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Publications

 
  • Rodrigues AM, Miguel C, Chaves I, António C (2019) Mass spectrometry‐based forest tree metabolomics. Mass Spectrometry Reviews, doi: 10.1002/mas.21603
  • Rodrigues AS, Chaves I, Costa BV, Lin Y-C, Lopes S, Milhinhos A, Van de Peer Y, Miguel CM (2019) Small RNA profiling in Pinus pinaster reveals the transcriptome of developing seeds and highlights differences between zygotic and somatic embryos. Scientific Reports, 9: 11327. doi: 10.1038/s41598-019-47789-y
  • Correia S, Alhinho AT, Casimiro B, Miguel CM, Oliveira M, Veríssimo P and Canhoto J (2019) NEP-TC a rRNA Methyltransferase Involved on Somatic Embryogenesis of Tamarillo (Solanum betaceum Cav.). Front. Plant Sci. 10:438. doi: 10.3389/fpls.2019.00438
  • Ramos AM, Usié A, Barbosa P, Barros PM, Capote T, Chaves I, Simões F, Abreu I, Carrasquinho I, Faro C, Guimarães J, Mendonça D, Nóbrega F, Rodrigues L, Saibo N, Varela MC, Egas C, Matos J, Miguel CM, Oliveira MM,   Ricardo CP, Gonçalves S (2018) The draft genome sequence of cork oak. Sci. Data 5:180069 doi: 10.1038/sdata.2018.69
  • Rodrigues AS, de Vega JJ, Miguel CM (2018) Comprehensive assembly and analysis of the transcriptome of maritime pine developing embryos. BMC Plant Biology, doi: DOI: 10.1186/s12870-018-1564-2
  • Chaves I, Costa B, Rodrigues AS, Bohn A, Miguel CM (2017) miRPursuit – a pipeline for automated analyses of small RNAs in model and non-model plants. FEBS Letters DOI: 10.1002/1873-3468.12746
  • Rodrigues AS, Miguel CM (2017) The pivotal role of small non-coding RNAs in the regulation of seed development. Plant Cell Reports 36: 653-667. DOI 10.1007/s00299-017-2120-5 
  • Miguel A, Milhinhos A, Novák O, Jones B, Miguel CM (2016) The SHORT-ROOT-like gene PtSHR2B is involved in Populus phellogen activity. Journal of Experimental Botany 67: 1545-55. DOI:10.1093/jxb/erv547.
  • Miguel CM, Rupps A, Raschke J, Rodrigues AS, Trontin J-F (2016) Impact of molecular studies on somatic embryogenesis development for implementation in conifer multi-varietal forestry. In: Park YS, Bonga JM, Moon HK (eds) Vegetative Propagation of Forest trees. National Institute of Forest Science. Seoul, Korea, pp 373-421. http://www.iufro20902.org/Publications/documents/16%20%28Miguel%20et%20al%29.pdf
  • Lelu-Walter M-A, Klimaszewska K, Miguel C, Aronen T, Hargreaves C, Teyssier C, Trontin J-F (2016) Somatic embryogenesis for more effective breeding and deployment of improved varieties in Pinus spp.: bottlenecks and recent advances. In: Somatic Embryogenesis - Fundamental Aspects and Applications. Loyola-Vargas VM, Ochoa-Alejo N (eds), Springer Verlag. Chap 19, pp 319-365, ISBN 978-3-319-33704-3
  • Miguel A, de Vega-Bartol J, Marum L, Chaves I, Santo T, Leitão J, Varela MC, Miguel CM (2015) Characterization of the cork oak transcriptome dynamics during acorn development. BMC Plant Biology 15: 158. DOI 10.1186/s12870-015-0534-1
  • Leal S, Campelo F, Luz AL, Carneiro MF, Santos J (2015) Potential of oak tree-ring chronologies from Southern Portugal for climate reconstructions. Dendrochronologia 35:4-13
  • Santos J, Carneiro MF, Alcoforado MJ, Leal S, Luz AL, Camuffo D, Zorita E (2015) Calibration and multi-source consistency analysis of reconstructed precipitation series in Portugal since the early 17th century. Holocene 25(4): 663-676 DOI: 10.1177/0959683614566250
  • Gomes A, Pimpão RC, Fortalezas S, Figueira I, Miguel CM, Aguiar C, Salgueiro L, Cavaleiro C, Gonçalves MJ, Clemente A, Costa C, Martins-Loução MA, Ferreira RB, Santos CN (2015) Chemical characterization and bioactivity of phytochemicals from Iberian endemic Santolina semidentata and strategies for ex situ propagation. Industrial Crops and Products 74: 505-513. DOI 10.1016/j.indcrop.2015.04.037
  • Modesto I, Miguel C, Pina-Martins F, Glushkova M, Veloso M, S. Paulo O, Batista D (2014) Identifying signatures of natural selection in cork oak (Quercus suber L.) genes through SNP analysis. Tree Genetics & Genomes, DOI 10.1007/s11295-014-0786-1
  • Chaves I, Lin Y-C, Pinto-Ricardo C, Van de Peer Y, Miguel CM (2014) miRNA profiling in leaf and cork tissues of Quercus suber reveals novel miRNAs and tissue-specific expression patterns. Tree Genetics & Genomes 10:721–737, DOI: 10.1007/s11295-014-0717-1
  • Pereira-Leal JB, Abreu IA, Alabaça CS, Almeida MH, Almeida P, Almeida T, Amorim MI, Araújo S, Azevedo H, Badia A, Batista D, Bohn A, Capote T, Carrasquinho I, Chaves I, Coelho AC, R.Costa MM, Costa R, Cravador A, Egas C, Faro C, Fortes AM, Fortunato AS, Gaspar MJ, Gonçalves S, Graça J, Horta M, Inácio V, Leitão JM, Lino-Neto T, Marum L, Matos J, Mendonça D, Miguel A, Miguel CM et al. (2014) A comprehensive assessment of the transcriptome of cork oak (Quercus suber) through EST sequencing. BMC Genomics 15:371 DOI:10.1186/1471-2164-15-371
  • Canales J, Bautista R, Label P, Gomez-Maldonado J, Lesur I, Fernández-Pozo N, Rueda-López M, Guerrero-Fernández D, Castro-Rodriguez V, Benzekri H, Canas R, Guevara M-A, Rodrigues A, Seoane P, Teyssier C, Ehrenmann F, Morel A, Le Provost G, Lalanne C, Noirot C, Klopp C, Raymond I, Garcia-Gutierrez A, Trontin J-F, Lelu-Walter M-A, Miguel CM, Cervera MT, Canton F, Plomion C, Harvengt L, Avila C, Claros MG, Canovas F (2014) De novo assembly of maritime pine transcriptome: implications for forest breeding and biotechnology. Plant Biotechnology Journal 12: 286-299. DOI: 10.1111/pbi.12136.
  • Milhinhos A, Prestele J, Bollhöner B, Matos A, Vera-Sirera F, Rambla JL, Ljung K, Carbonell J, Blázquez MA, Tuominen H, Miguel CM (2013) Thermospermine levels are controlled by an auxin-dependent feedback-loop mechanism in Populus xylem. Plant Journal 75: 685-698. DOI: 10.1111/tpj.12231

