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Artigo de periodico
Effect of an acute moderate-exercise session on metabolic and inflammatory profile of PPAR-α knockout mice (2017)
Silveira, Loreana S.; Pimentel, Gustavo D.; Souza, Camila O.; Biondo, Luana A.; Teixeira, Alexandre Abílio S.; Lima, Edson A.; Batatinha, Helena A. P.; Rosa Neto, José Cesar ; Lira, Fábio S.
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: HISTOLOGIA
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ABNT
SILVEIRA, Loreana S. et al. Effect of an acute moderate-exercise session on metabolic and inflammatory profile of PPAR-α knockout mice. Cell Biochemistry and Function, v. 35, n. 8, p. 510-517, 2017Tradução . . Disponível em: https://doi.org/10.1002/cbf.3308. Acesso em: 28 nov. 2025.
APA
Silveira, L. S., Pimentel, G. D., Souza, C. O., Biondo, L. A., Teixeira, A. A. S., Lima, E. A., et al. (2017). Effect of an acute moderate-exercise session on metabolic and inflammatory profile of PPAR-α knockout mice. Cell Biochemistry and Function, 35( 8), 510-517. doi:10.1002/cbf.3308
NLM
Silveira LS, Pimentel GD, Souza CO, Biondo LA, Teixeira AAS, Lima EA, Batatinha HAP, Rosa Neto JC, Lira FS. Effect of an acute moderate-exercise session on metabolic and inflammatory profile of PPAR-α knockout mice [Internet]. Cell Biochemistry and Function. 2017 ; 35( 8): 510-517.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3308
Vancouver
Silveira LS, Pimentel GD, Souza CO, Biondo LA, Teixeira AAS, Lima EA, Batatinha HAP, Rosa Neto JC, Lira FS. Effect of an acute moderate-exercise session on metabolic and inflammatory profile of PPAR-α knockout mice [Internet]. Cell Biochemistry and Function. 2017 ; 35( 8): 510-517.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3308
Artigo de periodico
The influence of Shc proteins and high-fat diet on energy metabolism of mice (2017)
Baldassini, W. A; Ramsey, J. J; Hagopian, K; Lanna, Dante Pazzanese Duarte
Source: Cell Biochemistry and Function. Unidade: ESALQ
Subjects: ATIVAÇÃO ENZIMÁTICA, GORDURAS NA DIETA, METABOLISMO ENERGÉTICO, OXIDAÇÃO, PROTEÍNAS
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BALDASSINI, W. A et al. The influence of Shc proteins and high-fat diet on energy metabolism of mice. Cell Biochemistry and Function, v. 35, n. 8, p. 527-537, 2017Tradução . . Disponível em: https://doi.org/10.1002/cbf.3310. Acesso em: 28 nov. 2025.
APA
Baldassini, W. A., Ramsey, J. J., Hagopian, K., & Lanna, D. P. D. (2017). The influence of Shc proteins and high-fat diet on energy metabolism of mice. Cell Biochemistry and Function, 35( 8), 527-537. doi:10.1002/cbf.3310
NLM
Baldassini WA, Ramsey JJ, Hagopian K, Lanna DPD. The influence of Shc proteins and high-fat diet on energy metabolism of mice [Internet]. Cell Biochemistry and Function. 2017 ; 35( 8): 527-537.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3310
Vancouver
Baldassini WA, Ramsey JJ, Hagopian K, Lanna DPD. The influence of Shc proteins and high-fat diet on energy metabolism of mice [Internet]. Cell Biochemistry and Function. 2017 ; 35( 8): 527-537.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3310
Artigo de periodico
Hypothalamic energy metabolism is impaired by doxorubicin independently of inflammation in non-tumour-bearing rats (2015)
Antunes, Barbara de Moura Mello ; Lira, Fabio Santos; Pimentel, Gustavo Duarte; Rosa Neto, José Cesar ; Esteves, Andrea Maculano; Oyama, Lila Missae; Souza, Cláudio Teodoro de; Gonçalves, Cinara Ludvig; Streck, Emilio Luiz; Rodrigues, Bruno; Santos, Ronaldo Vagner Thomatieli dos ; Mello, Marco Túlio de
Source: Cell Biochemistry and Function. Unidade: ICB
Subjects: HISTOLOGIA, RATOS, METABOLISMO, INFLAMAÇÃO, HIPOTÁLAMO
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ANTUNES, Barbara de Moura Mello et al. Hypothalamic energy metabolism is impaired by doxorubicin independently of inflammation in non-tumour-bearing rats. Cell Biochemistry and Function, v. 33, n. 6, p. 393-397, 2015Tradução . . Disponível em: https://doi.org/10.1002/cbf.3127. Acesso em: 28 nov. 2025.
