Title: Multidimensional NMR
1Multidimensional NMR
1D Experiment
90o pulse
Time (t)
FT
Frequency (w)
2D Experiment
90ox pulse
90oy pulse
w1
Time (t2)
FT
Time (t1)
w2
2A 2D NMR Experiment
90oy pulse
90ox pulse
Time (t2)
Time (t1)
Mixing
Preparation
Evolution
Acquisition
3Bo
B1 Preparation
z
x
? w1t1
w1 Evolution
y
4Bo
z
?
x
?
? w1t1
y
5z
Bo
?
x
Mxy
Detection during t2
y
Signal Mxy cos(w2t2)
Signal Mocos ? cos(w2t2)
Signal Mocos (w1t1) cos(w2t2)
6Multidimensional NMR
1D Experiment
90o pulse
Time (t)
Signal Mo cos(w2t2)
2D Experiment
90ox pulse
90oy pulse
Time (t2)
Time (t1)
Signal Mocos (w1t1) cos(w2t2)
7z
Bo
x
? w1t1
w1
y
Signal Mocos (w1t1) cos(w2t2)
t10
Mo cos(w2t2)
t2
w2
t1 ?/3w1
Mo ½ cos(w2t2)
w2
t2
t1 ?/2w1
0
w2
t2
8Bo
x
? w1t1
w1
y
Signal Mocos (w1t1) cos(w2t2)
t1 ?/2w1
0
w2
t2
t1 2?/3w1
-Mo ½ cos(w2t2)
w2
t2
t1?/w1
Mo cos(w2t2)
w2
t2
9t10
w2
Intensity
t1 ?/3w1
w2
t1
t1 ?/2w1
w2
t1 2?/3w1
w2
FT
t1?/w1
w2
t1 4?/3w1
w1
w2
t1 3?/2w1
w2
t1 5?/3w1
w2
t1 2?w1
w2
10Signal Mocos (w1t1) cos(w2t2)
t1
t2
w1
w1 w2
w1
w2
w2
11COSY (Correlation Spectroscopy) Experiment
90oy pulse
90ox pulse
Time (t2)
Time (t1)
Mixing
C
C
Hb
Ha
3Jab
12Bo
x
? w1t1
w1
y
Signal Mocos (w1t1) cos(w2t2)
C
C
Hb
Ha
Mocos (w1at1) cos(w2at2)
?
Mocos (w1at1) cos(w2bt2)
Signal
Mocos (w1bt1) cos(w2at2)
Mocos (w1bt1) cos(w2bt2)
13C
C
Hb
Ha
COSY Spectrum
w1
Mocos (w1at1) cos(w2at2)
wb
Mocos (w1at1) cos(w2bt2)
Mocos (w1bt1) cos(w2at2)
wa
Mocos (w1bt1) cos(w2bt2)
w2
wb
wa
w2
14C
C
Hb
Ha
COSY Spectrum
w1
3Jab
Mocos (w1at1) cos(w2at2)
wb
3Jab
Mocos (w1at1) cos(w2bt2)
Mocos (w1bt1) cos(w2at2)
wa
Mocos (w1bt1) cos(w2bt2)
w2
wb
wa
3Jab
w2
15C
C
C
Hb
Ha
Hc
w1
wc
wb
wa
w2
wb
wc
wa
w2
16Ha
O
3JNa
Alanine
N
C
C
3Jab
HN
C-H3b
w1
w2
wHa
wHb
wHN
w2
17TOCSY (Total Correlation Spectroscopy) Experiment
Spin-lock pulse
90oy pulse
Time (t2)
Time (t1)
Mixing
Ha
O
N
C
C
HN
C-H3b
Coupling between all protons in amino acid (spin
system)
18Ha
O
3JNa
Alanine
N
C
C
3Jab
HN
C-H3b
w1
w2
wHa
wHb
wHN
w2
19(No Transcript)
20NOESY (NOE Spectroscopy) Experiment
90oy pulse
90ox pulse
Time (t2)
Mixing time (t)
Time (t1)
Through-Space Coupling
21observable if lt 4Å
strength of coupling 1/r6
w1
wb
integrated intensity (r)
wa
w2
wb
wa
22Can combine NOESY and COSY/TOCSY to assign
peptides
Ha3
Ha2
O
O
N
C
N
C
C
C
HN3
HN2
R3
R2
4.0 ppm
NOESY
wa
wa
wa
5.0 ppm
wN
wN
wN
9.0 ppm
8.0 ppm
23Can combine NOESY and COSY/TOCSY to assign
peptides
Ha3
Ha2
O
O
N
C
N
C
C
C
HN3
HN2
R3
R2
4.0 ppm
COSY
wa2
wa3
wa1
5.0 ppm
wN1
wN3
wN2
9.0 ppm
8.0 ppm
w2
24Can combine NOESY and COSY/TOCSY to assign
peptides
Ha3
Ha2
O
O
N
C
N
C
C
C
HN3
HN2
R3
R2
4.0 ppm
NOESY
wa2
wa3
wa1
5.0 ppm
wN1
wN3
wN2
9.0 ppm
8.0 ppm
