Add to ORKGIn the stickleback fish, pelvic-fin reduction resulted from changes in the regulatory switch elements of the Pitx1 gene. In the marine ancestor, the Pitx1 gene is activated in the pelvic-fin region during development to generate the fin. In the pelvic-reduced stickleback, the regulatory switch that normally turns on the Pitx1 gene is either missing or non-functional.Componente Curricular::Educação Superior::Ciências da Saúd
AbstractPaired appendages were a key developmental innovation among vertebrates and they eventually ...
Fins are major functional appendages of fish that have been repeatedly modified in different lineage...
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...
In the stickleback fish, pelvic-fin reduction resulted from changes in the regulatory switch element...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Hindlimb loss has evolved repeatedly in many different animals by means of molecular mechanisms that...
The gene pitx1 is a switch for skeleton patterning (it is a transcription factor that controls a bat...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Vertebrate pelvic appendages are complex structures comprising many different tissues. Nevertheless,...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Little is known about the genetic and molecular mechanisms that underlie adaptive phenotypic variati...
AbstractWhile the avid dieter obsesses about reduction of different body parts, permanent reduction ...
While the avid dieter obsesses about reduction of different body parts, permanent reduction of many ...
Background: Regressive evolution of the pelvic complex has been observed in populations of three of ...
Vertebrate pelvic reduction is a classic example of repeated evolution. Recurrent loss of pelvic app...
AbstractPaired appendages were a key developmental innovation among vertebrates and they eventually ...
Fins are major functional appendages of fish that have been repeatedly modified in different lineage...
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...
In the stickleback fish, pelvic-fin reduction resulted from changes in the regulatory switch element...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Hindlimb loss has evolved repeatedly in many different animals by means of molecular mechanisms that...
The gene pitx1 is a switch for skeleton patterning (it is a transcription factor that controls a bat...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Vertebrate pelvic appendages are complex structures comprising many different tissues. Nevertheless,...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
Little is known about the genetic and molecular mechanisms that underlie adaptive phenotypic variati...
AbstractWhile the avid dieter obsesses about reduction of different body parts, permanent reduction ...
While the avid dieter obsesses about reduction of different body parts, permanent reduction of many ...
Background: Regressive evolution of the pelvic complex has been observed in populations of three of ...
Vertebrate pelvic reduction is a classic example of repeated evolution. Recurrent loss of pelvic app...
AbstractPaired appendages were a key developmental innovation among vertebrates and they eventually ...
Fins are major functional appendages of fish that have been repeatedly modified in different lineage...
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...