APA
Antunes, B. de M. M., Lira, F. S., Pimentel, G. D., Rosa Neto, J. C., Esteves, A. M., Oyama, L. M., et al. (2015). Hypothalamic energy metabolism is impaired by doxorubicin independently of inflammation in non-tumour-bearing rats. Cell Biochemistry and Function, 33( 6), 393-397. doi:10.1002/cbf.3127
NLM
Antunes B de MM, Lira FS, Pimentel GD, Rosa Neto JC, Esteves AM, Oyama LM, Souza CT de, Gonçalves CL, Streck EL, Rodrigues B, Santos RVT dos, Mello MT de. Hypothalamic energy metabolism is impaired by doxorubicin independently of inflammation in non-tumour-bearing rats [Internet]. Cell Biochemistry and Function. 2015 ; 33( 6): 393-397.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3127
Vancouver
Antunes B de MM, Lira FS, Pimentel GD, Rosa Neto JC, Esteves AM, Oyama LM, Souza CT de, Gonçalves CL, Streck EL, Rodrigues B, Santos RVT dos, Mello MT de. Hypothalamic energy metabolism is impaired by doxorubicin independently of inflammation in non-tumour-bearing rats [Internet]. Cell Biochemistry and Function. 2015 ; 33( 6): 393-397.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3127
Artigo de periodico
Metabolite of tryptophan promoting changes in EEG signal and the oxidative status of the brain (2014)
Ferrari, Rosana; Pugine, Silvana Marina Piccoli; Arce, Aldo Ivan Céspedes; Costa, Ernane Jose Xavier; Melo, Mariza Pires de
Source: Cell Biochemistry and Function. Unidade: FZEA
Subjects: NEUROTRANSMISSORES, METABÓLITOS, ESTRESSE OXIDATIVO, ELETROENCEFALOGRAFIA
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FERRARI, Rosana et al. Metabolite of tryptophan promoting changes in EEG signal and the oxidative status of the brain. Cell Biochemistry and Function, v. 32, n. 6, p. 496-501, 2014Tradução . . Disponível em: https://doi.org/10.1002/cbf.3043. Acesso em: 28 nov. 2025.
APA
Ferrari, R., Pugine, S. M. P., Arce, A. I. C., Costa, E. J. X., & Melo, M. P. de. (2014). Metabolite of tryptophan promoting changes in EEG signal and the oxidative status of the brain. Cell Biochemistry and Function, 32( 6), 496-501. doi:10.1002/cbf.3043
NLM
Ferrari R, Pugine SMP, Arce AIC, Costa EJX, Melo MP de. Metabolite of tryptophan promoting changes in EEG signal and the oxidative status of the brain [Internet]. Cell Biochemistry and Function. 2014 ; 32( 6): 496-501.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3043
Vancouver
Ferrari R, Pugine SMP, Arce AIC, Costa EJX, Melo MP de. Metabolite of tryptophan promoting changes in EEG signal and the oxidative status of the brain [Internet]. Cell Biochemistry and Function. 2014 ; 32( 6): 496-501.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3043
Artigo de periodico
Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie restricted rats (2014)
Pedroso, João Alfredo Bolivar; Nishimura, Luciana Sigueta; Matos Neto, Emidio Marques de; Donato Junior, José ; Tirapegui, Júlio
Source: Cell Biochemistry and Function. Unidades: ICB, FCF
Subjects: INTERLEUCINA 6, ALBUMINAS, SUPLEMENTAÇÃO ALIMENTAR
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ABNT
PEDROSO, João Alfredo Bolivar et al. Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie restricted rats. Cell Biochemistry and Function, v. 32, n. 4, p. 326-332, 2014Tradução . . Disponível em: https://doi.org/10.1002/cbf.3017. Acesso em: 28 nov. 2025.
