Fast and Accurate Quantum Crystallography: From Small to Large, from Light to Heavy.
Lorraine A MalaspinaErna K WieduwiltJustin BergmannFlorian KleemissBenjamin MeyerManuel F Ruiz-LopezRumpa PalEmanuel HupfJens BeckmannRoss O PiltzAlison J EdwardsSimon GrabowskyAlessandro GenoniPublished in: The journal of physical chemistry letters (2019)
The coupling of the crystallographic refinement technique Hirshfeld atom refinement (HAR) with the recently constructed libraries of extremely localized molecular orbitals (ELMOs) gives rise to the new quantum-crystallographic method HAR-ELMO. This method is significantly faster than HAR but as accurate and precise, especially concerning the free refinement of hydrogen atoms from X-ray diffraction data, so that the first fully quantum-crystallographic refinement of a protein is presented here. However, the promise of HAR-ELMO exceeds large molecules and protein crystallography. In fact, it also renders possible electron-density investigations of heavy elements in small molecules and facilitates the detection and isolation of systematic errors from physical effects.
Keyphrases
- molecular dynamics
- high resolution
- density functional theory
- crystal structure
- big data
- protein protein
- electron microscopy
- energy transfer
- amino acid
- physical activity
- mental health
- monte carlo
- electronic health record
- binding protein
- magnetic resonance imaging
- adverse drug
- machine learning
- real time pcr
- artificial intelligence
- label free
- mass spectrometry
- data analysis
- deep learning
- dual energy
- visible light