Jorge A. Pinto Paiva
Jorge A. Pinto Paiva
Associação CECOLAB
Verified email at
Cited by
Cited by
The genome of Eucalyptus grandis
AA Myburg, D Grattapaglia, GA Tuskan, U Hellsten, RD Hayes, ...
Nature 510 (7505), 356-362, 2014
Genome‐wide analysis of the lignin toolbox of Eucalyptus grandis
V Carocha, M Soler, C Hefer, H Cassan‐Wang, P Fevereiro, AA Myburg, ...
New Phytologist 206 (4), 1297-1313, 2015
A micromethod for high throughput RNA extraction in forest trees
G Le Provost, R Herrera, JAP Paiva, P Chaumeil, F Salin, C Plomion
Biological Research 40 (3), 291-297, 2007
The proteome of maritime pine wood forming tissue
JM Gion, C Lalanne, G Le Provost, H Ferry‐Dumazet, J Paiva, ...
Proteomics 5 (14), 3731-3751, 2005
The Eucalyptus grandis R2R3‐MYB transcription factor family: evidence for woody growth‐related evolution and function
M Soler, ELO Camargo, V Carocha, H Cassan‐Wang, H San Clemente, ...
New Phytologist 206 (4), 1364-1377, 2015
Extensive recent secondary contacts between four European white oak species
T Leroy, C Roux, L Villate, C Bodénès, J Romiguier, JAP Paiva, C Dossat, ...
New Phytologist 214 (2), 865-878, 2017
Seasonal variation in transcript accumulation in wood-forming tissues of maritime pine (Pinus pinaster Ait.) with emphasis on a cell wall glycine-rich protein
G Le Provost, J Paiva, D Pot, J Brach, C Plomion
Planta 217, 820-830, 2003
Advancing Eucalyptus genomics: identification and sequencing of lignin biosynthesis genes from deep-coverage BAC libraries
JAP Paiva, E Prat, S Vautrin, MD Santos, H San-Clemente, ...
BMC genomics 12, 1-13, 2011
Molecular and phenotypic profiling from the base to the crown in maritime pine wood‐forming tissue
JAP Paiva, M Garcés, A Alves, P Garnier‐Géré, JC Rodrigues, C Lalanne, ...
New Phytologist 178 (2), 283-301, 2008
Genome-Wide Characterization and Expression Profiling of the AUXIN RESPONSE FACTOR (ARF) Gene Family in Eucalyptus grandis
H Yu, M Soler, I Mila, H San Clemente, B Savelli, C Dunand, JAP Paiva, ...
PLoS One 9 (9), e108906, 2014
Reference Genes for High-Throughput Quantitative Reverse Transcription–PCR Analysis of Gene Expression in Organs and Tissues of Eucalyptus Grown in …
H Cassan-Wang, M Soler, H Yu, ELO Camargo, V Carocha, N Ladouce, ...
Plant and Cell Physiology 53 (12), 2101-2116, 2012
In Medicago truncatula, water deficit modulates the transcript accumulation of components of small RNA pathways
C Capitão, JAP Paiva, DM Santos, P Fevereiro
BMC Plant Biology 11, 1-14, 2011
A comprehensive assessment of the transcriptome of cork oak (Quercus suber) through EST sequencing
JB Pereira-Leal, IA Abreu, CS Alabaça, MH Almeida, P Almeida, ...
BMC genomics 15, 1-14, 2014
Proteomic evaluation of wound‐healing processes in potato (Solanum tuberosum L.) tuber tissue
I Chaves, C Pinheiro, JAP Paiva, S Planchon, K Sergeant, J Renaut, ...
Proteomics 9 (17), 4154-4175, 2009
Plasticity of maritime pine (Pinus pinaster) wood‐forming tissues during a growing season
JAP Paiva, PH Garnier‐Géré, JC Rodrigues, A Alves, S Santos, J Graça, ...
New Phytologist 179 (4), 1180-1194, 2008
Use of molecular markers for estimating breeding parameters: a case study in a Pinus pinaster Ait. progeny trial
M João Gaspar, AI De-Lucas, R Alía, J Almiro Pinto Paiva, E Hidalgo, ...
Tree Genetics & Genomes 5, 609-616, 2009
Comprehensive Genome-Wide Analysis of the Aux/IAA Gene Family in Eucalyptus: Evidence for the Role of EgrIAA4 in Wood Formation
H Yu, M Soler, H San Clemente, I Mila, JAP Paiva, AA Myburg, ...
Plant and Cell Physiology 56 (4), 700-714, 2015
C Plomion, D Chagné, D Pot, S Kumar, PL Wilcox, RD Burdon, D Prat, ...
Forest trees, 29-92, 2007
A comparative transcriptomic approach to understanding the formation of cork
P Boher, M Soler, A Sánchez, C Hoede, C Noirot, JAP Paiva, O Serra, ...
Plant Molecular Biology 96, 103-118, 2018
The transcriptomics of secondary growth and wood formation in conifers
A Carvalho, J Paiva, J Louzada, J Lima-Brito
Molecular Biology International 2013 (1), 974324, 2013
The system can't perform the operation now. Try again later.
Articles 1–20