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transcript
XVI Congress of theEuropean Biological Rhythms Society
www.ebrs2019.com
PROGRAM
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25 - 29 August 2019
Lyon, France
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WELCOME TO EBRS 2019Dear colleagues, friends and EBRS participants,
It is our great pleasure to welcome you to the XVI Congress of the European Biological Rhythms Society (EBRS), from 25–29 August 2019, in Lyon, France.
This year’s congress brings together the top chronobiologists and sleep experts from around the world. They will tell us all about their most recent findings and best scientific stories, and what to expect in the future, in chronobiology and chronomedicine. The sessions cover molecular biology, non-visual photobiology, chrononutrition, chronomolecules, metabolism, imaging, mathematical modelling, big data, machine learning, shift work, cancer... And more!
The meeting will be a unique opportunity to share your ideas, benefit from exchanges and discussions with colleagues, and disseminate your own results on a worldwide stage. Trainees and early-career researchers will be offered a five- star Trainee Day with the best researchers in the field.
The conference will be attended by over 390 participants from 34 countries. And with 9 plenary lectures, 24 symposia, 2 panel discussions, 72 invited symposia speakers, 72 short communications, and over 200 posters, the week promises to be very exciting!
We look forward to seeing you in Lyon, and we hope you enjoy the congress.
Claude GronfierCongress Chair
Debra J. SkeneEBRS President
Yoshitaka FukadaJSC President
in association with
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TABLE OF CONTENTS
WELCOME TO EBRS 2019 page 2
COMMITTEES & ORGANISATION page 4
GENERAL INFORMATION page 5
ACKNOWLEDGEMENTS page 6
PROGRAM
Sunday 25, August page 7
Monday 26, August page 8
Tuesday 27, August page 10
Wednesday 28, August page 12
Thursday 29, August page 14
SHORT COMMUNICATIONS page 16
POSTERS page 20
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COMMITTEES & ORGANISATION
COMMITTEES
EBRS2019 ORGANISATION
Organizing Committee
Scientific Committee
Claude GronfierLyon Neuroscience Research Center
Steven BrownDepartment of Pharmacology and
ToxicologyUniversity of Zurich
Switerland
Andries KalsbeekNetherlands Institute for Neuroscience
AmsterdamThe Netherlands
Claude GronfierLyon Neuroscience Research Center
Inserm, CNRS, University of LyonFrance
Martha Merrow (Chair)Institute of Medical Psychology
Ludwig-Maximilian University (LMU)Munich
Germany
Valérie SimonneauxInstitut des Neurosciences Cellulaires et
IntégrativesUniversité Louis Pasteur
StrasbourgFrance
Sato HonmaGraduate School of Medicine
Hokkaido UniversityJapan
Frank ScheerDivision of Sleep Medicine
Harvard Medical SchoolBostonUSA
Alain NicolasLyon Neuroscience Research Center
Francoise PerrotLyon Neuroscience Research Center
BP 29 59370 Mons en Baroeul
Organisation/Registrationcontact@ebrs2019.com
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GENERAL INFORMATIONDates and opening hours
Badges
Address venue
Abstract book
Congress Dinner
Wi-Fi
Sunday, 25 August
Monday, 26 August
Tuesday, 27 August
Wednesday, 28 August
Thursday, 29 August
16:45 - 20:00
09:00 - 20:00
09:00 - 20:00
09:00 - 18:30
09:00 - 18:30
14:00 - 16:30
08:30 - 18:00
08:45 - 18:00
08:45 - 18:00
08:45 - 18:00
13:00 - 14:30
13:00 - 14:30
13:00 - 14:30
13:00 - 14:30
08:45 - 20:00
08:45 - 20:00
08:45 - 20:00
08:45 - 20:00
09:00 - 16:20
Congress Registration Poster Sessions Exhibition Trainee Day
Each registered participant will receive a name badge upon arrival. For organisational and security reasons, we request that all participants and exhibitors wear their badges at all times during congress activities.
Faculté de Médecine Laennec7, rue Guillaume Paradin69008 Lyon, France
Map and details are available on the website of the congress
Abstract book is available on the website of the congress : www.ebrs2019.com
Wednesday, 28 August at 19:30Registration are closed
Each registered participant will receive a login and a password upon arrival.
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ACKNOWLEDGEMENT
EBRS2019 is greatful to the following institutions and organisations for their support of the XVI Congress of the European Biological Rhythms Society.
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PROGRAM
09:00 - 16:20
14:00 - 16:30
16:45 - 17:00Amphi 1
17:00 - 18:00Amphi 1
18:00 - 20:00
TRAINEE DAYOrganized by the Young Researchers Committee of the EBRS.Program is available on the website of the congress.
ATTENDEES REGISTRATION
CONGRESS OPENING
PLENARY LECTUREMETABOLIC CONSEQUENCES OF BEHAVIORAL AND E. van CauterPATHOLOGICAL DISRUPTIONS OF THE CIRCADIAN SYSTEMChairs : Debra Skene & Claude Gronfier
WELCOME RECEPTION (DRINKS AND SNACKS WILL BE SERVED)
SUNDAY 25 AUGUST
7
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08:45 - 09:00
13:00 - 14:30
09:00 - 10:00Amphi 1
10:15 - 12:15Amphi 1
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WELCOME COFFEE
LUNCH BREAK & POSTER SESSION 1
PLENARY : AXELROD LECTUREMOLECULAR BASIS OF SEASONAL CHANGES IN BEHAVIOR T. YoshimuraChair : Andrew Loudon
SYMPOSIUM 1MOLECULAR MECHANISMS IChair : Florian Heyd
> Cellular and molecular pathways from the visual system to the clock F. Rouyer neurons in Drosophila
> Short Communications - See details in page 16
> Coffee Break
> Short Communications - See details in page 16
> Space-time logic of the liver F. Naef
SYMPOSIUM 2MOLECULES AND CIRCUITS CONTROLLING REM AND NREM CYCLES (JOINT SYMPOSIUM SPONSORED BY THE JAPANESE SOCIETY FOR CHRONOBIOLOGY)Chair : Hiroki Ueda
> Systems Biology of Mammalian Sleep/Wake Cycles H. Ueda ~Phosphorylation Hypothesis of Sleep~
> Neuronal network of paradoxical (REM) sleep and its implication in learning P.-H. Luppi and memory and sleep pathologies
> Coffee Break
> Identification of neurons regulating REM sleep and insights to Y. Hayashi the mechanisms of REM sleep behavior disorder
> Short Communications - See details in page 16
SYMPOSIUM 3SEASONAL BIOLOGYChair : Valérie Simmoneaux
> Neural stem cells: new players in the control of seasonal reproduction M. Migaud
> Short Communications - See details in page 16
> Coffee Break
> Short Communications - See details in page 16
> Photoperiodic history-dependence – why? where? and how? D Hazelrigg
PROGRAMMONDAY 26 AUGUST
