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British Poultry Science Volume 37, 1996 - Issue 3
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Nutrition

Relative responses of protein turnover in three different skeletal muscles to dietary lysine deficiency in chicksFootnote1

S. Tesseraud Station de Recherches Avicoles, Institut National de la Recherche Agronomique, Centre de Tours‐Nouzilly, Nouzilly, 37380, France
,
N. Maaa Station de Recherches Avicoles, Institut National de la Recherche Agronomique, Centre de Tours‐Nouzilly, Nouzilly, 37380, France
,
R. Peresson Station de Recherches Avicoles, Institut National de la Recherche Agronomique, Centre de Tours‐Nouzilly, Nouzilly, 37380, France
&
A. M. Chagneau Station de Recherches Avicoles, Institut National de la Recherche Agronomique, Centre de Tours‐Nouzilly, Nouzilly, 37380, France
Pages 641-650 | Received 10 Jan 1996, Published online: 08 Nov 2007

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Joseph P. Gulizia, Susan M. Bonilla, Jose I. Vargas, Santiago J. Sasia, Sara Llamas-Moya, Tri Duong & Wilmer J. Pacheco. (2023) The effects of phytase and a multicarbohydrase complex containing α-galactosidase on performance, processing yield, and nutrient digestibility in the broiler chicken. Journal of Applied Animal Research 51:1, pages 308-322.
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C. Das, B.C. Roy, I. Oshima, H. Miyachi, S. Nishimura, H. Iwamoto & S. Tabata. (2009) Collagen content and architecture of the puboischiofemoralis muscle in male chicks and broilers with different growth rates on various nutritional planes. British Poultry Science 50:4, pages 424-435.
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S. Dänicke, W. Böttcher, O. Simon & H. Jeroch. (2001) The Measurement of Muscle Protein Synthesis in Broilers with a Flooding Dose Technique: Use of 15N-Labelled Phenylalanine, GC-MS and GC-C-IRMS. Isotopes in Environmental and Health Studies 37:3, pages 213-225.
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M. Aman Yaman, K. Kita & J. Okumura. (2000) Different responses of protein synthesis to refeeding in various muscles of fasted chicks. British Poultry Science 41:2, pages 224-228.
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W.A. DozierIIIIII, M.T. Kidd, A. Corzo, J. Anderson & S.L. Branton. (2006) Growth Performance, Meat Yield, and Economic Responses of Broilers Provided Diets Varying in Amino Acid Density from Thirty-Six to Fifty-Nine Days of Age. Journal of Applied Poultry Research 15:3, pages 383-393.
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LF Araújo, OM Junqueira, CSS Araújo, LCGS Barbosa, JH Ortolan, DE Faria & JH Stringhini. (2005) Energy and lysine for broilers from 44 to 55 days of age. Revista Brasileira de Ciência Avícola 7:4, pages 237-241.
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M. Quentin, I. Bouvarel & M. Picard. (2005) Effects of the Starter Diet, Light Intensity, and Essential Amino Acids Level on Growth and Carcass Composition of Broilers. Journal of Applied Poultry Research 14:1, pages 69-76.
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M. Urdaneta-Rincon & S. Leeson. (2004) Muscle (pectoralis major) protein turnover in young broiler chickens fed graded levels of lysine and crude protein. Poultry Science 83:11, pages 1897-1903.
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D. Sklan & Y. Noy. (2004) Catabolism and Deposition of Amino Acids in Growing Chicks: Effect of Dietary Supply. Poultry Science 83:6, pages 952-961.
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Anthony Guernec, Bernadette Chevalier & Michel J. Duclos. (2004) Nutrient supply enhances both IGF-I and MSTN mRNA levels in chicken skeletal muscle. Domestic Animal Endocrinology 26:2, pages 143-154.
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S Tesseraud, RA Pym, E Le Bihan-Duval & MJ Duclos. (2003) Response of broilers selected on carcass quality to dietary protein supply: live performance, muscle development, and circulating insulin-like growth factors (IGF-I and -II). Poultry Science 82:6, pages 1011-1016.
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Rafael Neme, Luiz Fernando Teixeira Albino, Horacio Santiago Rostagno, Ramalho José Barbosa Rodrigueiro & Rodrigo Santana Toledo. (2001) Determinação da Biodisponibilidade da Lisina Sulfato e Lisina HCl com Frangos de Corte. Revista Brasileira de Zootecnia 30:6, pages 1750-1759.
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Yukio Akiba. (2001) Potential of Nutrition in the Control of Growth and Meat Quality in Broilers.. The Journal of Poultry Science 38:1, pages 67-80.
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José Humberto Vilar da Silva, Luiz Fernando Teixeira Albino, Horacio Santiago Rostagno, Paulo Cezar Gomes & Ricardo Frederico Euclydes. (2000) Exigência de lisina para aves de reposição de 7 a 12 semanas de idade. Revista Brasileira de Zootecnia 29:6, pages 1786-1794.
Crossref
S Tesseraud, E Le Bihan-Duval, R Peresson, J Michel & AM Chagneau. (1999) Response of chick lines selected on carcass quality to dietary lysine supply: live performance and muscle development. Poultry Science 78:1, pages 80-84.
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M.T. Kidd, B.J. Kerr, K.M. Halpin, G.W. McWard & C.L. Quarles. (1998) Lysine Levels in Starter and Grower-Finisher Diets Affect Broiler Performance and Carcass Traits. Journal of Applied Poultry Research 7:4, pages 351-358.
Crossref
B. Leclercq. (1998) Lysine: Specific effects of lysine on broiler production: comparison with threonine and valine. Poultry Science 77:1, pages 118-123.
Crossref
K. Angkanaporn, V. Ravindran, Y. Mollah & W.L. Bryden. (1997) Homoarginine Influences Voluntary Feed Intake, Tissue Basic Amino Acid Concentrations and Arginase Activity in Chickens1–3. The Journal of Nutrition 127:6, pages 1128-1136.
Crossref

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