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LEITE, Luan de Souza et al. Photocatalytic degradation of algal organic matter using TiO2/UV and persulfate/UV. Water, v. 16, n. 11, p. 1-12, 2024Tradução . . Disponível em: https://dx.doi.org/10.3390/w16111626. Acesso em: 10 nov. 2024.
APA
Leite, L. de S., Hoffmann, M. T., Santos, D. V. dos, & Daniel, L. A. (2024). Photocatalytic degradation of algal organic matter using TiO2/UV and persulfate/UV. Water, 16( 11), 1-12. doi:10.3390/w16111626
NLM
Leite L de S, Hoffmann MT, Santos DV dos, Daniel LA. Photocatalytic degradation of algal organic matter using TiO2/UV and persulfate/UV [Internet]. Water. 2024 ; 16( 11): 1-12.[citado 2024 nov. 10 ] Available from: https://dx.doi.org/10.3390/w16111626
Vancouver
Leite L de S, Hoffmann MT, Santos DV dos, Daniel LA. Photocatalytic degradation of algal organic matter using TiO2/UV and persulfate/UV [Internet]. Water. 2024 ; 16( 11): 1-12.[citado 2024 nov. 10 ] Available from: https://dx.doi.org/10.3390/w16111626
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ZAGUI, Guilherme Sgobbi et al. Multidrug-resistant Enterobacter spp. in wastewater and surface water: molecular characterization of β-lactam resistance and metal tolerance genes. Environmental Research, v. 233, p. 1-7, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.envres.2023.116443. Acesso em: 10 nov. 2024.
APA
Zagui, G. S., Moreira, N. C., Santos, D. V. dos, Paschoalato, C. F. P. R., Sierra, J., Nadal, M., et al. (2023). Multidrug-resistant Enterobacter spp. in wastewater and surface water: molecular characterization of β-lactam resistance and metal tolerance genes. Environmental Research, 233, 1-7. doi:10.1016/j.envres.2023.116443
NLM
Zagui GS, Moreira NC, Santos DV dos, Paschoalato CFPR, Sierra J, Nadal M, Domingo JL, Darini AL da C, Andrade LN de, Segura-Muñoz SI. Multidrug-resistant Enterobacter spp. in wastewater and surface water: molecular characterization of β-lactam resistance and metal tolerance genes [Internet]. Environmental Research. 2023 ; 233 1-7.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.envres.2023.116443
Vancouver
Zagui GS, Moreira NC, Santos DV dos, Paschoalato CFPR, Sierra J, Nadal M, Domingo JL, Darini AL da C, Andrade LN de, Segura-Muñoz SI. Multidrug-resistant Enterobacter spp. in wastewater and surface water: molecular characterization of β-lactam resistance and metal tolerance genes [Internet]. Environmental Research. 2023 ; 233 1-7.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.envres.2023.116443
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BERRETTA, Andresa Aparecida et al. Development and characterization of new green propolis extract formulations as promising candidates to substitute for green propolis hydroalcoholic extract. Molecules, v. 28, n. 8, p. 1-17, 2023Tradução . . Disponível em: https://doi.org/10.3390/molecules28083510. Acesso em: 10 nov. 2024.