APA
Pedroso, J. A. B., Nishimura, L. S., Matos Neto, E. M. de, Donato Junior, J., & Tirapegui, J. (2014). Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie restricted rats. Cell Biochemistry and Function, 32( 4), 326-332. doi:10.1002/cbf.3017
NLM
Pedroso JAB, Nishimura LS, Matos Neto EM de, Donato Junior J, Tirapegui J. Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie restricted rats [Internet]. Cell Biochemistry and Function. 2014 ; 32( 4): 326-332.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3017
Vancouver
Pedroso JAB, Nishimura LS, Matos Neto EM de, Donato Junior J, Tirapegui J. Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie restricted rats [Internet]. Cell Biochemistry and Function. 2014 ; 32( 4): 326-332.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.3017
Artigo de periodico
Isocaloric intake of a high-fat diet promotes insulin resistance and inflammation in Wistar rats (2013)
Jacob, Patricia Silva; Fujii, Tatiane Mieko de Meneses; Yamada, Mónica; Borges, Maria Carolina; Pantaleão, Lucas Carminatti; Borelli, Primavera ; Fock, Ricardo Ambrósio ; Rogero, Marcelo Macedo
Source: Cell Biochemistry and Function. Unidades: FCF, FSP
Subjects: OBESIDADE, INFLAMAÇÃO, INSULINA (RESISTÊNCIA)
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ABNT
JACOB, Patricia Silva et al. Isocaloric intake of a high-fat diet promotes insulin resistance and inflammation in Wistar rats. Cell Biochemistry and Function, v. 31, n. 3, p. 244-253, 2013Tradução . . Disponível em: https://doi.org/10.1002/cbf.2894. Acesso em: 28 nov. 2025.
APA
Jacob, P. S., Fujii, T. M. de M., Yamada, M., Borges, M. C., Pantaleão, L. C., Borelli, P., et al. (2013). Isocaloric intake of a high-fat diet promotes insulin resistance and inflammation in Wistar rats. Cell Biochemistry and Function, 31( 3), 244-253. doi:10.1002/cbf.2894
NLM
Jacob PS, Fujii TM de M, Yamada M, Borges MC, Pantaleão LC, Borelli P, Fock RA, Rogero MM. Isocaloric intake of a high-fat diet promotes insulin resistance and inflammation in Wistar rats [Internet]. Cell Biochemistry and Function. 2013 ; 31( 3): 244-253.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2894
Vancouver
Jacob PS, Fujii TM de M, Yamada M, Borges MC, Pantaleão LC, Borelli P, Fock RA, Rogero MM. Isocaloric intake of a high-fat diet promotes insulin resistance and inflammation in Wistar rats [Internet]. Cell Biochemistry and Function. 2013 ; 31( 3): 244-253.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2894
Artigo de periodico
Diet-induced obesity impairs AKT signalling in the retina and causes retinal degeneration (2013)
Marçal, Anderson Carlos; Leonelli, Mauro; Fiamoncini, Jarlei ; Deschamps, Francisco C.; Rodrigues, Maria A. M.; Curi, Rui; Carpinelli, Angelo Rafael ; Britto, Luiz Roberto Giorgetti de ; Carvalho, Carla Roberta de Oliveira
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
MARÇAL, Anderson Carlos et al. Diet-induced obesity impairs AKT signalling in the retina and causes retinal degeneration. Cell Biochemistry and Function, v. 31, n. 1, p. 65-74, 2013Tradução . . Disponível em: https://doi.org/10.1002/cbf.2861. Acesso em: 28 nov. 2025.
APA
Marçal, A. C., Leonelli, M., Fiamoncini, J., Deschamps, F. C., Rodrigues, M. A. M., Curi, R., et al. (2013). Diet-induced obesity impairs AKT signalling in the retina and causes retinal degeneration. Cell Biochemistry and Function, 31( 1), 65-74. doi:10.1002/cbf.2861
NLM
Marçal AC, Leonelli M, Fiamoncini J, Deschamps FC, Rodrigues MAM, Curi R, Carpinelli AR, Britto LRG de, Carvalho CR de O. Diet-induced obesity impairs AKT signalling in the retina and causes retinal degeneration [Internet]. Cell Biochemistry and Function. 2013 ; 31( 1): 65-74.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2861
Vancouver
Marçal AC, Leonelli M, Fiamoncini J, Deschamps FC, Rodrigues MAM, Curi R, Carpinelli AR, Britto LRG de, Carvalho CR de O. Diet-induced obesity impairs AKT signalling in the retina and causes retinal degeneration [Internet]. Cell Biochemistry and Function. 2013 ; 31( 1): 65-74.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2861
Artigo de periodico
Tryptamine and dimethyltryptamine inhibit indoleamine 2,3 dioxygenase and increase the tumor-reactive effect of peripheral blood mononuclear cells (2013)
Tourino, Melissa Cavalheiro; Oliveira, Edson Mendes de; Bellé, Luziane Potrich; Knebel, Franciele Hinterholz; Albuquerque, Renata Chaves ; Dörr, Felipe Augusto; Okada, Sabrina Sayori; Migliorini, Silene; Soares, Irene da Silva ; Campa, Ana
Source: Cell Biochemistry and Function. Unidade: FCF
Subjects: SEROTONINA, METABÓLITOS
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ABNT
TOURINO, Melissa Cavalheiro et al. Tryptamine and dimethyltryptamine inhibit indoleamine 2,3 dioxygenase and increase the tumor-reactive effect of peripheral blood mononuclear cells. Cell Biochemistry and Function, v. 31, n. 5, p. 361-364, 2013Tradução . . Disponível em: https://doi.org/10.1002/cbf.2980. Acesso em: 28 nov. 2025.
