Nitrate reductase regulates plant nitric oxide homeostasis A Chamizo-Ampudia, E Sanz-Luque, A Llamas, A Galvan, E Fernandez Trends in plant science 22 (2), 163-174, 2017 | 392 | 2017 |
Understanding nitrate assimilation and its regulation in microalgae E Sanz-Luque, A Chamizo-Ampudia, A Llamas, A Galvan, E Fernandez Frontiers in plant science 6, 163887, 2015 | 374 | 2015 |
Structure of the molybdopterin-bound Cnx1G domain links molybdenum and copper metabolism J Kuper, A Llamas, HJ Hecht, RR Mendel, G Schwarz Nature 430 (7001), 803-806, 2004 | 241 | 2004 |
A high-affinity molybdate transporter in eukaryotes M Tejada-Jiménez, Á Llamas, E Sanz-Luque, A Galván, E Fernández Proceedings of the National Academy of Sciences 104 (50), 20126-20130, 2007 | 153 | 2007 |
Nitrate Signaling by the Regulatory Gene NIT2 in Chlamydomonas A Camargo, A Llamas, RA Schnell, JJ Higuera, D Gonzalez-Ballester, ... The Plant Cell 19 (11), 3491-3503, 2007 | 149 | 2007 |
A dual system formed by the ARC and NR molybdoenzymes mediates nitrite‐dependent NO production in Chlamydomonas A Chamizo‐Ampudia, E Sanz‐Luque, Á Llamas, F Ocaña‐Calahorro, ... Plant, Cell & Environment 39 (10), 2097-2107, 2016 | 143 | 2016 |
The mechanism of nucleotide-assisted molybdenum insertion into molybdopterin: A novel route toward metal cofactor assembly A Llamas, T Otte, G Multhaup, RR Mendel, G Schwarz Journal of Biological Chemistry 281 (27), 18343-18350, 2006 | 135 | 2006 |
Synthesis of adenylated molybdopterin: an essential step for molybdenum insertion A Llamas, RR Mendel, G Schwarz Journal of Biological Chemistry 279 (53), 55241-55246, 2004 | 100 | 2004 |
Molybdenum metabolism in plants M Tejada-Jiménez, A Chamizo-Ampudia, A Galván, E Fernández, ... Metallomics 5 (9), 1191-1203, 2013 | 91 | 2013 |
THB 1, a truncated hemoglobin, modulates nitric oxide levels and nitrate reductase activity E Sanz‐Luque, F Ocaña‐Calahorro, A de Montaigu, A Chamizo‐Ampudia, ... The Plant Journal 81 (3), 467-479, 2015 | 87 | 2015 |
Nitric oxide controls nitrate and ammonium assimilation in Chlamydomonas reinhardtii E Sanz-Luque, F Ocaña-Calahorro, A Llamas, A Galvan, E Fernandez Journal of Experimental Botany 64 (11), 3373-3383, 2013 | 77 | 2013 |
Function and structure of the molybdenum cofactor carrier protein from Chlamydomonas reinhardtii K Fischer, A Llamas, M Tejada-Jimenez, N Schrader, J Kuper, FS Ataya, ... Journal of biological chemistry 281 (40), 30186-30194, 2006 | 75 | 2006 |
Nitrate signalling on the nitrate reductase gene promoter depends directly on the activity of the nitrate transport systems in Chlamydomonas A Llamas, MI Igeño, A Galván, E Fernández The Plant Journal 30 (3), 261-271, 2002 | 72 | 2002 |
Role of nitrate reductase in NO production in photosynthetic eukaryotes M Tejada-Jimenez, A Llamas, A Galván, E Fernández Plants 8 (3), 56, 2019 | 71 | 2019 |
Homeostasis of the micronutrients Ni, Mo and Cl with specific biochemical functions M Tejada-Jiménez, A Galván, E Fernández, Á Llamas Current opinion in plant biology 12 (3), 358-363, 2009 | 59 | 2009 |
Nitrogen assimilation and its regulation E Fernández, Á Llamas, A Galván The chlamydomonas sourcebook, 69-113, 2009 | 57 | 2009 |
The Chlamydomonas reinhardtii molybdenum cofactor enzyme crARC has a Zn-dependent activity and protein partners similar to those of its human homologue A Chamizo-Ampudia, A Galvan, E Fernandez, A Llamas Eukaryotic cell 10 (10), 1270-1282, 2011 | 54 | 2011 |
The molybdenum cofactor enzyme mARC: Moonlighting or promiscuous enzyme? A Llamas, A Chamizo‐Ampudia, M Tejada‐Jimenez, A Galvan, ... Biofactors 43 (4), 486-494, 2017 | 53 | 2017 |
Molybdenum cofactor amounts in Chlamydomonas reinhardtii depend on the Nit5 gene function related to molybdate transport A Llamas, KL Kalakoutskii Plant, Cell & Environment 23 (11), 1247-1255, 2000 | 43 | 2000 |
How Chlamydomonas handles nitrate and the nitric oxide cycle V Calatrava, A Chamizo-Ampudia, E Sanz-Luque, F Ocaña-Calahorro, ... Journal of Experimental Botany 68 (10), 2593-2602, 2017 | 40 | 2017 |