APA
Berretta, A. A., Zamarrenho, L. G., Corrêa, J. A., Lima, J. A. de, Borini, G. B., Ambrosio, S. R., et al. (2023). Development and characterization of new green propolis extract formulations as promising candidates to substitute for green propolis hydroalcoholic extract. Molecules, 28( 8), 1-17. doi:10.3390/molecules28083510
NLM
Berretta AA, Zamarrenho LG, Corrêa JA, Lima JA de, Borini GB, Ambrosio SR, Barud H da S, Bastos JK, De Jong D. Development and characterization of new green propolis extract formulations as promising candidates to substitute for green propolis hydroalcoholic extract [Internet]. Molecules. 2023 ; 28( 8): 1-17.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/molecules28083510
Vancouver
Berretta AA, Zamarrenho LG, Corrêa JA, Lima JA de, Borini GB, Ambrosio SR, Barud H da S, Bastos JK, De Jong D. Development and characterization of new green propolis extract formulations as promising candidates to substitute for green propolis hydroalcoholic extract [Internet]. Molecules. 2023 ; 28( 8): 1-17.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/molecules28083510
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ABU JAMRA, Soraia Regina et al. Proposal to Screen for Zinc and Selenium in Patients with IgA Deficiency. Nutrients, v. 15, n. 9, p. 1-12, 2023Tradução . . Disponível em: https://doi.org/10.3390/nu15092145. Acesso em: 10 nov. 2024.
APA
Abu Jamra, S. R., Komatsu, C. G., Barbosa Junior, F., Roxo Júnior, P., & Navarro, A. M. (2023). Proposal to Screen for Zinc and Selenium in Patients with IgA Deficiency. Nutrients, 15( 9), 1-12. doi:10.3390/nu15092145
NLM
Abu Jamra SR, Komatsu CG, Barbosa Junior F, Roxo Júnior P, Navarro AM. Proposal to Screen for Zinc and Selenium in Patients with IgA Deficiency [Internet]. Nutrients. 2023 ; 15( 9): 1-12.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/nu15092145
Vancouver
Abu Jamra SR, Komatsu CG, Barbosa Junior F, Roxo Júnior P, Navarro AM. Proposal to Screen for Zinc and Selenium in Patients with IgA Deficiency [Internet]. Nutrients. 2023 ; 15( 9): 1-12.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/nu15092145
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ROHR, Paula et al. Absolute telomere length in peripheral blood lymphocytes of workers exposed to construction environment. International Journal of Environmental Health Research, 2023Tradução . . Disponível em: https://doi.org/10.1080/09603123.2022.2066069. Acesso em: 10 nov. 2024.
APA
Rohr, P., Santos, I. C. dos, Lengert, A. van H., Lima, M. A. de, Reis, R. M., Barbosa Junior, F., & Silveira, H. C. S. (2023). Absolute telomere length in peripheral blood lymphocytes of workers exposed to construction environment. International Journal of Environmental Health Research. doi:10.1080/09603123.2022.2066069
NLM
Rohr P, Santos IC dos, Lengert A van H, Lima MA de, Reis RM, Barbosa Junior F, Silveira HCS. Absolute telomere length in peripheral blood lymphocytes of workers exposed to construction environment [Internet]. International Journal of Environmental Health Research. 2023 ;[citado 2024 nov. 10 ] Available from: https://doi.org/10.1080/09603123.2022.2066069
Vancouver
Rohr P, Santos IC dos, Lengert A van H, Lima MA de, Reis RM, Barbosa Junior F, Silveira HCS. Absolute telomere length in peripheral blood lymphocytes of workers exposed to construction environment [Internet]. International Journal of Environmental Health Research. 2023 ;[citado 2024 nov. 10 ] Available from: https://doi.org/10.1080/09603123.2022.2066069
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ZAMARRENHO, Luana Gonçalves et al. Effects of three different brazilian green propolis extract formulations on pro- and anti-inflammatory cytokine secretion by macrophages. Applied Sciences, v. 13, p. 1-17, 2023Tradução . . Disponível em: https://doi.org/10.3390/app13106247. Acesso em: 10 nov. 2024.
