LIBRO: "Introducción a la RMN de proteínas” , UAEM-Prado. ISBN: 978-607-8332-22-9 (2014) HTML,
21.- Macek P., Kerfah R., Erba EB., Crublete E., Moriscot C, Schoehn G, Amero C*, Boisbouvier J.*, “Unraveling Self-Assembly Pathways of the 468 kDa Proteolytic Machine TET2", Science Advances AAAS, (2017), 3:e1601601. DOI:10.1126/sciadv.16016018. HTML,
Impact Factor (2017): X Cited by
Impact Factor (2017): X Cited by
20.- Sanchez-Carbente M.D., Batista-Garcia R.A., Sanchez-Reyes A., Escudero-Garcia A., Morales-Herrera C., Cuervo-Soto L.I., French-Pacheco L., Fernandez-Silva A., Amero C, Castillo E., Folch-Mallol J.L., “The first description of a hormone-sensitive lipase from a basidiomycete: Structural insights and biochemical characterization revealed Bjerkandera adusta BaEstB as a novel esterase”,MicrobiologyOpen, (2017), e463, DOI:10.1002/mbo3.463. HTML,
Impact Factor (2016): 2.148 Cited by 3
Impact Factor (2016): 2.148 Cited by 3
19.- Quintanar L, Domínguez-Calva JA, Serebryany E, Rivillas-Acevedo L, Haase-Pettingell C, Amero C, King JA, “Copper and zinc ions specifically promote non-amyloid aggregation of the highly stable human ɣ-D crystallin”, Chemical Biology, (2016), 11(1), 263-272 DOI:10.1021/acschembio.5b00919. HTML,
Impact Factor (2014): 5.09 Cited by 10
Impact Factor (2014): 5.09 Cited by 10
18.- Pelaez-Aguilar A, Rivillas-Acevedo L, French-Pacheco L, Valdes-Garcia G, Maya-Martinez R, Pastor N, Amero C, “Inhibition of light chain 6aJL2-R24G amyloid fiber formation associated with AL amyloidosis”,
Biochemistry, (2015), 54(32), 4978-4986 DOI:10.1021/acs.biochem.5b00288. HTML,
Impact Factor (2014): 3.015 Cited by 10
Impact Factor (2014): 3.015 Cited by 10
17.- Pastor N, Amero C, Information Flow and Protein Dynamics: the Interplay Between Nuclear Magnetic Resonance Spectroscopy and Molecular Dynamics Simulations",
Frontiers in Plant Science, (2015), 6, 306. HTML,
Impact Factor (2014): 3.6 Cited by 5
Impact Factor (2014): 3.6 Cited by 5
16.- L Rivillas-Acevedo, C Sánchez-López, Amero C, L Quintanar, “Structural Basis for the Inhibition of Truncated Islet Amyloid Polypeptide Aggregation by Cu (II): Insights into the Bioinorganic Chemistry of Type II Diabetes”,
Inorganic chemistry, (2015), 54(8), 3788-3796 DOI:10.1021/ic502945k. HTML,
Impact Factor (2014): 4.7 Cited by 13
Impact Factor (2014): 4.7 Cited by 13
15.- R Maya-Martinez, P Gil-Rodriguez, Amero C, “Solution structure of 6aJL2 and 6aJL2-R24G amyloidogenics light chain proteins”,
Biochemical and biophysical research communications, (2015), 456(2), 695-699 DOI:10.1016/j.bbrc.2014.12.044.
Impact Factor (2014): 2.8 HTML, Cited by 3
Impact Factor (2014): 2.8 HTML, Cited by 3
14.- P Gil-Rodriguez, Amero C, “1H, 15N and 13C resonance assignments for 3rC and 3rCWP: amyloidogenic variants of imunoglobulin λ 3 light-chain”,
Biomol. NMR Assign., (2015), 9(1), 139-142 DOI:.HTML,
Impact Factor (2014): 0.65 Cited by 1
Impact Factor (2014): 0.65 Cited by 1
13.- Rivera-Najera L, Saab-Rincón G, Battaglia M,, Amero C,Pulido NO, García-Hernández E, Solórzano RM, Reyes JL and Covarrubias AA, “A Group 6 Late Embryogenesis Abundant Protein from Common Bean Is a Disordered Protein with Extended Helical Structure and Oligomer-forming Properties”,
J. Biol. Chem., (2014), 289, 31995-32009 DOI:. HTML,
Impact Factor (2013): 4.6 Cited by 9
Impact Factor (2013): 4.6 Cited by 9
12.- Ayala I, Homelin O, Amero C, Pessey O, Plevin M, Gans P, and Boisbouvier J, “An optimized isotopic labelling strategy of isoleucine-γ2 methyl groups for solution NMR of high molecular weight proteins”,
Chem. Commun, (2012), 48, 1434-1436 DOI:10.1039/C1CC12932E. HTML,
Impact Factor (2011): 6.082 Cited by 25
