Biotecnología Microbiana de origen bioquímico

  1. Carlos Barreiro Méndez
  2. M. Barrero 1
  3. María Borrego Ramos
  4. D. Carballo 1
  5. Begoña Carracedo del Río
  6. Francisco Javier Casqueiro Blanco
  7. M. Cendon 1
  8. Alejandro Chamizo Ampudia
  9. M. Crugeiras 1
  10. Eduardo Fernández Ándres 1
  11. José Manuel Fernández Cañón
  12. Miguel Ángel Ferrero-García
  13. M.R. García Armesto 1
  14. A. García Barrio 1
  15. S. Garrido Chamorri 1
  16. S. Gohlamian Pour 1
  17. José María Luengo Rodríguez
  18. J.L. Martínez 1
  19. Honorina Martínez Blanco
  20. Baltasar Miñambres Rodríguez
  21. Nicolás Navasa Mayo
  22. Elías Rodríguez Olivera
  23. O. Perez Villa 1
  24. Leandro Benito Rodríguez Aparicio
  25. Francisco J. Rúa Aller
  26. Isabel San Martín Bécares
  27. África Sanchiz Giraldo 1
  28. María Fernanda Vasco Cardenas
  29. Alle Autoren anzeigen +
  1. 1 Área Bioquímica y Biología Molecular
Zeitschrift:
SEM@foro

ISSN: 2254-4399

Datum der Publikation: 2023

Nummer: 76

Seiten: 30-33

Art: Artikel

Andere Publikationen in: SEM@foro

Bibliographische Referenzen

  • Barreiro, C. y Ibáñez, A.M. (2023) ‘Bidimensional Analyses of the Intraand Extracellular Proteomes of Steroid Producer Mycobacteria’, in Barreiro C and J.L. Barredo (eds), Microbial Steroids: Methods and Protocols. Humana Press, New York, NY, pp. 115–141. https://doi. org/10.1007/978-1-0716-3385-4_7
  • Chamizo-Ampudia, A.; Getino, L.; Luengo, J.M.; Olivera, E.R. (2023) ‘Isolation of Environmental Bacteria Able to Degrade Sterols and/or Bile Acids: Determination of Cholesterol Oxidase and Several Hydroxysteroid Dehydrogenase Activities in Rhodococcus, Gordonia, and Pseudomonas putida’, in Barreiro C and J.L. Barredo (eds) Microbial Steroids: Methods and Protocols. Humana Press, New York, NY, pp. 25–42. Available at: https://doi.org/10.1007/978- 1-0716-3385-4_2
  • Getino, L.; Chamizo-Ampudia, A.; Martín, J.L.; Luengo, J.M.; Barreiro, C.; Olivera, E.R. (2023) ‘Specific Gene Expression in Pseudomonas putida U Shows New Alternatives for Cadaverine and Putrescine Catabolism’, Genes, 14(10), p. 1897. Available at: https://doi. org/10.3390/genes14101897
  • Ibáñez, A.; Garrido-Chamorro, S.; Coque, J.J.R.; Barreiro, C. (2023) ‘From Genes to Bioleaching: Unraveling Sulfur Metabolism in Acidithiobacillus Genus’, Genes, 14(9), p. 1772. Available at: https:// doi.org/10.3390/genes14091772
  • Ibáñez, A.; Barreiro, C.; Diez-Galán, A.; Cobos, R.; Calvo-Peña, C.; Coque, J.J.R. (2023) ‘Molecular Identification and Acid Stress Response of an Acidithiobacillus thiooxidans Strain Isolated from Rio Tinto (Spain)’, International Journal of Molecular Sciences, 24(17), p. 13391. https://doi.org/10.3390/ijms241713391
  • Ibáñez, A., Garrido-Chamorro, S. and Barreiro, C. (2023) ‘Microorganisms and Climate Change: A Not so Invisible Effect’, Microbiology Research, 14(3), pp. 918–947. https://doi.org/10.3390/ microbiolres14030064
  • Luengo, J.M. and Olivera, E.R. (2023) ‘Identification and Characterization of Some Genes, Enzymes, and Metabolic Intermediates Belonging to the Bile Acid Aerobic Catabolic Pathway from Pseudomonas’, in Barreiro C and J.L. Barredo (eds), Microbial Steroids: Methods and Protocols. Humana Press, New York, NY, pp. 51–83. Available at: https://doi.org/10.1007/978-1-0716-3385- 4_4
  • Velasco-Rodríguez, Ó.; Fil, M.; Heggeset, T.M.B.; Degnes, K.F.; Becerro-Recio, D.; Kolsaková, K.; Haugen, T.; Jønsson, M.; Toral-Martínez, M.; GarcíaEstrada, C.; Sola-Landa, A.; Josefsen, K. J.; Sletta, H. Barreiro, C. (2022) ‘Characterization of Microbial Diversity in Decayed Wood from a Spanish Forest: An Environmental Source of Industrially Relevant Microorganisms.’, Microorganisms, 10(6). https://doi. org/10.3390/microorganisms10061249
  • Barreiro, C. y Barredo J.L. (2021) ‘Wor ldwide c l in ica l demand for antibiotics: is it a real countdown?’, in Barreiro C and J.L. Barredo (eds), Antimicrobial Therapies: Methods and Protocols. Humana Press, New York, NY, pp. 3–15. https://doi.org/10.1007/978-1- 0716-1358-0_1
  • Fernández-Pérez S, Pérez-Andrés J, Gutiérrez S, Navasa N, MartínezBlanco H, Ferrero MÁ, Vivas S, Vaquero L, Iglesias C, Casqueiro J, RodríguezAparicio LB. (2020) The Human Digestive Tract Is Capable of Degrading Gluten from Birth. Int J Mol Sci. 21(20), p. 7696. https://doi.org/10.3390/ijms21207696
  • Barreiro, C. y Barredo, J. L. (2018) ‘Carotenoids production: a healthy and profitable industry’, in C. Barreiro and J. Barredo (eds) Microbial Carotenoids: Methods and Protocols. New York, NY: Springer Science+Business Media, pp. 45–55. https://doi.org/10.1007/978-1- 4939-8742-9_2
  • Gutiérrez S, Pérez-Andrés J, MartínezBlanco H, Ferrero MA, Vaquero L, Vivas S, Casqueiro J, Rodríguez-Aparicio LB. (2017) The human digestive tract has proteases capable of gluten hydrolysis. Mol Metab. 6(7):693-702. https://doi. org/10.1016/j.molmet.2017.05.008