Background: Brittle stars regenerate their whole arms post-amputation. Amphiura filiformis can now be used for molecular characterization of arm regeneration due to the availability of transcriptomic data. Previous work showed that specific developmental transcription factors known to take part in echinoderm skeletogenesis are expressed during adult arm regeneration in A. filiformis; however, the process of skeleton formation remained poorly understood. Here, we present the results of an in-depth microscopic analysis of skeletal morphogenesis during regeneration, using calcein staining, EdU labeling and in situ hybridization. Results: To better compare different samples, we propose a staging system for the early A. filiformis arm regenerati...
Regeneration is a post-embryonic developmental process that ensures complete morphological and funct...
Echinoderms are well known for their remarkable regenerative capabilities. The extracellular matrix ...
Starfish are armed echinoderms well-known for their striking regenerative ability. Despite this, the...
BACKGROUND: Brittle stars regenerate their whole arms post-amputation. Amphiura filiformis can now b...
Echinoderms are well known for their extensive regenerative abilities, but have been neglected in th...
Abstract Regeneration processes are very complex developmental phenomena, occurring in adult and la...
The recent emergence of transcriptomic data available for echinoderms opened up the possibility of u...
Echinoderms are marine invertebrates that possess an elaborate calcite skeleton presenting ...
The brittle star Amphiura filiformis (Afi) is becoming a well-established experimental model to stud...
Arm regeneration in Ophiuroids (Echinodermata) is a topic of interest from morphological, cellular, ...
The extensive regeneration ability of ophiuroids, particularly in relation to arm re-growth followin...
We have studied arm regeneration in a range of brittlestars with a particular emphasis on the nervou...
Echinoderms and in particular brittle stars display a remarkable ability to regenerate lost or damag...
Arm tip regeneration after amputation in the brittle star Ophioplocus januarii was examined in order...
Arm amputation in echinoderms is a traumatic event that removes differentiated body parts and damage...
Regeneration is a post-embryonic developmental process that ensures complete morphological and funct...
Echinoderms are well known for their remarkable regenerative capabilities. The extracellular matrix ...
Starfish are armed echinoderms well-known for their striking regenerative ability. Despite this, the...
BACKGROUND: Brittle stars regenerate their whole arms post-amputation. Amphiura filiformis can now b...
Echinoderms are well known for their extensive regenerative abilities, but have been neglected in th...
Abstract Regeneration processes are very complex developmental phenomena, occurring in adult and la...
The recent emergence of transcriptomic data available for echinoderms opened up the possibility of u...
Echinoderms are marine invertebrates that possess an elaborate calcite skeleton presenting ...
The brittle star Amphiura filiformis (Afi) is becoming a well-established experimental model to stud...
Arm regeneration in Ophiuroids (Echinodermata) is a topic of interest from morphological, cellular, ...
The extensive regeneration ability of ophiuroids, particularly in relation to arm re-growth followin...
We have studied arm regeneration in a range of brittlestars with a particular emphasis on the nervou...
Echinoderms and in particular brittle stars display a remarkable ability to regenerate lost or damag...
Arm tip regeneration after amputation in the brittle star Ophioplocus januarii was examined in order...
Arm amputation in echinoderms is a traumatic event that removes differentiated body parts and damage...
Regeneration is a post-embryonic developmental process that ensures complete morphological and funct...
Echinoderms are well known for their remarkable regenerative capabilities. The extracellular matrix ...
Starfish are armed echinoderms well-known for their striking regenerative ability. Despite this, the...