Publicaciones

portadas

Encuentra nuestras publicaciones en Pubmed o haz clic en los títulos que aparecen a continuación:


  1. Genes involved in auxin biosynthesis, transport and signalling underlie the extreme adventitious root phenotype of the tomato aer mutant
    Kevei Z, Larriba E, Romero-Bosquet MD, Nicolás-Albujer M, Kurowski T, Mohareb F, Rickett D, Pérez-Pérez JM, Thompson AJ
    Theor. Appl. Genet. 137: 76 (2024)
  2. Recent advances in tomato gene editing
    Larriba E, Yaroshko O, Pérez-Pérez JM
    Int. J. Mol. Sci. 25: 2606 (2024)
  3. Temporal profiling of physiological, histological, and transcriptomic dissection during auxin-induced adventitious root formation in tetraploid Robinia pseudoacacia micro-cuttings
    Udin S, Munir MZ, Larriba E, Pérez-Pérez JM, Gull S, Pervaiz T, Mahmood U, Mahmood Z, Sun Y, Li Y
    Planta 259: 66 (2024)
  4. Plant growth regulation in cell and tissue culture in vitro
    Pasternak T, Steinmacher D
    Plants 13: 327 (2024)
  5. Regulation of early seedling establishment and root development in Arabidopsis thaliana by light and carbohydrates
    Pasternak T, Kircher S, Palme K, Pérez-Pérez JM
    Planta 258: 76 (2023)
  6. A new in vitro growth system for phenotypic characterization and seed propagation of Arabidopsis thaliana
    Pasternak T, Pérez-Pérez JM, Ruperti B, Aleksandrova T, Palme K
    J. Plant Growth Regul., doi.org/10.1007/s00344-023-11093-x (2023)
  7. Optimization of callus induction and shoot regeneration from tomato cotyledon explants
    Yaroshko O, Pasternak T, Larriba EPérez-Pérez JM
    Plants 12: 2942 (2023)
  8. Role of reactive oxygen species in the modulation of auxin flux and root development in Arabidopsis thaliana
    Pasternak T, Palme K, Pérez-Pérez JM
    Plant J. 114: 83 (2023)
  9. Mapping of the classical mutation rosette highlights a role for calcium in wound-induced rooting
    Modrego A, Pasternak T, Omary M, Albacete A, Cano A, , Pérez-Pérez JM, Efroni I
    Plant Cell Physiol., 64: 152 (2023) [ bioRxiv ]
  10. Transcriptomic and hormonal analysis of the roots of maize seedlings grown hydroponically at low temperature
    Friero I, Larriba E, Martínez-Melgarejo PA, Justamante MS, Alarcón MV, Albacete A, Salguero J, Pérez-Pérez JM
    Plant Sci. 326: 111525 (2023) [ SSRN ]
  11. Identification of transcriptional networks involved in de novo organ formation in tomato hypocotyl explants
    Larriba E, Nicolás-Albujer M, Sánchez-García AB, Pérez-Pérez JM
    Int. J. Mol. Sci. 23: 16112 (2022)
  12. Root meristems: Don’t TOR at the TOP
    Pérez-Pérez JM
    Nature Plants 8: 729 (2022)
  13. Effects of auxin (indole-3-butyric acid) on adventitious root formation in peach-based Prunus Rootstocks
    Justamante MS, Mhimdi M, Molina-Pérez M, Albacete A, Moreno MA, Mataix I, Pérez-Pérez JM
    Plants 11: 913 (2022)
  14. A simple pipeline for cell cycle kinetic studies in the root apical meristem
    Pasternak T, Kircher S, Pérez-Pérez JM, Palme K   
    J. Exp. Bot. 73: 4683 (2022)
