Stephen A. Wells

University of Bath

H-index: 30

Europe-United Kingdom

About Stephen A. Wells

Stephen A. Wells, With an exceptional h-index of 30 and a recent h-index of 15 (since 2020), a distinguished researcher at University of Bath, specializes in the field of framework flexibility, zeolites, MOFs, protein flexibility, protein rigidity.

His recent articles reflect a diverse array of research interests and contributions to the field:

Inferring the dynamics of ionic currents from recursive piecewise data assimilation of approximate neuron models

FLEXOME software suite

Glycosylation increases active site rigidity leading to improved enzyme stability and turnover

N-linked glycosylation increases horse radish peroxidase rigidity leading to enhanced activity and stability

Stereoselective metabolism of chloramphenicol by bacteria isolated from wastewater, and the importance of stereochemistry in environmental risk assessments for antibiotics

Using geometric simulation software ‘GASP’to model conformational flexibility in a family of zinc metal–organic frameworks

Pressure-driven methanol intrusion in MFI-zeolites and its effects on the structural deformation in silicalite-1

Cisplatin uptake and release in pH sensitive zeolitic imidazole frameworks

Stephen A. Wells Information

University	University of Bath
Position	PDRA Department of Biology and Biochemistry
Citations(all)	3054
Citations(since 2020)	1081
Cited By	2924
hIndex(all)	30
hIndex(since 2020)	15
i10Index(all)	65
i10Index(since 2020)	30
Email	Access Email
University Profile Page	University of Bath
Google Scholar	View Google Scholar Profile

Stephen A. Wells Skills & Research Interests

framework flexibility

zeolites

MOFs

protein flexibility

protein rigidity

Top articles of Stephen A. Wells

Title	Journal	Author(s)	Publication Date
Inferring the dynamics of ionic currents from recursive piecewise data assimilation of approximate neuron models	arXiv preprint arXiv:2312.12888	Stephen A Wells Joseph D Taylor Paul G Morris Alain Nogaret	2023/12/20
FLEXOME software suite		Stephen Wells	2023/9/26
Glycosylation increases active site rigidity leading to improved enzyme stability and turnover	The FEBS Journal	Krithika Ramakrishnan Rachel L Johnson Samuel D Winter Harley L Worthy Christopher Thomas ...	2023/4/2
N-linked glycosylation increases horse radish peroxidase rigidity leading to enhanced activity and stability	bioRxiv	Krithika Ramakrishnan Rachel L Johnson Sam D Winter Harley L Worthy Chris Thomas ...	2022/9/23
Stereoselective metabolism of chloramphenicol by bacteria isolated from wastewater, and the importance of stereochemistry in environmental risk assessments for antibiotics	Water Research	Felicity CT Elder Ben Pascoe Stephen Wells Samuel K Sheppard Jason Snape ...	2022/6/15
Using geometric simulation software ‘GASP’to model conformational flexibility in a family of zinc metal–organic frameworks	New Journal of Chemistry	William J Gee Stephen A Wells Simon J Teat Paul R Raithby Andrew D Burrows	2021
Pressure-driven methanol intrusion in MFI-zeolites and its effects on the structural deformation in silicalite-1		F Pagliaro T Battiston A Sartbaeva S Wells D Comboni ...	2021/9/1
Cisplatin uptake and release in pH sensitive zeolitic imidazole frameworks	The Journal of Chemical Physics	Megan J Thompson Stephen A Wells Tina Düren	2021/6/28
Structure and dynamics of a cold-active esterase reveals water entropy and active site accessibility as the likely drivers for cold-adaptation	bioRxiv	Nehad Noby Husam Sabah Auhim Samuel Winter Harley L Worthy Amira M Embaby ...	2021/2/23
Biomolecule preservation			2021/1/5
Determining the structure of zeolite frameworks at high pressures	CrystEngComm	Lisa A Price Chris J Ridley Craig L Bull Stephen A Wells Asel Sartbaeva	2021
Structure and in silico simulations of a cold-active esterase reveals its prime cold-adaptation mechanism	Open Biology	Nehad Noby Husam Sabah Auhim Samuel Winter Harley L Worthy Amira M Embaby ...	2021/12/1
Rigidity, normal modes and flexible motion of a SARS-CoV-2 (COVID-19) protease structure	bioRxiv	Stephen A Wells	2020/3/12
Dataset for" Rigidity, normal modes and flexible motion of a SARS-CoV-2 (COVID19) protease structure"		Stephen Wells	2020/3/9
FLEXOME software suite, first release 23/11/2020		Stephen Wells	2020/11/23
Monoclonal antibody stability can be usefully monitored using the excitation-energy-dependent fluorescence edge-shift	Biochemical Journal	Michael J Knight Rachel E Woolley Anthony Kwok Stuart Parsons Hannah BL Jones ...	2020/9/30
Dataset for" Ensilicated tetanus antigen retains immunogenicity: in vivo study and time-resolved SAXS characterization"		Aswin Doekhie Asel Sartbaeva Francoise Koumanov Jean Van Den Elsen Karen Edler ...	2020/6/8
Ensilicated tetanus antigen retains immunogenicity: in vivo study and time-resolved SAXS characterization	Scientific Reports	Aswin Doekhie Rajeev Dattani Yun-Chu Chen Yi Yang Andrew Smith ...	2020/6/8