TY - JOUR
T1 - Expression and function of scalloped during Drosophila development
AU - Guss, Kirsten A.
AU - Benson, Michael
AU - Gubitosi, Nicholas
AU - Brondell, Karrie
AU - Broadie, Kendal
AU - Skeath, James B.
PY - 2013/7
Y1 - 2013/7
N2 - Background: The scalloped (sd) and vestigial (vg) genes function together in Drosophila wing development. Little is known about sd protein (SD) expression during development, or whether sd and vg interact in other developing tissues. To begin to address these questions, we generated an anti-SD antibody. Results: During embryogenesis, SD is expressed in both central and peripheral nervous systems, and the musculature. SD is also expressed in developing flight appendages. Despite SD expression herein, the peripheral nervous system, musculature, and dorsal limb primordia appeared generally normal in the absence of sd function. SD is also expressed in subsets of ventral nerve cord cells, including neuroblast 1-2 descendants and ventral unpaired median motor neurons (mVUMs). While sd function is not required to specify these neurons, it is necessary for the correct innervation of somatic muscles by the mVUMs. We also show that SD and vg protein (VG) are co-expressed in overlapping and distinctive subsets of cells in embryonic and larval tissues. Conclusions: We describe the full breadth of SD expression during Drosophila embryogenesis, and identify a requirement for sd function in a subset of motor neurons. This work provides the necessary foundation for functional studies regarding the roles of sd during Drosophila development. Developmental Dynamics 242:874-885, 2013.
AB - Background: The scalloped (sd) and vestigial (vg) genes function together in Drosophila wing development. Little is known about sd protein (SD) expression during development, or whether sd and vg interact in other developing tissues. To begin to address these questions, we generated an anti-SD antibody. Results: During embryogenesis, SD is expressed in both central and peripheral nervous systems, and the musculature. SD is also expressed in developing flight appendages. Despite SD expression herein, the peripheral nervous system, musculature, and dorsal limb primordia appeared generally normal in the absence of sd function. SD is also expressed in subsets of ventral nerve cord cells, including neuroblast 1-2 descendants and ventral unpaired median motor neurons (mVUMs). While sd function is not required to specify these neurons, it is necessary for the correct innervation of somatic muscles by the mVUMs. We also show that SD and vg protein (VG) are co-expressed in overlapping and distinctive subsets of cells in embryonic and larval tissues. Conclusions: We describe the full breadth of SD expression during Drosophila embryogenesis, and identify a requirement for sd function in a subset of motor neurons. This work provides the necessary foundation for functional studies regarding the roles of sd during Drosophila development. Developmental Dynamics 242:874-885, 2013.
KW - Central nervous system
KW - Imaginal disc
KW - Muscle
KW - Peripheral nervous system
KW - Transcription factor
KW - vestigial
UR - http://www.scopus.com/inward/record.url?scp=84879302344&partnerID=8YFLogxK
U2 - 10.1002/dvdy.23942
DO - 10.1002/dvdy.23942
M3 - Article
C2 - 23389965
AN - SCOPUS:84879302344
SN - 1058-8388
VL - 242
SP - 874
EP - 885
JO - Developmental Dynamics
JF - Developmental Dynamics
IS - 7
ER -