Add to ORKGNuclear intermediate filament proteins, called lamins, form a meshwork that lines the inner surface of the nuclear envelope. Lamins contain three domains: an N-terminal head, a central rod and a C-terminal tail domain possessing an Ig-fold structural motif. Lamins are classified as either A- or B-type based on structure and expression pattern. The Drosophila genome possesses two genes encoding lamins, Lamin C and lamin Dm(0), which have been designated A- and B-type, respectively, based on their expression profile and structural features. In humans, mutations in the gene encoding A-type lamins are associated with a spectrum of predominantly tissue-specific diseases known as laminopathies. Linking the disease phenotypes to cellular functions...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
Nuclear intermediate filament proteins, called lamins, form a meshwork that lines the inner surface ...
The inner side of the nuclear envelope (NE) is lined with lamins, a meshwork of intermediate filamen...
AbstractLamins are the major components of nuclear envelope architecture, being required for both th...
Abstract Lamin proteins are type V intermediate filament proteins (IFs) located inside the cell nucl...
Mutations in the LMNA gene result in at least 15 distinct disorders ranging from muscular dystrophie...
AbstractTo elucidate the function of metazoan B-type lamins during development, new null mutations o...
Lamins are intermediate filament proteins that assemble into a meshwork underneath the inner nuclear...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
Lamins are type-V intermediate filament proteins that comprise the nuclear lamina. Although once con...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
Nuclear intermediate filament proteins, called lamins, form a meshwork that lines the inner surface ...
The inner side of the nuclear envelope (NE) is lined with lamins, a meshwork of intermediate filamen...
AbstractLamins are the major components of nuclear envelope architecture, being required for both th...
Abstract Lamin proteins are type V intermediate filament proteins (IFs) located inside the cell nucl...
Mutations in the LMNA gene result in at least 15 distinct disorders ranging from muscular dystrophie...
AbstractTo elucidate the function of metazoan B-type lamins during development, new null mutations o...
Lamins are intermediate filament proteins that assemble into a meshwork underneath the inner nuclear...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
Lamins are type-V intermediate filament proteins that comprise the nuclear lamina. Although once con...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...
The nuclei of multinucleated skeletal muscles experience substantial external force during developme...