| Publications (total 19) Less... | - Simakov O et al., "Deeply conserved synteny resolves early events in vertebrate evolution.", Nat Ecol Evol, 2020 Jun;4(6):820-830
More...- Simakov O et al., "Deeply conserved synteny resolves early events in vertebrate evolution.", Nat Ecol Evol, 2020 Jun;4(6):820-830
- Pantzartzi CN et al., "The role of transposable elements in functional evolution of amphioxus genome: the case of opsin gene family.", Sci Rep, 2018 Feb 6;8(1):2506
- Sekiguchi T et al., "Evidence for Conservation of the Calcitonin Superfamily and Activity-regulating Mechanisms in the Basal Chordate Branchiostoma floridae: INSIGHTS INTO THE MOLECULAR AND FUNCTIONAL EVOLUTION IN CHORDATES.", J Biol Chem, 2016 Jan 29;291(5):2345-56
- Yue JX et al., "Conserved Noncoding Elements in the Most Distant Genera of Cephalochordates: The Goldilocks Principle.", Genome Biol Evol, 2016 Aug 25;8(8):2387-405
- On JS et al., "Functional Pairing of Class B1 Ligand-GPCR in Cephalochordate Provides Evidence of the Origin of PTH and PACAP/Glucagon Receptor Family.", Mol Biol Evol, 2015 Aug;32(8):2048-59
- Li KL et al., "Genome-wide survey and expression analysis of the bHLH-PAS genes in the amphioxus Branchiostoma floridae reveal both conserved and diverged expression patterns between cephalochordates and vertebrates.", Evodevo, 2014;5:20
- Zhang QJ et al., "Expression of germline markers in three species of amphioxus supports a preformation mechanism of germ cell development in cephalochordates.", Evodevo, 2013 Jun 18;4(1):17
- McGonnell IM et al., "Evolution of the Alx homeobox gene family: parallel retention and independent loss of the vertebrate Alx3 gene.", Evol Dev, 2011 Jul-Aug;13(4):343-51
- Putnam NH et al., "The amphioxus genome and the evolution of the chordate karyotype.", Nature, 2008 Jun 19;453(7198):1064-71
- Zhang Q et al., "Novel genes dramatically alter regulatory network topology in amphioxus.", Genome Biol, 2008;9(8):R123
- Candiani S et al., "Characterization, developmental expression and evolutionary features of the huntingtin gene in the amphioxus Branchiostoma floridae.", BMC Dev Biol, 2007 Nov 15;7:127
- Benito-GutiƩrrez E et al., "The single AmphiTrk receptor highlights increased complexity of neurotrophin signalling in vertebrates and suggests an early role in developing sensory neuroepidermal cells.", Development, 2005 May;132(9):2191-202
- Candiani S et al., "Cloning and developmental expression of amphioxus Dachschund.", Gene Expr Patterns, 2003 Mar;3(1):65-9
- Ruvinsky I et al., "Phylogenetic analysis of T-Box genes demonstrates the importance of amphioxus for understanding evolution of the vertebrate genome.", Genetics, 2000 Nov;156(3):1249-57
- Schubert M et al., "Characterization of an amphioxus wnt gene, AmphiWnt11, with possible roles in myogenesis and tail outgrowth.", Genesis, 2000 May;27(1):1-5
- Boore JL et al., "Complete sequence, gene arrangement, and genetic code of mitochondrial DNA of the cephalochordate Branchiostoma floridae (Amphioxus).", Mol Biol Evol, 1999 Mar;16(3):410-8
- Naylor GJ et al., "Amphioxus mitochondrial DNA, chordate phylogeny, and the limits of inference based on comparisons of sequences.", Syst Biol, 1998 Mar;47(1):61-76
- Glardon S et al., "Isolation and developmental expression of the amphioxus Pax-6 gene (AmphiPax-6): insights into eye and photoreceptor evolution.", Development, 1998 Jul;125(14):2701-10
- Naylor GJ et al., "Structural biology and phylogenetic estimation.", Nature, 1997 Aug 7;388(6642):527-8
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