Impact Factor (2011): 6.082 Cited by 25
11.- Rodríguez J, Villalón A, Herrera S, Garza-Ramos G, Torres A, Amero C, Zarraga G, Gutiérrez M, Lara MT, Polanco C, Uribe S, Coria R, Peña A, Bredesen DE, Castro-Obregon S, and del Rio G,
“Moonlighting Peptides with Emerging Function”,
PLoS ONE., (2012), 07:7, e40125 DOI:10.1371/journal.pone.0040125. HTML,
Impact Factor (2011): 4.092 Cited by 12
Impact Factor (2011): 4.092 Cited by 12
10.- Amero CD, Durá A, Noirclerc-Savoye M, Perollier A, Gallet B, Plevin M, Vernet T, Franzetti B and Boisbouvier J, “A systematic mutagenesis-driven strategy for site-resolved NMR studies of supramolecular assemblies”,
Journal of Biomolecular NMR, (2011), 50:3, 229-236 DOI:10.1007/s10858-011-9513-5. HTML,
Impact Factor (2011): 3.612 Cited by 33
Impact Factor (2011): 3.612 Cited by 33
9.- Gans P, Hamelin O, Sounier R, Ayala I, Durá A, Amero CD, Noirclerc-Savoye M, Franzetti B, Plevin M, and Boisbouvier J, “Stereospecific Isotopic Labeling of Methyl Groups for NMR Studies of High Molecular Weight Proteins”,
Angew Chem Int Ed Engl, (2010), 49:11, 1958-62 DOI:10.1002/anie.200905660. HTML,
Impact Factor (2010): 12.730 Cited by 104
Impact Factor (2010): 12.730 Cited by 104
8.- Amero C, Schanda P, Dura A, Ayala I, Marion D, Franzetti B, Brutscher B and Boisbouvier J, “Fast Two-Dimensional NMR Spectroscopy of High Molecular Weight Protein Assemblies”,
J Am Chem Soc, (2009), 131(10):3448-3449. HTML,
Impact Factor (2009): 8.58 Cited by 63
Impact Factor (2009): 8.58 Cited by 63
7.- Amero C, Douglas WB, McElroy C, Simmons A, and Foster MP, “Ligand-induced changes in the structure and dynamics of E. coli peptide deformylase”,
Biochemistry, (2009), 48:32, 7595–7607. DOI: 10.1021/bi900600b. HTML,
Impact Factor (2009): 3.22 Cited by 13
Impact Factor (2009): 3.22 Cited by 13
6.- Xu Y, Amero CD, Pulukkunat DK, Gopalan V, Foster MP, “Solution Structure of an Archaeal RNase P Binary Protein Complex: Formation of the 30-kDa Complex between Pyrococcus furiosus RPP21 and RPP29 Is Accompanied by Coupled Protein Folding and Highlights Critical Features for Protein-Protein and Protein-RNA Interactions”,
J Mol Biol, (2009), 393:5, 1043-1055. HTML,
Impact Factor (2009): 3.87 Cited by 44
Impact Factor (2009): 3.87 Cited by 44
5.- Amero CD, Boomershine WP, Xu Y, Foster M, "Solution structure of Pyrococcus furiosus RPP21, a component of the archaeal RNase P holoenzyme, and interactions with its RPP29 protein partner",
Biochemistry, (2008), 47(45):11704-10. HTML,
Impact Factor (2008): 3.37 Cited by 29
Impact Factor (2008): 3.37 Cited by 29
4.- Amero CD, Arnold JJ, Moustafa IM, Cameron CE, and Foster MP, "Identification of the oriI-binding site of poliovirus 3C protein by NMR spectroscopy",
J Virol, (2008), 82(9):4363-70. HTML,
Impact Factor (2008): 5.30 Cited by 16
Impact Factor (2008): 5.30 Cited by 16
3.- Foster MP, McElroy CA, Amero CD, “Solution NMR of Large Molecules and Assemblies”,
Biochemistry, (2007), 46(2):331-340. HTML,
Impact Factor (2007): 3.36 Cited by 117
Impact Factor (2007): 3.36 Cited by 117
2.- Espinosa G, Amero C, Gammage R, “Measurements of alpha particle energy using nuclear tracks in solids methodology”, Radiat Prot. Dosimetry, (2002), 101(1-4):561-564. HTML,
Cited by 4
Cited by 4
1.- Amero C, Golzarri JI, Izerrouken M, Espinosa G, “148Gd, 238U, 239Pu and 244Cm Alpha Particle Energy Analysis Using Tracks in Solids”, Radiation Measurements, (2001), 34(1-6):341-343.
HTMLCited by 7
Divulgation
2.- Amero C.,“Estudio de proteínas por Resonancia Magnética Nuclear”, Hypatia, (2011), 35:6.
PDF
1.- Amero C.,“Aplicaciones de resonancia magnética nuclear en el estudio de proteínas”, Mensaje Bioquimico, (2011), 35:159-172.
PDF