APA
Zamarrenho, L. G., Lima, M. H. F. de, Hori, J. I., Lima, J. A. de, Ambrosio, S. R., Bastos, J. K., et al. (2023). Effects of three different brazilian green propolis extract formulations on pro- and anti-inflammatory cytokine secretion by macrophages. Applied Sciences, 13, 1-17. doi:10.3390/app13106247
NLM
Zamarrenho LG, Lima MHF de, Hori JI, Lima JA de, Ambrosio SR, Bastos JK, De Jong D, Berretta AA. Effects of three different brazilian green propolis extract formulations on pro- and anti-inflammatory cytokine secretion by macrophages [Internet]. Applied Sciences. 2023 ; 13 1-17.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/app13106247
Vancouver
Zamarrenho LG, Lima MHF de, Hori JI, Lima JA de, Ambrosio SR, Bastos JK, De Jong D, Berretta AA. Effects of three different brazilian green propolis extract formulations on pro- and anti-inflammatory cytokine secretion by macrophages [Internet]. Applied Sciences. 2023 ; 13 1-17.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/app13106247
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BERRETTA, Andresa Aparecida et al. Development and characterization of high-absorption microencapsulated organic propolis EPP-AF® extract (i-CAPs). Molecules, v. 28, n. 20, p. 1-25, 2023Tradução . . Disponível em: https://doi.org/10.3390/molecules28207128. Acesso em: 10 nov. 2024.
APA
Berretta, A. A., Lima, J. A. de, Falção, S. I., Calhelha, R., Amorim, N. A., Gonçalves, I. S., et al. (2023). Development and characterization of high-absorption microencapsulated organic propolis EPP-AF® extract (i-CAPs). Molecules, 28( 20), 1-25. doi:10.3390/molecules28207128
NLM
Berretta AA, Lima JA de, Falção SI, Calhelha R, Amorim NA, Gonçalves IS, Zamarrenho LG, Barud H da S, Bastos JK, De Jong D, Vilas Boas M. Development and characterization of high-absorption microencapsulated organic propolis EPP-AF® extract (i-CAPs) [Internet]. Molecules. 2023 ; 28( 20): 1-25.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/molecules28207128
Vancouver
Berretta AA, Lima JA de, Falção SI, Calhelha R, Amorim NA, Gonçalves IS, Zamarrenho LG, Barud H da S, Bastos JK, De Jong D, Vilas Boas M. Development and characterization of high-absorption microencapsulated organic propolis EPP-AF® extract (i-CAPs) [Internet]. Molecules. 2023 ; 28( 20): 1-25.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3390/molecules28207128
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OLIVEIRA, Julia Lima de et al. Epithelial–mesenchymal transition and cancer stem cells: a route to acquired cisplatin resistance through epigenetics in HNSCC. Oral Diseases, 2023Tradução . . Disponível em: https://doi.org/10.1111/odi.14209. Acesso em: 10 nov. 2024.
APA
Oliveira, J. L. de, Milan, T. M., Trevisan, R. L. B., Fernandes, R. R., Leopoldino, A. M., & Almeida, L. O. de. (2023). Epithelial–mesenchymal transition and cancer stem cells: a route to acquired cisplatin resistance through epigenetics in HNSCC. Oral Diseases. doi:10.1111/odi.14209
NLM
Oliveira JL de, Milan TM, Trevisan RLB, Fernandes RR, Leopoldino AM, Almeida LO de. Epithelial–mesenchymal transition and cancer stem cells: a route to acquired cisplatin resistance through epigenetics in HNSCC [Internet]. Oral Diseases. 2023 ;[citado 2024 nov. 10 ] Available from: https://doi.org/10.1111/odi.14209
Vancouver
Oliveira JL de, Milan TM, Trevisan RLB, Fernandes RR, Leopoldino AM, Almeida LO de. Epithelial–mesenchymal transition and cancer stem cells: a route to acquired cisplatin resistance through epigenetics in HNSCC [Internet]. Oral Diseases. 2023 ;[citado 2024 nov. 10 ] Available from: https://doi.org/10.1111/odi.14209
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ZANI, Ana Clara Bonizol et al. Electrobiochemical skills of Pseudomonas aeruginosa species that produce pyocyanin or pyoverdine for glycerol oxidation in a microbial fuel cell. Chemosphere, v. 335, p. 1-9, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.chemosphere.2023.139073. Acesso em: 10 nov. 2024.