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17:30 - 18:30Amphi 1
19:00 - 20:00Amphi 4
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PLENARY LECTUREINTERACTIONS OF CIRCADIAN RHYTHMS AND SLEEP WITH A. Sehgal BASIC PHYSIOLOGYChair : Martha Merrow
PANEL DISCUSSIONREINVENTING SCIENCE COMMUNICATION : HOW CAN K. Wu OUR PUBLIC RELATIONS HELP WITH TRANSLATION? The Honorable Chairs : Martha Merrow & Samer Hattar Pavel Svoboda
SYMPOSIUM 4THE IMMUNE SYSTEM AND DAILY TIMINGChair : Andrew Loudon
> Circadian control of inflammation and bacterial infection in the lung D. Ray
> Choreographing immunity - a role for the circadian clock L. Ince
> The circadian clock of CD8 T cells modulates their early response N. Cermakian to vaccination and the rhythmicity of related signaling pathways
> Coffee Break
> Short Communications - See details in page 16
SYMPOSIUM 5NON-PHOTIC ENTRAINMENT : NOVEL CONNECTIONS FROMENVIRONMENT TO CLOCKSChair : Shigenobu Shibata
> Timing of feeding schedules for circadian synchrony C. Escobar
> Non-photic entrainment: novel connections from environment to clocks H. Oster
> Light-independent function of the Suprachiasmatic nuclei to regulate J. Ripperger the food-uptake of mice
> Coffee Break
> Short Communications - See details in page 16
SYMPOSIUM 6NON-CIRCADIAN RHYTHMSChair : Helen Causton
> In the light of sun and moon K. Tessmar-Raible
> Molecular basis of tidal rhythms in an intertidal crustacean L. Zhang Eurydice pulchra
> Once superabundant now at the brink of extinction – why S. Monecke chronotopes matter
> Coffee Break
> Short Communications - See details in page 16
PROGRAM
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TUESDAY 27 AUGUST
08:45 - 09:00
13:00 - 14:30
09:00 - 10:00Amphi 1
10:15 - 13:00Amphi 1
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Amphi 4
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WELCOME COFFEE
LUNCH BREAK & POSTER SESSION 2
PLENARY : JSC LECTUREMODIFICATIONS OF CRY PROTEINS BOLSTER CIRCADIAN Y. FukadaCLOCK OSCILLATIONChair : Ken Ichi Honma
SYMPOSIUM 7MOLECULAR MECHANISMS IIChair : Urs Albrecht
> Consequences of time- and region-specific ablations of an P. Nolan SCN-enriched mouse transcription factor
> ATPase-based in vitro Screening for KaiC Clock Mutants in Cyanobacteria S. Akiyama
> Coffee Break
> Dynamic Plasticity of the Arabidopsis Circadian Oscillator in A. Webb Response to Sugar Signals
> Short Communications - See details in page 17
SYMPOSIUM 8CLOCKS, SLEEP AND HEALTH (ESRS-EBRS JOINT SYMPOSIUM)Chairs : Debra Skene & Tom de Boer
> The moon is a weak Zeitgeber for menstrual cycles in women C. Helfrich-Förster
> MTNR1A variant across life span S. Sulkava
> Coffee Break
> Neural circuits underlying sleep structure and oscillation A. Adamantidis
> Short Communications - See details in page 17
SYMPOSIUM 9MICROBIAL CLOCKSChair : Martha Merrow
> Circadian rhythms in non-photosynthetic bacteria Z. Chen> Challenging the Topological Plasticity of a Core-Oscillator: Exploring L. Larrondo the Evolution of Circadian Circuitry and Visualizing the Emergence of a Primordial Visual System Capable of Eidetic Memory
> Coffee Break
> Circadian Organization of the Enteric Commensal Bacterium, V. Cassone Klebsiella aerogenes
> Short Communications - See details in page 17
PROGRAM
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17:30 - 18:30Amphi 1
19:00 - 20:00Amphi 1
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14:30 - 17:15Amphi 3
Amphi 1
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PLENARY : KAPPERS LECTUREWHAT THE MAMMALIAN EYE TELLS THE MAMMALIAN SCN R. LucasChair : Andries Kalsbeek
PANEL DISCUSSIONPHILOSOPHY OF TIME G. ManellaChair : Aurélien Demars R. Aviram
SYMPOSIUM 10CLOCK NETWORKS IN THE BRAINChair : Rae Silver
> Multiple brain clocks regulating behavior rhythms of mammals S. Honma
> Imaging the Intact SCN network in vivo A. Davidson
> Astrocytic-neuronal communication in the specification of circadian M. Brancaccio time
> Coffee Break
> Short Communications - See details in page 17
SYMPOSIUM 11THE CLOCK AND PUBLIC HEALTHChair : Charles Czeisler
> Light at night, circadian rhythms and public health C. Czeisler
> Shift work involving circadian disruption, cancer risk, and beyond: E. Schernhammer current state of the science
> Night work and breast cancer risk: a combined analysis of E. Cordina-Duverger 5 population-based case-control studies
> Coffee Break
> Short Communications - See details in page 17
SYMPOSIUM 12PERIPHERAL CLOCKSChair : Charna Dibner
> Circadian Medicine for Treatment of Cardiovascular Disease T. Martino
> Glucocorticoid receptor activation and the diurnal rhythm of the J. Ivy Thiazide-sensitive NaCl co-transporter
> HbA1c levels in Type 2 diabetic individuals predict cellular circadian F. Sinturel clock properties
> Coffee Break
> Short Communications - See details in page 17
PROGRAM
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08:45 - 09:00
13:00 - 14:30
09:00 - 10:00Amphi 1
10:15 - 13:00Amphi 3
10:15
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Amphi 1
Amphi 4
WELCOME COFFEE
LUNCH BREAK & POSTER SESSION 3EBRS AGM (Amphi 1) – open to all EBRS members
PLENARY : STOCKGRAND LECTURESHEDDING NEW LIGHT ON DELAYED SLEEP-WAKE S. RajaratnamPHASE DISORDERChair : Debra Skene
SYMPOSIUM 13METABOLISM : DO CLOCKS CONTROL EVERYTHING?Chair : Etienne Challet
> Circadian misalignment: adverse health consequences and development of F. Scheer countermeasures
> Your brain on junk food, interaction with the timing system S. LaFleur
> Coffee Break
> Restoration of Rhythms in Clock Deficient Mice Relieves their Mania Symptom E. Zhang
> Short Communications - See details in page 18
SYMPOSIUM 14CLOCKS ACROSS LIFE : CIRCADIAN MECHANISMSDURING DEVELOPMENT AND AGEINGChair : Alena Sumova
> The central clock resilience develops via critical developmental stages A.Sumova
> Developmental program and environmental reprogramming of mammalian K. Yagita circadian regulation system
> Coffee Break
> Differential effects of aging on the central circadian clock S. Michel
> Short Communications - See details in page 18
SYMPOSIUM 15CIRCADIAN AND NON-VISUAL EFFECTS OF LIGHTChair : Roelof Hut
> A non-canonical inhibitory circuit dampens behavioral sensitivity to light T. Schmidt
> Synaptic Specializations of Melanopsin- Retinal Ganglion Cells in Multiple S. Panda Brain Regions Revealed by Genetic Probes for Light- and Electron Microscopy
> Coffee Break
