Add to ORKGForaging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in the foraging (for) gene that encodes a cyclic GMP – dependent protein Kinase (PKG), such that rovers (forR) traverse greater distances while foraging than sitters (fors). Foraging behaviour is also influenced by natural allelic variation in the wings up A (wupA) gene that encodes the Troponin-I protein (TnI). Specifically, wupAlow allele suppresses the dominance of the forR allele, turning rovers into sitters. The dominance of the natural wupA alleles and their interactions with allelic combinations in for has not been characterized. I conducted various crosses and found that wupA alleles exhibit incomplete dominance. More importantly, I found...
Understanding the causes of phenotypic diversity and evolution is a central challenge for evolutiona...
The genetic underpinnings of animal behaviour are exceedingly complex. The behavioural effects of a ...
This thesis examines how natural variation in the foraging gene (for) of Drosophila melanogaster inf...
Foraging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in t...
Egg-laying decisions can have significant fitness consequences. In female Drosophila melanogaster, e...
Egg-laying decisions can have significant fitness consequences. In female Drosophila melanogaster, e...
Little is known about the molecular underpinning of behavioral pleiotropy. The Drosophila melanogast...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
Pleiotropy is defined as the manifold effects of a gene at the phenotypic level. Understanding the m...
The cGMP-dependent protein kinase (PKG) has many cellular functions in vertebrates and insects that ...
The genetic underpinnings of animal behavior are exceedingly complex. Behavioral phenotypes are comm...
Understanding the causes of phenotypic diversity and evolution is a central challenge for evolutiona...
This thesis examines how natural variation in the foraging gene (for) of Drosophila melanogaster inf...
Understanding the causes of phenotypic diversity and evolution is a central challenge for evolutiona...
The genetic underpinnings of animal behaviour are exceedingly complex. The behavioural effects of a ...
This thesis examines how natural variation in the foraging gene (for) of Drosophila melanogaster inf...
Foraging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in t...
Egg-laying decisions can have significant fitness consequences. In female Drosophila melanogaster, e...
Egg-laying decisions can have significant fitness consequences. In female Drosophila melanogaster, e...
Little is known about the molecular underpinning of behavioral pleiotropy. The Drosophila melanogast...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
A pleiotropic gene governs multiple traits, which might constrain the evolution of complexity due to...
Pleiotropy is defined as the manifold effects of a gene at the phenotypic level. Understanding the m...
The cGMP-dependent protein kinase (PKG) has many cellular functions in vertebrates and insects that ...
The genetic underpinnings of animal behavior are exceedingly complex. Behavioral phenotypes are comm...
Understanding the causes of phenotypic diversity and evolution is a central challenge for evolutiona...
This thesis examines how natural variation in the foraging gene (for) of Drosophila melanogaster inf...
Understanding the causes of phenotypic diversity and evolution is a central challenge for evolutiona...
The genetic underpinnings of animal behaviour are exceedingly complex. The behavioural effects of a ...
This thesis examines how natural variation in the foraging gene (for) of Drosophila melanogaster inf...