See veebileht kasutab küpsiseid kasutaja sessiooni andmete hoidmiseks. Veebilehe kasutamisega nõustute ETISe kasutustingimustega. Loe rohkem
Olen nõus
"Muu" projekt 018741
018741 "Molecular analysis of circadian clock in different model organisms. (1.01.2006−30.07.2010)", Andres Metspalu, Maris Teder-Laving, Eesti Biokeskus.
018741
018741
Molecular analysis of circadian clock in different model organisms.
Molecular analysis of circadian clock in different model organisms.
1.01.2006
30.07.2010
Teadus- ja arendusprojekt
Muu
ValdkondAlamvaldkondCERCS erialaFrascati Manual’i erialaProtsent
1. Bio- ja keskkonnateadused1.12. Bio- ja keskkonnateadustega seotud uuringud, näiteks biotehnoloogia, molekulaarbioloogia, rakubioloogia, biofüüsika, majandus- ja tehnoloogiauuringudT490 Biotehnoloogia 1.5. Bioteadused (bioloogia, botaanika, bakterioloogia, mikrobioloogia, zooloogia, entomoloogia, geneetika, biokeemia, biofüüsika jt100,0
AsutusRollPeriood
Eesti Biokeskuspartner01.01.2006−30.07.2010
AsutusRiikTüüp
European Commission
PerioodSumma
01.01.2006−30.07.20103 787 338,00 EEK (242 055,02 EUR)
242 055,02 EUR
FP6 LSHM-CT-2006

"The circadian clock is a basic biological process that enables organisms to anticipate daily environmental changes by adjusting behaviour, physiology and gene regulation. A critical feature of the clock is its synchronisation to the external conditions during the day. The diffi culty of certain individuals to adapt the internal biological (or circadian) clock to their socio-professional activities generates fatigue and stress that could lead to increased level of mistakes and accidents, loss in productivity, as well as long and short term health risks. In EUCLOCK, researchers from 28 partnering organisations, among which six from Switzerland, investigate the circadian clock using the most advanced methods. Protocols, devices, and algorithms will be developed enabling, for the fi rst time, large-scale research on human entrainment in the fi eld."
"The circadian clock is a basic biological process that enables organisms to anticipate daily environmental changes by adjusting behaviour, physiology and gene regulation. A critical feature of the clock is its synchronisation to the external conditions during the day. The diffi culty of certain individuals to adapt the internal biological (or circadian) clock to their socio-professional activities generates fatigue and stress that could lead to increased level of mistakes and accidents, loss in productivity, as well as long and short term health risks. In EUCLOCK, researchers from 28 partnering organisations, among which six from Switzerland, investigate the circadian clock using the most advanced methods. Protocols, devices, and algorithms will be developed enabling, for the fi rst time, large-scale research on human entrainment in the fi eld."
www.euclock.org