> Time-based dynamics of non-visual effects of light in humans: The importance S. Lockley of exposure duration
> Short Communications - See details in page 18
WEDNESDAY 28 AUGUSTPROGRAM
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17:30 - 18:30Amphi 1
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14:30 - 17:15Amphi 1
Amphi 3
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PLENARY : GWINNER LECTUREINTER- AND INTRA-SPECIFIC TEMPORAL PARTITIONING: N. Kronfeld-SchorACTIVITY PATTERNS AND CHRONOTYPESChair : Steven Brown
CONGRESS DINNER
SYMPOSIUM 16CLOCKS IN THE REAL WORLD : FROM BEDSIDE TO BIG DATAChair : Till Roenneberg
> The power of actimetry in clock- and sleep-related field studies T. Roenneberg
> Circadian information in real time from remote patients for precision F. Levi chronomedicine
> Measuring circadian indices in patient populations: tips from cirrhosis S. Montagnese
> Coffee Break
> Short Communications - See details in page 18
SYMPOSIUM 17MENTAL HEALTHChair : Martin Ralph
> A novel circuit underlies the effects of light on mood in mice S. Hattar
> Role of circadian clocks in dopaminergic neurodegeneration E. Nagoshi
> What is the Role of the SCN in Learning Ability and Disability? C. Heller
> Coffee Break
> Short Communications - See details in page 18
SYMPOSIUM 18THE GUT MICRO BIOME AND THE CIRCADIAN CLOCKChair : Isabelle Carre
> Impact of Circadian and Sleep Disruption on the Human Microbiome K. Wright Jr
> (Ar)rhythmicity of the Human Microbiome in Health and Disease S. Kiessling
> Circadian disruption challenges the resiliency of intestinal microbiota A. Keshavarzian community and intestinal barrier function
> Coffee Break
> Short Communications - See details in page 18
PROGRAM
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14
08:45 - 09:00
13:30 - 14:30
09:00 - 10:00Amphi 1
10:15 - 13:00Amphi 1
10:15
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Amphi 4
Amphi 3
WELCOME COFFEE
LUNCH BREAK & POSTER SESSION 4
PLENARY LECTURECRYPTOCHROMES INTEGRATE CIRCADIAN RHYTHMS K. LamiaWITH METABOLISM AND GENOME PROTECTIONChair : Frank Scheer
SYMPOSIUM 19BIOMARKERS AND THEIR APPLICATION TO CHRONOMEDICINEChair : John Hogenesch
> High-accuracy determination of internal circadian time from a single A. Kramer blood sample
> Loss of circadian rhythm in critically ill patients: relevant for long-term damage? C. Spies
> Coffee Break
> Novel Approaches to Diagnose Circadian Rhythm Disorders P. Zee
> Short Communications - See details in page 19
SYMPOSIUM 20MOLECULAR MECHANISM IIIChair : David Virshup
> High-throughput discovery of genetic determinants of circadian entrainment Y.Xu and its application in humans
> Hacking genetics, wearables and video games to measure and understand D. Forger human circadian rhythms
> Coffee Break
> CK1δ/ε regulation of the PER2 phosphoswitch D. Virshup
> Short Communications - See details in page 19
SYMPOSIUM 21EMERGENT RHYTHMS IN THE BRAINChair : Hugh Piggins
> Network-level heterogeneity revealed through developmental patterning J. Evans of neuropeptide expression in the master circadian clock
> Pigment-dispersing factor (PDF) affects different neuronal circuits of J. Plath the circadian clock in the Madeira cockroach Rhyparobia (Leucophaea) maderae
> Coffee Break
> Excitation and hyperexcitation in the mammalian master circadian clock: M. Belle past, present and future
> Short Communications - See details in page 19
THURSDAY 29 AUGUSTPROGRAM
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17:30 - 18:30Amphi 1
18:30 - 19:30Amphi 1
14:30
15:00
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16:00
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14:30
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14:30
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16:00
16:30
14:30 - 17:15Amphi 3
Amphi 4
Amphi 1
PLENARY LECTUREBUILDING CIRCADIAN MEDICINE IN A J. HogeneschPEDIATRIC HOSPITALChair : Francis Levi
AWARDS AND CLOSING REMARKS
SYMPOSIUM 22CIRCADIAN MECHANISMS CONTROLLING LEARNING,MEMORY AND COGNITIONChair : Martin Ralph
> Melatonin and clock genes – circadian cues for shaping J. Stehle time-of-day-dependent learning efficiency?
> Importance of brain oscillations in sleep and memory : K. Benchenanne similarity and difference between human and rodent
> A neural basis for time memory M. Ralph
> Coffee Break
> Short Communications - See details in page 19
SYMPOSIUM 23CHRONONUTRITION AND CHRONOMOLECULES :FROM CIRCADIAN MECHANISMS TO CIRCADIAN THERAPIESChair : Robert Dallmann
> Targeting Entrainment Pathways to Develop Chronomolecules A. Jagannath
> Circadian metabolism and meal timing in humans J. Johnston
> Timing of Macronutrient Intake: Underlying Mechanisms and O. Froy Endocrine Outcomes
> Coffee Break
> Short Communications - See details in page 19
SYMPOSIUM 24OMICS AND MACHINE LEARNING : AI-DRIVEN APPROACHESTO UNDERSTANDING CIRCADIAN FUNCTIONChair : Bharath Ananthasubramaniam
> Using Gene Expression to Tell Time R. Braun
> Subcellular Circadian -Omics: What comes out depends on what goes S. Brown in…and how you slept
> From Chronotype GWAS to biology using Integrative Omics R. Saxena
> Coffee Break
> Short Communications - See details in page 19
PROGRAM
16
Molecular Mechanism IChair : Florian Heyd
Molecules and circuits controlling REM and NREM cycles (JSC)Chair : Hiroki Ueda
Seasonal BiologyChair : Valérie Simmoneaux
The Immune system and daily timingChair : Andrew Loudon
Non-photic entrainment : novel connections from environment to clocksChair : Shigenobu Shibata
Non-circandian RhythmsChair : Helen Causton
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Understanding the molecular mechanisms of FREQUENCY protein isoforms in controlling the Neurospora circadian clock
Circadian permeability of an In Vitro Tri-Culture Model of Blood-Brain-Barrier
Disclosing neuroendocrine mechanisms of seasonality, a step towards genetically modified models.
Seasonal timing in the Arctic
Cyclin Dependent Kinase 5 (CDK5) Regulates the Circadian Clock
Epigenetic control of the mammalian circadian clock by the histone variant H2A.Z.
The Circadian Transcription Factor KLF10 is an Important Regulator of the Carbohydrate responsive transcriptome in Liver
AKT phosphorylation undergoes cell autonomous and clock independent oscillations
Real-Time Breath Analysis Provides New Insights into Metabolism During Sleep
Photoperiodic programming of the reproductive system in a photoperiodic and opportunistic vole species.
