Manish Kanojiya scite author profile

Manish Kanojiya

2Publications

31Citation Statements Received

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Dr. Vitthalrao Vikhe Patil Foundation’s Medical College

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TEMPERATURE DEPENDENT ECLOSION RHYTHMICITY IN THE HIGH ALTITUDE HIMALAYAN STRAINS OFDROSOPHILA ANANASSAE

Khare

Barnabas

Kanojiya

et al. 2002

Chronobiology International

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The circadian pacemaker controlling the eclosion rhythm of the high altitude Himalayan strains of Drosophila ananassae captured at Badrinath (5123 m) required ambient temperature at 21 degrees C for the entrainment and free-running processes. At this temperature, their eclosion rhythms entrained to 12h light, 12h dark (LD 12:12) cycles and free-ran when transferred from constant light (LL) to constant darkness (DD) or upon transfer to constant temperature at 21 degrees C following entrainment to temperature cycles in DD. These strains, however, were arrhythmic at 13 or 17 degrees C under identical experimental conditions. Eclosion medians always occurred in the thermophase of temperature cycles whether they were imposed in LL or DD; or whether the thermophase coincided with the photophase or scotophase of the concurrent LD 12:12 cycles. The temperature dependent rhythmicity in the Himalayan strains of D. ananassae is a rare phenotypic plasticity that might have been acquired through natural selection by accentuating the coupling sensing mechanism of the pacemaker to temperature, while simultaneously suppressing the effects of light on the pacemaker.

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Aging Alters Properties of the Circadian Pacemaker Controlling the Locomotor Activity Rhythm in Males of Drosophila Nasuta

Joshi

Barnabas

Martín

et al. 1999

Chronobiology International

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Effects of aging on the circadian rhythm of locomotor activity in males of Drosophila nasuta were investigated. The adult life of males was divided in 1-3 stages according to spontaneous changes in free-running period tau in constant darkness (DD): stage 1, days 1-19; stage 2, days 20-36; stage 3, days 37-43. Stage 1 was characterized by a bimodal activity pattern with a short light-induced morning peak and a prolonged evening peak when the flies were entrained to light-dark cycles of 12 hours of light, 12 hours of darkness (LD 12:12). The morning peak had a phase angle difference psi m (psi, the time from lights on in LD 12:12 cycles to the onset of morning peak) of about 0.1 h, while psi e (psi of evening peak) was about 9 h at stage 1. The transient morning peak was curtailed at the end of stage 1. At stage 2, the psi e was about 10 h, and the activity end was delayed by an addition of about 3 h of activity in the scotophase. The changes in tau during DD free runs were determined in two groups of flies: flies reared in LD 12:12 and flies reared in DD. In both groups, tau increased from about 23 h at stage 1 to about 25 h at stage 2. Stage 3 was characterized by arrhythmicity associated with highest mean activity level (total number of passes/fly/day) in the entrained and both free-running groups. The mean activity level increased significantly from stage 1 to stage 3 in all three groups of flies.

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Manish Kanojiya

TEMPERATURE DEPENDENT ECLOSION RHYTHMICITY IN THE HIGH ALTITUDE HIMALAYAN STRAINS OFDROSOPHILA ANANASSAE

Aging Alters Properties of the Circadian Pacemaker Controlling the Locomotor Activity Rhythm in Males of Drosophila Nasuta

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