagle, S. R. and Oliner, L. 1964. Effects of L- and D-thyroxine on cholesterol synthesis and turnover in the chick. Proc. Soc. Exp. Biol. Med. 115:517.CrossRefGoogle ScholarPubMed
71.Lowe, I. P. and Roberts, E. 1955. Incorporation of radioactive sulfate sulfur into taurine and other substances in the chick embryo. J. Biol. Chem. 212:477.CrossRefGoogle ScholarPubMed
72.Lucy, J. A., Webb, M., and Biggers, J. D., 1961. Biosynthesis of pentoses and amino acid sugars in embryonic chick cartilage cultivated on a chemically defined medium. Biochem. Biophys. Acta. 54:259.CrossRefGoogle ScholarPubMed
73.Machlin, L. J. 1954. Methionine metabolism in the laying hen. Effect of change in the dietary protein or tryptophan level on deposition of S35 in the egg. Poultry Sci. 33:201.CrossRefGoogle Scholar
74.Machlin, L. J., Jackson, J. T., Lankenau, A. H. and Pearson, P. B. 1954. Uptake of S35 in the feathers, gizzard lining, liver and muscle of young chickens after injection with radioactive methionine or sulfate. Poultry Sci. 33:234.CrossRefGoogle Scholar
75.Machlin, L. J. and Pearson, P. B. 1956. Studies on utilization of sulfate sulfur for growth of the chicken. Proc. Soc. Exp. Biol. Med. 93:204.CrossRefGoogle ScholarPubMed
76.Machlin, L. J. and Pearson, P. B. 1957. Metabolism of taurine in the growing chicken. Arch. Biochem. Biophys. 70:35.CrossRefGoogle ScholarPubMed
77.Machlin, L. J., Pearson, P. B. and Denton, C. A. 1955. The utilization of sulfate sulfur for the synthesis of taurine in the developing chick embryo. J. Biol. Chem. 212:469.CrossRefGoogle ScholarPubMed
78.Machlin, L. J., Pearson, P. B., Denton, C. A. and Bird, H. R. 1953. The utilization of sulfate sulfur by the laying hen and its incorporation into cystine. J. Biol. Chem. 205:213.CrossRefGoogle ScholarPubMed
79.Machlin, L. J., Struglia, L. and Pearson, P. B. 1955. Metabolism of methionine and cysteine sulfur in the developing chick embryo. Arch. Biochem. Biophys. 59:326.CrossRefGoogle ScholarPubMed
80.Mandeles, S. and Ducay, E. D. 1962. Site of egg white protein formation. J. Biol. Chem. 237:3196.CrossRefGoogle Scholar
81.Martin, W. G. and Patrick, H. 1960. Radionuclide mineral studies: Relation of breed, age and vitamin B12 to inorganic S35 metabolism in chicks. Poultry Sci. 39:282.CrossRefGoogle Scholar
82.Martin, W. G. and Patrick, H. 1960. Radionuclide mineral studies. 2. The effect of certain dietary constituents, including protein and vitamin B12 on the metabolism of inorganic S35 sulfate in the chick. Poultry Sci. 39:1501.CrossRefGoogle Scholar
83.Martin, W. G. and Patrick, H. 1961. Radionuclide mineral studies. 3. The effect of breed and dietary zinc, calcium and vitamin D3 on the retention of zinc-65 in chicks. Poultry Sci. 40:1004.CrossRefGoogle Scholar
84.Masuhara, T. and Migicovsky, B. B. 1963. Vitamin D and the intestinal absorption of iron and cobalt. J. Nutrition 80:332.CrossRefGoogle ScholarPubMed
85.McCully, K. A. and Common, R. H. 1961. Zone electrophoresis of protein-bound phosphorus of fowl's serum. Can. J. Biochem. Physiol. 39:1451.CrossRefGoogle Scholar
86.Mellen, W. J. 1964. Thyroxine secretion rate in chicks and poults. Poultry Sci. 43:776.CrossRefGoogle Scholar