Chronic Jet Lag increases the dissemination and metastatic potential of mammary cancer cells through an increase of immune tolerance and chemoattract
Time-restricted feeding is effective in the BACHD mouse model of HuntingtonÕs disease
Understanding the Temporal Regulation of Metabolism in Yeast
Alternating light-dark cycles aggravate atherosclerosis through increased attraction of monocytes to the vessel wall
Synchronization of the Hippocampal Circadian Clock
Setting the pace: Host rhythmic behaviour and gene expression patterns in symbiotic cnidarian Aiptasia are determined largely by Symbionts
Experimental inflammatory arthritis rewires circadian metabolic controls across the body
Temperature and light integration in the Drosophila clock
Molecular encoding of the photoperiod and seasonal timing in Drosophila
SIK3 signaling: Exploring the missing link between circadian clock and sleep
Understanding the molecular mechanisms underlying photoperiodic time measurement in Drosophila
Single Nuclei RNA Sequencing Characterises Binary Population of Pars Tuberalis Calendar Cells in response to Long Photoperiod.
J. Guo, et al.
S. Kumar, et al.
C. Quignon, et al.
D. Appenroth, et al.
U. Albrecht, et al.
H. Boyer, et al.
M. Teboul, et al.
R. Aviram, et al.
N. Nowak, et al.
L. Van Rosmalen et al.
E. Hadadi, et al.
Y. Tahara, et al.
H. Causton, et al.
S. Kooijman, et al.
K. Suchmanova, et al.
O. Levy, et al.
P. Downton, et al.
E. Buhl, et al.
E. Tauber, et al.
N. Hayasaka, et al.
A. Abrieux, et al.
Y. Mizoro, et al.
SHORT COMMUNICATIONSM
ONDA
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Molecular Mechanism IIChair : Urs Albrecht
Clocks, sleep and health (ESRS & EBRS)Chairs : Debra Skene & Tom de Boer
Microbial clocksChair : Martha Merrow
Clock networks in the brainChair : Rae Silver
The clock and public healthChair : Charles Czeisler
Peripheral clocksChair : Charna Dibner
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Amphi 1
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Distinct control of PERIOD2 degradation and circadian rhythms by the oncoprotein and ubiquitin ligase MDM2
Circadian VIPergic neurons of the suprachiasmatic nuclei directly control siesta sleep
Response of immune system to selected Escherichia coli strains impacts the circadian clock
Effects of the isolation of suprachiasmatic nucleus on circadian rhythmicity
Rev-Erb? and Photoreceptor Outer Segments modulate the Circadian Clock in Retinal Pigment Epithelial Cells
The circadian clock promotes spermatogonial differentiation and fertilization through retinoic acid signaling
Melatonin structures the sleep/wake cycle by modulating the sleep homeostatic pressure
BioDare2: a community resource for online analysis and sharing of rhythmic data
Topological pacemaker organization and roles of AVP and VIP neurons as revealed by genetic dissection of circadian networks in the SCN.
Rotating night-shift work and hematologic cancers in the Nurses’ Health Study and Nurses’ Health Study II.
Towards the Timed Delivery of Drugs Using Smart Nanoparticles
Restoring the sleep disruption by blue light emitting screen use use in adolescents: a randomized controlled trial
Co-existing feedback loops generate tissue-specific circadian rhythms
Night shift alertness and performance are deferentially influenced by sleep duration and wake duration in older adults
Hypoxia induces a time and tissue-specific response that elicits inter-organ circadian clocks-desynchrony
Acute sleep deprivation causes long-term damping of cortical clock-gene rhythms
Individual cyanobacterial circadian rhythms under low temperature conditions
Spatio-temporal organization of clock cell activity in the suprachiasmatic nuclei of freely moving mice.
C. Finkielstein, et al.
S. Pierre Ferrer, et al.
U. Kovac, et al.
S. Miyazaki, et al.
N. Milicevic, et al.
H. Wang, et al.
P. Kim , et al.
T. Zielinski, et al.
M. Izumo, et al.
K. Papantoniou, et al.
R. Dallmann, et al.
A. Kalsbeek, et al.
H. Herzel, et al.
C. Isherwood, et al.
G. Manella, et al.
M. Jan, et al.
I. Hiroshi, et al.
L. El Cheikh Hussein, et al.
TUES
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Metabolism : do clocks control everything ?Chair : Etienne Challet
Clocks across life : circadian mechanisms during development and ageingChair : Alena Sumova
Circadian and non-visual effects of lightChair : Roelof Hut
Clocks in the real world : from bedside to big dataChair : Till Roenneberg
Mental HealthChair : Chris Colwell
The gut micro biome and the circadian clockChair : Isabelle Carre
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Amphi 1
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Ten-hour time-restricted eating reduces weight, blood pressure, and atherogenic lipids in patients with metabolic syndrome
Effects of long-term time-restricted feeding of a high-fat diet on aging in senescence-accelerated mouse
Rods play a major role in the light-induced phase shift of the retinal clock in mammals
Are models ready for predicting circadian phase in real-world settings?
Time-Restricted Feeding Prevents Obesity and Metabolic Syndrome in Mice Lacking a Circadian Clock
Illuminated night alters nocturnal sleep and negatively affects physiology and metabolism in diurnal zebra finches
Diverse approaches to image circadian clock function in vivo
High light intensity forced desynchrony protocol reveals different pathways for alerting effects of light.
Comparison of sleep onset and offset times from a single questionnaire, actigraphy, and daily sleep diary data in a college population
Social Jet Lag: potential contributor to health disparity by race/ethnicity in the United States
Evolutionary diversity of Kai-protein clock system in cyanobacteria
Bmal1 deletion in microglia facilitates mice to cope with metabolic and cognitive challenges.
Underground clocks - Rhythmicity in the plant rhizosphere
Circadian Rest-Activity Patterns in Bipolar Disorder and Borderline Personality Disorder
Circadian regulation of the host response to fungal infections
The methyl cycle is a conserved regulator of biological clocks.
Light at night affects energy metabolism in rodents depending on the species, wavelength and time of the exposure
Effect of social jetlag on sleep quality
E. Manoogian, et al.
O. Hideaki, et al.
O. Dkhissi Benyahya, et al.
J. Stone, et al.
A. Chaix, et al.
T. Batra, et al.
M. Sato, et al.
R. Lok, et al.
E. Klerman, et al.
Y. Park, et al.
A. Mukaiyama, et al.
C.-X. Yi, et al.
I. Carre, et al.
N. Mcgowan, et al.
M. M. Bellet, et al.
J.-M. Fustin, et al.
