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1. Physics of Living Systems
2. Evolutionary Biology
Magnetotactic Bacteria Optimally Navigate Natural Pore Networks

Alexander P Petroff, Julia Hernandez ... Nina Radchenko-Hannafin
Revised

Reviewed Preprint v2
Updated May 8, 2025
- Valuable
- Convincing
1. Physics of Living Systems
Physiological magnetic field strengths help magnetotactic bacteria navigate in simulated sediments

Agnese Codutti, Mohammad A Charsooghi ... Stefan Klumpp

Microfluidics experiments and simulations show that magnetotactic bacteria are adapted to the geomagnetic field strength for optimal navigation in sediment environments.
Version of Record
Research Article May 1, 2025
- Valuable
- Compelling
1. Computational and Systems Biology
2. Physics of Living Systems
Exploiting fluctuations in gene expression to detect causal interactions between genes

Euan Joly-Smith, Mir Mikdad Talpur ... Andreas Hilfinger
Revised

Reviewed Preprint v2
Updated Apr 22, 2025
- Important
- Solid
1. Physics of Living Systems
Modeling collective behavior in groups of mice housed under semi-naturalistic conditions

Xiaowen Chen, Maciej Winiarksi ... Aleksandra M Walczak

The social structure of interactions in freely behaving animals predicts the effects of perturbing the neural plasticity of one individual on group sociability.
Version of Record
Research Article Apr 22, 2025
- Valuable
- Solid
1. Physics of Living Systems
Differential spatial regulation and activation of integrin nanoclusters inside focal adhesions

Sarah Keary, Nicolas Mateos ... Maria F Garcia-Parajo
Not revised

Reviewed Preprint v1
Apr 15, 2025
- Important
- Solid
1. Physics of Living Systems
Quantifying the shape of cells - from Minkowski tensors to p-atic order

Lea Happel, Griseldis Oberschelp ... Axel Voigt
Not revised

Reviewed Preprint v1
Apr 15, 2025
- Important
- Convincing
- Incomplete
1. Physics of Living Systems
Design principles of transcription factors with intrinsically disordered regions

Wencheng Ji, Ori Hachmo ... Ariel Amir
Not revised

Reviewed Preprint v1
Apr 14, 2025
- Important
- Compelling
1. Physics of Living Systems
Cell cycle and age-related modulations of mouse chromosome stiffness

Ning Liu, Wenan Qiang ... Huanyu Qiao

Mammalian condensed chromosomes exhibit diverse structural properties, as reflected in their varying stiffness across different cell stages and with aging.
Version of Record
Research Article Apr 14, 2025
- Valuable
- Incomplete
1. Physics of Living Systems
Endurance Exercise Ameliorates Aging-Related Bradyarrhythmia in Drosophila Resulting from miR-283 Knockdown in LN_vs

Qiufang Li, Xu Ping ... Lan Zheng
Not revised

Reviewed Preprint v1
Apr 11, 2025
- Valuable
- Incomplete
1. Chromosomes and Gene Expression
2. Physics of Living Systems
A mathematical model clarifies the ABC Score formula used in enhancer-gene prediction

Joseph Nasser, Kee-Myoung Nam, Jeremy Gunawardena
Not revised

Reviewed Preprint v1
Apr 11, 2025
- Important
- Convincing

Browse our latest Physics of Living Systems articles

Magnetotactic Bacteria Optimally Navigate Natural Pore Networks

Physiological magnetic field strengths help magnetotactic bacteria navigate in simulated sediments

Exploiting fluctuations in gene expression to detect causal interactions between genes

Modeling collective behavior in groups of mice housed under semi-naturalistic conditions

Differential spatial regulation and activation of integrin nanoclusters inside focal adhesions

Quantifying the shape of cells - from Minkowski tensors to p-atic order

Design principles of transcription factors with intrinsically disordered regions

Cell cycle and age-related modulations of mouse chromosome stiffness

Endurance Exercise Ameliorates Aging-Related Bradyarrhythmia in Drosophila Resulting from miR-283 Knockdown in LN_vs

A mathematical model clarifies the ABC Score formula used in enhancer-gene prediction

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