  15. Mitigation of calcium-related disorders in soilless production systems
    Birlanga V, Acosta-Motos JR, Pérez-Pérez JM  
    Agronomy 12: 644 (2022)
  16. Plant development: from cells to systems biology
    de Folter S, Palme K, Pérez-Pérez JM  
    Front. Plant Sci. 12: 810071 (2021)
  17. Methods of in situ quantitative root biology
    Pasternak T, Pérez-Pérez JM  
    Plants 10: 2399 (2021) [ bioRxiv ]
  18. Dynamic hormone gradients regulate wound-induced de novo organ formation in tomato hypocotyl explants
    Larriba E#, Sánchez-García AB#, Justamante MS, Martínez-Andújar C, Albacete A, Pérez-Pérez JM  
    Int. J. Mol. Sci. 22: 11843 (2021)
  19. Genome-wide high-resolution mapping of DNA methylation reveals epigenetic variation in the offspring of sexual and asexual propagation in Robinia pseudoacacia
    Zhang Z, Liu J, Sun Y, Wang S, Xing X, Feng X, Pérez-Pérez JM, Li Y  
    Plant Cell Rep. 40: 2435 (2021)
  20. Optimization of ROS measurement and localization in plant tissues: challenges and solutions
    Pasternak T, Pérez-Pérez JM  
    protocols.io doi: 10.17504/protocols.io.bx49pqz6 (2021)
  21. Tissue-specific metabolic reprogramming during wound induced de novo organ formation in tomato hypocotyl explants
    Larriba E, Sánchez-García AB, Martínez-Andújar C, Albacete A, Pérez-Pérez JM  
    Int. J. Mol. Sci. 22: 10112 (2021) [ bioRxiv ]
  22. Overproduction of ABA in rootstocks alleviates salinity stress in tomato roots
    Martínez-Andújar C, Martínez-Pérez A, Albacete A, Martínez-Melgarejo PA, Dodd I, Thompson AJ, Ferrández-Ayela A, Pérez-Pérez JM, Gifford M, Pérez-Alfocea F  
    Plant Cell Environ. 44: 2966 (2021) [ Open Access file ]
  23. An auxin‐mediated regulatory framework for wound‐induced adventitious root formation in tomato shoot explants
    Alaguero-Cordovilla A, Sánchez-García AB, Ibáñez S, Albacete A, Cano A, Acosta M, Pérez-Pérez JM  
    Plant Cell Environ. 44: 1642 (2021) [ Open Access file ]
  24. Genotype-dependent tipburn severity during lettuce hydroponic culture is associated with altered nutrient leaf content
    Birlanga V, Acosta-Motos JR, Pérez-Pérez JM  
    Agronomy 11: 616 (2021)
  25. Understanding of adventitious root formation: what can we learn from comparative genetics?
    Mhimdi M, Pérez-Pérez JM  
    Front. Plant Sci. 11: 582020 (2020)
  26. A quick protocol for the identification and characterization of early growth mutants in tomato
    Alaguero-Cordovilla A, Gran-Gómez FJ, Jadczak P, Mhimdi M, Ibáñez S, 
    Bres C, Just D, Rothan C, Pérez-Pérez JM
    Plant Sci. 301: 110673 (2020) [ Open Access file ]
  27. Anchor root development: a world within worlds
    Pérez-Pérez JM
    Mol. Plant 8: 1105 (2020)
  28. Advances in plant regeneration: shake, rattle and roll
    Ibáñez S, Carneros E, Testillano PS, Pérez-Pérez JM
    Plants 9: 897 (2020)
  29. Impact of overexpression of 9-cis-epoxycarotenoid dioxygenase on growth and gene expression under salinity stress