A. Masis-Vargas, et al.
K. Ella, et al.
WED
NESD
AY 2
8/08
Amphi 3
10:15
14:30
19
Biomarkers and their application to chronomedicineChair : John Hogenesch
Molecular Mechanism IIIChair : David Virshup
Emergent rhythms in the brainChair : Hugh Piggins
Circadian mechanisms controlling learning, memory and cognitionChair : Martin Ralph
Chrononutrition and chronomolecules : from circadian mechanisms to circadian therapiesChair : Robert Dallmann
Omics and machine learning : Al-driven approaches to understanding circadian functionChair : Bharath Ananthasubramaniam
SC-57
Amphi 3
Amphi 4
Amphi 1
Amphi 3
Amphi 4
SC-61
SC-64
SC-67
SC-59
SC-58
SC-62
SC-65
SC-68
SC-72
SC-76
SC-69
SC-74
SC-73
SC-71
SC-70
SC-75
SC-60
SC-63
SC-66
miRNAs as potential biomarkers for the identification of night-shift workers at risk of developing breast cancer
MYC-associated factor MAX is an essential repressor of clock core network
Circadian circuits underlying daily rhythms in corticosterone release
Multiple, Large Soma-Soma Ephapses Connect Clustered SCN Core Neurons NonSynaptically
TimeTeller: a New Tool for Precision Circadian Medicine and Cancer Prognosis
A precision medicine diagnostic tool for circadian clock disorders
MŸller cells as a new player in the retinal clock
The Role of SCN VIP cells in daily physiological control.
Early circadian dynamics of time perception predict antidepressant response to sleep deprivation combined with light therapy in bipolar depression
Discovery of a CLOCK-binding small molecule that enhances circadian rhythm
Circadian rhythms in circulating metabolites: effect of a 5 h shift in meal timing
Nighttime light exposure mitigates temperature- and sex hormone-driven differences in neurobehavioral performance between menstrual phases
A role for mammalian PER proteins in guarding genome stability
Chrono-nutrition and cardiometabolic disease in The Maastricht Study
Selective MT1 melatonin receptor inverse agonists identified using the MT1 crystal structure modulate circadian phase and re-entrainment in C3H mice.
Volatile cues from the colony and substrate born vibrations entrain circadian rhythms in honeybees and may mediate social synchronization
Continuous real time predictability of individual circadian phase during daily routine for medical applications of circadian clocks
Coupling of liver oscillators in the absence of a functional central clock
Timekeeping in the hindbrain: novel circadian oscillators in the mouse area postrema and nucleus of the solitary tract
Circadian rhythmicity of cardiac arrhythmias in a computational model of ventricular myocytes
M. Kneifel, et al.
O. Blazevits, et al.
J. Jones, et al.
M. Czeisler, et al.
D. Rand, et al.
P. Papagerakis, et al.
N. Mazzaro, et al.
S. Paul, et al.
T. Yoshiike, et al.
I. Kavakli, et al.
C. Isherwood, et al.
L. Grant, et al.
F. Andriani, et al.
S. Eussen, et al.
M. Dubocovich, et al.
O. Siehler, et al.
S. Komarzynski, et al.
F. Sinturel, et al.
L. Chrobok, et al.
C. Diekman, et al.
THUR
SDAY
29/
08Amphi 1
10:15
14:30
20
POSTERSP-1
P-24
P-9
P-5
P-13
P-17
P-21
P-2
P-25
P-10
P-6
P-14
P-18
P-22
P-3
P-26
P-11
P-7
P-15
P-19
P-23
P-4
P-12
P-8
P-16
P-20
Influence of photoperiod on central appetite regulation in captive Svalbard rock ptarmigan (Lagopus muta hyperborea)
Topology of the Mammalian Suprachiasmatic Nucleus: Anatomical and Transcriptomic Analysis
The miR-17 family of microRNAs have a strong influence on the circadian clock.
Lethality caused by time-restricted feeding can be rescued by impairing the suprachiasmatic nucleus function
Functional D-box sequences and their roles in the circadian clockwork
Melanopsin expression changes according to photoperiod integration
Effect of the long non-coding RNA Neat1 knock-down on the circadian transcriptome in a rat pituitary cell line
High-throughput discovery of genetic determinants of circadian entrainment
The use of molecularly targeted drugs in cancer chronotherapy
Quantitative live imaging of VENUS::BMAL1 in vivo reveals unexpected dynamics of the master circadian clock regulator
Association between disrupted sleep-wake rhythms and poor sleep quality is moderated by sex
Dose-response relationship of subjective and objective visual comfort with melanopic irradiance
cAMP response element binding protein (CREB) modulates circadian oscillation of Glycoprotein 2 (Gp2) gene expression in Peyer’s patches of mice.
Rats prenatally exposed to lipopolysaccharide show changes in circadian rhythms and behaviour
Seasonal changes in pituitary mRNA expression of LH? collocated with testis LhcgR in desert rodent the Libyan Jird (Meriones libycus)
Characteristics of sleep structure among normal young adults with objective daytime sleepiness
First characterization of the circadian clock in pea aphids (Acyrthosiphon pisum)
Circadian BMAL1ÐHSF1Ðp53 interplay regulates UV-triggered clock synchronization to evoke stress protection
Daytime Exposure of Blue-light Affected the Circadian Phase of the Rectal Temperature in Humans
Nardilysin is a critical component of the mammalian circadian negative feedback loop
The role of the Jak-STAT signalling pathway in the molecular clock of SCN astrocytes and glioblastoma cells
The relationship between social jetlag and menstrual symptoms among Japanese university students.
Real time recording of clock gene expression in peripheral tissues of freely moving mice
Initial protein events commonly pivotal for various environments/stresses- triggered cellular clock synchronization
Effect of the Cognitive Performance Tasks in Simulated Night Shift Work
Development of a microchip for single SCN cell culture environment
V. Melum, et al.
E. Morris, et al.
A. Ashton, et al.
Z. Huang, et al.
Y. Asano, et al.
B. Leclercq, et al.
A. Jacq, et al.
T. Zhang, et al.
M. Ikeda, et al.
N. Smyllie, et al.
S. Raman, et al.
M. Mÿnch, et al.
N. Kusunose, et al.
V. Spisskav, et al.
R. Boufermes, et al.
H. Narisawa, et al.
F. S. Colizzi, et al.
G. Kawamura, et al.
I. Nakamoto, et al.
H. Yoshinori, et al.
E. Filipovska, et al.
Y. Komada, et al.
K. Hamada, et al.
T. Tamaru, et al.
S. Uiji, et al.
S. Watanabe, et al.
21
P-32
P-28
P-36
P-40
P-44
P-33
P-29
P-37
P-41
P-45
P-34
P-30
P-38
P-42
P-46
P-27
P-35
P-31
P-39
P-43
A Novel Association Between Social Jetlag and Glycemic Control in Adults with Type 2 Diabetes.
The role of the STAT3 signaling for melatonergic synthetic pathway in the rat pineal gland
A-to-I RNA editing of AMPA receptors in the rat master clock and other brain structures under different light conditions
Distinct properties of circadian clocks in classically and alternatively polarized macrophages
Analysis of circadian oscillations in pancreatic ductal adenocarcinoma tumour cells
Impact of weekly shift of the light-dark cycle on circadian physiology and behavior in mice
Evidence of the involvement of the CREB-regulated transcription coactivator (CRTC1) in the circadian regulation of energy homeostasis
Food Addiction Seasonality
The effect of chronic prenatal and postnatal morphine or methadone exposure on developing circadian system in Wistar rats
Seasonal and circadian rhythms in the human immune system
The clock gene DEC2 contributes to VEGF up-regulation by modulating HIF1? protein levels in hypoxic retinal glial cells.
