RRIDs were included in the BMC Biology paper "Analysis of the genetically tractable crustacean <…" (https://t.co/PRKpEWYCDH). Thank you for making your #methodsmatter. #RRID
Analysis of the genetically tractable crustacean Parhyale hawaiensis reveals the organisation of a sensory system for low-resolution vision https://t.co/4F3IVAezcN
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @howbrainsevolve: Terrific multi-level analysis of phenotypic, genotypic, ecological and evolutionary aspects of the visual system in an…
RT @howbrainsevolve: Terrific multi-level analysis of phenotypic, genotypic, ecological and evolutionary aspects of the visual system in an…
RT @howbrainsevolve: Terrific multi-level analysis of phenotypic, genotypic, ecological and evolutionary aspects of the visual system in an…
RT @howbrainsevolve: Terrific multi-level analysis of phenotypic, genotypic, ecological and evolutionary aspects of the visual system in an…
Terrific multi-level analysis of phenotypic, genotypic, ecological and evolutionary aspects of the visual system in an amphipod crustacean from @apramos_ @maverof and colleagues https://t.co/6g4m439xr7
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @BMCBiology: New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis,…
RT @BMCBiology: A comprehensive characterization of the #visual system of the genetically tractable #crustacean #Parhyale hawaiensis by @ma…
New from #MSCActions https://t.co/R6Jx3XljnI Analysis of the genetically tractable crustacean Parhyale hawaiensis reveals the organisation of a sensory system for low-resolution vision
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
Analysis of the genetically tractable crustacean Parhyale hawaiensis reveals the organisation of a sensory system for low-resolution vision. https://t.co/WrTycRVpFl
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
Analysis of the genetically tractable crustacean Parhyale hawaiensis reveals the organisation of a sensory system for low-resolution vision. https://t.co/O8EBInG7rg
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
Paryhale, a crustacean model for genetic & functional studies of the visual system. Congratulations for your paper Patricia @apramos_ !
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
RT @RJDownard: For all you evolution of vision groupies, new paper on the losing & gaining steps in a crustacean’s low-re vision system htt…
For all you evolution of vision groupies, new paper on the losing & gaining steps in a crustacean’s low-re vision system https://t.co/o2qXluO6VK
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
Congratulations Patricia Ramos @apramos_ for foundational work on the eyes and visual circuits of the crustacean Parhyale, just published in @BMCBiology. Warm thanks to collaborators Nicolas Labert, Ola Gustafsson, Iris Salecker and Dan-Eric Nilsson. http
RT @apramos_: My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual sy…
My first, first author paper is out! We establish Parhyale as a new genetically tractable system to study arthropod visual system and show that photoreceptor projections diverge from the typical organization, possibly due to a shift to lowresolution vision
RT @BMCBiology: New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis,…
RT @BMCBiology: New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis,…
RT @BMCBiology: New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis,…
RT @BMCBiology: New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis,…
New research from Michalis Averof and colleagues characterizes the #visual system of the #crustacean #Parhyale hawaiensis, which diverges from the typical organization found in #malacostracan crustaceans and #insects to serve low-resolution visual tasks. h