87.Mellen, W. J. and Wentworth, B. C. 1962. Observations on radiothyroidectomired chickens. Poultry Sci. 41:134.CrossRefGoogle Scholar
88.Migicovsky, B. B. and Emslie, R. G. 1949. Interaction of calcium, phosphorus and vitamin D. III. Study of mode of action of vitamin D using Ca45. Arch. Biochem. 20:325.Google Scholar
89.Migicovsky, B. B. and Emslie, A. R. G. 1950. Deposition of radioactive calcium in rachitic and nonrachitic chick tibia from oral and intramuscular doses of Ca45. Arch. Biochem. 28: 324.Google ScholarPubMed
90.Migicovsky, B. B. and Nielson, A. M. 1951. Calcium absorption and vitamin D in the chick. Arch. Biochem. and Biophys. 34:105.CrossRefGoogle ScholarPubMed
91.Miller, B. F., Sanford, P. E. and Clegg, R. E. 1962. The effect of thyroxine on egg production and egg quality of normal and radiothyroid-ecrecticized hens. Poultry Sci. 41:989.CrossRefGoogle Scholar
92.Miller, E. C. and Denton, C. A. 1959. Molybdenum-sulfate interrelationship in the growing chicks. Poultry Sci. 38:910.CrossRefGoogle Scholar
93.Monroe, R. A., Patrick, H., Comar, C. L. and Goff, O. E., 1952. Metabolism of vitamin B12. I. The comparative excretion and distribution in the chick of Co60 and vitamin B12 labeled with Co60. Poultry Sci. 31:79.CrossRefGoogle Scholar
94.Mraz, F. R. 1961. Influence of dietary calcium, phosphorus and vitamin D3 on Ca45, P32 and Sr85 uptake by chicks. J. Nutrition 73:409.CrossRefGoogle Scholar
95.Mraz, F. R. 1961. Influence of phosphorus and some alkaline earth metals on the uptake of Ca45. Sr89. Ba133 and P32 by tibiae of chicks. Poultry Sci. 40:958.CrossRefGoogle Scholar
96.Mueller, W. J. and Amezcua, A. A. 1959. The relationship between certain thyroid characterisitics of pullets and their egg production, body weight and environment. Poultry Sci. 38: 620.CrossRefGoogle Scholar
97.Mueller, W. J., Schraer, R. and Schraer, H. 1964. Calcium metabolism and skeleta dynamics of laying pullets. J. Nutrition 84:20.CrossRefGoogle Scholar
98.Murty, N. L., Williams, M. C. and Reiser, R. 1960. Nonsynthesis of linoleic acid from acetate-I-C14 by the laying hen. J. Nutrition 74:451.CrossRefGoogle Scholar
99.Nesheim, M. C. and Garlich, J. D. 1963. Studies on omithine synthesis in relation to benzoic acid excretion in the domestic fowl. J. Nutrition 79:311.CrossRefGoogle Scholar
100.Nishida, T., Ueno, A. and Kummerow, F. A. 1960. Effect of dietary protein on the metabolism of sodium acetate-1-C14 in chicks. J. Nutrition 71:379.CrossRefGoogle Scholar
101.Nishiyama, H. 1954. On the characteristics of the transparent fluid. 1. Origin of transparent fluid studied with the aid of P32. Jap. J. Zootech. Sci. 25:102.Google Scholar
102.Norris, G. R. and Klein, J. R. 1961. Incorporation of manganese into duck erythrocytes. Proc. Soc. Exp. Biol. Med. 106: 288.CrossRefGoogle ScholarPubMed
103.Nozaki, H., Hashizume, T., Horii, S., Hiroe, K., Takei, Y., Morimoto, H. and Kaishio, Y. 1952. Calcium metabolism in the laying hen. 2. On the fate and retention of Ca in relation to the ovulation. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 4:137.Google Scholar
104.Nozaki, H., Horii, S. and Hori, Y. 1958. Effects of parathyroid extract on the Ca metabolism. in laying hen. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 15:9.Google Scholar
