Gooseberry (gene)
Gooseberry is a segment polarity gene located on chromosome 2 of the Drosophila genome. Gooseberry is known for its interactions with key embryonic signaling pathways Wingless and Hedgehog. The gene also has clinical significance, being linked to diseases such as Waardenburg Syndrome and rhabdomyosarcoma.
Discovery
The gooseberry gene was first described in a 1980 research paper on Drosophila embryonic development. In the study, Drosophila larvae were mutated at different genomic locations to identify genes affecting Drosophila embryonic segmental patterning. 15 candidate genes were found to affect this developmental process, and were subsequently classified into 3 different categories: segment-polarity, pair-rule, and gap. Gooseberry, a member of these 15 genes, was classified as a segment-polarity gene.Gene expression
Drosophila embryos show developmental stage-dependent expression of gsb. This was determined by in ''situ hybridization gsb mRNA with a purple probe, allowing visualization of the gene expression.- Stages 1-3 exhibit no staining of
Structure
Gooseberry contains an N-terminal PAX and C-terminal homeobox domains.Function
The Gooseberry protein interacts with critical development pathways in the fruit fly such as Wingless and Hedgehog.Wingless signaling
The Drosophila cell fate determination pathway Wingless signaling, is activated by the signaling molecule Wnt, which inhibits the Wg destruction complex. WSDC functions to break down β-catenin, a protein that binds to promoters of cell fate determination genes to promote expression.In the absence of Wnt, Wg fails to activate, allowing WSDC to break down β-catenin, and preventing activation of genes.
Typical gooseberry expression in Drosophila embryos requires Wg activation. This implies that gooseberry is one of the cell fate determination genes promoted by β-catenin, and that its protein production is reliant on Wg for WSDC inhibition.
Hedgehog signaling
Hedgehog is a cell signalling pathway which directs cell development and tissue organization of developing Drosophila embryos.During Drosophila central nervous system development, Hedgehog and gooseberry assert differential regulatory effects on a key CNS development gene. This gene,, encodes a critical DNA-binding protein which influences developmental processes such as axon pathfinding and target recognition. Hedgehog activates hkb, while gooseberry represses hkb. Gooseberry achieves this by encoding a DNA-binding protein which regulates gene activity and, in hkb
The delicate interplay of positive signaling from Hedgehog and the repressive gooseberry helps establish a precise pattern of hkb expression in the developing fruit fly CNS, helping form complex neural structures.
Clinical significance
Drosophila' s gooseberry gene has been used to study the vertebrate genes PAX3 and PAX7 in clinical settings. This is attributed to the gooseberry genes gsb-proximal and gsb-distal showing similar function to PAX3 and PAX7.Waardenburg syndrome
Waardenburg Syndrome is an inherited condition known to cause deafeness and pigmentation irregularities. PAX3 variants are linked to type I & III WS, likely due to the gene's important role in the development of melanocytes. Studies have shown that many WS-causing PAX3 polymorphisms are found in a protein region that is conserved in the gsb protein. In Drosophila, this region is classified as a DNA-binding site called a homeodomain. Considering this knowledge, it is believed that the mechanism underlying WS phenotypes involves altered DNA binding in PAX3 variants. Elucidation of this link between PAX3 and gooseberry have directed the molecular study of PAX3-associated phenotypes including emphasis on DNA binding studies.Rhabdomyosarcoma
Rhabdomyosarcoma is a rapidly progressing soft tissue cancer that disproportionately affects children. PAX7 is a involved in skeletal muscle formation/cellular role differentiation in mammals. Increased PAX7 levels have been repeatedly implicated in cases of rhabdomyosarcoma, particularly embryonal rhabdomyosarcoma.Because of PAX7