APA
Tourino, M. C., Oliveira, E. M. de, Bellé, L. P., Knebel, F. H., Albuquerque, R. C., Dörr, F. A., et al. (2013). Tryptamine and dimethyltryptamine inhibit indoleamine 2,3 dioxygenase and increase the tumor-reactive effect of peripheral blood mononuclear cells. Cell Biochemistry and Function, 31( 5), 361-364. doi:10.1002/cbf.2980
NLM
Tourino MC, Oliveira EM de, Bellé LP, Knebel FH, Albuquerque RC, Dörr FA, Okada SS, Migliorini S, Soares I da S, Campa A. Tryptamine and dimethyltryptamine inhibit indoleamine 2,3 dioxygenase and increase the tumor-reactive effect of peripheral blood mononuclear cells [Internet]. Cell Biochemistry and Function. 2013 ; 31( 5): 361-364.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2980
Vancouver
Tourino MC, Oliveira EM de, Bellé LP, Knebel FH, Albuquerque RC, Dörr FA, Okada SS, Migliorini S, Soares I da S, Campa A. Tryptamine and dimethyltryptamine inhibit indoleamine 2,3 dioxygenase and increase the tumor-reactive effect of peripheral blood mononuclear cells [Internet]. Cell Biochemistry and Function. 2013 ; 31( 5): 361-364.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.2980
Artigo de periodico
Participation of the liver gluconeogenesis in the glibenclamideinduced hypoglycaemia in rats (2011)
Geisler, Sandonaid Andrei; Felisberto-Junior, Antonio Machado; Tavoni, Thauany Martins; Carrara, Márcia Aparecida; Curi, Rui; Bazotte, Roberto Barbosa
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
GEISLER, Sandonaid Andrei et al. Participation of the liver gluconeogenesis in the glibenclamideinduced hypoglycaemia in rats. Cell Biochemistry and Function, v. 29, n. 2, p. 81-86, 2011Tradução . . Disponível em: https://doi.org/10.1002/cbf.1722. Acesso em: 28 nov. 2025.
APA
Geisler, S. A., Felisberto-Junior, A. M., Tavoni, T. M., Carrara, M. A., Curi, R., & Bazotte, R. B. (2011). Participation of the liver gluconeogenesis in the glibenclamideinduced hypoglycaemia in rats. Cell Biochemistry and Function, 29( 2), 81-86. doi:10.1002/cbf.1722
NLM
Geisler SA, Felisberto-Junior AM, Tavoni TM, Carrara MA, Curi R, Bazotte RB. Participation of the liver gluconeogenesis in the glibenclamideinduced hypoglycaemia in rats [Internet]. Cell Biochemistry and Function. 2011 ; 29( 2): 81-86.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1722
Vancouver
Geisler SA, Felisberto-Junior AM, Tavoni TM, Carrara MA, Curi R, Bazotte RB. Participation of the liver gluconeogenesis in the glibenclamideinduced hypoglycaemia in rats [Internet]. Cell Biochemistry and Function. 2011 ; 29( 2): 81-86.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1722
Artigo de periodico
Soybean and sunflower oil-induced insulin resistance correlates with impaired GLUT4 protein expression and translocation specifically in white adipose tissue (2010)
Poletto, Ana Cláudia; Anhê, Gabriel Forato; Eichler, Paula; Takahashi, Hilton; Furuya, Daniela Tomie; Okamoto, Maristela Mitiko; Curi, Rui; Machado, Ubiratan Fabres
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
POLETTO, Ana Cláudia et al. Soybean and sunflower oil-induced insulin resistance correlates with impaired GLUT4 protein expression and translocation specifically in white adipose tissue. Cell Biochemistry and Function, v. 28, n. 2, p. 114-121, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1628. Acesso em: 28 nov. 2025.