    Martínez-Andújar C, Martínez-Pérez A, Ferrández-Ayela A, Albacete A, Martínez-Melgarejo PA, Dodd IC, Thompson AJ, Pérez-Pérez JM, Pérez-Alfocea F
    Plant Sci. 295: 110268 (2020)
  30. Integrated analysis of the physiology, RNA, and microRNA involved in black locust (Robinia pseudoacacia) rejuvenation
    Zhang Z, Sun Y, Han C, Dong L, Guo Q, Li X, Cao S, Ud Din S, Munir Z, Pérez-Pérez JM, Li Y
    Research Square doi: 10.21203/rs.2.10375/v1 (2019)
  31. Integration of phenotype and hormone data during adventitious rooting in carnation (Dianthus caryophyllus L.) stem cuttings
    Justamante MS
    , Acosta-Motos JR, Cano A, Villanova J, Birlanga V, Albacete A, Cano EA, Acosta M, Pérez-Pérez JM
    Plants 8: 226 (2019)
  32. A network-guided genetic approach to identify novel regulators of adventitious root formation in Arabidopsis thaliana
    Ibáñez S
    , Ruiz-Cano H, Fernández MA, Sánchez-García AB, Villanova J, Micol, JL, Pérez-Pérez JM
    Front. Plant Sci. 10: 461 (2019)
  33. A genome-wide association study identifies new loci required for wound-induced lateral root formation in Arabidopsis thaliana
    Justamante MS, Ibáñez S, Peidró A, Pérez-Pérez JM
    Front. Plant Sci. 10: 311 (2019)
  34. Molecular and physiological control of adventitious rooting in cuttings: phytohormone action meets resource allocation
    Druege U, Hilo A#Pérez-Pérez JM#, Klopotek Y, Acosta M, Shahinnia F, Zerche S, Franken P, Hajirezaei M
    Ann. Bot. 123: 929 (2019)
  35. Morphological characterization of root system architectural traits in diverse tomato genotypes during early growth
    Alaguero-Cordovilla A, Gran-Gómez FJ, Tormos-Moltó S, Pérez-Pérez JM
    Int. J. Mol. Sci. 19: 3888 (2018)
  36. INCURVATA11 and CUPULIFORMIS2 are redundant genes that encode epigenetic machinery components in Arabidopsis
    Mateo-Bonmatí E, Esteve-Bruna D, Juan-Vicente L, Nadi R, Candela H, Lozano FM, Ponce MR, Pérez-Pérez JM, Micol JL
    Plant Cell 30: 1596 (2018)
  37. A comprehensive phylogeny of auxin homeostasis genes involved in adventitious root formation in carnation stem cuttings
    Sánchez-García AB
    , Ibáñez S, Cano A, Acosta M, Pérez-Pérez JM
    PLoS One 13: e0196663 (2018)
  38. Enhanced conjugation of auxin by GH3 enzymes leads to poor adventitious rooting in carnation stem cuttings
    Cano A, Sánchez-García AB, Albacete A, González-Bayón R, Justamante MSIbáñez S, Acosta M, Pérez-Pérez JM
    Front. Plant Sci. 9: 566 (2018)
  39. Regulation of hormonal control, cell reprograming and patterning during de novo root organogenesis
    Bustillo-Avendaño E, Ibáñez S, Sanz O, Barros JAS, Gude I, Perianez-Rodriguez J, Micol JL, Del Pozo JC, Moreno-Risueño MA, Pérez-Pérez JM
    Plant Physiol. 176: 1709 (2018)
  40. Deficient glutamate biosynthesis triggers a concerted upregulation of ribosomal protein genes in Arabidopsis
    Muñoz-Nortes T, Pérez-Pérez JM, Sarmiento-Mañús R, Candela H, Micol JL
    Sci. Rep. 7: 6164 (2017)