  • de Vega-Bartol J*, Simões M*, Lorenz W, Rodrigues AS, Alba R, Dean JFD, Miguel CM (2013) Transcriptomic analysis highlights epigenetic and transcriptional regulation during zygotic embryo development of Pinus pinaster. BMC Plant Biology 13:123. *equal contributors; highly accessed

  • Milhinhos A, Miguel C (2013) Hormone interactions in xylem development: a matter of signals. Plant Cell Reports 32 (6): 867-883. DOI: 10.1007/s00299-013-1420-7

  • Gomes A, Fortalezas S, Pimpão R, Figueira I, Maroco J, Aguiar C, Ferreira RB, Miguel C, Santos CN (2013) Valuing the Endangered Species Antirrhinum lopesianum: Neuroprotective Activities and Strategies for in vitro Plant Propagation. Antioxidants 2(4):273-292. DOI:: http/10.3390/antiox2040273)

  • Vega-Bartol J, Santos RR, Simões M, Miguel C (2013) Normalizing gene expression by quantitative PCR during somatic embryogenesis in two representative conifer species: Pinus pinaster and Picea abies. Plant Cell Reports 32 (5): 715-729. DOI: 10.1007/s00299-013-1407-

  • Costa PM, Milhinhos A, Simões M, Marum L, Oliveira AM, Costa MH, Miguel CM (2012) Determining DNA strand breakage from embryogenic cell cultures of a conifer species using the single-cell gel electrophoresis assay. Tree Genetics & Genomes, DOI: 10.1007/s11295-011-0434-y

  • Marum L*, Miguel A*, Ricardo CP, Miguel CM (2012) Reference Gene Selection for Quantitative Real-time PCR Normalization in Quercus suber. PLoS ONE, DOI: 10.1371/journal.pone.0035113. *equal contributors

  • Miguel C, Marum L (2011) An epigenetic view of plant cells cultured in vitro: somaclonal variation and beyond. Journal of Experimental Botany, DOI: 10.1093/jxb/err155

  • Lorenz, W. W., Alba, R., Yu, Y. S., Bordeaux, J. M., Simoes, M., and Dean, J. F. D. (2011) Microarray analysis and scale-free gene networks identify candidate regulators in drought-stressed roots of loblolly pine ( P. taeda L.), BMC Genomics 12 http://dx.doi.org/10.1186/1471-2164-12-264  

  • Marum L, Loureiro J, Rodriguez E, Santos C, Oliveira MM, Miguel CM (2009) Flow cytometric and morphological analysis of Pinus pinaster somatic embryognesis. Journal of Biotechnology 143(4): 288-295.

