ACERT: Resources

National Institute of General Medical Sciences
	National Biomedical Resource for Advanced ESR Spectroscopy

ACERT Resources

last update: August 22, 2023

The National Resource facilities include:

ESR Spectrometers

Pulsed, FT and 2D-FT ESR spectrometer operating at 9 and 17 GHz: Dedicated mainly to PDS (Pulse-Dipolar Spectroscopy)
(RA: Peter Borbat)
State-of-the-art 2-18 GHz pulsed and 2D-FT ESR spectrometer: Dedicated to 2D-ELDOR
(RA: Peter Borbat) (Nearing completion)
35 GHz Pulsed, FT, and 2D-FT-ESR Spectrometer: Dedicated mainly to PDS
(RA: Peter Borbat
95 GHz high-power pulsed, 2D-FT ESR, and cw spectrometer with low-temperature VTI
(RA: Curt Dunnam)
93 GHz Pulsed ESR spectrometer: Mainly for micro-samples
(RA: Curt Dunnam) (Nearing completion)
170/240 GHz ESR cw spectrometer
(RA: Curt Dunnam)
Bruker cw-ESR EMX spectrometer with X-Band bridge: For standard ESR experiments
(RA: Curt Dunnam)
Bruker cw & pulse spectrometer operating at 9 and 35 GHz: For PDS, ENDOR, and other standard ESR experiments

Additional;

workstations for theoretical simulation of ESR spectra;
wet chemistry and biochemistry lab for sample preparation, synthesis;
electronics and machining facilities.

Denoising Software

A number of useful programs for signal denoising have been developed by the Signal Science Lab under the direction of our Co-Director, Dr. Srivastava. For access to these, please visit the Signal Science Lab website.

Downloadable Software

We have a number of useful programs available for FTP downloading. They are available here as ZIP files.

This software includes: (links presently under construction)

	Software	Function	Programming Language	Accessibility
1.	NERD	Removes noise from cw-ESR and ENDOR data to greatly improve their signal-to-noise ratio.	Python	Webserver and GUI *
2.	WavPDS	Removes noise from PDS data to greatly improve their signal-to-noise.	Python	Webserver and GUI *
3.	1D SF-SVD	Reconstructs distance distributions between nitroxide spin labels to determine protein structure from 1D PDS experiments.	Python	Webserver and GUI *
4.	2D SF-SVD	Reconstructs distance distributions between nitroxide spin labels to determine protein structure from 2D PDS experiments.	Python	Webserver and GUI *
5a.	nlsl.MOMD	Performs non-linear least squares fitting of slow motional CW ESR spectra to the microscopic order macroscopic disorder (MOMD) model	Fortran	downloadable package
5b.	nlsl.SRLS	Performs non-linear least squares fitting of slow motional CW ESR spectra to the advanced slowly relaxing local structure (SRLS) model	Fortran	downloadable package
5c.	EPRLL	Simulates slow motional CW spectrum for dynamics studies with nitroxide labels.	Fortran	downloadable package
6.	lsld2	Performs non-linear least squares fitting of CW saturation spectra to the MOMD model	Python + Fortran 90	downloadable package *
7a.	nlspmc	Performs non-linear least squares fitting of 2D ESR spectra to the MOMD model	Fortran	downloadable package
7b.	srls2d	Performs non-linear least squares fitting of 2D ESR spectra to the SRLS model	Fortran	downloadable package *
8a.	nlspmc_resolvents	Extends nlspmc to ultra-slow motional rates and includes dynamic exchange between conformers	Matlab	downloadable package *
8b.	sle_acert	Python API for generating SLE matrices relevant to 1D and 2D ESR spectra	Python + Fortran 90	downloadable package *

Every effort has been made to ensure that these programs are correct and thoroughly tested. However, the programs are distributed "AS IS", and all warranties, whether expressed or implied, as to correctness or fitness for any specific purpose are specifically disclaimed. In no event shall the authors be liable for any direct, consequential or incidental damages arising from the use of these programs. Free use and distribution of these programs is permitted with suitable reference to the original publication (see above) in any published work resulting from the use of these programs or programs derived from them. The programs may be copied and distributed, so long as, 1) due credit is given by retaining the comment lines at the beginning of each source file in all copies; and 2) all copies must be distributed free of charge.

For our archive of downloadable software packages, please see our FTP Links page.

* For access to these software packages, please contact Madhur Srivastava.

Questions and comments may be directed to ACERT at acert@cornell.edu, which will forward the correspondence to the most appropriate person.

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ACERT is supported by grant 1R24GM146107 from the National Institute of General Medical Sciences (NIGMS), part of the National Institutes of Health.

National Biomedical Resource for Advanced ESR Spectroscopy

Baker Laboratory of Chemistry
259 East Ave.
Ithaca, NY 14853

National Institute of
General Medical Sciences