AbstractRecent results show that the establishment of wing melanization patterns in Drosophila depends on the veins. While several genes have been shown to play a role in melanization, changes in a single gene — the one encoding tyrosine hydroxylase — are sufficient to generate novel pigmentation patterns
AbstractThe generation of complex morphological features requires the precisely orchestrated express...
Various color patterns have evolved in a wide range of animal taxa. Understanding developmental mech...
To understand how novel animal patterning emerged, one needs to ask how the development of color pat...
AbstractRecent results show that the establishment of wing melanization patterns in Drosophila depen...
AbstractBackground: Animal melanin patterns are involved in diverse aspects of their ecology, from t...
To understand how novel animal body colorations emerged, one needs to ask how the development of col...
How gene-regulatory networks drive complex morphological structures and patterns is an intriguing qu...
Since the origin of the 36 recognized animal phyla over 500 million years ago, subsequent evolution ...
Understanding how phenotypes change has been a long-standing question in evolutionary biology. The r...
An innumerable number of animal species has evolved since the Cambrian period 541-485.4 million year...
The evolution of sexual traits often involves correlated changes in morphology and behavior. For exa...
Body pigmentation is an evolutionarily diversified and ecologically relevant trait with substantial ...
The generation of complex morphological features requires the precisely orchestrated expression of n...
Abstract Body pigmentation is an evolutionarily diversified and ecologically relevant trait with sub...
Clolor of pupal skin and wing of some mutants of insects is formed of a melanin pigment, then I stud...
AbstractThe generation of complex morphological features requires the precisely orchestrated express...
Various color patterns have evolved in a wide range of animal taxa. Understanding developmental mech...
To understand how novel animal patterning emerged, one needs to ask how the development of color pat...
AbstractRecent results show that the establishment of wing melanization patterns in Drosophila depen...
AbstractBackground: Animal melanin patterns are involved in diverse aspects of their ecology, from t...
To understand how novel animal body colorations emerged, one needs to ask how the development of col...
How gene-regulatory networks drive complex morphological structures and patterns is an intriguing qu...
Since the origin of the 36 recognized animal phyla over 500 million years ago, subsequent evolution ...
Understanding how phenotypes change has been a long-standing question in evolutionary biology. The r...
An innumerable number of animal species has evolved since the Cambrian period 541-485.4 million year...
The evolution of sexual traits often involves correlated changes in morphology and behavior. For exa...
Body pigmentation is an evolutionarily diversified and ecologically relevant trait with substantial ...
The generation of complex morphological features requires the precisely orchestrated expression of n...
Abstract Body pigmentation is an evolutionarily diversified and ecologically relevant trait with sub...
Clolor of pupal skin and wing of some mutants of insects is formed of a melanin pigment, then I stud...
AbstractThe generation of complex morphological features requires the precisely orchestrated express...
Various color patterns have evolved in a wide range of animal taxa. Understanding developmental mech...
To understand how novel animal patterning emerged, one needs to ask how the development of color pat...
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