105.Nozaki, H., Horii, S. and Takei, Y. 1954. Utilization of shell Ca by chick embryo. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 9:89.Google Scholar
106.Nozaki, H., Horii, S., Takei, Y., Hashizume, T., Morimoto, H. and Kaishio, Y. 1953. On the accumulation process of phosphorus compounds in hen's egg. Bull. nat. Inst. Agri. Sci., Japan Series G, No. 7:161.Google Scholar
107.Nozaki, H., Makino, K., Suzuki, M. and Oshima, M. 1959. The characteristics of phosphorus metabolism in the laying hen. 1. Turnover of P32 in liver, serum and plasma. Bull. Nat. Inst. Agri. Sci., Japan Series G. No, 16:49.Google Scholar
108.Nozaki, H., Makino, K., Suzuki, M. and Oshima, M. 1959. The characteristics of phosphorus metabolism in the laying hen. 2. P32 incorporation into the phosphorus fractions of the liver in vitro. Bull. Nat. Inst. Agri. Sci., Japan Series G. No. 16:55.Google Scholar
109.Nozaki, H., and Oshima, M. 1960. Transfer and distribution of I131in laying hens. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 19:59.Google Scholar
110.Nugara, D. and Edwards, H. M. Jr. 1962. The interrelationships of calcium, phosphorus and magnesium on growth, intestinal absorption and skeletal metabolism. XIIth World's Poultry Congress Section Papers p 223.Google Scholar
111.Okonski, J., Lengeman, F. W. and Comar, C. L. 1960. The utilization of effiodine by the chicken embryo. J. Exp. Zool. 145:263.CrossRefGoogle ScholarPubMed
112.Okonski, J., Lengeman, F. W. and Cormar, C. L. 1961. Incorporation of I131 into chicken eggs. Health Physics 6:27.CrossRefGoogle ScholarPubMed
113.Oshima, M., Suzuki, M. and Nozaki, H. 1963. On the albumen secretion in the laying hen. II. The addition of mineral elements into the albumen during the passage of the egg in the oviduct, in special reference to I131. Bull. Nat. Inst. Animal Ind. 1:161.Google Scholar
114.Ousterhout, L. E. 1959. Comparative threonine, valine, histidine and glucose oxidation in chicks. Proc. Soc. Exp. Biol. Med. 102:285.CrossRefGoogle ScholarPubMed
115.Owen, E. E. and Robinson, R. R. 1964. Urea production and excretion by the chicken kidney. Am. J. Physiol. 206:1321.CrossRefGoogle ScholarPubMed
116.Paine, C. M., Newman, H. J. and Taylor, M. W. 1959. Intestinal absorption of methionine and histidine by the chicken. Am. J. Physiol. 197:9.CrossRefGoogle ScholarPubMed
117.Parker, H. E., Andrews, F. N., Carrick, C. W., Creek, R. D. and Hauge, S. M. 1955. Effect of manganese on bone formation studied with radioactive isotopes. Poultry Sci. 34: 1154.CrossRefGoogle Scholar
118.Patrick, H. and Schweitzer, G. K. 1955. Usage of Ca45 in determination of vitamin D depletion and response time in chicks. Poultry Sci. 34:832.CrossRefGoogle Scholar
119.Patrick, H., Voitle, R. A., Hyre, H. M. and Martin, W. G. 1962. Incorporation of radio active phosphorus (P32) in cock sperm. Poultry Sci. 41:1981.CrossRefGoogle Scholar
120.Patterson, R., Youngner, J. S., Weigle, W. O. and Dixon, F. J. 1962. The metabolism of serum proteins in the hen and chick and secretion of serum proteins by the ovary of the hen. J. Gen. Physiol. 45:501.CrossRefGoogle Scholar
121.Pipes, G. W., Premachandra, B. N. and Turner, C. W. 1958. Measurement of the thyroid hormone secretion rate of individual fowls. Poultry Sci. 37:36.CrossRefGoogle Scholar