  • Santos, AM, Oliver MJ, Sánchez AM, Payton PR, Gomes JP, Miguel CM, Oliveira MM (2009) An integrated strategy to identify key genes in almond adventitious shoot regeneration. Journal of Experimental Botany 60(14): 4159-4173.

  • Marum L, Rocheta M, Maroco J, Oliveira MM, Miguel CM (2009) Analysis of genetic stability at SSR loci during somatic embryogenesis in maritime pine (Pinus pinaster). Plant Cell Reports 28: 673-682.

  • Miguel CM, Simões M, Oliveira MM, Rocheta M. (2008) Envelope-like retrotransposons in the plant kingdom: evidence of their presence in gymnosperms (Pinus pinaster). Journal of Molecular Evolution 67:517–525.

  • Tereso S, Miguel CM, Mascarenhas M, Roque A, Trindade H, Maroco J, Oliveira MM. (2008) Improved in vitro rooting of almond (Prunus dulcis Mill.) cultivars ‘Boa Casta’ and ‘Peneda’. Biologia Plantarum 52(3): 437-444.

  • Oliveira MM, Miguel CM, Costa M (2008) Almond. In: “A Compendium of Transgenic Crop Plants”, vol.4 - Temperate Fruits & Nuts (Chittaranjan Kole, Timothy C Hall, Eds). Blackwell Publishing, Oxford, UK (in press).

  • Gonçalves S., Cairney J., Pérez Rodríguez M., Cánovas F., Oliveira M.M., Miguel C.M. (2007) PpRab1, a Rab GTPase from maritime pine is differentially expressed during embryogenesis. Molecular Genetics and Genomics 278: 273–282.
  • Rocheta M., Cordeiro J., Oliveira M.M., Miguel C.M. (2007) PpRT1 (Pinus pinaster retrotransposon 1): the first gypsy-like retrotransposon isolated in Pinus pinaster. Planta 225: 551-562.

  • Tereso S., Miguel C.M., Zoglauer K., Milhinhos A., Oliveira M.M. (2007) Zygotic and somatic embryo morphogenesis in Pinus pinaster: histological and histochemical comparative study. Tree Physiology 27: 661-669.

  • Tereso S., Miguel C.M., Maroco J., Oliveira M.M. (2006) Susceptability of embryogenic and organogenic tissues of maritime pine (Pinus pinaster) to antibiotics used in Agrobacterium-mediated transformation. Plant Cell Tissue & Organ Culture 87:33–40.

  • Tereso S., Miguel C.M., Zoglauer K., Valle-Piquera C., Oliveira M.M. (2006) Stable Agrobacterium-mediated transformation of embryogenic tissues from Pinus pinaster Portuguese genotypes. Plant Growth Regulation 50(1): 57-68.

  • Costa M., Miguel C.M., Oliveira M.M. (2006) An improved selection strategy and the use of acetosyringone in shoot induction medium increase almond transformation efficiency by 100-fold. Plant Cell Tissue & Organ Culture 85: 205-209.

  • Tereso S., Gonçalves S., Marum L., Oliveira M M, Maroco J., Miguel C.M. (2006) Improved axillary and adventitious bud regeneration from Portuguese genotypes of Pinus pinaster. Propagation of Ornamental Plants, 6(1): 24-33.

  • Gonçalves S., Cairney J., Maroco J., Oliveira M.M., Miguel C.M. (2005) Evaluation of control transcripts in real-time RT-PCR expression analysis during maritime pine embryogenesis. Planta 222: 556-563.

  • Gonçalves S., Cairney J., Maroco J., Oliveira M.M., Miguel C.M. (2005) Identification of Genes Differentially Expressed During Embryogenesis in Maritime Pine (Pinus pinaster). Silva Lusitana 13(2): 203-216.

  • Marum L., Estêvão C., Oliveira M.M.,Amâncio S., Rodrigues L., Miguel C.M. (2004) Recovery of cryopreserved embryogenic cultures of maritime pine – effect of cryoprotectant and suspension density. Cryoletters 25: 363-374.

  • Miguel C.M., Gonçalves S., Tereso S., Marum L., Maroco J., Oliveira M.M. (2004) Somatic embryogenesis from 20 open-pollinated families of Portuguese plus trees of maritime pine. Plant Cell Tissue & Organ Culture 76 (2): 121-130.

 

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