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Tim F Cooper

Tim F Cooper

Massey University

H-index: 31

Oceania-New Zealand

About Tim F Cooper

Tim F Cooper, With an exceptional h-index of 31 and a recent h-index of 20 (since 2020), a distinguished researcher at Massey University, specializes in the field of Experimental evolution, Adaptive evolution, Mutation interactions.

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

Interaction with a phage gene underlie costs of a β-lactamase

Mutations in iclR increase evolvability by facilitating compensation that exposes cryptic beneficial mutations in experimental populations of Escherichia coli

Costs of antibiotic resistance genes depend on host strain and environment and can influence community composition

From individual behaviors to collective outcomes: fruiting body formation in Dictyostelium as a group-level phenotype

Fitness of evolving bacterial populations is contingent on deep and shallow history but only shallow history creates predictable patterns

The cost of evolved constitutive lac gene expression is usually, but not always, maintained during evolution of generalist populations

Historical Contingency Causes Divergence in Adaptive Expression of the lac Operon

Dynamics of bacterial adaptation

Tim F Cooper Information

University

Position

School of Natural and Computational Sciences

Citations(all)

3917

Citations(since 2020)

1377

Cited By

3155

hIndex(all)

31

hIndex(since 2020)

20

i10Index(all)

40

i10Index(since 2020)

31

Email

Access Email

University Profile Page

Massey University

Google Scholar

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Tim F Cooper Skills & Research Interests

Experimental evolution

Adaptive evolution

Mutation interactions

Top articles of Tim F Cooper

Title

Journal

Author(s)

Publication Date

Interaction with a phage gene underlie costs of a β-lactamase

Mbio

Huei-Yi Lai

Tim F Cooper

2024/1/9

Mutations in iclR increase evolvability by facilitating compensation that exposes cryptic beneficial mutations in experimental populations of Escherichia coli

bioRxiv

Rachel K Staples

Tim F Cooper

2024

Costs of antibiotic resistance genes depend on host strain and environment and can influence community composition

bioRxiv

Huei-Yi Lai

Tim F Cooper

2023/9/11

From individual behaviors to collective outcomes: fruiting body formation in Dictyostelium as a group-level phenotype

Evolution

Jennie J Kuzdzal-Fick

Armando Moreno

Cathleen ME Broersma

Tim F Cooper

Elizabeth A Ostrowski

2023/3/1

Fitness of evolving bacterial populations is contingent on deep and shallow history but only shallow history creates predictable patterns

Proceedings of the Royal Society B

Chelsea E Smith

Adam NH Smith

Tim F Cooper

Francisco B-G Moore

2022/9/14

The cost of evolved constitutive lac gene expression is usually, but not always, maintained during evolution of generalist populations

Ecology and evolution

Kelly N Phillips

Tim F Cooper

2021/9

Historical Contingency Causes Divergence in Adaptive Expression of the lac Operon

Molecular Biology and Evolution

Kedar Karkare

Huei-Yi Lai

Ricardo BR Azevedo

Tim F Cooper

2021/7/1

Dynamics of bacterial adaptation

Huei-Yi Lai

Tim F Cooper

2021/4/30

Bacterial evolution in high-osmolarity environments

MBio

Spencer Cesar

Maya Anjur-Dietrich

Brian Yu

Ethan Li

Enrique Rojas

...

2020/8/25

Environment-dependent costs and benefits of recombination in independently evolved populations of Escherichia coli

Evolution

Yinhua Wang

Tim F Cooper

2020/8/1

See List of Professors in Tim F Cooper University(Massey University)