Sporophila hypoxantha
  • Abstract
  • Introduction
  • Methods
  • Results
  • Discussion
  • References

References

1. Lobanov A, Hatfield D, Gladyshev V. Eukaryotic selenoproteins and selenoproteomes. Biochimica et Biophysica Acta (BBA) - General Subjects. 2009;1790(11):1424-1428.

2. Lu J, Holmgren A. Selenoproteins. Journal of Biological Chemistry. 2008;284(2):723-727.

3. Reich H, Hondal R. Why Nature Chose Selenium. ACS Chemical Biology. 2016;11(4):821-841.

4. Squires J, Berry M. Eukaryotic selenoprotein synthesis: Mechanistic insight incorporating new factors and new functions for old factors. IUBMB Life. 2008;60(4):232-235.

5. Mariotti M, Ridge P, Zhang Y, Lobanov A, Pringle T, Guigo R et al. Composition and Evolution of the Vertebrate and Mammalian Selenoproteomes. PLoS ONE. 2012;7(3).

6. EEFSEC - Selenocysteine-specific elongation factor - Homo sapiens (Human) - eEFSec gene & protein [Internet]. Uniprot.org. 2017 [cited 2 December 2017]. Available from: http://www.uniprot.org/uniprot/P57772

7. Labunskyy V, Hatfield D, Gladyshev V. Selenoproteins: Molecular Pathways and Physiological Roles. Physiological Reviews. 2014;94(3):739-777.

8. Brigelius-Floh&?eacute R, Maiorino M. Glutathione peroxidases. Biochimica et Biophysica Acta (BBA) - General Subjects. 2013;1830(5):3289-3303.

9. Margis R, Dunand C, Teixeira F, Margis-Pinheiro M. Glutathione peroxidase family - an evolutionary overview. FEBS Journal. 2008;275(15):3959-3970.

10. Wu R, Cheng W. Selenium and Senescence. Foods and Dietary Supplements in the Prevention and Treatment of Disease in Older Adults. 2015;:211-229.

11. Kryukov G, Kumar R, Koc A, Sun Z, Gladyshev V. Selenoprotein R is a zinc-containing stereo-specific methionine sulfoxide reductase. Proceedings of the National Academy of Sciences. 2002;99(7):4245-4250.

12. Koc A, Gladyshev V. Methionine Sulfoxide Reduction and the Aging Process. Annals of the New York Academy of Sciences. 2007;1100(1):383-386.

13. Jameson R. A regulatory role for Sec tRNA[Ser]Sec in selenoprotein synthesis. RNA. 2004;10(7):1142-1152.

14. Carlson B, Xu X, Kryukov G, Rao M, Berry M, Gladyshev V et al. Identification and characterization of phosphoseryl-tRNA[Ser]Sec kinase. Proceedings of the National Academy of Sciences. 2004;101(35):12848-12853.

15. Ganichkin O, Xu X, Carlson B, Mix H, Hatfield D, Gladyshev V et al. Structure and Catalytic Mechanism of Eukaryotic Selenocysteine Synthase. Journal of Biological Chemistry. 2007;283(9):5849-5865.

16. Dobosz-Bartoszek M, Simonovic M. Structure and Mechanism of Selenocysteine Synthases. Selenium. 2016;:101-112.

17. Mariotti M, Santesmasses D, Capella-Gutierrez S, Mateo A, Arnan C, Johnson R et al. Evolution of selenophosphate synthetases: emergence and relocation of function through independent duplications and recurrent subfunctionalization. Genome Research. 2015;25(9):1256-1267.

18. Ferguson A, Labunskyy V, Fomenko D, Araç D, Chelliah Y, Amezcua C et al. NMR Structures of the Selenoproteins Sep15 and SelM Reveal Redox Activity of a New Thioredoxin-like Family. Journal of Biological Chemistry. 2005;281(6):3536-3543.

19. Shchedrina V, Everley R, Zhang Y, Gygi S, Hatfield D, Gladyshev V. Selenoprotein K Binds Multiprotein Complexes and Is Involved in the Regulation of Endoplasmic Reticulum Homeostasis. Journal of Biological Chemistry. 2011;286(50):42937-42948.

20. SELENON selenoprotein N [Homo sapiens (human)] - Gene - NCBI [Internet]. Ncbi.nlm.nih.gov. 2017 [cited 2 December 2017]. Available from: https://www.ncbi.nlm.nih.gov/gene/57190

21. Castets P, Lescure A, Guicheney P, Allamand V. Selenoprotein N in skeletal muscle: from diseases to function. Journal of Molecular Medicine. 2012;90(10):1095-1107.

22. Kim Y, Shin Y, Lee W, Kim H, Hwang K. Structural and kinetic analysis of an MsrA-MsrB fusion protein fromStreptococcus pneumoniae. Molecular Microbiology. 2009;72(3):699-709.

23. MSRB1 methionine sulfoxide reductase B1 [Homo sapiens (human)] - Gene - NCBI [Internet]. Ncbi.nlm.nih.gov. 2017 [cited 2 December 2017]. Available from: https://www.ncbi.nlm.nih.gov/gene/51734

24. Novoselov S, Kryukov G, Xu X, Carlson B, Hatfield D, Gladyshev V. Selenoprotein H Is a Nucleolar Thioredoxin-like Protein with a Unique Expression Pattern. Journal of Biological Chemistry. 2007;282(16):11960-11968.

25. Zhang X, Zhang L, Zhu J, Cheng W. Nuclear selenoproteins and genome maintenance. IUBMB Life. 2015;68(1):5-12.

26. Jiang Y, Huang J, Lin G, Guo H, Ren F, Zhang H. Characterization and Expression of Chicken Selenoprotein U. Biological Trace Element Research. 2015;166(2):216-224.

27. Xu X, Mix H, Carlson B, Grabowski P, Gladyshev V, Berry M et al. Evidence for Direct Roles of Two Additional Factors, SECp43 and Soluble Liver Antigen, in the Selenoprotein Synthesis Machinery. Journal of Biological Chemistry. 2005;280(50):41568-41575.

28. Tawny-bellied Seedeater (Sporophila hypoxantha) [Internet]. Hbw.com. 2017 [cited 28 December 2017]. Available from: https://www.hbw.com/species/tawny-bellied-seedeater-sporophila-hypoxantha#Habitat

29. Sporophila hypoxantha (Tawny-bellied Seedeater) [Internet]. Api.iucnredlist.org. 2017 [cited 28 November 2017]. Available from: http://api.iucnredlist.org/details/22723481/0

30. Capuchino Canela (Sporophila hypoxantha) [Internet]. Ecoregistros.org. 2017 [cited 28 November 2017]. Available from: http://www.ecoregistros.org/ficha/Sporophila-hypoxantha&idusuario=984

31. Areta J, Repenning M. Systematics of the Tawny-bellied Seedeater (Sporophila hypoxantha). I. Geographic Variation, Ecology, and Evolution of Vocalizations. The Condor. 2011;113(3):664-677.