APA
Zani, A. C. B., Almeida, E. J. R. de, Furlan, J. P. R., Gonçalves, M. P., Guazzaroni, M. E., Stehling, E. G., et al. (2023). Electrobiochemical skills of Pseudomonas aeruginosa species that produce pyocyanin or pyoverdine for glycerol oxidation in a microbial fuel cell. Chemosphere, 335, 1-9. doi:10.1016/j.chemosphere.2023.139073
NLM
Zani ACB, Almeida EJR de, Furlan JPR, Gonçalves MP, Guazzaroni ME, Stehling EG, Andrade AR de, Reginatto V. Electrobiochemical skills of Pseudomonas aeruginosa species that produce pyocyanin or pyoverdine for glycerol oxidation in a microbial fuel cell [Internet]. Chemosphere. 2023 ; 335 1-9.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.chemosphere.2023.139073
Vancouver
Zani ACB, Almeida EJR de, Furlan JPR, Gonçalves MP, Guazzaroni ME, Stehling EG, Andrade AR de, Reginatto V. Electrobiochemical skills of Pseudomonas aeruginosa species that produce pyocyanin or pyoverdine for glycerol oxidation in a microbial fuel cell [Internet]. Chemosphere. 2023 ; 335 1-9.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.chemosphere.2023.139073
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SILVESTRE, Renata Nacasaki et al. Engineering NK-CAR.19 cells with the IL-15/IL-15Rα complex improved proliferation and anti-tumor effect in vivo. Frontiers in Immunology, v. 14, p. 1-15, 2023Tradução . . Disponível em: https://doi.org/10.3389/fimmu.2023.1226518. Acesso em: 10 nov. 2024.
APA
Silvestre, R. N., Eitler, J., Azevedo, J. T. C. de, Tirapelle, M. C., Fantacini, D. M. C., Souza, L. E. B. de, et al. (2023). Engineering NK-CAR.19 cells with the IL-15/IL-15Rα complex improved proliferation and anti-tumor effect in vivo. Frontiers in Immunology, 14, 1-15. doi:10.3389/fimmu.2023.1226518
NLM
Silvestre RN, Eitler J, Azevedo JTC de, Tirapelle MC, Fantacini DMC, Souza LEB de, Swiech K, Covas DT, Calado RT, Montero PO, Malmegrim KCR, Figueiredo ML, Tonn T, Picanço-Castro V. Engineering NK-CAR.19 cells with the IL-15/IL-15Rα complex improved proliferation and anti-tumor effect in vivo [Internet]. Frontiers in Immunology. 2023 ; 14 1-15.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3389/fimmu.2023.1226518
Vancouver
Silvestre RN, Eitler J, Azevedo JTC de, Tirapelle MC, Fantacini DMC, Souza LEB de, Swiech K, Covas DT, Calado RT, Montero PO, Malmegrim KCR, Figueiredo ML, Tonn T, Picanço-Castro V. Engineering NK-CAR.19 cells with the IL-15/IL-15Rα complex improved proliferation and anti-tumor effect in vivo [Internet]. Frontiers in Immunology. 2023 ; 14 1-15.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3389/fimmu.2023.1226518
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HARTMANN, Alice et al. The NLRP3 inflammasome in stress response: another target for the promiscuous cannabidiol. Current Neuropharmacology, v. 21, n. 2, p. 284-308, 2023Tradução . . Disponível em: https://doi.org/10.2174/1570159X20666220411101217. Acesso em: 10 nov. 2024.