APA
Poletto, A. C., Anhê, G. F., Eichler, P., Takahashi, H., Furuya, D. T., Okamoto, M. M., et al. (2010). Soybean and sunflower oil-induced insulin resistance correlates with impaired GLUT4 protein expression and translocation specifically in white adipose tissue. Cell Biochemistry and Function, 28( 2), 114-121. doi:10.1002/cbf.1628
NLM
Poletto AC, Anhê GF, Eichler P, Takahashi H, Furuya DT, Okamoto MM, Curi R, Machado UF. Soybean and sunflower oil-induced insulin resistance correlates with impaired GLUT4 protein expression and translocation specifically in white adipose tissue [Internet]. Cell Biochemistry and Function. 2010 ; 28( 2): 114-121.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1628
Vancouver
Poletto AC, Anhê GF, Eichler P, Takahashi H, Furuya DT, Okamoto MM, Curi R, Machado UF. Soybean and sunflower oil-induced insulin resistance correlates with impaired GLUT4 protein expression and translocation specifically in white adipose tissue [Internet]. Cell Biochemistry and Function. 2010 ; 28( 2): 114-121.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1628
Artigo de periodico
Lymphocytes transfer [14C]-labeled fatty acids to skeletal muscle in culture; modulation by exercise (2010)
Brito, Gleisson A. P.; Nunes, Everson A.; Nogata, Cláudia; Yamazaky, Ricardo K.; Naliwaiko, Katya; Curi, Rui; Fernandes, Luiz C.
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA (HUMANO)
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ABNT
BRITO, Gleisson A. P. et al. Lymphocytes transfer [14C]-labeled fatty acids to skeletal muscle in culture; modulation by exercise. Cell Biochemistry and Function, v. 28, n. 4, p. 278-282, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1652. Acesso em: 28 nov. 2025.
APA
Brito, G. A. P., Nunes, E. A., Nogata, C., Yamazaky, R. K., Naliwaiko, K., Curi, R., & Fernandes, L. C. (2010). Lymphocytes transfer [14C]-labeled fatty acids to skeletal muscle in culture; modulation by exercise. Cell Biochemistry and Function, 28( 4), 278-282. doi:10.1002/cbf.1652
NLM
Brito GAP, Nunes EA, Nogata C, Yamazaky RK, Naliwaiko K, Curi R, Fernandes LC. Lymphocytes transfer [14C]-labeled fatty acids to skeletal muscle in culture; modulation by exercise [Internet]. Cell Biochemistry and Function. 2010 ; 28( 4): 278-282.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1652
Vancouver
Brito GAP, Nunes EA, Nogata C, Yamazaky RK, Naliwaiko K, Curi R, Fernandes LC. Lymphocytes transfer [14C]-labeled fatty acids to skeletal muscle in culture; modulation by exercise [Internet]. Cell Biochemistry and Function. 2010 ; 28( 4): 278-282.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1652
Artigo de periodico
Exercise prevents the effects of experimental arthritis on the metabolism and function of immune cells (2010)
Navarro, Francisco; Bacurau, Aline Villa Nova; Almeida, Sandro S.; Barros, Carlos C.; Moraes, Milton R.; Pesquero, Jorge L.; Ribeiro, Sandra Maria Lima; Araújo, Ronaldo C.; Rosa, Luis Fernando Bicudo Pereira Costa; Bacurau, Reury Frank Pereira
Source: Cell Biochemistry and Function. Unidades: EACH, ICB
Assunto: HISTOLOGIA
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ABNT
NAVARRO, Francisco et al. Exercise prevents the effects of experimental arthritis on the metabolism and function of immune cells. Cell Biochemistry and Function, v. 28, n. 4, p. 266-273, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1647. Acesso em: 28 nov. 2025.
APA
Navarro, F., Bacurau, A. V. N., Almeida, S. S., Barros, C. C., Moraes, M. R., Pesquero, J. L., et al. (2010). Exercise prevents the effects of experimental arthritis on the metabolism and function of immune cells. Cell Biochemistry and Function, 28( 4), 266-273. doi:10.1002/cbf.1647
NLM
Navarro F, Bacurau AVN, Almeida SS, Barros CC, Moraes MR, Pesquero JL, Ribeiro SML, Araújo RC, Rosa LFBPC, Bacurau RFP. Exercise prevents the effects of experimental arthritis on the metabolism and function of immune cells [Internet]. Cell Biochemistry and Function. 2010 ; 28( 4): 266-273.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1647
Vancouver
Navarro F, Bacurau AVN, Almeida SS, Barros CC, Moraes MR, Pesquero JL, Ribeiro SML, Araújo RC, Rosa LFBPC, Bacurau RFP. Exercise prevents the effects of experimental arthritis on the metabolism and function of immune cells [Internet]. Cell Biochemistry and Function. 2010 ; 28( 4): 266-273.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1647
Artigo de periodico
Testosterone suppresses oxidative stress in human neutrophils (2010)
Marin, Douglas Popp; Bolin, Anaysa Paola; Santos, Rita de Cássia Macedo dos; Curi, Rui; Otton, Rosemari
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
MARIN, Douglas Popp et al. Testosterone suppresses oxidative stress in human neutrophils. Cell Biochemistry and Function, v. 28, n. 5, p. 394-402, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1669. Acesso em: 28 nov. 2025.
