[HTML][HTML] A differential response of two putative mammalian circadian regulators, mper1and mper2, to light
U Albrecht, ZS Sun, G Eichele, CC Lee - Cell, 1997 - cell.com
U Albrecht, ZS Sun, G Eichele, CC Lee
Cell, 1997•cell.comA mouse gene, mper1, having all the properties expected of a circadian clock gene, was
reported recently. This gene is expressed in a circadian pattern in the suprachiasmatic
nucleus (SCN). mper1 maintains this pattern of circadian expression in constant darkness
and can be entrained to a new light/dark cycle. Here we report the isolation of a second
mammalian gene, mper2, which also has these properties and greater homology to
Drosophila period. Expression of mper1 and mper2 is overlapping but asynchronous by 4 …
reported recently. This gene is expressed in a circadian pattern in the suprachiasmatic
nucleus (SCN). mper1 maintains this pattern of circadian expression in constant darkness
and can be entrained to a new light/dark cycle. Here we report the isolation of a second
mammalian gene, mper2, which also has these properties and greater homology to
Drosophila period. Expression of mper1 and mper2 is overlapping but asynchronous by 4 …
Abstract
A mouse gene, mper1, having all the properties expected of a circadian clock gene, was reported recently. This gene is expressed in a circadian pattern in the suprachiasmatic nucleus (SCN). mper1 maintains this pattern of circadian expression in constant darkness and can be entrained to a new light/dark cycle. Here we report the isolation of a second mammalian gene, mper2, which also has these properties and greater homology to Drosophila period. Expression of mper1 and mper2 is overlapping but asynchronous by 4 hr. mper1, unlike period and mper2 , is expressed rapidly after exposure to light at CT22. It appears that mper1 is the pacemaker component which responds to light and thus mediates photic entrainment.
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