APA
Hartmann, A., Vila-Verde, C., Guimarães, F. S., Wegener, S. R. L. J., & Lisboa, S. F. de S. (2023). The NLRP3 inflammasome in stress response: another target for the promiscuous cannabidiol. Current Neuropharmacology, 21( 2), 284-308. doi:10.2174/1570159X20666220411101217
NLM
Hartmann A, Vila-Verde C, Guimarães FS, Wegener SRLJ, Lisboa SF de S. The NLRP3 inflammasome in stress response: another target for the promiscuous cannabidiol [Internet]. Current Neuropharmacology. 2023 ; 21( 2): 284-308.[citado 2024 nov. 10 ] Available from: https://doi.org/10.2174/1570159X20666220411101217
Vancouver
Hartmann A, Vila-Verde C, Guimarães FS, Wegener SRLJ, Lisboa SF de S. The NLRP3 inflammasome in stress response: another target for the promiscuous cannabidiol [Internet]. Current Neuropharmacology. 2023 ; 21( 2): 284-308.[citado 2024 nov. 10 ] Available from: https://doi.org/10.2174/1570159X20666220411101217
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ALMEIDA, Aline Pereira de et al. Investigation of biochemical and biotechnological potential of a thermo-halo-alkali-tolerant endo-xylanase (GH11) from Humicola brevis var. thermoidea for lignocellulosic valorization of sugarcane biomass. Biocatalysis and Agricultural Biotechnology, v. 44, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.bcab.2022.102424. Acesso em: 10 nov. 2024.
APA
Almeida, A. P. de, Vargas, I. P., Marciano, C. L., Zanoelo, F. F., Giannesi, G. C., Polizeli, M. D. L. T. D. M., et al. (2022). Investigation of biochemical and biotechnological potential of a thermo-halo-alkali-tolerant endo-xylanase (GH11) from Humicola brevis var. thermoidea for lignocellulosic valorization of sugarcane biomass. Biocatalysis and Agricultural Biotechnology, 44. doi:10.1016/j.bcab.2022.102424
NLM
Almeida AP de, Vargas IP, Marciano CL, Zanoelo FF, Giannesi GC, Polizeli MDLTDM, Jorge JA, Furriel R dos PM, Ruller R, Masui DC. Investigation of biochemical and biotechnological potential of a thermo-halo-alkali-tolerant endo-xylanase (GH11) from Humicola brevis var. thermoidea for lignocellulosic valorization of sugarcane biomass [Internet]. Biocatalysis and Agricultural Biotechnology. 2022 ; 44[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.bcab.2022.102424
Vancouver
Almeida AP de, Vargas IP, Marciano CL, Zanoelo FF, Giannesi GC, Polizeli MDLTDM, Jorge JA, Furriel R dos PM, Ruller R, Masui DC. Investigation of biochemical and biotechnological potential of a thermo-halo-alkali-tolerant endo-xylanase (GH11) from Humicola brevis var. thermoidea for lignocellulosic valorization of sugarcane biomass [Internet]. Biocatalysis and Agricultural Biotechnology. 2022 ; 44[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.bcab.2022.102424
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SOUZA, Juliana Maria Oliveira et al. Levels of phthalates and bisphenol in toys from Brazilian markets: Migration rate into children s saliva and daily exposure. Science of the Total Environment, v. 828, p. 1-8, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.scitotenv.2022.154486. Acesso em: 10 nov. 2024.
APA
Souza, J. M. O., Souza, M. C. O., Rocha, B. A., Nadal, M., Domingo, J. L., & Barbosa Júnior, F. (2022). Levels of phthalates and bisphenol in toys from Brazilian markets: Migration rate into children s saliva and daily exposure. Science of the Total Environment, 828, 1-8. doi:10.1016/j.scitotenv.2022.154486
NLM
Souza JMO, Souza MCO, Rocha BA, Nadal M, Domingo JL, Barbosa Júnior F. Levels of phthalates and bisphenol in toys from Brazilian markets: Migration rate into children s saliva and daily exposure [Internet]. Science of the Total Environment. 2022 ; 828 1-8.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.scitotenv.2022.154486
Vancouver
Souza JMO, Souza MCO, Rocha BA, Nadal M, Domingo JL, Barbosa Júnior F. Levels of phthalates and bisphenol in toys from Brazilian markets: Migration rate into children s saliva and daily exposure [Internet]. Science of the Total Environment. 2022 ; 828 1-8.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.scitotenv.2022.154486
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SOUZA, Marília Cristina Oliveira et al. Urinary levels of monohydroxylated polycyclic aromatic hydrocarbons in Brazilian children and health risk assessment: a human biomonitoring-based study. Environmental Science and Pollution Research, v. 29, n. 31, p. 47298-47309, 2022Tradução . . Disponível em: https://doi.org/10.1007/s11356-022-19212-z. Acesso em: 10 nov. 2024.