  41. Vegetative propagation of argan tree (Argania spinosa (L.) Skeels) using in vitro germinated seeds and stem cuttings
    Justamante MS
    , Ibáñez S, Villanova JPérez-Pérez JM
    Sci. Hort. 225: 81 (2017) [Open Access file]
  42. The ANGULATA7 gene encodes a DnaJ-like zinc finger-domain protein involved in chloroplast function and leaf development in Arabidopsis
    Muñoz-Nortes T, Pérez-Pérez JM, Ponce MR, Candela H, Micol JL
    Plant J. 89: 870 (2017) [Open Access file] [Supplementary data]
  43. Multiple factors influence adventitious rooting in carnation (Dianthus caryophyllus L.) stem cuttings
    Villanova J
    , Cano A, Albacete A, López A, Cano EA, Acosta M, Pérez-Pérez JM
    Plant Growth Regul. 81: 511 (2017) [Open Access file]
  44. Root-to-shoot hormonal communication in contrasting rootstocks suggests an important role for the ethylene precursor aminocyclopropane-1-carboxylic acid in mediating plant growth under low-potassium nutrition in tomato
    Martínez-Andújar C, Albacete A, Martínez-Pérez A, Pérez-Pérez JM, Asíns MJ, Pérez-Alfocea F
    Front. Plant Sci. 7: 1782 (2016)
  45. Wound signaling of regenerative cell reprogramming
    Lup SD
    , Tian X, Xu J, Pérez-Pérez JM
    Plant Science  250: 178 (2016) [Open Access file]
  46. Identification of novel stress-responsive biomarkers from gene expression datasets in tomato roots
    Ferrández-Ayela A, Sánchez-García AB, Martínez-Andújar C, Kevei Z, Gifford ML, Thompson AJ, Pérez-Alfocea F, Pérez-Pérez JM
    Funct. Plant Biol.  43: 783 (2016) [Open Access file] [Supplementary data]
  47. TOPOISOMERASE1α acts through two distinct mechanisms to regulate stele and columella stem cell maintenance in the Arabidopsis root
    Zhang Y, Zheng L, Hong JH, Gong X, Zhou C, Perez-Perez JM, Xu J
    Plant Physiol. 171: 483 (2016) [Open Access file]
  48. Gene expression profiling during adventitious root formation in carnation stem cuttings
    Villacorta-Martín C, Sánchez-García ABVillanova J, Cano A, van de Rhee M, de Haan J, Acosta M, Passarinho P, Pérez-Pérez JM
    BMC Genomics 16: 789 (2015)
  49. Quantitative analysis of adventitious root growth phenotypes in carnation stem cuttings
    Birlanga V, Villanova J, Cano A, Cano EA, Acosta M, Pérez-Pérez JM
    PLoS One 10: e0133123 (2015)
  50. Leaf phenomics: a systematic reverse genetic screen for Arabidopsis leaf mutants
    Wilson-Sánchez D, Rubio-Díaz S, Muñoz-Viana R, Pérez-Pérez JM, Jover-Gil S, Ponce MR, Micol JL
    Plant J. 79: 878 (2014)
  51. Adventitious root development in ornamental plants: insights from carnation stem cuttings
    Cano E, Pérez-Pérez JM, Acosta M
    Soil Biology Series: Root engineering 40: 423 (2014) [Open Access file]
  52. Early steps of adventitious rooting: morphology, hormonal profiling and carbohydrate turnover in carnation stem cuttings
    Agulló-Antón MA, Ferrández-Ayela A, Fernández-García N, Nicolás C, Albacete A, Pérez-Alfocea F, Sánchez-Bravo J, Pérez-Pérez JM#, Acosta M#
    Phisiol. Plant. 150: 446 (2014) [Open Access file]
