Fragment Molecular Orbital (FMO) calculations provide a framework to speed up quantum mechanical calculations and so can be used to explore structure-energy relationships in large and complex biomolecular systems. These calculations are still onerous, especially when applied to large sets of molecules. Therefore, cyberinfrastructure that provides mechanisms and user interfaces that manage job submissions, failed job resubmissions, data retrieval, and data storage for these calculations are needed. Motivated by the need to rapidly identify drugs that are likely to bind to targets implicated in SARS-CoV-2, the virus that causes COVID-19, we developed a static parameter sweeping framework with Apache Airavata middleware to apply to complexes f...
A molecule of dimension 125nm has caused around 479 Million human infections (80M for the USA) & 6.1...
In December 2019, a novel coronavirus was detected in the Chinese city of Wuhan, Hubei Province. Nea...
During an emergency, such as a pandemic in which time and resources are extremely scarce, it is impo...
Fragment Molecular Orbital (FMO) calculations provide a framework to speed up quantum mechanical cal...
We present a hybrid, multi-method, computational scheme for protein/ligand systems well suited to be...
We have integrated the parallelized molecular orbital (MO) calculations and the data management in t...
Given the enormous social and health impact of the pandemic triggered by severe acute respiratory sy...
AbstractModern electronic structure calculations are characterized by unprecedented complexity and a...
The reported work aims at implementation of a method allowing realistic simulation of large or extra...
Recently, ab initio quantum mechanical calculations have been applied to large molecules, including ...
COVID-19 remains a global pandemic, necessitating the urgent development of more effective therapeut...
SARS-CoV-2, or severe acute respiratory syndrome coronavirus 2, represents a new strain of Coronavir...
Predicting the binding affinity between a ligand and a target is the key to optimizing target-ligand...
This work explores the level of transparency in reporting the details of computational protocols tha...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
A molecule of dimension 125nm has caused around 479 Million human infections (80M for the USA) & 6.1...
In December 2019, a novel coronavirus was detected in the Chinese city of Wuhan, Hubei Province. Nea...
During an emergency, such as a pandemic in which time and resources are extremely scarce, it is impo...
Fragment Molecular Orbital (FMO) calculations provide a framework to speed up quantum mechanical cal...
We present a hybrid, multi-method, computational scheme for protein/ligand systems well suited to be...
We have integrated the parallelized molecular orbital (MO) calculations and the data management in t...
Given the enormous social and health impact of the pandemic triggered by severe acute respiratory sy...
AbstractModern electronic structure calculations are characterized by unprecedented complexity and a...
The reported work aims at implementation of a method allowing realistic simulation of large or extra...
Recently, ab initio quantum mechanical calculations have been applied to large molecules, including ...
COVID-19 remains a global pandemic, necessitating the urgent development of more effective therapeut...
SARS-CoV-2, or severe acute respiratory syndrome coronavirus 2, represents a new strain of Coronavir...
Predicting the binding affinity between a ligand and a target is the key to optimizing target-ligand...
This work explores the level of transparency in reporting the details of computational protocols tha...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
A molecule of dimension 125nm has caused around 479 Million human infections (80M for the USA) & 6.1...
In December 2019, a novel coronavirus was detected in the Chinese city of Wuhan, Hubei Province. Nea...
During an emergency, such as a pandemic in which time and resources are extremely scarce, it is impo...