APA
Marin, D. P., Bolin, A. P., Santos, R. de C. M. dos, Curi, R., & Otton, R. (2010). Testosterone suppresses oxidative stress in human neutrophils. Cell Biochemistry and Function, 28( 5), 394-402. doi:10.1002/cbf.1669
NLM
Marin DP, Bolin AP, Santos R de CM dos, Curi R, Otton R. Testosterone suppresses oxidative stress in human neutrophils [Internet]. Cell Biochemistry and Function. 2010 ; 28( 5): 394-402.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1669
Vancouver
Marin DP, Bolin AP, Santos R de CM dos, Curi R, Otton R. Testosterone suppresses oxidative stress in human neutrophils [Internet]. Cell Biochemistry and Function. 2010 ; 28( 5): 394-402.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1669
Artigo de periodico
Experimental chronic low-frequency resistance training produces skeletal muscle hypertrophy in the absence of muscle damage and metabolic stress markers (2010)
Zanchi, Nelo Eidy; Lira, Fabio Santos; Seelaender, Marília Cerqueira Leite; Lancha Junior, Antonio Herbert
Source: Cell Biochemistry and Function. Unidades: ICB, EEFE
Assunto: HISTOLOGIA
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ABNT
ZANCHI, Nelo Eidy et al. Experimental chronic low-frequency resistance training produces skeletal muscle hypertrophy in the absence of muscle damage and metabolic stress markers. Cell Biochemistry and Function, v. 28, n. 3, p. 232-8, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1665. Acesso em: 28 nov. 2025.
APA
Zanchi, N. E., Lira, F. S., Seelaender, M. C. L., & Lancha Junior, A. H. (2010). Experimental chronic low-frequency resistance training produces skeletal muscle hypertrophy in the absence of muscle damage and metabolic stress markers. Cell Biochemistry and Function, 28( 3), 232-8. doi:10.1002/cbf.1665
NLM
Zanchi NE, Lira FS, Seelaender MCL, Lancha Junior AH. Experimental chronic low-frequency resistance training produces skeletal muscle hypertrophy in the absence of muscle damage and metabolic stress markers [Internet]. Cell Biochemistry and Function. 2010 ; 28( 3): 232-8.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1665
Vancouver
Zanchi NE, Lira FS, Seelaender MCL, Lancha Junior AH. Experimental chronic low-frequency resistance training produces skeletal muscle hypertrophy in the absence of muscle damage and metabolic stress markers [Internet]. Cell Biochemistry and Function. 2010 ; 28( 3): 232-8.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1665
Artigo de periodico
The novel ruthenium—γ-linolenic complex [Ru2(aGLA)4Cl] inhibits C6 rat glioma cell proliferation and induces changes in mitochondrial membrane potential, increased reactive oxygen species generation and apoptosis in vitro (2010)
Ribeiro, Geise; Benadiba, Marcel; Silva, Denise de Oliveira ; Colquhoun, Alison
Source: Cell Biochemistry and Function. Unidades: ICB, IQ
Assunto: HISTOLOGIA
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ABNT
RIBEIRO, Geise et al. The novel ruthenium—γ-linolenic complex [Ru2(aGLA)4Cl] inhibits C6 rat glioma cell proliferation and induces changes in mitochondrial membrane potential, increased reactive oxygen species generation and apoptosis in vitro. Cell Biochemistry and Function, v. 28, n. 1, p. 15-23, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1626. Acesso em: 28 nov. 2025.