APA
Souza, M. C. O., Rocha, B. A., Ximenez, J. P. B., Devóz, P. P., Santana, A., Campiglia, A. D., & Barbosa Júnior, F. (2022). Urinary levels of monohydroxylated polycyclic aromatic hydrocarbons in Brazilian children and health risk assessment: a human biomonitoring-based study. Environmental Science and Pollution Research, 29( 31), 47298-47309. doi:10.1007/s11356-022-19212-z
NLM
Souza MCO, Rocha BA, Ximenez JPB, Devóz PP, Santana A, Campiglia AD, Barbosa Júnior F. Urinary levels of monohydroxylated polycyclic aromatic hydrocarbons in Brazilian children and health risk assessment: a human biomonitoring-based study [Internet]. Environmental Science and Pollution Research. 2022 ; 29( 31): 47298-47309.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1007/s11356-022-19212-z
Vancouver
Souza MCO, Rocha BA, Ximenez JPB, Devóz PP, Santana A, Campiglia AD, Barbosa Júnior F. Urinary levels of monohydroxylated polycyclic aromatic hydrocarbons in Brazilian children and health risk assessment: a human biomonitoring-based study [Internet]. Environmental Science and Pollution Research. 2022 ; 29( 31): 47298-47309.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1007/s11356-022-19212-z
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SANTOS, Jeimison D. et al. Th17 cell-linked mechanisms mediate vascular dysfunction induced by testosterone in a mouse model of gender-affirming hormone therapy. American Journal of Physiology-Heart and Circulatory Physiology, v. 323, p. H322-H335, 2022Tradução . . Disponível em: https://doi.org/10.1152/ajpheart.00182.2022. Acesso em: 10 nov. 2024.
APA
Santos, J. D., Oliveira Neto, J. T. de, Barros, P. R. de, Damasceno, L. E. A., Lautherbach, N., Assis, A. P. de, et al. (2022). Th17 cell-linked mechanisms mediate vascular dysfunction induced by testosterone in a mouse model of gender-affirming hormone therapy. American Journal of Physiology-Heart and Circulatory Physiology, 323, H322-H335. doi:10.1152/ajpheart.00182.2022
NLM
Santos JD, Oliveira Neto JT de, Barros PR de, Damasceno LEA, Lautherbach N, Assis AP de, Silva CAA da, Sorgi CA, Faccioli LH, Kettelhut I do C, Salgado HC, Carneiro FS, Alves-Filho JC, Tostes R de CA. Th17 cell-linked mechanisms mediate vascular dysfunction induced by testosterone in a mouse model of gender-affirming hormone therapy [Internet]. American Journal of Physiology-Heart and Circulatory Physiology. 2022 ; 323 H322-H335.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1152/ajpheart.00182.2022
Vancouver
Santos JD, Oliveira Neto JT de, Barros PR de, Damasceno LEA, Lautherbach N, Assis AP de, Silva CAA da, Sorgi CA, Faccioli LH, Kettelhut I do C, Salgado HC, Carneiro FS, Alves-Filho JC, Tostes R de CA. Th17 cell-linked mechanisms mediate vascular dysfunction induced by testosterone in a mouse model of gender-affirming hormone therapy [Internet]. American Journal of Physiology-Heart and Circulatory Physiology. 2022 ; 323 H322-H335.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1152/ajpheart.00182.2022
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PRANDINI, Juliana Ariolli et al. Thiopyridinium phthalocyanine for improved photodynamic efficiency against pathogenic fungi. Journal of Photochemistry and Photobiology B: Biology, v. 231, p. 1-8, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.jphotobiol.2022.112459. Acesso em: 10 nov. 2024.