122.Prockop, D. J., Ebert, P. S. and Shapiro, B. M. 1964. Studies with proline 3, 4-H3 on the hydroxylation of proline during collagen synthesis in chick embryos. Arch. Biochem. Biophys. 106:112.CrossRefGoogle ScholarPubMed
123.Randles, C. A. Jr. 1954. A study of phosphate diffusion in the developing egg with radioactive phosphorus-32. Poultry Sci. 33:1007.Google Scholar
124.Rodman, G. P., Ebaugh, F. G. Jr. and Spivey-Fox, M. R. 1957. The life span of the red blood cell and red blood cell volume in the chicken, pigeon and duck as estimated by the use of Na2 Cr51O2 with observation of red cell turnover rate in the mammal, bird and reptile. Blood, J. Hematol. 12:355.Google Scholar
125.Rogler, J. C., Parker, H. E. and Andrews, F. N. 1962. Influence of parenteral dietary iodine level on thyroid activity of eighteen-day-chick embryos. Proc. Soc. Exp. Biol. Med. 110:220.CrossRefGoogle Scholar
126.Rogler, J. C., Parker, H. E., Andrews, F. N. and Carrick, C. W. 1959. Various factors affecting the iodine-131 uptake by embryonic thyroids. Poultry Sci. 38:405.CrossRefGoogle Scholar
127.Rooks, W. H. II and Dorfman, R. I. 1963. The effect of various steroids on the incorporation of radiosulfur by the growing bones of cockerels. Metabolism 12:242.Google ScholarPubMed
128.Rosenthal, H. L. 1960. Plasma disappearance rate and tissue distribution of radioactive cobalt-labeled cyanocobalamin injected into various animals. Proc. Soc. Exp. Biol. Med. 105:6.CrossRefGoogle Scholar
129.Rosenthal, H. L. 1961. Effect of food restriction on tissue uptake and urinary excretion of Co60-labeled cyanocobalamin by various animals. J. Nutrition 74:65.CrossRefGoogle Scholar
130.Rosenberg, L. L., Goldman, M., LaRoche, G. and Dimick, M. K. 1964. Thyroid function in rats and chickens. Equilibration of injected iodine with existing thyroidal iodine in Long-Evans rats and White Leghorn chickens. Endocrinology 74: 212.CrossRefGoogle ScholarPubMed
131.Rosenberg, L. L., LaRoche, G. and Dimick, M. K. 1963. Thyroid function in chickens and rats. Equilibration of injected iodide with existing thyroidal iodine in White Leghorn cockerels. Endocrinology 72:759.CrossRefGoogle ScholarPubMed
132.Saeki, Y., Katsuragi, T. and Tanabe, Y. 1958. Accumulation of P32 by fowl spermatozoa. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 15:65.Google Scholar
133.Sallis, J. D. and Holdsworth, E. S. 1962. Influence of vitamin D on calcium absorption in the chick. Am. J. Physiol. 203:497.CrossRefGoogle ScholarPubMed
134.Sallis, J. D. and Holdsworth, E. S. 1962. Calcium metabolism in relation to vitamin D3 and adrenal function in the chick. Am. J. Physiol. 203: 506.CrossRefGoogle Scholar
135.Shirley, R. L., Driggers, J. C., McCall, J. T. and Davis, G. K. 1952. Excretion of P32 and Ca45 into the various alimentary segments of hens. Poultry Sci. 31:316.CrossRefGoogle Scholar
136.Shirley, R. L., Driggers, J. C., McCall, J. T., Davis, G. K. and Mehrhof, N. R. 1951. Excretion and retention of P32 and Ca45 by laying hens. Poultry Sci. 30:730.CrossRefGoogle Scholar
137.Shirley, R. L., Driggers, J. C., McCall, J. T., Nienberg, M. and Davis, G. K. 1954. The rate of deposition and turnover of P32 and Ca45 in the tissues of the laying hen. Poultry Sci. 33:932.CrossRefGoogle Scholar
