introduction to computationa neuroscience neural coding€¦ · introduction to computationa...
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![Page 1: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/1.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Neuroinformatics and Theoretical Neuroscience
Institute of Biology – Neurobiology
Bernstein Center for
Computational Neuroscience
Teaching Week Computational Neuroscience @ Mind and Brain School
Martin Nawrot
Oct 12, 2011
Introduction to Computationa Neuroscience
Neural Coding
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Time table
Exercises: Computer Pool, Room 224
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
XX
• Course layout: time table | exercises & rooms | link for download
• Braitenberg ?
• AG: who we are, what we do
• Kursangebot: modelling / data analysis / reading seminars
• Abstraction versus detail
• Single neuron models: levels of abstraction: Herz et al.
Biology | Biophysics | Bioinformatics | Computational Biology Computational Neuroscience | Computer Science | Econometrics
Engineering | Information Technology | Physics | Mathematics
Our Team
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Outline
Introduction
Spatial and Temporal Scales of Brain Signals
Neural Coding
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Introduction
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Experiment
Modeling
Data Analysis
Hypothesis
Applications
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Experiment
Modeling
Data Analysis
Hypothesis
Applications
Statistics of Animal Behavior Spike Train Statistics
Machine Learning Linear Systems Analysis
Dynamical Systems Analysis GLM
Point Process Theory Dynamical System Theory
Machine Learning Spiking Neural Networks
Electrophysiology Imaging Data
Behavioral Experiments (Insects and Primates)
Cortical Slice Recordings
Neuromorphic Harware Neuromorphic Robots
Experimental Design Model Design
Grant Proposals
![Page 8: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/8.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Experiment
Modeling
Data Analysis
Hypothesis
Applications
Statistics of Animal Behavior Spike Train Statistics
Machine Learning Linear Systems Analysis
Dynamical Systems Analysis GLM
Point Process Theory Dynamical System Theory
Machine Learning Spiking Neural Networks
Electrophysiology Imaging Data
Behavioral Experiments (Insects and Primates)
Cortical Slice Recordings
Neuromorphic Harware Neuromorphic Robots
Experimental Design Model Design
Grant Proposals
![Page 9: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/9.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Models in computational neuroscience …
functional model
stochastic model
connectionist model
neural network model
phenomenological model biophysical model
abstract model
mathematical model
computational model
statistical model Artificial Neural Network
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
top
– do
wn
bo
tto
m –
up
me
ch
an
isti
c
co
gn
itiv
e
BEHAVIOR and COGNITION
MOLECULES
approaches experiments models
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Spatial and Temporal Scales of Brain Signals
• Measurement techniques
• Neural output: spike train recordings
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Spatial Scales
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Resolution in Space and Time
(adapted from Matt Fellows)
PET
20μm
Vm
intracellular
Ca-imaging NIRS
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
top
– do
wn
bo
tto
m –
up
me
ch
an
isti
c
co
gn
itiv
e
BEHAVIOR and COGNITION
MOLECULES
approaches experiments models
EEG / MEG fMRI PET NIRS
behavioral (psychophysics, language, …)
spike train recordings intracellular measurements
Ca imaging
local field potentials multi-unit-activity
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Direct vs. Indirect Measures of Neuronal Signals
20μm
electrophysiology imaging
direct measurement of neuronal signals visualization of single neuron activity
intracellular recording from
- single neurons / dendrites
extracellular recording of
- action potentials (SUA/MUA) and
- local field potential (LFP, indirect)
electrocorticography (ECoG)
- epicortical field potentials
electroencephalography (EEG)
magnetoencephalography (MEG)
optical imaging with
voltage sensitive dyes
functional magnetic
resonance imaging (fMRI)
positron emission tomography (PET)
measurement of electric mass signals
optical imaging of
intracellular Ca activity
- in vitro / in vivo
- 2D / 3D
visualization of average activity
imaging pics from:
Stosiek03
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Intracellular recording
© Clemens Boucsein
‘Spike Train’
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
© C
lem
ens B
oucsein
, U
niv
ers
ität F
reib
urg
INPU
T
OU
TPU
T
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
► metal | silicon | glas electrodes
► spike output activity
► in vitro | in vivo
culture in vitro
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
Valentino Braitenberg & Almut Schüz
Cortex: Statistics and Geometry of Neuronal Connectivity
Springer, Berlin, 1998 (Second Edition)
Cortex
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
The Mouse Cortex Cortex
Valentino Braitenberg & Almut Schüz
Cortex: Statistics and Geometry of Neuronal Connectivity
Springer, Berlin, 1998 (Second Edition)
Undersampling !
spikes field potential
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
State of the art : 100 channels in parallel (Utah Array)
Positioning the array Pneumatic insertion recordings
Thomas Brochier, Alexa Riehle, CNRS, Marseille.