APA
Prandini, J. A., Castro, K. A. D. F., Moraes, J. C. B., Brancini, G. T. P., Tomé, J. P. C., Lourenço, L. M. O., et al. (2022). Thiopyridinium phthalocyanine for improved photodynamic efficiency against pathogenic fungi. Journal of Photochemistry and Photobiology B: Biology, 231, 1-8. doi:10.1016/j.jphotobiol.2022.112459
NLM
Prandini JA, Castro KADF, Moraes JCB, Brancini GTP, Tomé JPC, Lourenço LMO, Braga GÚL, Silva RS da. Thiopyridinium phthalocyanine for improved photodynamic efficiency against pathogenic fungi [Internet]. Journal of Photochemistry and Photobiology B: Biology. 2022 ; 231 1-8.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.jphotobiol.2022.112459
Vancouver
Prandini JA, Castro KADF, Moraes JCB, Brancini GTP, Tomé JPC, Lourenço LMO, Braga GÚL, Silva RS da. Thiopyridinium phthalocyanine for improved photodynamic efficiency against pathogenic fungi [Internet]. Journal of Photochemistry and Photobiology B: Biology. 2022 ; 231 1-8.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.jphotobiol.2022.112459
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RAZA, Ali et al. Advances in “Omics” approaches for improving toxic metals/metalloids tolerance in plants. Frontiers in Plant Science, v. 12, p. 1-28, 2022Tradução . . Disponível em: https://doi.org/10.3389/fpls.2021.794373. Acesso em: 10 nov. 2024.
APA
Raza, A., Tabassum, J., Zahid, Z., Charagh, S., Bashir, S., Barmukh, R., et al. (2022). Advances in “Omics” approaches for improving toxic metals/metalloids tolerance in plants. Frontiers in Plant Science, 12, 1-28. doi:10.3389/fpls.2021.794373
NLM
Raza A, Tabassum J, Zahid Z, Charagh S, Bashir S, Barmukh R, Khan RSA, Barbosa Junior F, Zhang C, Chen H, Zhuang W, Varshney RK. Advances in “Omics” approaches for improving toxic metals/metalloids tolerance in plants [Internet]. Frontiers in Plant Science. 2022 ; 12 1-28.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3389/fpls.2021.794373
Vancouver
Raza A, Tabassum J, Zahid Z, Charagh S, Bashir S, Barmukh R, Khan RSA, Barbosa Junior F, Zhang C, Chen H, Zhuang W, Varshney RK. Advances in “Omics” approaches for improving toxic metals/metalloids tolerance in plants [Internet]. Frontiers in Plant Science. 2022 ; 12 1-28.[citado 2024 nov. 10 ] Available from: https://doi.org/10.3389/fpls.2021.794373
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
PELOZO, Laís Lima et al. Comparison of the methods of disinfection/sterilization of extracted human roots for research purposes. Dental and Medical Problems, v. 59, n. 3, p. 381-387, 2022Tradução . . Disponível em: https://doi.org/10.17219/dmp/144762. Acesso em: 10 nov. 2024.
