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J. Richard. McIntosh

J. Richard. McIntosh

University of Colorado Boulder

H-index: 104

North America-United States

About J. Richard. McIntosh

J. Richard. McIntosh, With an exceptional h-index of 104 and a recent h-index of 36 (since 2020), a distinguished researcher at University of Colorado Boulder, specializes in the field of cell biology.

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

Continuous endosomes form functional subdomains and orchestrate rapid membrane trafficking in trypanosomes

Distinct regions of the kinesin-5 C-terminal tail are essential for mitotic spindle midzone localization and sliding force

Shinya Inoué

Regulation of microtubule dynamics, mechanics and function through the growing tip

Anaphase A

Brownian dynamics simulation of protofilament relaxation during rapid freezing

Electron tomography reveals aspects of spindle structure important for mechanical stability at metaphase

Ultrastructural analysis of microtubule ends

J. Richard. McIntosh Information

University

Position

Distinguished Professor of Cell Biology

Citations(all)

35641

Citations(since 2020)

6711

Cited By

30540

hIndex(all)

104

hIndex(since 2020)

36

i10Index(all)

212

i10Index(since 2020)

102

Email

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University Profile Page

University of Colorado Boulder

Google Scholar

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J. Richard. McIntosh Skills & Research Interests

cell biology

Top articles of J. Richard. McIntosh

Title

Journal

Author(s)

Publication Date

Continuous endosomes form functional subdomains and orchestrate rapid membrane trafficking in trypanosomes

Elife

Fabian Link

Alyssa Borges

Oliver Karo

Marvin Jungblut

Thomas Müller

...

2024/4/15

Distinct regions of the kinesin-5 C-terminal tail are essential for mitotic spindle midzone localization and sliding force

Proceedings of the National Academy of Sciences

Zachary R Gergely

Michele H Jones

Bojun Zhou

Cai Cash

J Richard McIntosh

...

2023/9/26

Shinya Inoué

J Richard McIntosh

Paul Maddox

Tim Mitchison

2022

Regulation of microtubule dynamics, mechanics and function through the growing tip

Nikita B Gudimchuk

J Richard McIntosh

2021/12

Anaphase A

J Richard McIntosh

2021/9/1

Brownian dynamics simulation of protofilament relaxation during rapid freezing

Plos one

Evgeniy V Ulyanov

Dmitrii S Vinogradov

J Richard McIntosh

Nikita B Gudimchuk

2021/2/12

Electron tomography reveals aspects of spindle structure important for mechanical stability at metaphase

Molecular Biology of the Cell

Eileen O’Toole

Mary Morphew

J Richard McIntosh

2020/2/1

Ultrastructural analysis of microtubule ends

Cytoskeleton Dynamics: Methods and Protocols

J Richard McIntosh

Eileen O’Toole

Cynthia Page

Garry Morgan

2020

Mechanisms of microtubule dynamics and force generation examined with computational modeling and electron cryotomography

Nature Communications

Nikita B Gudimchuk

Evgeni V Ulyanov

Eileen O’Toole

Cynthia L Page

Dmitrii S Vinogradov

...

2020/7/28

Mechanisms of chromosome biorientation and bipolar spindle assembly analyzed by computational modeling

Elife

Christopher Edelmaier

Adam R Lamson

Zachary R Gergely

Saad Ansari

Robert Blackwell

...

2020/2/13

See List of Professors in J. Richard. McIntosh University(University of Colorado Boulder)