[HTML][HTML] The inner nuclear membrane protein Lem2 is critical for normal nuclear envelope morphology
The inner nuclear membrane (INM) of eukaryotic cells is characterized by a unique set of
transmembrane proteins which interact with chromatin and/or the nuclear lamina. The
number of identified INM proteins is steadily increasing, mainly as a result of proteomic and
computational approaches. However, despite a link between mutation of several of these
proteins and disease, the function of most transmembrane proteins of the INM remains
unknown and depletion of many of these proteins from a variety of systems did not produce …
transmembrane proteins which interact with chromatin and/or the nuclear lamina. The
number of identified INM proteins is steadily increasing, mainly as a result of proteomic and
computational approaches. However, despite a link between mutation of several of these
proteins and disease, the function of most transmembrane proteins of the INM remains
unknown and depletion of many of these proteins from a variety of systems did not produce …
The inner nuclear membrane (INM) of eukaryotic cells is characterized by a unique set of transmembrane proteins which interact with chromatin and/or the nuclear lamina. The number of identified INM proteins is steadily increasing, mainly as a result of proteomic and computational approaches. However, despite a link between mutation of several of these proteins and disease, the function of most transmembrane proteins of the INM remains unknown and depletion of many of these proteins from a variety of systems did not produce an obvious phenotype in the affected cells. Here, we report that depletion of the conserved INM protein Lem2 from human cell lines leads to abnormally shaped nuclei and severely reduces cell survival. We suggest that interactions of Lem2 with lamins or chromatin are critical for maintaining the integrity of the nuclear envelope.
Elsevier