138.Singsen, E. P., Matterson, L. D. and Kozeff, A. 1950. Phosphorus in poultry nutrition. IV. Radioactive phosphorus as a tracer in studying the metabolism of phytin by the turkey poult. Poultry Sci. 29:635.CrossRefGoogle Scholar
139.Smith, A. H. 1959. Follicular permeability and yolk formation. Poultry Sci. 38:1437.CrossRefGoogle Scholar
140.Smith, A. H., Bond, G. H. and Winget, C. M. 1956. Distribution of intravenously injected radiophosphate among turkey tissues. Poultry Sci. 35:576.CrossRefGoogle Scholar
141.Smith, A. H., Winget, C. M. and Blackard, J. R. 1954. The transfer of phosphorus to the hen's egg, under controlled environment, as traced with radiophosphorus (P32). Poultry Sci. 33:908.CrossRefGoogle Scholar
142.Spinks, J. W. T., Berle, M. R. and O'neil, J. B. 1949. Determination of the fate of calcium in the laying hen by means of radiocalcium (Ca45). Science 110: 332.CrossRefGoogle ScholarPubMed
143.Spronk, N. 1961. Thyroid gland fractions of cockerels and radioiodine metabolism. Arch. Neerl. Zool. 14:1 from Abstract, World's Poultry Sci. J. 19:79 (1963).CrossRefGoogle Scholar
144.Stahl, P., Pipes, G. W. and Turner, C. W., 1961. Time required for low temperature to influence thyroxine Secretion rate in fowls. Poultry Sci. 40:646.CrossRefGoogle Scholar
145.Stahl, P., Pipes, G. W. and Turner, C. W. 1961. Effect of varying levels of tapazole on thyroidal I131 uptake in New Hampshire pullets. Poultry Sci. 40:1479.CrossRefGoogle Scholar
146.Suzuki, M. and Nozaki, H. 1959. Role of inorganic S35O4 in egg white in embryonic development of the chick. Bull. Nat. Inst. Agri. Sci., Japan Series G, No. 18:179.Google Scholar
147.Svensson, S. A. 1957. Skeletal retention of injected radiophosphate in chicks kept on feeds of different phosphate content. Nature. 179:972.CrossRefGoogle Scholar
148.Tamir, H. and Ratner, S. 1963. A study of ornithine, citrulline and arginine synthesis in growing chicks. Arch. Biochem. Biophys. 102:259.CrossRefGoogle ScholarPubMed
149.Tanabe, Y. and Komiyama, T. 1961. A new procedure for estimating thyroxine secretion rate with radioiodine. Endocrinology 70:142.CrossRefGoogle Scholar
150.Taylor, R. M. and Saenz, A. C. 1949. The dispersion of P32 and other tracers injected into embryonated eggs. J. Immunol. 63:319.CrossRefGoogle ScholarPubMed
151.Thornton, P. A. and Brownrigg, D. 1961. Calcium utilization and skeletal development in chicks as influenced by parenteral dietary ascorbic acid. J. Nutrition 75:354.CrossRefGoogle Scholar
152.Thornton, P. A., Weber, C. W. and Moreng, R. E. 1959. The effect of ascorbic acid in the diet of adult chickens on calcium utilization by the progeny. J. Nutrition 69:33.CrossRefGoogle ScholarPubMed
153.Tupper, R., Watts, R. W. E. and Wormall, A. 1952. The incorporation of Zn65 into avian eggs. Biochem. J. 51:IX.Google Scholar
154.Vanstone, W. E., Oliver, W. F., Maw, W. A. and Common, R. H. 1957. Observations on the physiological half-life of serum proteins in the cockerel and the laying pullet. Canad. J. Biochem. Physiol. 35:281.CrossRefGoogle ScholarPubMed
