BMRB

Biological Magnetic Resonance Data Bank


A Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules
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Library of Pulse Sequences

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The submission procedure section outlines how to deposit sequences.


Pulse Sequences Listed by their Accession Numbers


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Manufacturer
Experiment Type
Dimension
Bruker
Varian

Homonuclear Chemical Shift
Heteronuclear Chemical Shift
Homonuclear Exchange Spectroscopy
Heteronuclear Exchange Spectroscopy
T1 Relaxation
T1rho Relaxation
T2 Relaxation
Homonuclear J-coupling
Heteronuclear J-coupling
Calibration - Test

One-dimensional
Two-dimensional
Three-dimensional
Four-dimensional






95 entries match this query
Acc. NumPulse Sequence File
1TOCSY-HSQC 3D experiment
2NOESY-HSQC 3D experiment
3Bruker DMX 15N-1H 2D HSQC with Sensitivity-enhanced
4Bruker AMX 15N-1H 2D HSQC with Sensitivity-enhanced
5HMBC with gradient selection of echo and antiecho in t1 for suppression of t1-noise
6hsqc employing gradients for coherence selection. Phase sensitive by sampling +/- coherence in alternate scans.
7selective hmbc with gradients; used when the selective 180 is greater than approx 1.5 ms
-selective hmbc with gradients; used when the selective 180 is less than approx 1.5 ms
8hsqc with selective 180(1H) pulses for high S/N
93D HNCaCb - Gradient enhanced
103D HNCaCb - Gradient enhanced with minimal H2O saturation
113D HNCA with Gradient sensitivity enhancement with minimal H2O saturation
123D HNCO with Gradient sensitivity enhancement with minimal H2O saturation
133D HN(CO)CA with gradient sensitivity enhancement and minimal H2O saturation
143D HCAN, gradient enhanced, deuterium decoupled
-- gradient program for 3D HCAN, gradient enhanced, deuterium decoupled
-- include file for 3D HCAN, gradient enhanced, deuterium decoupled
153D HCA(CO)N, gradient enhanced, deuterium decoupled
-- gradient program for 3D HCA(CO)N, gradient enhanced, deuterium decoupled
-- include file for 3D HCA(CO)N, gradient enhanced, deuterium decoupled
1613C edited (HMQC) 1D NOE difference JR for water suppression (9/27/95)
17Block-decoupled diagonal elements with spin diffusion eliminated 3D NOESY
18Block-decoupled off-diagonal elements with spin diffusion eliminated 3D NOESY
194D (13C,13C)-HMQC-NOESY-HSQC
65symmetrized CW-ROESY, program for DMX hardware, tested on DMX 500i and DMX750
202D 1H/15N heteronuclear NOE with water along +Z
21Bruker AMX 15N-1H 3D NOESY-HSQC with Sensitivity-enhanced
22DMX using States-TPPI
-Off-resonance T1rho experiment - general comment file
-Off-resonance T1rho experiment - pulse sequence
-Off-resonance T1rho experiment - parameter list
-Off-resonance T1rho experiment - README file for the gradients
-Off-resonance T1rho experiment - gradient include file
-Off-resonance T1rho experiment - example gradient file
-Off-resonance T1rho experiment - C source code for shaped pulses
23DMX using States-TPPI
242D difference 13C CT-HSQC for determination of J3(C'Cb) in Val, Ile, and Thr residues for the determination of X1 angle
25Bruker DMX non-gradient 2D CT-HSQC; reference for 3D HNHB
26Bruker DMX gradient 2D CT-HSQC; reference for 3D gradient HNHB
-Auxiliary program needed by gradient 2D CT-HSQC
27Measurement of 3J(HnHa) from a set of 2D J-modulated HMQC spectra.
282D difference 13C CT-HSQC for determination of J3(NC) in Val, Ile, and Thr residues for the determination of X1 angle
29Bruker DMX non-gradient 3D HNHB
30Bruker DMX gradient 3D HNHB
-Auxiliary program needed by gradient 3D HNHB
31Measurement of 3J(HaC') from E.COSY splitting.
32Measurement of 3J(HnCb) from E.COSY splitting.
33Measurement of 3J(HnHa) from E.COSY splitting.
34Measurement of C' to H J couplings from quantitative-type measurement.
611H-15N HSQC with enhanced sensitivity PFG and minimal perturbation of water.
62CB - aromatic Hd,He correlation.
63CB - aromatic Hd correlation.
-Constant time CPMG-HSQC.
-Constant time CPMG-HSQC. - description
-Constant time CPMG-HSQC. - parameters
-CPMG-HSQC.
-CPMG-HSQC - pulse sequence description.
-CPMG-HSQC -parameters.
-CPMG-HSQC - reference pulse sequence.
-CPMG-HSQC - reference pulse sequence parameters.
35HNCO
36CBCA(CO)NH
37CBCACO(CA)HA
38HNCACB
39H(CC-tocsy)-NNH
40C(CC-tocsy)-NNH
41HCCH-TOCSY
4215N-edited TOCSY-HSQC
43(1H-15N-1H) shift correlation double resonance experiment to measure 3J(HN-HA) coupling constants
441H->15N NOE
451H-15N HSQC to detect amide proton exchange rates and NOE's to water
461H-15N HSQC to detect amide proton exchange rates and ROE's to water for above experiment
4715N-edited NOESY-HSQC
4815N,13C-edited NOESY
4913C-filtered NOESY
5015N,13C-selected NOESY
5113C,13C-edited NOESY
5215N,13C-edited NOESY
532D 15N T1
542D 15N T2
551H/15N HMQCJ
-spin-echo difference constant-time HCCH-COSY (C1' frequency labeled)
-spin-echo difference constant-time HCCH-COSY (C2' frequency labeled)
561D 1H
571H selective pulse calibration
58Calibration of nucleus pulse on channel 2
59Calibration of X nucleus shaped pulse on channel 2
60Calibration of X nucleus pulse on channel 3
6113C' T1rho README
-13C' T1rho hacaco_co_T1R c file
-13C' T1rho - HACACO_CO parameters
-13C' T1rho - HACACO_CO parameters text
-13C' T1rho - waveform generator
-13C' T1rho - make file
-13C' T1rho - co_off_0ms.DEC




Disclaimer

Users of pulse sequences available from this library employ them at their own risk. Individuals or affiliated organizations who provide pulse sequences for distribution from this library are not legally or otherwise liable, responsible, or accountable for physical damage or any other damage incurred by those who use a pulse sequence taken from this library. Neither BioMagResBank nor the University of Wisconsin are liable for any physical or other damage incurred during the use of a pulse sequence or other information obtained from this library.

The pulse sequences found in this library are provided "as is" for your information. They have NOT been tested, and no guarantee as to the accuracy of the pulse sequence or its functionality is given or implied. NO support for the use of these pulse sequences is provided by BMRB or those who submit a sequence. Please DO NOT contact BMRB or authors concerning the implementation of pulse sequences.