Branchiostoma lanceolatum

Overview
Full NameBranchiostoma lanceolatum
GenusBranchiostoma
Specieslanceolatum
Common NameAmphioxus
AbbreviationB. lanceolatum
Interest

The phylogenetic position of amphioxus, together with its relatively simple and evolutionarily conserved morphology and genome structure, has led to its use as a model for studies of vertebrate evolution. In particular, recent development of technical approaches, as well as access to the complete amphioxus genome sequence, for the Mediterranean amphioxus, Branchiostoma lanceolatum has provided the community with tools with which to study the invertebrate-chordate to vertebrate transition (Bertrand & Escriva, 2011).

Location:

Mediterranean Sea and North-East Atlantic

Attractive features
  • Controlled spawning induction
  • Transparent embryos
  • Micromanipulation techniques available allowing functional approaches in classical embryology and developmental biology
Contributions

Studies with different amphioxus species have helped answer questions about the evolution of the chordate genome, and particularly the evolution of the Hox cluster structure and cis-regulatory elements, the evolution of the control of axial patterning in chordates, and the appearance of vertebrate-specific structures such as the head.

Tools
  • Assembled and annotated genome sequence (550 MB) and many transcriptome resources soon publically available
  • Epigenomic resources including Chip-seq, ATAC-seq, Methylome, CAGE-seq, and 4C for a panel of transcription factors are available for several developmental stages
Drawbacks

Due to a short spawning period (May-July), in vivo experiments are restricted to a short period only. Their life cycle is also relatively long, about 2 years to reach adulthood, and no knockdown techniques are available (no morpholinos, RNAi or siRNA).

Selected references
  • Bertrand S. & Escriva H. (2011) Evolutionary crossroads in developmental biology: amphioxus. Development 138: 4819-30
Transcript Browser
The following browser provides a quick view for new visitors. Use the searching mechanism to find specific features.
NameUnique NameType
transcript:BL97015_cuf9transcript:BL97015_cuf9mRNA
transcript:BL97016_cuf10transcript:BL97016_cuf10mRNA
transcript:BL97017_cuf11transcript:BL97017_cuf11mRNA
transcript:BL97018_cuf12transcript:BL97018_cuf12mRNA
transcript:BL97019_cuf35transcript:BL97019_cuf35mRNA
transcript:BL97020_cuf1transcript:BL97020_cuf1mRNA
transcript:BL97021_cuf5transcript:BL97021_cuf5mRNA
transcript:BL97022_cuf1transcript:BL97022_cuf1mRNA
transcript:BL97023_cuf2transcript:BL97023_cuf2mRNA
transcript:BL97024_cuf0transcript:BL97024_cuf0mRNA
transcript:BL97025_cuf3transcript:BL97025_cuf3mRNA
transcript:BL97026_cuf0transcript:BL97026_cuf0mRNA
transcript:BL97027_cuf1transcript:BL97027_cuf1mRNA
transcript:BL97028_cuf2transcript:BL97028_cuf2mRNA
transcript:BL97029_cuf15transcript:BL97029_cuf15mRNA
transcript:BL97030_cuf21transcript:BL97030_cuf21mRNA
transcript:BL97032_cuf8transcript:BL97032_cuf8mRNA
transcript:BL97033_cuf7transcript:BL97033_cuf7mRNA
transcript:BL97034_cuf3transcript:BL97034_cuf3mRNA
transcript:BL97035_cuf4transcript:BL97035_cuf4mRNA
transcript:BL97036_cuf5transcript:BL97036_cuf5mRNA
transcript:BL97037_cuf0transcript:BL97037_cuf0mRNA
transcript:BL97038_cuf2transcript:BL97038_cuf2mRNA
transcript:BL97039_cuf12transcript:BL97039_cuf12mRNA
transcript:BL97040_cuf17transcript:BL97040_cuf17mRNA

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