APA
Ribeiro, G., Benadiba, M., Silva, D. de O., & Colquhoun, A. (2010). The novel ruthenium—γ-linolenic complex [Ru2(aGLA)4Cl] inhibits C6 rat glioma cell proliferation and induces changes in mitochondrial membrane potential, increased reactive oxygen species generation and apoptosis in vitro. Cell Biochemistry and Function, 28( 1), 15-23. doi:10.1002/cbf.1626
NLM
Ribeiro G, Benadiba M, Silva D de O, Colquhoun A. The novel ruthenium—γ-linolenic complex [Ru2(aGLA)4Cl] inhibits C6 rat glioma cell proliferation and induces changes in mitochondrial membrane potential, increased reactive oxygen species generation and apoptosis in vitro [Internet]. Cell Biochemistry and Function. 2010 ; 28( 1): 15-23.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1626
Vancouver
Ribeiro G, Benadiba M, Silva D de O, Colquhoun A. The novel ruthenium—γ-linolenic complex [Ru2(aGLA)4Cl] inhibits C6 rat glioma cell proliferation and induces changes in mitochondrial membrane potential, increased reactive oxygen species generation and apoptosis in vitro [Internet]. Cell Biochemistry and Function. 2010 ; 28( 1): 15-23.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1626
Artigo de periodico
Effects of supplementation with free glutamine and the dipeptide alanyl-glutamine on parameters of muscle damage and inflammation in rats submitted to prolonged exercise (2010)
Cruzat, Vinicius Fernandes; Rogero, Marcelo Macedo ; Tirapegui, Júlio
Source: Cell Biochemistry and Function. Unidades: FSP, FCF
Subjects: SUPLEMENTAÇÃO ALIMENTAR, GLUTAMINA, EXERCÍCIO FÍSICO
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
CRUZAT, Vinicius Fernandes e ROGERO, Marcelo Macedo e TIRAPEGUI, Júlio. Effects of supplementation with free glutamine and the dipeptide alanyl-glutamine on parameters of muscle damage and inflammation in rats submitted to prolonged exercise. Cell Biochemistry and Function, v. 28, n. 1, p. 24-30, 2010Tradução . . Disponível em: https://doi.org/10.1002/cbf.1611. Acesso em: 28 nov. 2025.
APA
Cruzat, V. F., Rogero, M. M., & Tirapegui, J. (2010). Effects of supplementation with free glutamine and the dipeptide alanyl-glutamine on parameters of muscle damage and inflammation in rats submitted to prolonged exercise. Cell Biochemistry and Function, 28( 1), 24-30. doi:10.1002/cbf.1611
NLM
Cruzat VF, Rogero MM, Tirapegui J. Effects of supplementation with free glutamine and the dipeptide alanyl-glutamine on parameters of muscle damage and inflammation in rats submitted to prolonged exercise [Internet]. Cell Biochemistry and Function. 2010 ; 28( 1): 24-30.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1611
Vancouver
Cruzat VF, Rogero MM, Tirapegui J. Effects of supplementation with free glutamine and the dipeptide alanyl-glutamine on parameters of muscle damage and inflammation in rats submitted to prolonged exercise [Internet]. Cell Biochemistry and Function. 2010 ; 28( 1): 24-30.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1611
Artigo de periodico
Effects of short chain fatty acids on effector mechanisms of neutrophils (2009)
Vinolo, Marco Aurelio Ramirez; Hatanaka, Elaine; Lambertucci, Rafael H.; Newsholme, Philip; Curi, Rui
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
VINOLO, Marco Aurelio Ramirez et al. Effects of short chain fatty acids on effector mechanisms of neutrophils. Cell Biochemistry and Function, v. 27, n. 1, p. 48-55, 2009Tradução . . Disponível em: https://doi.org/10.1002/cbf.1533. Acesso em: 28 nov. 2025.
APA
Vinolo, M. A. R., Hatanaka, E., Lambertucci, R. H., Newsholme, P., & Curi, R. (2009). Effects of short chain fatty acids on effector mechanisms of neutrophils. Cell Biochemistry and Function, 27( 1), 48-55. doi:10.1002/cbf.1533
NLM
Vinolo MAR, Hatanaka E, Lambertucci RH, Newsholme P, Curi R. Effects of short chain fatty acids on effector mechanisms of neutrophils [Internet]. Cell Biochemistry and Function. 2009 ; 27( 1): 48-55.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1533
Vancouver
Vinolo MAR, Hatanaka E, Lambertucci RH, Newsholme P, Curi R. Effects of short chain fatty acids on effector mechanisms of neutrophils [Internet]. Cell Biochemistry and Function. 2009 ; 27( 1): 48-55.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1533
Artigo de periodico
Regulation of inflammation in the adipose tissue in cancer cachexia: effect of exercise (2009)
Lira, Fábio S.; Rosa, José C.; Zanchi, Nelo E.; Yamashita, Alex Shimura; Lopes, Renato D.; Lopes, Antonio C.; Batista Jr., Miguel L.; Seelaender, Marília Cerqueira Leite
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: HISTOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
LIRA, Fábio S. et al. Regulation of inflammation in the adipose tissue in cancer cachexia: effect of exercise. Cell Biochemistry and Function, v. 27, n. 2, p. 71-75, 2009Tradução . . Disponível em: https://doi.org/10.1002/cbf.1540. Acesso em: 28 nov. 2025.