25Can combine NOESY and COSY/TOCSY to assign
peptides
Ha3
Ha2
O
O
N
C
N
C
C
C
HN3
HN2
R3
R2
4.0 ppm
NOESY
wa2
wa3
wa1
5.0 ppm
wN1
wN3
wN2
9.0 ppm
8.0 ppm
26Problem Set NOESY
wHa
wHN
27Common Observed NOEs
Hai2
Hai1
O
O
N
C
N
C
C
C
HNi2
HNi1
Ri2
Ri1
Intraresidue
aN (i,i)
aR (i,i)
Sequential
aN (i,i1)
aR (i,i1)
NN (i,i1)
28Some Common Observed NOEs
Hai2
Hai1
O
O
N
C
N
C
C
C
HNi2
HNi1
Ri2
Ri1
Medium Range
Intraresidue
aN (i,i2)
aN (i,i)
aN (i,i3)
aR (i,i)
aN (i,i4)
Sequential
Long Range
aN (i,i1)
HH (i,igt4)
aR (i,i1)
NN (i,i1)
H
H
29Some Common Observed NOEs
30Assigning Secondary Structure from Common
Observed NOEs
31Assigning Secondary Structure from Common
Observed NOEs
32Heteronuclear multidimensional spectroscopy
Time (t1)
N15
1JHN
Time (t2)
HN
wN
wN
wH
wH
33Heteronuclear Single Quantum Coherence (HSQC)
experiment
90o
180o
90o
180o
90o
180o
Time (t2)
1H pulse (B1wH/gH)
15N pulse (B1wN/gN)
Time (t1)
Acquisition
Mixing
Evolution
Preparation
N15
HN
34t10
wH
Intensity
t1 ?/3wN
wH
t1
t1 ?/2wN
wH
t1 2?/3wN
wH
FT
t1?/wN
wH
t1 4?/3wN
wN
wH
t1 3?/2wN
wH
t1 5?/3wN
wH
t1 2?wN
wH
35HSQC 100 amino acid protein
15N (ppm)
1H (ppm)
Why no prolines?
36Unfolded Protein
Folded Protein
E2F1 CC-MB
15N
15N (ppm)
15N (ppm)
1H (ppm)
1H (ppm)
37HSQC of Aggregated Protein
383-D Backbone Correlation Spectroscopy
1JNC
O
Time (t1)
N15
C13
1JHN
Time (t2)
HN
Time (t3)
HNCO
wN
wC
wH
39t10
wH
Intensity
t1 ?/3wc
wH
t2
t1 ?/2wc
wH
t1 2?/3wc
wH
FT
t1?/wc
wH
t1 4?/3wc
wc
wH
t1 3?/2wc
wH
t1 5?/3wc
wH
t1 2?wc
wH
40t10
Intensity
t1 ?/3wN
wC
wH
t1
t1 ?/2wN
FT
t1 2?/3wN
wC
wH
wN
t1?/wN
wC
t1 4?/3wN
wH
41HNCO Pulse Sequence
42(No Transcript)
43Chemical Exchange
kex
H
H
Exchange rate
B
A
wHA ? wHB
kex
H
H
Exchange rate
B
A
44Chemical Exchange
kex
H
H
Exchange rate
B
A
kex
wHB
wHA
45Chemical Exchange
kex
wHB
wHA
kex ltlt Dw
wHA
wHB
kex Dw
wH
kex gtgt Dw
ltwHgt
46Ligand Titration-Chemical Shift Mapping
H
H
H
H
Slow Exchange
Intensity population
Unbound
Saturated
wN
wN
wH
wH
Protein HSQC
47Ligand Titration-Chemical Shift Mapping
H
H
H
H
Fast Exchange
wN
w wuUwBB
UB
wH
Protein HSQC
48Ligand Titration-Chemical Shift Mapping
49Ligand Titration-Chemical Shift Mapping
50Amide Proton Exchange
O
O
H
N
N
C
C
HN
Amide protons will exchange with solvent H2O
O
O
D2O
N
N
C
C
HN
D
Is this slow or fast exchange?
51Amide Proton Exchange
O
O
H
N
N
C
C
HN
Amide protons will exchange with solvent H2O
5
3
0.1 min-1
log k (min-1)
1
10 min-1
-1
1
3
5
7
pH
52Exchangable Proton Protection
D2O
kexA ltlt kexB
wN
wN
wH
wH
53Protein Folding and Protection Factors
H
H
Folded/Native
Unfolded/Denatured
Protection Factor (P) kex(U) / kex(N)
Experimentally how are these rates measured?