RASP uses structure-based chemical shift predictions to solve the backbone resonance assignment problem in protein NMR spectroscopy. This enables rapid determination of highly accurate assignments on the basis of minimal experimental datasets, even for spectroscopically challenging proteins.

RASP takes as input spin systems assembled on the basis of an arbitrary set of conventional triple-resonance NMR experiments. Uniquely, RASP is capable of extensive assignments even in the abscence of Cbeta chemical shift information: over a test set of 154 proteins RASP assigns 88 % of residues with an accuracy of 99.7 %, using only information available from HNCO and HNCA spectra.

RASP is described here:
MacRaild and Norton (2014) RASP: Rapid and robust backbone chemical shift assignments from protein structure. J Biomol NMR doi:10.1007/s10858-014-9813-7

Project Activity

See All Activity >

Categories

Chemistry

License

BSD License

Follow RASPnmr

RASPnmr Web Site

You Might Also Like
An All-in-One EMR Exclusively for Therapy and Rehab. Icon
An All-in-One EMR Exclusively for Therapy and Rehab.

Electronic Medical Records Software

Managing your therapy and rehab practice is a time-consuming process. You spend hours on paperwork, billing, scheduling, and more. Raintree’s Therapy & Rehab EHR is here to help you manage your practice more efficiently. With our all-in-one solution, you’ll get the tools you need to streamline your therapy and rehab practice, improve patient care, and get back to doing what you love.
Learn More
Rate This Project
Login To Rate This Project

User Reviews

Be the first to post a review of RASPnmr!

Additional Project Details

Operating Systems

Linux, FreeBSD, Mac, Windows

Intended Audience

Science/Research, Advanced End Users

User Interface

Command-line

Programming Language

Python

Related Categories

Python Chemistry Software

Registered

2013-07-02
Report inappropriate content