RT @NatureComms: Hoxa2/b2 enhancer elements in lamprey and gnathostomes play similar roles, which show lineage specific duplication and div…
RT @NatureComms: Hoxa2/b2 enhancer elements in lamprey and gnathostomes play similar roles, which show lineage specific duplication and div…
Hoxa2/b2 enhancer elements in lamprey and gnathostomes play similar roles, which show lineage specific duplication and divergence to display tissue-specific activities in hindbrain and neural crest. https://t.co/vzMXvgAkHP
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @PascualAnaya: Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TAL…
RT @PascualAnaya: Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TAL…
RT @PascualAnaya: Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TAL…
RT @PascualAnaya: Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TAL…
RT @PascualAnaya: Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TAL…
Excellent work by @HugoJParker et al. using reporter assays to study the Hox regulatory network in the lamprey. A Hox-TALE regulatory circuit for neural crest patterning is conserved across vertebrates https://t.co/LSRFU0DBGp
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @ScienceStowers: Congrats to @HugoJParker, Krumlauf Lab senior research associate, on 2 recent publications! First is a study on mechani…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @labonnelab: cool work https://t.co/pqbAixEczR
RT @labonnelab: cool work https://t.co/pqbAixEczR
RT @ScienceStowers: Congrats to @HugoJParker, Krumlauf Lab senior research associate, on 2 recent publications! First is a study on mechani…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @ScienceStowers: Congrats to @HugoJParker, Krumlauf Lab senior research associate, on 2 recent publications! First is a study on mechani…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
Fantastic! Congratulations!
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @ScienceStowers: Congrats to @HugoJParker, Krumlauf Lab senior research associate, on 2 recent publications! First is a study on mechani…
Congrats to @HugoJParker, Krumlauf Lab senior research associate, on 2 recent publications! First is a study on mechanisms coupling Hox genes to the #neuralcrest in @NatureComms, a collaboration with @BonyDekumar, @Caltech, @kaufman_lab @WUSTL et al. https
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
cool work
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
Exciting insight using both #lamprey and #zebrafish models. Now in @NatureComms.
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
RT @chrmosimann: How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys…
How did Hox genes became coupled to the #neuralcrest? https://t.co/z0NrOEO5JT Exciting gene regulation work using lampreys by @HugoJParker w/ the Bronner @Caltech and Krumlauf labs @ScienceStowers! Feat. @kaufman_lab @karin_prummel @BonyDekumar et al. Con
RT @BehavEcolPapers: A Hox-TALE regulatory circuit for neural crest patterning is conserved across vertebrates https://t.co/DpvUZCVAc6 @Nat…
A HoxTALE regulatory circuit for neural crest patterning is conserved across vertebrates null https://t.co/gf0bYQ5mA2 #DTHSTR
A Hox-TALE regulatory circuit for neural crest patterning is conserved across vertebrates https://t.co/DpvUZCVAc6 @NatureComms https://t.co/uzYZCYfRhX
'In jawed vertebrates (gnathostomes), Hox genes play an important role in patterning head and jaw formation, but mechanisms coupling Hox genes to neural crest are unknown' https://t.co/VVXenb4cqb