| The yeast heat shock transcription factor contains a transcriptional activation domain whose activity is repressed under nonshock conditions J Nieto-Sotelo, G Wiederrecht, A Okuda, CS Parker Cell 62 (4), 807-817, 1990 | 233 | 1990 |
| A Selaginella lepidophylla Trehalose-6-Phosphate Synthase Complements Growth and Stress-Tolerance Defects in a Yeast tps1 Mutant R Zentella, JO Mascorro-Gallardo, PV Dijck, J Folch-Mallol, B Bonini, ... Plant Physiology 119 (4), 1473-1482, 1999 | 208 | 1999 |
| Maize HSP101 plays important roles in both induced and basal thermotolerance and primary root growth J Nieto-Sotelo, LM Martínez, G Ponce, GI Cassab, A Alagón, RB Meeley, ... The Plant Cell 14 (7), 1621-1633, 2002 | 184 | 2002 |
| Effect of heat shock on the metabolism of glutathione in maize roots J Nieto-Sotelo, THD Ho Plant Physiology 82 (4), 1031-1035, 1986 | 136 | 1986 |
| A developmentally regulated hydroxyproline-rich glycoprotein from the cell walls of soybean seed coats GI Cassab, J Nieto-Sotelo, JB Cooper, GJ van Holst, JE Varner Plant Physiology 77 (3), 532-535, 1985 | 107 | 1985 |
| Cloning of new members of heat shock protein HSP101 gene family in wheat (Triticum aestivum (L.) Moench) inducible by heat, dehydration, and ABA JL Campbell, NY Klueva, H Zheng, J Nieto-Sotelo, THD Ho, HT Nguyen Biochimica et Biophysica Acta (BBA)-Gene Structure and Expression 1517 (2 …, 2001 | 105 | 2001 |
| COVASIAM: an image analysis method that allows detection of confluent microbial colonies and colonies of various sizes for automated counting G Corkidi, R Diaz-Uribe, JL Folch-Mallol, J Nieto-Sotelo Applied and environmental microbiology 64 (4), 1400-1404, 1998 | 97 | 1998 |
| Cap‐independent translation of maize Hsp101 TD Dinkova, H Zepeda, E Martínez‐Salas, LM Martínez, J Nieto‐Sotelo, ... The Plant Journal 41 (5), 722-731, 2005 | 80 | 2005 |
| Characterization of a maize heat-shock protein 101 gene, HSP101, encoding a ClpB/Hsp100 protein homologue J Nieto-Sotelo, KB Kannan, LM Martınez, C Segal Gene 230 (2), 187-195, 1999 | 72 | 1999 |
| PF1: an AT hook-containing DNA binding protein from rice that interacts with a functionally defined d (AT)-rich element in the oat phytochrome A3 gene promoter. J Nieto-Sotelo, A Ichida, PH Quail The Plant Cell 6 (2), 287-301, 1994 | 71 | 1994 |
| RIBOSOMAL DNA VARIATION IN THE NATIVE PLANT PHLOX-DIVARICATA BA SCHAAL, WJ LEVERICH, J NIETOSOTELO MOLECULAR BIOLOGY AND EVOLUTION 4, 611.621, 1987 | 61 | 1987 |
| Small heat‐shock proteins and leaf cooling capacity account for the unusual heat tolerance of the central spike leaves in Agave tequilana var. Weber R Lujan, F Lledias, LM Martínez, R Barreto, GI Cassab, J NIETO‐SOTELO Plant, cell & environment 32 (12), 1791-1803, 2009 | 54 | 2009 |
| Cloning, sequence analysis, and expression of a cDNA encoding a plastid-localized heat shock protein in maize J Nieto-Sotelo, E Vierling, THD Ho Plant physiology 93 (4), 1321-1328, 1990 | 53 | 1990 |
| Molecular characterization of sucrose: sucrose 1-fructosyltransferase (1-SST) from Agave tequilana Weber var. azul. Á Ávila-Fernández, C Olvera-Carranza, E Rudino-Pinera, GI Cassab, ... Plant Science 173 (4), 478-486, 2007 | 45 | 2007 |
| Transgenic Plants and World Agriculture TTWAS Royal Society of London, The US National Academy of Sciences ... | 42* | |
| New roles for CDC25 in growth control, galactose regulation and cellular differentiation in Saccharomyces cerevisiae JL Folch-Mallol, LM Martínez, SJ Casas, R Yang, C Martínez-Anaya, ... Microbiology 150 (9), 2865-2879, 2004 | 40 | 2004 |
| Phylogeny, Diversification Rate, and Divergence Time of Agave sensu lato (Asparagaceae), a Group of Recent Origin in the Process of Diversification O Jiménez-Barron, R García-Sandoval, S Magallón, A García-Mendoza, ... Frontiers in Plant Science 11, 536135, 2020 | 39 | 2020 |
| Influence of plant growth regulators and water stress on ramet induction, rosette engrossment, and fructan accumulation in Agave tequilana Weber var. Azul R Barreto, J Nieto-Sotelo, GI Cassab Plant Cell, Tissue and Organ Culture (PCTOC) 103, 93-101, 2010 | 38 | 2010 |
| Synergy between root hydrotropic response and root biomass in maize (Zea mays L.) enhances drought avoidance D Eapen, J Martínez-Guadarrama, O Hernández-Bruno, L Flores, ... Plant Science 265, 87-99, 2017 | 30 | 2017 |
| Three maize root-specific genes are not correctly expressed in regenerated caps in the absence of the quiescent center G Ponce, R Luján, ME Campos, A Reyes, J Nieto-Sotelo, LJ Feldman, ... Planta 211, 23-33, 2000 | 25 | 2000 |