  53. A quantitative framework for flower phenotyping in cultivated carnation (Dianthus caryophyllus L.)
    Chacón B, Ballester R, Birlanga V, Rolland-Lagan AG, Pérez-Pérez JM
    PLoS One 8: e82165 (2013)
  54. RETINOBLASTOMA-RELATED protein stimulates cell differentiation in the Arabidopsis root meristem by interacting with cytokinin signaling
    Perilli S#Pérez-Pérez JM#, Di Mambro R, Peris CL, Díaz-Triviño S, Del Bianco M, Pierdonati E, Moubayidin L, Cruz-Ramírez A, Costantino P, Scheres B, Sabatini S
    Plant Cell 25: 4469 (2013)
  55. Arabidopsis TRANSCURVATA1 encodes NUP58, a component of the nucleopore central channel
    Ferrández-Ayela A, Alonso-Peral MM, Sánchez-García AB, Micol-Ponce R, Pérez-Pérez JM, Micol JL, Ponce MR
    PLoS One 8: e67661 (2013)
  56. Functional redundancy and divergence within the Arabidopsis RETICULATA-RELATED gene family
    Pérez-Pérez JM, Esteve-Bruna D, González-Bayón R, Kangasjärvi S, Caldana C, Hannah MA, Willmitzer L, Ponce MR, Micol JL
    Plant Physiol. 175: 589 (2013)
  57. Evaluation of ploidy level and endoreduplication in carnation (Dianthus spp.)
    Agulló-Antón MA, Olmos E, Pérez-Pérez JM, Acosta M
    Plant Science 201: 1 (2013) [Open Access file]
  58. incurvata13, a novel allele of AUXIN RESISTANT6, reveals a specific role for auxin and the SCF complex in Arabidopsis embryogenesis, vascular specification and leaf flatness
    Esteve-Bruna D, Pérez-Pérez JM, Ponce MR, Micol JL
    Plant Physiol. 175: 1303 (2013)
  59. Cell expansion-mediated organ growth is affected by mutations in three EXIGUA genes
    Rubio-Díaz S#, Pérez-Pérez JM#, González-Bayón R, Muñoz-Viana R, Borrega N, Mouille G, Hernández-Romero D, Robles P, Höfte H, Ponce MR, Micol JL
    PLoS One 7: e36500 (2012)
  60. Whole organ, venation and epidermal cell morphological variations are correlated in the leaves of Arabidopsis mutants
    Pérez-Pérez JM, Rubio-Díaz S, Dhondt S, Hernández-Romero D, Sánchez-Soriano J, Beemster GT, Ponce MR, Micol JL
    Plant Cell Environ. 34: 2200 (2011)
  61. Uncovering the post-embryonic functions of gametophytic- and embryonic-lethal genes
    Candela H, Pérez-Pérez JM, Micol JL
    Trends Plant Sci. 16: 336 (2011)
  62. Analysis of ven3 and ven6 reticulate mutants reveals the importance of arginine biosynthesis in Arabidopsis leaf development
    Mollá-Morales A, Sarmiento-Mañús R, Robles P, Quesada V, Pérez-Pérez JM, González-Bayón R, Hannah MA, Willmitzer L, Ponce MR, Micol JL
    Plant J. 65: 335 (2011)
  63. Differential contributions of ribosomal protein genes to Arabidopsis thaliana leaf development
    Horiguchi G, Mollá-Morales A, Pérez-Pérez JM, Kojima K, Robles P, Ponce MR, Micol JL, Tsukaya H
    Plant J. 65: 724 (2011)
  64. A role for AUXIN RESISTANT3 in the coordination of leaf growth
    Pérez-Pérez JM
    , Candela H, Robles P, López-Torrejón G, del Pozo JC, Micol JL
    Plant Cell Physiol. 51: 1661 (2010)
  65. QTL analysis of leaf architecture
    Pérez-Pérez JM
    , Esteve-Bruna D, Micol JL
    J. Plant Res. 123: 15 (2010)
  66. Understanding synergy in genetic interactions
    Pérez-Pérez JM
    , Candela H, Micol JL
    Trends Genet. 2009 25: 368 (2009)
  67. Lessons from a search for leaf mutants in Arabidopsis thaliana
