Biological dynamics  Dynamics = how systems change/evolve with time  Why are dynamics important to biological systems?  Temporal behavior of proteins,

Slides:



Advertisements
Similar presentations
Biological Rhythms & Sleep
Advertisements

Biology 2672a Biological Clocks. Biological Rhythms.
Chapter 9 Consciousness. Mind and Consciousness in the History of Psychology William James - "stream of consciousness” Sigmund Freud - unconscious mind.
By Dr. Nathaniel J. Kingsbury Friday, October 24, 2014, 10:00 a.m. Southwick Hall, Room 401.
Biological Rhythms. Biological Rhythms – terms and characteristics Rate of activity Time Amplitude – magnitude of change in the activity Period – time.
The Science of Sleep Tina Locke.
Circadian rhythms Basic Neuroscience NBL 120 (2008)
MCB 186 CIRCADIAN BIOLOGY Week 2 Entrainment by light and the Phase Response Curve (PRC) September 26, 2007 J. W. Hastings.
MCB 186 CIRCADIAN BIOLOGY Slides Lecture 2 Basic Properties of Circadian Clocks September 27, 2006 J. W. Hastings.
Many biological processes involved in growth, reproduction and dynamic homeostasis include temporal regulation and coordination. 2E.
Biological Clocks, Oscillators, Rhythms… Just generally, Time. or, Of Zeitgebers, Pronking, frq, tim, per, clk, Leeches, …and Other Fun Words.
Circadian Rhythms: Lecture 5 The Plot Thickens....
CLOCKS. Clocks: What is a clock? How does a biological clock compare with a mechanical clock? Why have a circadian clock? What are the properties of circadian.
Biological clocks Clock periods Clock mechanisms Circannual
Biological clocks Clock periods –Circannual –Circalunidian –Circadian Clock mechanisms –Entrainment –Neural location –Genetic basis.
The sun; SOHO's EIT (Extreme-Ultraviolet Imaging Telescope)
TIMING RESPONSES Continued…. COMPOUND RHYTHMS  The environment changes most on a shoreline because the cycle of day and night occurs as well as the tidal.
Disrupting Circadian rhythms Jet Lag and Shift Lag Aims To know the symptoms of Jet Lag To understand the effects of jet lag upon biological rhythms To.
Disrupting Biological Rhythms. Write down all you know about the disruption of biological rhythms.
Neurobiology of Circadian Rhythms Daniel J. Buysse, M.D. Professor of Psychiatry University of Pittsburgh School of Medicine Pittsburgh.
ID (Cognition) Term Presentation, Fall’13 Sandipan Dasgupta,10-MS-12 4 th Year UG, Department of Biological Sciences.
Biological Rhythms: Circadian rhythms Aims To know the biological clock in control of the Circadian Rhythm To understand the difference between Endogeous.
CIRCADIAN RHYTHMS
Individual differences To know how individual differences influence Circadian research To understand the role of genes in circadian phase disorders To.
Nonlinear Dynamics and Chaos in Biological Systems ABE 591W, BME595U, IDE 495C Prof Jenna Rickus Dept. of Agricultural and Biological Engineering Dept.
Body Rhythms and Mental States
1 Chapter 11 Sleep and Waking Digital Vision/Getty Images.
Lecture 5: Chemical Clocks
Circadian Rhythms Circa: from the Latin for “about” and Diem: From the Latin for “day”
Chapter 12: Wakefulness and Sleep. Endogenous Cycles 1. Many animals have a circannual rhythm 2. Most animals, including humans have a circadian rhythm.
BIOLOGICAL RHYTHMS Neuroendocrine control: homeostatic responses and biological rhythms. A role for anticipation or feed-forward mechanisms or scheduled.
Topic 12 – Rhythms, Stress, and Associated Hormones.
Biological Rhythms Animals. Definitions Biological clock is an internal timing system which continues without external time clues, and controls the time.
Module 12 Sleep and Dreams Chapter 3, Pages Essentials of Understanding Psychology- Sixth Edition PSY110 Psychology © Richard Goldman October.
Chapter 5: Consciousness Body Rhythms & Mental States.
Tidal rhythms (periods ~ 12.4 hours) fiddler crab foraging.
Circadian Rhythms 안용열 ( 물리학과 ). Index Intro - What is the circadian rhythm? Mechanism in reality How can we understand it?  Nonlinear dynamics –Limit.
Night sleep Night sleep Scientific facts By Prof. Afaf El-Ansary.
Consciousness Body Rhythms Pages Consciousness: Body rhythms and mental states chapter 5.
Unit 4Bio Rhthyms1 Physiological Psychology Biological Rhythms.
ALTERED STATES OF AWARENESS
Pathways between Genes and Behaviour. Functional Genomics Understanding the pathways between genes and behaviours (i.e., mechanisms of genes affecting.
Pineal Gland Ripple Ireland. Where is it located?  Between two hemispheres of brain  Tucked into groove where two rounded thalamic bodies join  Dorsal.
Extra Credit Due 5 pm, February 26 Exam Questions need to be: Multiple choice (a-e) Factually correct (no conceptual errors) Test understanding (how things.
Taking Neuroscience into the classroom Community Connection.
 Organisms need a method of sleeping and waking in constant conditions.  Need to be able to predict timing of events like migration and hibernation.
By RAJA SITI MARDHIAH RAJA AZMI & AFIF NUHAA JUWAHIR.
I Just Want To Sleep! Understanding Circadian Rhythm By: Sumayia Hussain Sabantu Yusuf Selam Kidane.
Responses of organisms to abiotic factors (This is an overview. Later we will go into more details with examples of plants and animals)
Chronobiology C hrono=time biology = science of life Chronobiology is a field of science that examines periodic (cyclic) phenomena in living organisms.
Intro to Biological rhythms and Sleep (PSYA3). Objectives Describe 3 types of Biological Rhythms and give examples. Explain how Endogenous pacemakers.
1 Introduction & Handout Name, office, e mail Office hours: Mon 1-3 pm, Wed 1-3 pm, Thur 1-3 pm Text books (lecture & lab) Class schedule omitted: much.
States of Consciousness. Consciousness – the awareness of ourselves and our environment – Ex: Altered States – unaware of ourselves and our environment.
Biological Rhythms and Sleep (unit 3) Specification 1.Biological Rhythms- Circadian, Infradian and Ultradian and disruption of rhythms 1.Sleep- Stages,
Tuesday/Easter homework Look on: psych205>teacherspage>elle>homework.
TIMING RESPONSES Continued…. COMPOUND RHYTHMS  The environment changes most on a shoreline because the cycle of day and night occurs as well as the tidal.
Biological Rhythms Repeated rhythms in animals which control the body or behaviour and synchronise the organism with the environment.
Unit V: States of Consciousness Module 23-Sleep Patterns & Sleep Theories AP Psychology.
By: Jeffery Jarmusik and Andrew McCurrach
Humans AND THE DISRUPTION OF CIRCADIAN RHYTHM.
Unit V: States of Consciousness Modules 22 & 23-Consciousness, Hypnosis, Sleep Patterns & Sleep Theories AP Psychology.
Circadian, Ultradian and Infradian
Bedmaking and Unit Care
Neuronal Control of Behavior
Instructions To use this template:
Biological Rhythms These are patterns of activity in animals and plants Circadian (24 hours) Infradian (more than 24 hours) Ultradian (less than 24 hours)
While You were Sleeping…
Melatonin and Sleep.
The Network of Time: Understanding the Molecular Circadian System
Ez and EP recap.
Presentation transcript:

biological dynamics  Dynamics = how systems change/evolve with time  Why are dynamics important to biological systems?  Temporal behavior of proteins, cells, organisms  metabolism, cell growth, development, protein production, aging, death, species evolution … all are time dependant processes  Inherent complexity in biological systems both in time and space  temporal patterns are related to structural ones

traditional biological framework  tend to think in terms of single point equilibrium processes  a stable and constant steady state time ---->

biological dynamics can be complex  as time goes to infinity … response doesn’t have to go to a single constant value could for example have oscillations that would go on forever unless perturbed time ---> can even have aperiodic behavior that goes on forever but never repeats (chaotic)!

Oscillations / Rhythms Occur in Nature At all time scales Predator Prey Population Cycles (years) Circadian Rhythms (24 hours)  sleep wake cycles Biochemical Oscillations (1 – 20 min)  metabolites oscillate Cardiac Rhythms (1 s) Neuronal Oscillations (ms – s) Hormonal Oscillations (10 min - 24 hour) Communication in Animal and Cell Populations  fireflies can synchronize their flashing  bacteria can synchronize in a population

Biological Clocks  Why do you think that you sleep at night and are awake during the day? External or Internal Cues?  What do you think would happen if you were in a cave, in complete darkness?  If you were in a cave.. Could you track the days you were there by the number of times you fell asleep and woke up? i.e. 1 wake – sleep = 1 day = 24 hours?

 Humans w/o Input or External Cues diurnal (active at day constant darkness  ~25 hour clock (>24 hours) wake up about 1 hour later each day constant light shortens the period  Rodents nocturnal (active at night) constant darkness  ~23 hour clock period (<24 hours) wake up a little earlier each day constant light lengthens the period Internal Clock Day time of day

Circadian Rhythms Everywhere!  actually more rare for a biological factor to not change through-out the 24 hour day  temperature  cognition  learning  memory  motor performance  perception all cycle through-out the day

The Circadian Clock  1. Period of ~24 hours  2. synchronized by the environment  3. temperature independent  4. self-sustained (--- therefore inherent) Defined By:

Clock Definitions  Period ( T )– time for the rhythm to repeat T

Clock Definitions - Phase Shifts  Phase Advance Phase Delay Period (T) remains the same External cues can shift the phase

Basis of the Clock?  Self-sustained rhythm  Inherent Period must be some inherent mechanism cells … proteins … genes??  Light Dark Pattern modulates the Phase “sets” the clock (and period slightly) What is the cellular mechanism? How does light interact?

