Adult Neurogenesis Is Altered by Circadian Phase Shifts and the Duper Mutation in Female Syrian Hamsters

Abstract: Cell birth and survival in the adult hippocampus are regulated by a circadian clock. Rotating shift work and jet lag disrupt circadian rhythms and aggravate disease. Internal misalignment, a state in which abnormal phase relationships prevail between and within organs, is proposed to account for adverse effects of circadian disruption. This hypothesis has been difficult to test because phase shifts of the entraining cycle inevitably lead to transient desynchrony. Thus, it remains possible that phase shifts, re… Show more

“…Deletion of Cry1 and Cry2, alone or in combination, does not block female reproductive function in mice. We find that estrous cycles are quite regular in the Cry1-deficient duper mutants (present study; Bahiru and Bittman, 2023). This is consistent with observations of Takasu et al (2015) on Cry1-deficient mice, although the onset of irregular estrous cycles may occur at an earlier age in such animals and entrainment to LD cycles whose period (T) approximates τ DD can ameliorate female reproductive function.…”

Neuroendocrine effects of the duper mutation in Syrian hamsters: a role for Cryptochrome 1

“…Deletion of Cry1 and Cry2, alone or in combination, does not block female reproductive function in mice. We find that estrous cycles are quite regular in the Cry1-deficient duper mutants (present study; Bahiru and Bittman, 2023). This is consistent with observations of Takasu et al (2015) on Cry1-deficient mice, although the onset of irregular estrous cycles may occur at an earlier age in such animals and entrainment to LD cycles whose period (T) approximates τ DD can ameliorate female reproductive function.…”

Neuroendocrine effects of the duper mutation in Syrian hamsters: a role for Cryptochrome 1