Add to ORKGWhile the avid dieter obsesses about reduction of different body parts, permanent reduction of many structures seems to be achieved relatively effortlessly (though much more slowly) throughout evolution. In a recent article in Nature, Shapiro et al. examine one such example, the genetic basis of pelvic reduction in the threespine stickleback fish (2004). They conclude that a regulatory mutation in the Pitx1 gene is responsible for the pelvic reduction
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...
Inferring the genetic architecture of evolution in the fossil record is difficult because genetic cr...
Repeated and independent adaptation to specific environmental conditions from standing genetic varia...
AbstractWhile the avid dieter obsesses about reduction of different body parts, permanent reduction ...
Hindlimb loss has evolved repeatedly in many different animals by means of molecular mechanisms that...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
ManuscriptThe molecular mechanisms underlying major phenotypic changes that have evolved repeatedly ...
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 ...
Background: Regressive evolution of the pelvic complex has been observed in populations of three of ...
Little is known about the genetic and molecular mechanisms that underlie adaptive phenotypic variati...
In the stickleback fish, pelvic-fin reduction resulted from changes in the regulatory switch element...
Vertebrate pelvic reduction is a classic example of repeated evolution. Recurrent loss of pelvic app...
Evolution generates a remarkable breadth of living forms, but many traits evolve repeatedly, by mech...
Pelvic girdle loss has evolved repeatedly in freshwater stickleback. In many cases it is caused by a...
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...
Inferring the genetic architecture of evolution in the fossil record is difficult because genetic cr...
Repeated and independent adaptation to specific environmental conditions from standing genetic varia...
AbstractWhile the avid dieter obsesses about reduction of different body parts, permanent reduction ...
Hindlimb loss has evolved repeatedly in many different animals by means of molecular mechanisms that...
The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature ...
ManuscriptThe molecular mechanisms underlying major phenotypic changes that have evolved repeatedly ...
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 ...
Background: Regressive evolution of the pelvic complex has been observed in populations of three of ...
Little is known about the genetic and molecular mechanisms that underlie adaptive phenotypic variati...
In the stickleback fish, pelvic-fin reduction resulted from changes in the regulatory switch element...
Vertebrate pelvic reduction is a classic example of repeated evolution. Recurrent loss of pelvic app...
Evolution generates a remarkable breadth of living forms, but many traits evolve repeatedly, by mech...
Pelvic girdle loss has evolved repeatedly in freshwater stickleback. In many cases it is caused by a...
AbstractA gene already known to play a crucial developmental role in chick and mouse embryos has bee...
Inferring the genetic architecture of evolution in the fossil record is difficult because genetic cr...
Repeated and independent adaptation to specific environmental conditions from standing genetic varia...
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