Evidence for a dysfunction and disease-promoting role of the circadian clock in diabetic retinopathy
Circadian rhythms in utilisation of 63 carbon energy sources by pre-adipocytes expose two clusters with anti-phasic utilisation peak times.
A standardized method to assess the endogenous and the lightÐresponse of the retinal clock in mammals
Bmal1-deficiency affects the astrocyte morphology and glial synaptic coverage of the hippocampal mossy fiber synapse
Circadian Clock Gene Expression in Human Primary Pericytes in vitro
Circadian and sex-dependent pharmacokinetics of everolimus and implications of chronotherapy
Endogenous timekeeping in the Arctic charr (Salvelinus alpinus L.): linking photoperiod and life history events
Roles of GABA in Suprachiasmatic AVP Neurons on Female Reproductive Functions
Bmal1-deficiency affects astrocyte actin cytoskeleton
R. Kelly, et al.
S. Moravcova, et al.
H. Kyclerova, et al.
P. Honzlova, et al.
S. Koutsouli, et al.
G. Vanotti, et al.
C. Rossetti, et al.
M. Borisenkov, et al.
D. Pacesova, et al.
J. Leung, et al.
T. Akamine, et al.
P. Vancura, et al.
C. Martin, et al.
H. Calligaro, et al.
A. Ali, et al.
V. Mastrullo, et al.
D. Ozturk, et al.
G. Grenier, et al.
M. Sugiyama, et al.
B. Schwarz-Herzke, et al.
P-47
P-48
P-49
P-50
The expression pattern of the neuropeptide Pigment-Dispersing Factor in drosophilids correlates with their activity pattern under long photoperiods
The class 3 PI3K controls the circadian clock function
Does a red house affect the synchronization of rhythms in spontaneous locomotor activity in BMAL1-deficient mice?
Does the circadian rhythm of NOGO-A in mouse hippocampal neurons affect the signaling of growth cone plasticity?
P. Deppisch, et al.
C. Alkhoury, et al.
M. Oeztuerk, et al.
L. Gabel Martinez, et al.
P-51 Diagnosis of hypersomnia in mother and daughter: Use of circadian markers to improve diagnostic practice
K. Skalova, et al.
22
P-55
P-59
P-63
P-67
P-56
P-52
P-60
P-64
P-68
P-57
P-53
P-61
P-65
P-69
P-58
P-54
P-62
P-66
A multi-layered study on harmonic oscillations in mammalian genomics and proteomics
The permeability of the Brain-hypothalamus barrier exhibits daily fluctuations
Endocannabinoids modulate NMDAR-mediated entrainment in the mouse SCN
Circadian regulation of xenobiotic transporters in mouse placenta
The role of circadian clock in carcinogenesis: insights from 2D and 3D colorectal cancer models
Seasonal regulation of the lncRNA LDAIR modulates self-protective behaviors during the breeding season
Evening twilight orientation of migratory redheaded bunting, Emberiza bruniceps: the role of setting sun as visual cue in directional preferences
Bmal1 deficiency affects circadian light entrainment
Temperature entrainment of the circadian clock in the linden bug Pyrrhocoris aprterus
The Effect of Common Daily Schedule on the Human Circadian Rhythms during the Polar Day in Svalbard- Field Study
Effect of time-of-day and prior wake on electroencephalographic Delta and Beta power in 30-min naps during 30 continuous hours of 90-minute «days»
Scalloping or phase-trapping of the human circadian system is independent of the phase-dependent light sensitivity
Peptidomics of the circadian clock in the Madera cockroach
Shift of the dead zone during jet lag follows a slow shift in the shell region of the suprachiasmatic nucleus
Human fibroblasts as a model to investigate genetic and epigenetic contributions to regulation of circadian rhythms across human diseases
Two coupled molecular loops in the mouse circadian system: Implication in entrainment
Circadian control of the dorsal motor nucleus of the vagus in rat by orexin and glucagon-like peptide-1
Sterol-clock network: a link between cholesterol synthesis and the circadian clock
G. Mazzoccoli, et al.
B. Rodriguez-Cortes, et al.
M. Sladek, et al.
M. Astiz, et al.
A. Basti, et al.
T. Nakayama, et al.
T. Tyagi, et al.
A. Ali, et al.
M. Kaniewska, et al.
K. Weissova, et al.
E. Klerman, et al.
K.-I. Honma, et al.
S. Neupert, et al.
Y. Shigeyoshi, et al.
N.-H. Du, et al.
S. Nishide, et al.
J. Klich, et al.
C. Skubic, et al.
P-70
P-74
P-71
P-75
P-72
P-76
P-73
Circadian and noncircadian Mechanisms of Regulation by the DBHS Protein Family
Enhanced electrical output of the SCN clock by behavioral activity feedback in the day-active grass rat (Arvicanthis ansorgei)
Covert swimming behaviour rapid eye movement (r.e.m) and neuropsine in circadian circumlunar and circannual cycle
A PDZ scaffolding/CaM-mediated pathway in Cryptochrome signals to the circadian clock
Shedding Light on the Circadian Pacemaker: Single-unit network analysis in the mouse suprachiasmatic nucleus
Circadian pattern of glucagon-like peptides expression in the locus coeruleus of the rat-immunofluorescent study
PERIOD1 regulates the adaption to changes of the light-cycle by buffering the strength of the light input signal within the master circadian clock
E. Moriggi, et al.
R. Schoonderwoerd, et al.
C. J. Van Dam, et al.
G. Mazzotta, et al.
N. Ognjanovski, et al.
K. Palus-Chramiec, et al.
P. Bechstein, et al.
23
P-78
P-82
P-86
P-90
P-79
P-83
P-87
P-91
P-80
P-84
P-88
P-92
P-81
P-85
P-89
Modeling circadian regulation of ovulation timing: Age-related disruption of estrous cyclicity
Population genomics of Drosophila reveals extensive latitudinal clinal variation in clock genes
Assessing the impact of light-at-night on sleep, circadian function and physical and mental well-being
Deletion of Bmal1 within the mouse striatal clock affects behaviour and motor function
Age-related microglial alterations and lipofuscin-deposition in the hippocampus of clock gene Period1-deficient mice
SMAD4 affects the circadian clock triggers TGF? signaling and impacts migration and drug response in cancer cells.
The influence of artificial light on the eco-physiology of diurnal and nocturnal rodent species
Circadian Clock-Related Protein NONO Alters Mitochondrial Respiration, Uncoupling, and Insulin Secretion
The influence of skeletal muscle thermogenesis on the regulation of body temperature during ketogenic diet-induced hypothermia
Genome-wide association analysis reveals expression quantitative trait loci (eQTL) of photoreceptors genes in the jewel wasp Nasonia
Melatonin and the heart circadian clock of euglycemic and type 2 diabetic male rats
Modeling the regulation of complex behavioral rhythms using the neural circuits underlying sensorimotor integration in the brain
Circadian rhythms in the Dermis and Epidermis
The Effect of Environmental Circadian Disruption on Kidney Injury in Spontaneously Hypertensive Stroke Prone Rats
Extreme chronotypes: differences in morning and evening physical and cognitive performance
T. Ohara, et al.
E. Tauber, et al.
M. Cleray Gaffney, et al.
K. Schottner, et al.
A. Rami, et al.
Y. Li, et al.
A. Benjamin, et al.
A. Rawleigh, et al.
R. Nakao, et al.
E. Tauber, et al.
R. Peliciari-Garcia, et al.
M. Ralph, et al.
B. Ananthasubramaniam, et al.
A. Hill, et al.
K. Cervena, et al.
P-77 Carbachol modulates intergeniculate leaflet neuronal network of the rat K. Palus-Chramiec, et al.