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
State of the art : 100 channels in parallel (Utah Array)
Monkey L
RH
Thomas Brochier, Alexa Riehle, CNRS, Marseille.
![Page 24: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/24.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording: spikes
Extrazelluläre Aufnahmen im somatosensorischen Kortex der Ratte. Spontanaktivität unter Anästhesie.
Data Curtsey: Clemens Boucsein und Dymphie Suchanek, Neurobiologie & Biophysik, Universität Freiburg
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording: spikes
Extrazelluläre Aufnahmen im somatosensorischen Kortex der Ratte. Spontanaktivität unter Anästhesie.
Data Curtsey: Clemens Boucsein und Dymphie Suchanek, Neurobiologie & Biophysik, Universität Freiburg
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording: spike train
‘Spike Train’
Extrazelluläre Aufnahmen im somatosensorischen Kortex der Ratte. Spontanaktivität unter Anästhesie.
Data Curtsey: Clemens Boucsein und Dymphie Suchanek, Neurobiologie & Biophysik, Universität Freiburg
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording: spike sorting
100
0
-100
-200
-300
µV
A_D1
_-70
18
1050 1060 1070 1080 1090 1100s
Spike Templates
Principle Components
Time (s)
X G X
-71.61
200
0
-200
µV
A_D
1_-7
018
11
200
0
-200
µV
D_2
12
200
0
-200
µV
D_3
13
Events3
254 255 256 257 258 259 260s
02 01100
0
-100
-200
µV
A_D
1_-7
0
18
11
258.20 258.22 258.24s
Voltage (
µV
)
Extrazelluläre Aufnahmen von α-extrinsischen Neuronen im Bienengehirn. Antwort auf Duftreiz.
Data Curtsey: Dr. Martin Strube, Neurobiologie, Freie Universität Berlin
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Extracellular recording: spike sorting
Estimated number of spike sorting errors :
[1] [2]
false positive rate : 13% ~10%
false negative rate: 9% ~10%
[1] Joshua, Elias, Levine, Bergman (2007) J Neurosci Meth doi: jneumeth.2007.03.012
[2] Pouzat, Delescluse, Viot, Diebolt (2004) J Neurophysiol 91
single unit activity ≠ single neuron activity
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Neural output: spike train
10100001000100000000001010010100000100010100000000001
binary representation
(array)
discrete representation
(list)
t1 t2 tn
‘ spike train ‘
discrete time series of events
![Page 31: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/31.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
• Rate Code vs. Temporal Code
Neural Coding I
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate Code vs. Temporal Code
© S. Reichinnek & C. Boucsein
Rate Code
concept: information encoded in
neuronal firing rate
population code permits encoding of
precise information
redundancy in large populations permits
fast transmission
neuron acts as ‘Integrator’
Temporal Code
concept: information encoded in
temporally precise spike times and spike
patterns across neurons
fast information transmission through
coincident spiking in neuronal assemblies
encoding with few action potentials
(sparse code) explores large coding space
neuron acts as coincidence detector
Contra:
- little conclusive evidence
- single action potentials and coincident
events vanish in the variable ongoing
network activity
![Page 33: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/33.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate code: concept and stimulus tuning
Hubel and Wiesel (1968) J Physiol 195: 215-43
T
• spike count N in tim interval T
• rate r = N/T
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate code: Time-varying rate estimate
Single unit activity from primary motor cortex of the monkey during repeated reaching movement
Data Curtsey: Alexa Riehle, CNRS, Marseille
![Page 35: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/35.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate Code vs. Temporal Code
© S. Reichinnek & C. Boucsein
Rate Code
concept: information encoded in
neuronal firing rate
population code permits encoding of
precise information
redundancy in large populations permits
fast transmission
neuron acts as ‘Integrator’
Contra:
- rate coding requires integration time (it is
slow)
- large numbers of action potentials
consume a large amount of energy
- combinatorial explosion in large coding
