NUCLEAR LAMINA

The 'nuclear lamina' is a dense, ~ 30 to 100 nanometers thick, fibrillar network composed of intermediate filaments made of lamin that lines the inner surface of the nuclear envelope in animal cells. At the onset of mitosis, a certain cyclin-dependent kinase complex (Cdk1 and cyclin B in mammals) phosphorylates the lamins, causing them to undergo a conformational change that triggers the disassembly of the nuclear envelope. After the chromosomes have migrated to each pole, the lamins are dephosphorylated, allowing them to begin to reform the nuclear lamina. Initially the lamina reassembles directly on the outer surface of the condensed chromosomes by binding to proteins which associate the condensed DNA, thus excluding all cytoplasmic proteins from the newly forming intranuclear space. The lamins also bind to lamin receptor proteins embedded in the membrane of the endoplasmic reticulum (the ER membrane is continuous with the nuclear envelope). This allows the nuclear envelope to reform around each of the chromosomes. As the chromosomes unwind, their individual coatings of ER membrane merge with one another to form a single nuclear envelope supported by the nuclear lamina. Even during interphase the lamins maintain interactions with DNA binding proteins or DNA itself, especially with heterochromatin which tends to cluster at the surface of the nuclear lamina.

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Associated Pathologies

Further reading

External links

Associated Pathologies

Main articles: Laminopathies

Defects in the genes encoding for nuclear lamin (such as LMNA and LMNB1) have been implicated in a variety of diseases such as:

★ Emery-Dreifuss muscular dystrophy - A muscle wasting disease

★ Progeria - Premature aging

★ Restrictive dermopathy - A disease associated with extremely tight skin and other severe neonatal abnormalities

Further reading

★ Goldman et al., "Nuclear lamins: building blocks of nuclear architecture", ''Genes and Development'' 16:543-547, 2002. A good introductory article.

External links

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