P-93
P-97
P-94
P-95
P-96
A Mathematical Model of a Dopamine Regulated Circadian Oscillator
Cross-regulation of circadian rhythm and kidney damage
Modelling to investigate role of protein interactions and transcription in generating circadian rhythms
Circadian regulation of the RNA binding protein FXR1
Increased Plasma Melatonin in Presymptomatic Huntington Disease Sheep (Ovis aries): Compensatory Neuroprotection in a Neurodegenerative Disease?
A. Stinchcombe, et al.
C. Rey Serra, et al.
A. Koch, et al.
T. Silva, et al.
D. Skene, et al.
P-98
P-99
P-100
Quantifying zeitgeber strength in mice Ð the zeitgeber desynchrony (ZD) paradigm
Stromelysin 1 (MMP-3) immunodetection in the seminal vesicle of the Libyan jird (Meriones libycus) during the seasonal reproductive cycle and after orchiectomy
Sleep and activity phases change with age independently of state of industrialisation
I. Heyde, et al.
B. Mansouria, et al.
L. Pilz, et al.
P-101 Different cortical neurons are activated during waking and paradoxical sleep in contrast to neurons of the SCN: a study using TRAP method
R. Yamazaki, et al.
24
P-105
P-109
P-113
P-102
P-106
P-110
P-114
P-103
P-107
P-111
P-115
P-104
P-108
P-112
Diurnal variation of hunger in healthy older adults
A Robust Model for Circadian Redox Oscillations
Individual dynamics of circadian genes expression in participants of the International Circumpolar Flight
Daily and Estral regulation of RFRP neurons in mice
Inflammasome expression in the hippocampus under normal light conditions and circadian disruption
In vivo Cell Specific Characterization of AVP Neurons in the Mouse Suprachiasmatic Nucleus
Enhanced circadian responses to ÔyellowÕ rather than ÔblueÕ light.
Probing the genetic/epigenetic basis of inter-cellular circadian period variation in human-U2OS cells
Impact of daytime light intensity on the circadian rhythms in the diurnal rodent Rhabdomys pumilio
Spironolacton restore sleep architecture case report
Thyroid hormone regulation of anterior pituitary circadian clock : Consequences of hypothyroidism and hyperthyroidism
Melatonin modulates daytime-dependent synaptic plasticity and learning efficiency (Dick, Bechstein, Jilg, Saade, Tosini, Rami, Zemmar, Stehle)
Molecular characterization of photoperiod-dependent development of migratory capacity in Atlantic salmon
Roles of Ubiquitination of CRY protein by FBXL3 and FBXL21
C. Isherwood, et al.
M. Del Olmo, et al.
S. Gorokhova, et al.
E. Angelopoulou, et al.
S. Johann, et al.
A. Stowie, et al.
J. Mouland, et al.
L. Nikhil, et al.
B. Bano-Otalora, et al.
D. Cugy, et al.
P. Bargi De Souza, et al.
M. Dick, et al.
A. West, et al.
H. Yoshitane, et al.
P-116
P-124
P-120
P-117
P-121
P-118
P-122
P-119
P-123
The effect of vasopressin signal on the re-entrainment speed of circadian locomotor activity under jet lag
Inter- and intra-patient circadian variabilities in eight urinary modified nucleosides excretion in patients with metastatic colorectal cancer
A New Insight of Tooth Growing ~Ultradian Incremental Growth Lines in Mouse Molar Dentin ~
Placental clocks and their response to glucocorticoids
Timing effect of intake of inulin and inulin containing food/ vegetables on the continuous blood glucose level, fecal short chain fatty acids and microbiota in mice and humans
Regulation of NOGO-A: A possible link between daytime dependent memory formation and hippocampal clock gene expression
The effect of simulated night shifts on the circadian regulation of the human metabolome
Social jetlag is negatively associated with cardiac control during sleep
Chronotype and shift type modulate sleep duration during rotating shift work in police officers on patrol
Y. Yamaguchi, et al.
S. Dulong, et al.
R. Ono, et al.
V. Cecmanova, et al.
S. Shibata, et al.
F. Knop, et al.
L. Kervezee, et al.
A. Sudy, et al.
L. Kervezee, et al.
P-125 Effects of no-night light environment on gut physiology and microbiota of female zebra finches (Taeniopygia guttata)
I. Malik, et al.
25
P-128
P-132
P-136
P-129
P-133
P-137
P-130
P-134
P-138
P-127
P-131
P-135
Distinct Biological roles of Inducible cAMP Early Repressor ICER: a Circadian Aspect
High-latitude drosophilids do not maintain circadian behavioural rhythmicity under constant darkness
Glucose uptake and GLUT1 expression exhibit a circadian rhythm in the arcuate nucleus of the rat
Immunocytochemical demonstration of the TSH receptor (TSHR) in transfected NIH/3T3 cells, mediobasal hypothalamus and thyroid gland of C3H mice
Differential phase resetting of metabolic markers relative to central clock markers during simulated shift work
Period 1 inactivation alters behavioral and morphological phenotypes in C3H mice
The circadian casein kinase 1? tau mutation impacts on circadian phase and pulmonary inflammatory response in mice
Light during the day along with feeding during darkness is necessary to maintain metabolic health in rats
Chaperone-mediated autophagy regulates the circadian clock
Perinatal Light Imprinting Circadian Clocks and Systems (PLICCS) and Associations with Childhood Cancer: Preliminary findings from the I4C
Does a poorly-functioning circadian clock constitute a risk factor for (genetically determined) retinal disease?
Exposure to dim light at night can promote pro-inflammatory state in rats
T. Rezen, et al.
P. Menegazzi, et al.
G. Hurtado-Alvarado, et al.
K. Horst-Werner, et al.
L. Grant, et al.
E. Maronde, et al.
T. Gali Ramamoorthy, et al.
R. Mendez-Hernandez, et al.
Y.-R. Juste, et al.
P. Lewis, et al.
S. T. Gegnaw, et al.
M. Okuliarova, et al.
P-126 Temperature rhythm-driven in vitro and in vivo chronotolerance of a new anticancer osmium complex.
K. Abraham, et al.
P-139
P-143
P-140
P-144
P-141
P-142
Entrainment of Circadian System and Sleep to Extremely Long Photoperiods in Modern Life and Nature
Investigating night shift work and breast cancer risk within the Nightingale Study: first results and methodological considerations.