APA
Pelozo, L. L., Silva Neto, R. D. da, Oliveira, L. P. B. de, Salvador, S. L. de S., Corona, S. A. M., & Souza-Gabriel, A. E. (2022). Comparison of the methods of disinfection/sterilization of extracted human roots for research purposes. Dental and Medical Problems, 59( 3), 381-387. doi:10.17219/dmp/144762
NLM
Pelozo LL, Silva Neto RD da, Oliveira LPB de, Salvador SL de S, Corona SAM, Souza-Gabriel AE. Comparison of the methods of disinfection/sterilization of extracted human roots for research purposes [Internet]. Dental and Medical Problems. 2022 ; 59( 3): 381-387.[citado 2024 nov. 10 ] Available from: https://doi.org/10.17219/dmp/144762
Vancouver
Pelozo LL, Silva Neto RD da, Oliveira LPB de, Salvador SL de S, Corona SAM, Souza-Gabriel AE. Comparison of the methods of disinfection/sterilization of extracted human roots for research purposes [Internet]. Dental and Medical Problems. 2022 ; 59( 3): 381-387.[citado 2024 nov. 10 ] Available from: https://doi.org/10.17219/dmp/144762
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
GALETTI, Renata et al. pST15-IncHI2 plasmids co-harboring mcr-9 and several other antibiotic resistance genes in heavy metal tolerant Enterobacter cloacae complex isolates from hospital infections [Carta]. Journal of Global Antimicrobial Resistance. Amsterdam: Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo. Disponível em: https://doi.org/10.1016/j.jgar.2022.09.002. Acesso em: 10 nov. 2024. , 2022
APA
Galetti, R., Andrade, L. N. de, Sazinas, P., Jelsbak, L., & Darini, A. L. da C. (2022). pST15-IncHI2 plasmids co-harboring mcr-9 and several other antibiotic resistance genes in heavy metal tolerant Enterobacter cloacae complex isolates from hospital infections [Carta]. Journal of Global Antimicrobial Resistance. Amsterdam: Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo. doi:10.1016/j.jgar.2022.09.002
NLM
Galetti R, Andrade LN de, Sazinas P, Jelsbak L, Darini AL da C. pST15-IncHI2 plasmids co-harboring mcr-9 and several other antibiotic resistance genes in heavy metal tolerant Enterobacter cloacae complex isolates from hospital infections [Carta] [Internet]. Journal of Global Antimicrobial Resistance. 2022 ; 31 187-188.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.jgar.2022.09.002
Vancouver
Galetti R, Andrade LN de, Sazinas P, Jelsbak L, Darini AL da C. pST15-IncHI2 plasmids co-harboring mcr-9 and several other antibiotic resistance genes in heavy metal tolerant Enterobacter cloacae complex isolates from hospital infections [Carta] [Internet]. Journal of Global Antimicrobial Resistance. 2022 ; 31 187-188.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1016/j.jgar.2022.09.002
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
AMATTO, Isabela Victorino da Silva et al. Enzyme engineering and its industrial applications. Biotechnology and Applied Biochemistry, v. 69, n. 2, p. 389-409, 2022Tradução . . Disponível em: https://doi.org/10.1002/bab.2117. Acesso em: 10 nov. 2024.
APA
Amatto, I. V. da S., Garzon, N. G. da R., Simões, F. A. de O., Santiago, F. L. B., Leite, N. P. da S., Martins, J. R., & Cabral, H. (2022). Enzyme engineering and its industrial applications. Biotechnology and Applied Biochemistry, 69( 2), 389-409. doi:10.1002/bab.2117
NLM
Amatto IV da S, Garzon NG da R, Simões FA de O, Santiago FLB, Leite NP da S, Martins JR, Cabral H. Enzyme engineering and its industrial applications [Internet]. Biotechnology and Applied Biochemistry. 2022 ; 69( 2): 389-409.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1002/bab.2117
Vancouver
Amatto IV da S, Garzon NG da R, Simões FA de O, Santiago FLB, Leite NP da S, Martins JR, Cabral H. Enzyme engineering and its industrial applications [Internet]. Biotechnology and Applied Biochemistry. 2022 ; 69( 2): 389-409.[citado 2024 nov. 10 ] Available from: https://doi.org/10.1002/bab.2117