During the embryonic development of Drosophila melanogaster many transcriptional activators are involved in the formation of the embryonic brain. In our study we show that the transcription factor Homeobrain (Hbn), a member of the 57B homeobox gene cluster, is an additional factor involved in the formation of the embryonic Drosophila brain. Using a Hbn antibody and specific cell type markers a detailed expression analysis during embryonic brain development was conducted. We show that Hbn is expressed in several regions in the protocerebrum, including fibre tract founder cells closely associated with the supraesophageal brain commissure and also in the mushroom bodies. During the formation of the supraesophageal commissure, Hbn and FasII-pos...
Understanding the complex mechanisms to assemble a functional brain demands sophisticated experiment...
AbstractDuring Drosophila embryonic CNS development, the sequential neuroblast (NB) expression of fo...
Neural stem cells produce specific cell types in a time-dependent manner passing through different c...
Background: The homeobox gene homeobrain (hbn) is located in the 57B region together with two other ...
Background The Drosophila brain is an ideal model system to study stem cells, here called neuroblas...
Studies in vertebrates show that homeotic genes are involved in axial patterning and in specifying s...
The central nervous system (CNS) consists of an enormous number of cells, and large cellular varianc...
<div><p><i>Drosophila melanogaster</i> head development represents a valuable process to study the d...
AbstractWe have studied the roles of the homeobox genes orthodenticle (otd) and empty spiracles (ems...
The homeotic (Hox) genes specify the segmental identities along the anterior-posterior body axis. Du...
Background Neural progenitors produce diverse cells in a stereotyped birth order, bu...
AbstractThe central brain of Drosophila consists of the supraesophageal ganglion (SPG) and the subes...
AbstractThe Drosophila larval central brain contains about 10,000 differentiated neurons and 200 sca...
Throughout embryonic development and into postnatal life, regionally distinct populations of neural ...
Investigations on formation and specification of neural precursor cells in the central nervous syste...
Understanding the complex mechanisms to assemble a functional brain demands sophisticated experiment...
AbstractDuring Drosophila embryonic CNS development, the sequential neuroblast (NB) expression of fo...
Neural stem cells produce specific cell types in a time-dependent manner passing through different c...
Background: The homeobox gene homeobrain (hbn) is located in the 57B region together with two other ...
Background The Drosophila brain is an ideal model system to study stem cells, here called neuroblas...
Studies in vertebrates show that homeotic genes are involved in axial patterning and in specifying s...
The central nervous system (CNS) consists of an enormous number of cells, and large cellular varianc...
<div><p><i>Drosophila melanogaster</i> head development represents a valuable process to study the d...
AbstractWe have studied the roles of the homeobox genes orthodenticle (otd) and empty spiracles (ems...
The homeotic (Hox) genes specify the segmental identities along the anterior-posterior body axis. Du...
Background Neural progenitors produce diverse cells in a stereotyped birth order, bu...
AbstractThe central brain of Drosophila consists of the supraesophageal ganglion (SPG) and the subes...
AbstractThe Drosophila larval central brain contains about 10,000 differentiated neurons and 200 sca...
Throughout embryonic development and into postnatal life, regionally distinct populations of neural ...
Investigations on formation and specification of neural precursor cells in the central nervous syste...
Understanding the complex mechanisms to assemble a functional brain demands sophisticated experiment...
AbstractDuring Drosophila embryonic CNS development, the sequential neuroblast (NB) expression of fo...
Neural stem cells produce specific cell types in a time-dependent manner passing through different c...