space (grand mother cells)
Temporal Code
concept: information encoded in
temporally precise spike times and spike
patterns across neurons
fast information transmission through
coincident spiking in neuronal assemblies
encoding with few action potentials
(sparse code) explores large coding space
neuron acts as coincidence detector
Contra:
- little conclusive evidence
- single action potentials and coincident
events vanish in the variable ongoing
network activity
![Page 36: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/36.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate Code vs. Temporal Code
© S. Reichinnek & C. Boucsein
Rate Code
concept: information encoded in
neuronal firing rate
population code permits encoding of
precise information
redundancy in large populations permits
fast transmission
neuron acts as ‘Integrator’
Contra:
- rate coding requires integration time (it is
slow)
- large numbers of action potentials
consume a large amount of energy
- combinatorial explosion in large coding
space (grand mother cells)
Temporal Code
concept: information encoded in
temporally precise spike times and spike
patterns across neurons
fast information transmission through
coincident spiking in neuronal assemblies
encoding with few action potentials
(sparse code) explores large coding space
neuron acts as coincidence detector
![Page 37: Introduction to Computationa Neuroscience Neural Coding€¦ · Introduction to Computationa Neuroscience Neural Coding . Teaching Week Computational Neuroscience | Mind and Brain](https://reader030.vdocuments.mx/reader030/viewer/2022041119/5f326a38f43ad96605074cb3/html5/thumbnails/37.jpg)
Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: experimental evidence I
Gollisch and Meister (2008) Science 319
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: experimental evidence I
Gollisch and Meister (2008) Science 319
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: experimental evidence II
single unit recorded in the auditory nerve of the cat
Aertsen, Smolders & Johannesma (1979) Biol. Cyber. 32, 175-185
cross-correlogram of trials 1 + 2
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: experimental evidence III
Riehle, Grün, Diesmann, Aertsen (1997) Science 278, 1950-53
significant coincident spiking in motor cortical units related to expectation
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: neuron acts as coincidence detector
Inp
ut L
ine
s
Ou
tpu
t L
ine
► coincident excitatory synaptic inputs are
translated into a single spike output
input
output
Burkitt (2006) Biol. Cyber. 95
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: ‚synfire chain model‘
Kumar, Rotter, Aertsen (2010) Nat Rev Neurosci
a) Hebb 1949
b) James 1890
c) Abeles 1991
d) Diesmann 1999
f) Griffith 1963
M Nawrot ▪ FU Berlin ▪ SFA in the insect olfactory pathway
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: ‚synfire chain model‘
Curtsey: Sonja Grün
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: ‚synfire chain model‘
Pulspaket Eingang
pulse packett:
a = number of presynaptivc spikes
σ = temporal dispersion of spikes
.
Diesmann et al. (1999) Nature 402: 529-532
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal code: ‚synfire chain model‘
Diesmann et al. (1999) Nature 402: 529-532
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Temporal Code: are neurons precise enough ?
Boucsein et al. (2011) Frontiers in Neuroscience 5:32
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal Code: are neurons precise enough ?
Nawrot et al. (2009) Frontiers in Neural Circuits 3:1
► high reliability of synaptic transmission(> 90%)
► high temporal precision across trials (jitter < 1ms)
► modest amplitude variability (CV ~ 0.25)
t
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal Code: are neurons precise enough ?
Nawrot et al. (2009) Frontiers in Neural Circuits 3:1
► dendritic generation is temporally precise and reliable
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Mainen & Seijnowski (1995) Science 268
► spike generation is temporally precise and reliable
Temporal Code: are neurons precise enough ?
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Temporal Code: are neurons precise enough ?
