Séamus Holden

Newcastle University

H-index: 23

Europe-United Kingdom

About Séamus Holden

Séamus Holden, With an exceptional h-index of 23 and a recent h-index of 20 (since 2020), a distinguished researcher at Newcastle University, specializes in the field of Biophysics, Bacteriology, Microscopy.

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

Peptidoglycan synthesis drives a single population of septal cell wall synthases during division in Bacillus subtilis

Watching Bacterial Cell Division One Molecule at a Time in Vertical Cells

A one-track model for spatiotemporal coordination of Bacillus subtilis septal cell wall synthesis

Molecular motor tug-of-war regulates elongasome cell wall synthesis dynamics in Bacillus subtilis

Self-organisation of mortal filaments: the role of FtsZ treadmilling in bacterial division ring formation

Complement-mediated killing of bacteria by mechanical destabilization of the cell envelope

Transertion and cell geometry organize the Escherichia coli nucleoid during rapid growth

Open microscopy in the life sciences: quo vadis?

Séamus Holden Information

University	Newcastle University
Position	Group leader Centre for Bacterial Cell Biology UK
Citations(all)	3332
Citations(since 2020)	2093
Cited By	2068
hIndex(all)	23
hIndex(since 2020)	20
i10Index(all)	25
i10Index(since 2020)	22
Email	Access Email
University Profile Page	Newcastle University
Google Scholar	View Google Scholar Profile

Séamus Holden Skills & Research Interests

Biophysics

Bacteriology

Microscopy

Top articles of Séamus Holden

Title	Journal	Author(s)	Publication Date
Peptidoglycan synthesis drives a single population of septal cell wall synthases during division in Bacillus subtilis	Nature Microbiology	Kevin D Whitley James Grimshaw David M Roberts Eleni Karinou Phillip J Stansfeld ...	2024/3/13
Watching Bacterial Cell Division One Molecule at a Time in Vertical Cells		Kevin D Whitley James Grimshaw Séamus Holden	2023/8/1
A one-track model for spatiotemporal coordination of Bacillus subtilis septal cell wall synthesis	bioRxiv	Kevin D Whitley James Grimshaw David M Roberts Eleni Karinou Phillip J Stansfeld ...	2023/6/29
Molecular motor tug-of-war regulates elongasome cell wall synthesis dynamics in Bacillus subtilis	bioRxiv	Stuart Middlemiss Matthieu Blandenet David M Roberts Andrew McMahon James Grimshaw ...	2023/5/10
Self-organisation of mortal filaments: the role of FtsZ treadmilling in bacterial division ring formation	bioRxiv	Christian Vanhille-Campos Kevin D Whitley Philipp Radler Martin Loose Séamus Holden ...	2023/5/9
Complement-mediated killing of bacteria by mechanical destabilization of the cell envelope	bioRxiv	Georgina Benn Christian Bortolini David M Roberts Alice LB Pyne Seamus Holden ...	2023
Transertion and cell geometry organize the Escherichia coli nucleoid during rapid growth	bioRxiv	Christoph Spahn Stuart Middlemiss Estibaliz Gómez-de-Mariscal Ricardo Henriques Helge Björn Bode ...	2023/10/16
Open microscopy in the life sciences: quo vadis?	Nature methods	Johannes Hohlbein Benedict Diederich Barbora Marsikova Emmanuel G Reynaud Séamus Holden ...	2022/9
DeepBacs for multi-task bacterial image analysis using open-source deep learning approaches	Communications Biology	Christoph Spahn Estibaliz Gómez-de-Mariscal Romain F Laine Pedro M Pereira Lucas von Chamier ...	2022/7/9
High-resolution imaging of bacterial spatial organization with vertical cell imaging by nanostructured immobilization (VerCINI)		Kevin D Whitley Stuart Middlemiss Calum Jukes Cees Dekker Séamus Holden	2022/3
FtsZ treadmilling is essential for Z-ring condensation and septal constriction initiation in Bacillus subtilis cell division	Nature communications	Kevin D Whitley Calum Jukes Nicholas Tregidgo Eleni Karinou Pedro Almada ...	2021/4/27
Democratising deep learning for microscopy with ZeroCostDL4Mic	Nature communications	Lucas von Chamier Romain F Laine Johanna Jukkala Christoph Spahn Daniel Krentzel ...	2021/4/15
Geometric principles underlying the proliferation of a model cell system	Nature communications	Ling Juan Wu Seoungjun Lee Sungshic Park Lucy E Eland Anil Wipat ...	2020/8/18
Virtual-SMLM, a virtual environment for real-time interactive SMLM acquisition	bioRxiv	J Griffié TA Pham C Sieben R Lang V Cevher ...	2020/3/6