ABSTRACT The Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate organisms, except for the presence of a unique 46-amino acid N-terminal extension. To study the role of the DMLC2 N-terminal extension in Drosophila flight muscle, we constructed a truncated form of the Dmlc2 gene lacking amino acids 2–46 (Dmlc2D2–46). The mutant gene was expressed in vivo, with no wild-type Dmlc2 gene expression, via P-element-mediated germline transfor-mation. Expression of the truncated DMLC2 rescues the recessive lethality and dominant flightless phenotype of the Dmlc2 null, with no discernible effect on indirect flight muscle (IFM) sarcomere assembly. Homozygous Dmlc2D2–46 flies have reduced IFM dynamic stiffness and elas...
During muscle development myosin molecules form symmetrical thick filaments which integrate with the...
AbstractStructural interactions between the myosin converter and relay domains have been proposed to...
The phosphoprotein paramyosin is a major structural component of invertebrate muscle thick filaments...
AbstractThe Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate or...
The Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate organisms,...
AbstractThe Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate or...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
X-ray diffraction of the indirect flight muscle (IFM) in living Drosophila at rest and electron micr...
AbstractThe N-terminal extension and phosphorylation of the myosin regulatory light chain (RLC) inde...
The N-terminal extension and phosphorylation of the myosin regulatory light chain (RLC) independentl...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
AbstractWe assessed the influence of alternative versions of a region near the N-terminus of Drosoph...
Mutations that affect flightin expression in Drosophila alter the viscoelastic properties of flight ...
During muscle development myosin molecules form symmetrical thick filaments which integrate with the...
AbstractStructural interactions between the myosin converter and relay domains have been proposed to...
The phosphoprotein paramyosin is a major structural component of invertebrate muscle thick filaments...
AbstractThe Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate or...
The Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate organisms,...
AbstractThe Drosophila myosin regulatory light chain (DMLC2) is homologous to MLC2s of vertebrate or...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
X-ray diffraction of the indirect flight muscle (IFM) in living Drosophila at rest and electron micr...
AbstractThe N-terminal extension and phosphorylation of the myosin regulatory light chain (RLC) inde...
The N-terminal extension and phosphorylation of the myosin regulatory light chain (RLC) independentl...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
We examine how the structure and function of indirect flight muscle (IFM) and the entire flight syst...
AbstractWe assessed the influence of alternative versions of a region near the N-terminus of Drosoph...
Mutations that affect flightin expression in Drosophila alter the viscoelastic properties of flight ...
During muscle development myosin molecules form symmetrical thick filaments which integrate with the...
AbstractStructural interactions between the myosin converter and relay domains have been proposed to...
The phosphoprotein paramyosin is a major structural component of invertebrate muscle thick filaments...