    Pérez-Pérez JM
    , Candela H, Robles P, Quesada V, Ponce MR, Micol JL
    Int. J. Dev. Biol. 53: 1623 (2009)
  68. Specialization of CDC27 function in the Arabidopsis thaliana anaphase-promoting complex (APC/C)
    Pérez-Pérez JM
    , Serralbo O, Vanstraelen M, González C, Criqui MC, Genschik P, Kondorosi E, Scheres B
    Plant J. 53: 78 (2008)
  69. Hormone signalling and root development: an update on the latest Arabidopsis thaliana research
    Pérez-Pérez JM
    Funct. Plant Biol. 34: 163 (2007)
  70. Non-cell-autonomous rescue of anaphase-promoting complex function revealed by mosaic analysis of HOBBIT, an Arabidopsis CDC27 homolog
    Serralbo O#, Pérez-Pérez JM#, Heidstra R, Scheres B
    Proc. Natl. Acad. Sci. USA 103: 13250 (2006)
  71. The RETINOBLASTOMA-RELATED gene regulates stem cell maintenance in Arabidopsis roots
    Wildwater M, Campilho A#Perez-Perez JM#, Heidstra R, Blilou I, Korthout H, Chatterjee J, Mariconti L, Gruissem W, Scheres B
    Cell 123: 1337 (2005)
  72. Quantitative trait loci mapping of floral and leaf morphology traits in Arabidopsis thaliana: evidence for modular genetic architecture
    Juenger T, Pérez-Pérez JM, Bernal S, Micol JL
    Evol. Dev. 7: 259 (2005)
  73. The ULTRACURVATA2 gene of Arabidopsis encodes an FK506-binding protein involved in auxin and brassinosteroid signaling
    Pérez-Pérez JM
    , Ponce MR, Micol JL
    Plant Physiol. 134: 101 (2004)
  74. Genetic analysis of natural variations in the architecture of Arabidopsis thaliana vegetative leaves
    Pérez-Pérez JM
    , Serrano-Cartagena J, Micol JL
    Genetics 162: 893 (2002)
  75. The UCU1 Arabidopsis gene encodes a SHAGGY/GSK3-like kinase required for cell expansion along the proximodistal axis
    Pérez-Pérez JM
    , Ponce MR, Micol JL
    Dev. Biol. 242: 161 (2002)
  76. ULTRACURVATA1, a SHAGGY-like Arabidopsis gene required for cell elongation
    Pérez-Pérez JM, Ponce MR, Micol JL
    Int. J. Dev. Biol. 45: S51 (2001)
  77. Mutations in the ULTRACURVATA2 gene of Arabidopsis thaliana, which encodes a FKBP-like protein, cause dwarfism, leaf epinasty and helical rotation of several organs
    Pérez-Pérez JM, Ponce MR, Micol JL
    Int. J. Dev. Biol. 45: S49 (2001)
  78. Genetic architecture of leaf morphogenesis in Arabidopsis thaliana
    Robles P, Pérez-Pérez JM, Candela H, Quesada V, Barrero JM, Jover-Gil S, Ponce MR, Micol JL
    Int. J. Dev. Biol. 45: S61 (2001)
  79. Genetic and molecular analysis of INCURVATA2, a negative regulator of floral homeotic genes in the leaves of Arabidopsis thaliana
    Ponce MR, Barrero JM, Candela H, Robles P, Pérez-Pérez JM, Piqueras P, Martínez-Laborda A, Micol JL
    Int. J. Dev. Biol. 45: S53 (2001)
  80. Genetic analysis of incurvata mutants reveals three independent genetic operations at work in Arabidopsis leaf morphogenesis
    Serrano-Cartagena J, Candela H, Robles P, Ponce MR, Pérez-Pérez JM, Piqueras P, Micol JL
    Genetics 156: 1363 (2000)
  81. A multiplex reverse transcriptase-polymerase chain reaction method for fluorescence-based semiautomated detection of gene expression in Arabidopsis thaliana
    Ponce MR, Pérez-Pérez JM, Piqueras P, Micol JL
    Planta 211: 606 (2000)

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