Replicative senescent human cells possess altered circadian clocks with a prolonged period and delayed peak-time
Altered light induced EGR1 gene expression in the SCN of PACAP deficient mice
Light-dark cycle phase shifts dampen peripheral clocks, but chronic dampening does not result in obesity or glucose intolerance
Circadian rhythm of glucagon-like peptide 2 immunoreactivity in the rat dorsomedial hypothalamus
J. Axelsson, et al.
B. Nina, et al.
R. Ahmed, et al.
J. Hannibal, et al.
V. Van der Vinne, et al.
A. Sanetra, et al.
P-147
P-145
P-146
The effect of timed food availability and intraspecific interaction on free-running period in golden spiny mice
Social jetlag and prostate cancer incidence in albertaõs tomorrow project: A prospective cohort study
Early chronotype associates with advanced activity rhythms and circadian phase in a small rural town in Brazil (the Baependi Heart Study cohort)
Y. Shtrool, et al.
L. Yang, et al.
F. Ruiz da Silva, et al.
26
P-151
P-155
P-159
P-152
P-156
P-160
P-153
P-157
P-161
P-150
P-154
P-158
The role of a light-receptive Cryptochrome in the circalunar clock of Platynereis dumerilii
Circadian misalignment and low light exposure are associated to depressive symptoms in rural communities (Quilombos) of southern Brazil
Relationships between Melatonin Suppression by Light and Circadian Rhythm in Children
Effect of exogenous melatonin on sleep quality and duration among permanent night workers
Two different photoreceptors are required for circalunidian timing of swarming onset in Platynereis dumerilii
Actigraphic sleep patterns among 2-year old children across diverse geographical locations
SCN entrains retinal circadian rhythm through an adrenal glucocorticoid
The effects of time-restricting eating on metabolic syndrome Ð A trial in the Swiss population (SwissChronoFood)
Long term behavioral observations on melatonin-proficient and melatonin-deficient mice under conditions of a natural abiotic entrainment
The thyroid clock is sustained in VPAC2 receptor knockout mice
Average chronotype of countries in the Greenwich time zone in winter and summer
RFRP3 increases food intake in a sex dependent manner in the seasonal phodopus sungorus
B. Poehn, et al.
L. Pilz, et al.
S. Higuchi, et al.
P. Pellegrino, et al.
M. Zurl, et al.
K. Wulff, et al.
K. Ikegami, et al.
T.-H. Collet, et al.
H.-W. Korf, et al.
B. Georg, et al.
C. Reis, et al.
F. Cazarez Marquez, et al.
P-148
P-149
TBA
Optimizing circadian phase prediction using individual differences in light sensitivity
TBA
J. Stone, et al.
P-162
P-166
P-163
P-167
P-164
P-168
P-165
Sex-dependent expression of clock and clock associated genes in cancer and adjacent tissues of patients with colorectal cancer.
Circadian control of brown adipose tissue activity by the HPA-axis
Obstructive Sleep Apnea impacts on biological clocks
IMPACT OF ZINC AND CADMIUM ON THE LOCOMOTOR RHYTHM ACTIVITY OF Armadillo officinalis(DumŽril, 1816)
Intercellular coupling between peripheral circadian oscillators.
Early-evening light mitigates the sleep-disruptive effects of late-evening light exposure
Metabolic syndrome due to conflicts between light and food: a story of twisted clocks
I. Herichova, et al.
S. Kooijman, et al.
A. R. Alvaro, et al.
A. Ben Said, et al.
A.-M. Finger, et al.
L. Schlangen, et al.
A. Woller, et al.
P-170
P-171
P-172
P-169
Analyzing a noisy activity data shown in an actogram using the cycle-by-cycle adaptation of the Hierarchical Factor Segmentation method
Circadian rhythms in Salmon: Take it with a pinch of salt
Diurnal variations of the brainÕs intrinsic motor network in circadian phenotypes predicts motor performance
Chronoleadership Ð application of the findings from chronobiology in organisations in 17 countries.
K. Sakura, et al.
S. Wood, et al.
E. Facer-Childs, et al.
C. Kring, et al.
P-173 A circadian gated spinal inflammatory reflex. R. Buijs, et al.
27
P-178
P-187
P-182
P-191
P-175
P-179
P-188
P-183
P-192
P-176
P-185
P-180
P-189
P-184
P-193
P-177
P-186
P-181
P-190
Chromatin state rhythms in mammalian circadian clock establishment and function.
Ambulatory circadian monitoring for chronotype assessment
Circadian rhythmicity of visual discomfort in humans: neurobiological and photobiological correlates
The Forebrain Synaptic Transcriptome is Organized by Clocks but its Proteome is Driven by Sleep
Sleep deprivation in pregnant Wistar rats causes methylation of circadian genes in hypothalamus of the offspring
Consequences of chronodisruption relates to genetic background of rats
Time for a drink? Novel oscillator properties in the thirst centres of the brain
Interaction between circadian clock, melatonin and apoptosis in rat white retroperitoneal adipose tissue
Colorimetry and Circadian effects: review on models and methodology to combine them
Bumblebee workers give up sleep to tend brood that is not their own offspring
Escaping Circadian Regulation: An Emerging Hallmark of Cancer
The class 3 PI3K controls the circadian clock function
Electrochromic dynamic filters: a new window for reducing chronodisruptive effects of blue light at night.
Living without temporal cues: A case study
A highly selective filter of circadian light improves sleep quality and limits the melatonin suppression induced by light at night
Body temperature regulated alternative splicing triggering NMD controls rhythmic gene expression
Determining light intensity, timing and type of visible and circadian light from an ambulatory circadian monitoring device.
Evolution of objective wakefulness and sleep pressure buildup during controlled extended wakefulness in sleepy adult ADHD patients
Circadian Clock Disruption Promotes Cardiac Cell death During Hypoxic Injury
K. Padmanabhan, et al.
M.-A. Bonmati-Carrion, et al.
I. Daguet, et al.
S. B. Noya, et al.
D. Ehichioya, et al.
M. Zeman, et al.
R. Northeast, et al.
T. Costa, et al.
T. Merelle, et al.
G. Bloch, et al.
A. Relogio, et al.
G. Panasyuk, et al.
M.-A. Bonmati-Carrion, et al.
M.-A. Bonmati-Carrion, et al.
C. Barrau, et al.
F. Heyd, et al.
M.-A. Bonmati-Carrion, et al.
J. Taillard, et al.
L. Kirshenbaum, et al.
P-174 Individual variability in sleep and circadian patterns amongst elite Australian Football League (AFL) athletes
E. Facer-Childs, et al.
FLOOR PLAN
Amphi 2
Amphi 4
Amphi 1
Amphi 3
BATIMENT A - FIRST FLOOR
BATIMENT A - GROUND FLOOR
BATIMENT B - GROUND FLOOR
MAIN ENTRANCE CONGRESS(rue Guillaume Paradin)
ENTRANCEBATIMENT A
SECONDARY ENTRANCEBATIMENT A
ENTRANCEBATIMENT B
GROUND FLOOR
MAIN ENTRANCEBATIMENT B
LG 001
LG 002
ESCALIER D
ESCALIER F
ESCALIER C
ESCALIER GESCALIER A
SALLE DU CONSEIL
ESCALIER B
Welcome desk and Registration
Exhibition space
Posters