Ricard Albalat
Ricard Albalat
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Cited by
Cited by
Evolution by gene loss
R Albalat, C Cañestro
Nature Reviews Genetics 17 (7), 379-391, 2016
The amphioxus genome illuminates vertebrate origins and cephalochordate biology
LZ Holland, R Albalat, K Azumi, È Benito-Gutiérrez, MJ Blow, ...
Genome research 18 (7), 1100-1111, 2008
A novel effector domain from the RNA-binding protein TLS or EWS is required for oncogenic transformation by CHOP.
H Zinszner, R Albalat, D Ron
Genes & development 8 (21), 2513-2526, 1994
Amphioxus functional genomics and the origins of vertebrate gene regulation
F Marlétaz, PN Firbas, I Maeso, JJ Tena, O Bogdanovic, M Perry, ...
Nature 564 (7734), 64-70, 2018
Evolution of the nitric oxide synthase family in metazoans
N Andreakis, S D’Aniello, R Albalat, FP Patti, J Garcia-Fernandez, ...
Molecular Biology and Evolution 28 (1), 163-179, 2011
Insights into spawning behavior and development of the european amphioxus (Branchiostoma lanceolatum)
M Fuentes, E Benito, S Bertrand, M Paris, A Mignardot, L Godoy, ...
Journal of Experimental Zoology Part B: Molecular and Developmental …, 2007
Impact of gene gains, losses and duplication modes on the origin and diversification of vertebrates
C Cañestro, R Albalat, M Irimia, J Garcia-Fernàndez
Seminars in cell & developmental biology 24 (2), 83-94, 2013
Preliminary observations on the spawning conditions of the European amphioxus (Branchiostoma lanceolatum) in captivity
M Fuentes, M Schubert, D Dalfo, S Candiani, E Benito, J Gardenyes, ...
Journal of Experimental Zoology Part B: Molecular and Developmental …, 2004
The retinoic acid machinery in invertebrates: ancestral elements and vertebrate innovations
R Albalat
Molecular and cellular endocrinology 313 (1-2), 23-35, 2009
Is retinoic acid genetic machinery a chordate innovation?
C Cañestro, JH Postlethwait, R Gonzàlez‐Duarte, R Albalat
Evolution & development 8 (5), 394-406, 2006
Identification of Aldh1a, Cyp26 and RAR orthologs in protostomes pushes back the retinoic acid genetic machinery in evolutionary time to the bilaterian ancestor
R Albalat, C Cañestro
Chemico-biological interactions 178 (1-3), 188-196, 2009
Ascidian and Amphioxus Adh Genes Correlate Functional and Molecular Features of the ADH Family Expansion During Vertebrate Evolution
C Canestro, R Albalat, L Hjelmqvist, L Godoy, H Jörnvall, ...
Journal of molecular evolution 54, 81-89, 2002
Protein engineering of Drosophila alcohol dehydrogenase The hydroxyl group of Tyr152 is involved in the active site of the enzyme
RA Gonzålez-Duarte, S Atrian
FEBS letters 308 (3), 235-239, 1992
DNA methylation in amphioxus: from ancestral functions to new roles in vertebrates
R Albalat, J Martí-Solans, C Cañestro
Briefings in functional genomics 11 (2), 142-155, 2012
Evolution of retinoid and steroid signaling: vertebrate diversification from an amphioxus perspective
R Albalat, F Brunet, V Laudet, M Schubert
Genome biology and evolution 3, 985-1005, 2011
Evolution of the genetic machinery of the visual cycle: a novelty of the vertebrate eye?
R Albalat
Molecular biology and evolution 29 (5), 1461-1469, 2012
Merging protein, gene and genomic data: the evolution of the MDR-ADH family
R Gonzalez-Duarte, R Albalat
Heredity 95 (3), 184-197, 2005
Amphioxus alcohol dehydrogenase is a class 3 form of single type and of structural conservation but with unique developmental expression
C Cañestro, L Hjelmqvist, R Albalat, J Garcia‐Fernàndez, ...
European Journal of Biochemistry 267 (22), 6511-6518, 2000
Identification and characterisation of the developmental expression pattern of tbx5b, a novel tbx5 gene in zebrafish
R Albalat, M Baquero, C Minguillón
Gene Expression Patterns 10 (1), 24-30, 2010
Evolution of DNA-methylation machinery: DNA methyltransferases and methyl-DNA binding proteins in the amphioxus Branchiostoma floridae
R Albalat
Development genes and evolution 218, 691-701, 2008
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