APA
Lira, F. S., Rosa, J. C., Zanchi, N. E., Yamashita, A. S., Lopes, R. D., Lopes, A. C., et al. (2009). Regulation of inflammation in the adipose tissue in cancer cachexia: effect of exercise. Cell Biochemistry and Function, 27( 2), 71-75. doi:10.1002/cbf.1540
NLM
Lira FS, Rosa JC, Zanchi NE, Yamashita AS, Lopes RD, Lopes AC, Batista Jr. ML, Seelaender MCL. Regulation of inflammation in the adipose tissue in cancer cachexia: effect of exercise [Internet]. Cell Biochemistry and Function. 2009 ; 27( 2): 71-75.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1540
Vancouver
Lira FS, Rosa JC, Zanchi NE, Yamashita AS, Lopes RD, Lopes AC, Batista Jr. ML, Seelaender MCL. Regulation of inflammation in the adipose tissue in cancer cachexia: effect of exercise [Internet]. Cell Biochemistry and Function. 2009 ; 27( 2): 71-75.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1540
Artigo de periodico
Evidence that L-glutamine is better than L-alanine as gluconeogenic substrate in perfused liver of weaned fasted rats submitted to short-term insulin-induced hypoglycaemia (2009)
Oliveira-Yamashita, Fabiana; Garcia, Rosangela Fernandes; Felisberto-Junior, Antonio Machado; Curi, Rui; Bazotte, Roberto Barbosa
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
OLIVEIRA-YAMASHITA, Fabiana et al. Evidence that L-glutamine is better than L-alanine as gluconeogenic substrate in perfused liver of weaned fasted rats submitted to short-term insulin-induced hypoglycaemia. Cell Biochemistry and Function, v. 27, n. 1, p. 30-34, 2009Tradução . . Disponível em: https://doi.org/10.1002/cbf.1530. Acesso em: 28 nov. 2025.
APA
Oliveira-Yamashita, F., Garcia, R. F., Felisberto-Junior, A. M., Curi, R., & Bazotte, R. B. (2009). Evidence that L-glutamine is better than L-alanine as gluconeogenic substrate in perfused liver of weaned fasted rats submitted to short-term insulin-induced hypoglycaemia. Cell Biochemistry and Function, 27( 1), 30-34. doi:10.1002/cbf.1530
NLM
Oliveira-Yamashita F, Garcia RF, Felisberto-Junior AM, Curi R, Bazotte RB. Evidence that L-glutamine is better than L-alanine as gluconeogenic substrate in perfused liver of weaned fasted rats submitted to short-term insulin-induced hypoglycaemia [Internet]. Cell Biochemistry and Function. 2009 ; 27( 1): 30-34.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1530
Vancouver
Oliveira-Yamashita F, Garcia RF, Felisberto-Junior AM, Curi R, Bazotte RB. Evidence that L-glutamine is better than L-alanine as gluconeogenic substrate in perfused liver of weaned fasted rats submitted to short-term insulin-induced hypoglycaemia [Internet]. Cell Biochemistry and Function. 2009 ; 27( 1): 30-34.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1530
Artigo de periodico
Changes of glycogen content in liver, skeletal muscle, and heart from fasted rats (2009)
Kokubun, Eduardo; Hirabara, Sandro M.; Fiamoncini, Jarlei ; Curi, Rui; Haebisch, Horst
Source: Cell Biochemistry and Function. Unidade: ICB
Assunto: FISIOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
KOKUBUN, Eduardo et al. Changes of glycogen content in liver, skeletal muscle, and heart from fasted rats. Cell Biochemistry and Function, v. 27, n. 7, p. 488-95, 2009Tradução . . Disponível em: https://doi.org/10.1002/cbf.1602. Acesso em: 28 nov. 2025.
APA
Kokubun, E., Hirabara, S. M., Fiamoncini, J., Curi, R., & Haebisch, H. (2009). Changes of glycogen content in liver, skeletal muscle, and heart from fasted rats. Cell Biochemistry and Function, 27( 7), 488-95. doi:10.1002/cbf.1602
NLM
Kokubun E, Hirabara SM, Fiamoncini J, Curi R, Haebisch H. Changes of glycogen content in liver, skeletal muscle, and heart from fasted rats [Internet]. Cell Biochemistry and Function. 2009 ; 27( 7): 488-95.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1602
Vancouver
Kokubun E, Hirabara SM, Fiamoncini J, Curi R, Haebisch H. Changes of glycogen content in liver, skeletal muscle, and heart from fasted rats [Internet]. Cell Biochemistry and Function. 2009 ; 27( 7): 488-95.[citado 2025 nov. 28 ] Available from: https://doi.org/10.1002/cbf.1602

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