Susanne Reichinnek (2007) Diplomarbeit
σ = 1ms
σ = 11ms
a = 40 a = 10
ou
tpu
t s
pik
e d
en
sit
y
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Rate Code vs. Temporal Code
© S. Reichinnek & C. Boucsein
Rate Code
concept: information encoded in
neuronal firing rate
population code permits encoding of
precise information
redundancy in large populations permits
fast transmission
neuron acts as ‘Integrator’
Contra:
- rate coding requires integration time (it is
slow)
- large numbers of action potentials
consume a large amount of energy
- combinatorial explosion in large coding
space (grand mother cells)
Temporal Code
concept: information encoded in
temporally precise spike times and spike
patterns across neurons
fast information transmission through
coincident spiking in neuronal assemblies
encoding with few action potentials
(sparse code) explores large coding space
neuron acts as coincidence detector
Contra:
- little conclusive evidence
- single action potentials and coincident
events vanish in the variable ongoing
network activity
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
• Encoding – Recoding – Decoding
Neural Coding II
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Olfactory system of the honeybee (insect)
30µm
Krofczik, Menzel & Nawrot (2008) Frontiers Comp Neurosci 2 Galizia & Rössler (2009) Annu. Rev. Entomol. 55
T2 03
T1 22
LN
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Olfactory pathway in the honeybee (insect)
1st order
Receptor
Neurons
~ 60.000 ORNs
2nd order
Projection
Neurons
~ 950 PNs
3rd order
Kenyon
Cells
~ 160.000 KCs
4th order
Extrinsic
Neurons
~ 400 ENs
INPUT OUTPUT
x 100 / 100
PLASTICITY
Antenna Antennal Lobe (AL) Mushroom Body (MB)
M Nawrot ▪ INRA ▪ Feb 03, 2011
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Encoding of odors in the antennal lobe
1st order
Receptor
Neurons
~ 60.000 ORNs
2nd order
Projection
Neurons
~ 950 PNs
3rd order
Kenyon
Cells
~ 160.000 KCs
4th order
Extrinsic
Neurons
~ 400 ENs
Antenna Antennal Lobe (AL) Mushroom Body (MB)
INPUT OUTPUT
M Nawrot ▪ INRA ▪ Feb 03, 2011
Krofczik, Menzel & Nawrot (2009) Frontiers in Computational Neuroscience 2
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Krofczik, Menzel & Nawrot (2009) Frontiers Comp Neurosci 2
► Intracellular recordings from projection
► Reliable and stereotypic rate responses
M Nawrot ▪ INRA ▪ Feb 03, 2011
Encoding of odors in the antennal lobe : rate code
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Encoding of odors in the antennal lobe : rate code
► >50% of PNs activated by single odor (broad odor tuning)
M Nawrot ▪ INRA ▪ Feb 03, 2011
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Encoding of odors in the antennal lobe : rate code
► >50% of PNs activated by single odor (broad odor tuning)
► odor specific binary activation pattern (combinatorial code)
M Nawrot ▪ INRA ▪ Feb 03, 2011
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Encoding of odors in the antennal lobe : rate code
Krofczik, Menzel & Nawrot (2009) Frontiers Comp Neurosci 2
► >50% of PNs activated by single odor (broad odor tuning)
► odor specific binary activation pattern (combinatorial code)
► rapid odor encoding within tens of milliseconds
M Nawrot ▪ INRA ▪ Feb 03, 2011
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Encoding of odors in the antennal lobe : glomerular space
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Recoding in the mushroom body
1st order
Receptor
Neurons
~ 40.000 ORNs
2nd order
Projection
Neurons
~ 950 PNs
3rd order
Kenyon
Cells
~ 160.000 KCs
4th order
Extrinsic
Neurons
~ 400 ENs
Antenna Antennal Lobe (AL) Mushroom Body (MB)
INPUT OUTPUT
M Nawrot ▪ INRA ▪ Feb 03, 2011
Strube-Bloss, Nawrot & Menzel (2011) J Neurosci 31
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Classical conditioning: experimental paradigm
Acquisition
POST PRE
5 odors 10 trials
random order
5 odors 10 trials
random order
CS US
Experiments by Martin Strube-Bloss in the lab of Randolf Menzel
20 min 3h
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Classical conditioning: experimental paradigm
Strube-Bloss, Nawrot & Menzel (2011) J Neurosci 31
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Classical conditioning : behavioral performance (group)
* Trial 5 G=7.2; p<0.01;
df=1; Trial 10 G=10.5;
p<0.01; df=1
* Trial 1 G=5.37; p<0.05;
df=1]; trial 6 [G=8.79;
p<0.05; df=1
Acquisition [N=36]
trial
1 2 3 4 5 6 7 8 9 10
% m
17
ac
tiv
ity
0
10
20
30
40
50
60
CS+
CS-
**
PostAcquisition_Test [N=17]
trial #
1 2 3 4 5 6 7 8 9 10
%m
17
ac
tiv
ity
0
20
40
60
80
100CS+
CS-
Ctr_A
Ctr_B
Ctr_C
* *
► Bees learn odor-reward association under experimental conditions
Strube-Bloss, Nawrot & Menzel (2011) J Neurosci 31
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Single unit recording at mushroom body output
Strube-Bloss, Nawrot & Menzel (2011) J Neurosci 31
INPUT OUTPUT x 100 / 100
PLASTICITY
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Odor VALUE coding at mushroom body output
M Nawrot ▪ FU Berlin ▪ SFA in the insect olfactory pathway
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Odor VALUE coding at mushroom body output
M Nawrot ▪ FU Berlin ▪ SFA in the insect olfactory pathway
► Reward prediction after ~ 140ms
Re-Coding : Odor IDENTIY (AL) Odor VALUE (MB)
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
Neural performance correlates with behavioral performance
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Teaching Week Computational Neuroscience | Mind and Brain | M Nawrot
FIN