Entrainment  Entrainment: Causing a gradual phase shift so that the oscillation becomes synchronized with the entraining rhythm or signal  Zeitgeber: entrainment signal German for “time” “giver”  Light Zeitgeber”: Sleep / Wake Circadian Rhythm entrains primarily to light  You know this phase shift - adjust to traveling overseas Direction and time of day you fly makes a difference light therapy strategies for jet lag

Zeitgeber All light inputs in mammals come in through the photosystem

Genes?  Drosophila (fruit flies) convenient for genetics mutation – behavior genetic screens  Screened for flies with altered circadian rhythms some too short some too long some arrhythmic (no repeating pattern at all)  What genes are mutated?

Seymour Benzer Purdue Physicist. PhD from Purdue in 1947 Important role in the invention of the transistor Cal Tech. became interested in genes and behavior highly original experiments 1.mutating drosophila 2.Sort for specific behavior changes or deficits 3.Search for the underlying gene mutation became the father of neurogenetics Discovered genes underlying circadian rhythms

Time, Love & Memory By Jonathan Weiner

Genes Involved?  one of them period (per) * found point mutations in period some delayed, some advanced, some arrhythmic found that Period (PER) levels oscillates in single cells with period of 24 hours! Clocks in single cells?? Are the oscillations inherent to Period? Or does another gene / protein interact to create the oscillations?

Mathematical Model  Based on biochemical, cellular, and gene data  Can Period support its own oscillations? hypothesis: negative feedback knew this existed from experimental data question?: can this system alone oscillate? answered this with modeling yes

Feedback Mechanism make mRNA make protein mRNA transport into cytosol protein phosphorylation (2Xs) phosphorylated protein travels into nucleus phosphorylated protein inhibits mRNA production This model can in fact support 24 hours oscillation of Per protein levels But no mechanism for entrainment!! How does light interact? Model … incomplete??? Goldbeter NATURE VOL NOVEMBER 2002

Other genes?  timeless (tim) timeless mutations were arhythmic Timeless affected Period  Per location  Per level  Per protein oscillations  Per phosphorylation How does Period and Timeless interact? How does light interact?

Drosophila PER TIM Model fully phosphorylated PER and TIM form a complex that inhibits expression of both Ahhh!! Light induces TIM degradation Can this model simulate the experimental observations of effects of light? Answer … most of them!! … but still a few things missing … other genes etc. Leloup & Goldbeter, J. theor. Biol. (1999) 198, 445–459 Goldbeter NATURE VOL NOVEMBER 2002

Leloup & Goldbeter, J. theor. Biol. (1999) 198, 445–459

example of simulation output protein oscillations mRNA oscillations PER TIM complex oscillations Leloup & Goldbeter, J. theor. Biol. (1999) 198, 445–459

Entrainment Light Destroys TIM When tim RNA is high … it delays the clock (phase delay) Because mRNA is ready to quickly replace the destroyed TIM When tim RNA is low … it advances the clock (phase advance) Because mRNA is not ready to quickly replace the destoyed TIM So effect of light depends on the tim mRNA levels protein oscillations mRNA oscillations PER TIM complex oscillations

More complete known Per / Tim Feedback Loop in Drosophila

Humans - Free Running Clock (FRP)  Actually variation in FRPs in humans  Can be longer or shorter than 24 hrs  Entrainment depends on the FRP of the clock and the light cycle  People who like to go to bed early and get up early often have FRP <24 and vice versa

Suprachiasmatic Nucleus (SCN) Wang et al. BMC Developmental Biology :9 A symmetric pair of nuclei In the hypothalamus Just behind the nose Near the crossing of the optic nerves Is the “master circadian clock” in the brains of humans

Circadian rhythm of firing activity of SCN neurons

Dissociated neurons, however, are not in phase

Block the cells for days And the firing rhythm emerges again with the same phase The circadian rhythm firing is an inherent property of individual neurons

Clock Genes Vs. Clock Controlled Genes Clock genes Clock controlled genes Such as: Temperature Blood pressure Cognitive Hormones

Output Rhythms Secondary Oscillations in Body Isolated organs and cell from other part of body also display circadian oscillations in gene expression Phased slightly later than the SCN “pacemaker” Will generally dampen out (not sustain) after isolation Physiological Outputs Blood pressure (lowest just after midnight) Cognitive Performance (best in mid afternoon) Hormones Cortisol (highest in morning) Melatonin (highest at night)

Clock Phathologies  A type of dynamic disorder  Appears to live 25 hour day on average despite light dark cues  Not properly entrained  Has a weak zeitgeber response  Man suffers from severe depression

Human Pathologies  Advanced Sleep Phase Syndrome  Delayed Sleep Phase Syndrome  Light Entrainment Impacts some blind individuals