155.Vogel, W., Richert, D. A., Pixley, B. Q. and Schulman, M. P. 1960. Heme synthesis in iron deficient duck blood. J. Biol. Chem. 235:1769.CrossRefGoogle Scholar
156.Vohra, P. and Kratzer, F. H. 1959. Incorporation of DL-lysine-2-C14 into melanin pigment of turkey poult feathers. Proc. Soc. Exp. Biol. Med. 100:837.CrossRefGoogle ScholarPubMed
157.Waibel, P. E. and Mraz, F. R. 1964. Ca45, Sr89 and P32 uptake by chicks as influenced by nutritional and endocrine variations. J. Nutrition 84:58.CrossRefGoogle Scholar
158.Walter, E. D., Jensen, L. S. and Dunlap, J. S. 1963. Distribution of Se75 in serum proteins of chicks and influence of selenium on albumen recovery. Proc. Soc. Exp. Biol. Med. 114:527.CrossRefGoogle ScholarPubMed
159.Wasserman, R. H. 1962. Studies on vitamin D3 and the intestinal absorption of calcium and other ions in the rachitic chick. J. Nutrition. 77:69.CrossRefGoogle ScholarPubMed
160.Wasserman, R. H. and Kallfelz, F. A. 1962. Vitamin D3 and unidirectional calcium fluxes across the rachitic chick duodenum. Am. J. Physiol. 203: 221.CrossRefGoogle ScholarPubMed
161.Wasserman, R. H. and Taylor, A. N. 1962. Intestinal pH and deposition of Ca47 in the rachitic chick. Proc. Soc. Exp. Biol. Med. 109:633.CrossRefGoogle ScholarPubMed
162.Webb, M. and Biggers, J. D. 1961. Biosynthesis in chick cartilagenous long-bone rudiments cultivated in vitro on chemically defined media. Biochem. Biophys. Acta. 54:249.CrossRefGoogle ScholarPubMed
163.Webster, R. A. and Ward, T. G. 1953. The dispersion of radioactive phosphorus in the embryonated hen's egg. Arch. Biochem. Biophys. 45:384.CrossRefGoogle ScholarPubMed
164.Wentworth, B. C. and Mellen, W. J. 1961. Effect of thiouracil on plasma PB1131 in the fowl. Poultry Sci. 40:1022.CrossRefGoogle Scholar
165.Winget, C. M. and Smith, A. H. 1959. Dissociation of the calcium-protein complex of laying hen's plasma. Am. J. Physiol. 196:371.CrossRefGoogle ScholarPubMed
166.Winchester, C. F., Comar, C. L. and Davis, G. K. 1949. Thyroid destruction by I131 and replacement therapy. Science 110:302.CrossRefGoogle ScholarPubMed
167.Winchester, C. F. and Davis, G. K. 1952. Influence of thyroxin on growth of chickens. Poultry Sci. 31:31.CrossRefGoogle Scholar
168.Winchester, C. F. and Scarborough, V. C. 1953. The influence of thyroxin on growth and egg production of chickens. Poultry Sci. 32:423.CrossRefGoogle Scholar
169.Wollman, S. H. and Zwilling, E. 1953. Radioiodine metabolism in the chick embryo. Endocrinology 52:526.CrossRefGoogle ScholarPubMed
170.Worker, N. A. and Migicovsky, B. B. 1961. Effect of vitamin D on the utilization of beryllium, magnesium, calcium, strontium and barium in the chick. J. Nutrition 74:490.CrossRefGoogle Scholar
171.Wright, P. L. and Mraz, F. R. 1964. Influence of dietary selenium and age upon the metabolism of selenium-75 by chicks. Poultry Sci. 43947.CrossRefGoogle Scholar
172.Zeigler, T. R., Leach, R. M. Jr., Scott, M. L., Huegin, F., McEvoy, R. K. and Strain, W. H. 1964. Effect of zinc nutrition upon uptake and retention of zinc-65 in the chick. J. Nutrition 82:489.CrossRefGoogle ScholarPubMed
173.Zerebcov, P. E. and Filatov, G. V. 1959. Calcium metabolism in the bird during ontogenesis. Izv. Timiriazev. Sel'skol Akad. 4:143 from Abstract. World's Poultry Sci. J. 17:91 (1961).Google Scholar