Anurag Kumar Sinha

Overview

Explore the profile of Anurag Kumar Sinha including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 10

Citations 112

Followers 0

Related Specialties

Microbiology

Genetics

Molecular Biology

Top 10 Co-Authors

Benedicte Michel

David R F Leach

Adeline Durand

Kenn Gerdes

Francois-Xavier Barre

Christophe Possoz

Kristoffer Skovbo Winther

Jean-Michel Desfontaines

Maulesh Gadani

Helene Auger

Published In

PLoS Genet

Mol Microbiol

Front Microbiol

FEMS Microbiol Rev

Int J Biol Macromol

Affiliations

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Recent Articles

Protein bioactive complexes promote osteogenesis under microgravity environment

Kabir A, Mukilarasi B, Manohar A, Gadani M, Sinha A, Sharma P, et al.

Int J Biol Macromol . 2025 Feb; 303:140483. PMID: 39904451

The space microgravity environment and cosmic radiation pose a significant threat to musculoskeletal health, particularly bone mass. However, the critical mechanism underlying space-induced bone loss and its relation to cellular...

Regulation of microbial gene expression: the key to understanding our gut microbiome

Sinha A, Laursen M, Rask Licht T

Trends Microbiol . 2024 Aug; PMID: 39095208

During the past two decades, gut microbiome studies have established the significant impact of the gut microbiota and its metabolites on host health. However, the molecular mechanisms governing the production...

The RelA hydrolase domain acts as a molecular switch for (p)ppGpp synthesis

Sinha A, Winther K

Commun Biol . 2021 Apr; 4(1):434. PMID: 33790389

Bacteria synthesize guanosine tetra- and penta phosphate (commonly referred to as (p)ppGpp) in response to environmental stresses. (p)ppGpp reprograms cell physiology and is essential for stress survival, virulence and antibiotic...

Bacterial Chromosome Replication and DNA Repair During the Stringent Response

Sinha A, Lobner-Olesen A, Riber L

Front Microbiol . 2020 Sep; 11:582113. PMID: 32983079

The stringent response regulates bacterial growth rate and is important for cell survival under changing environmental conditions. The effect of the stringent response is pleiotropic, affecting almost all biological processes...

The Roles of Bacterial DNA Double-Strand Break Repair Proteins in Chromosomal DNA Replication

Sinha A, Possoz C, Leach D

FEMS Microbiol Rev . 2020 Apr; 44(3):351-368. PMID: 32286623

It is well established that DNA double-strand break (DSB) repair is required to underpin chromosomal DNA replication. Because DNA replication forks are prone to breakage, faithful DSB repair and correct...

CRP Interacts Specifically With Sxy to Activate Transcription in

Sondberg E, Sinha A, Gerdes K, Semsey S

Front Microbiol . 2019 Sep; 10:2053. PMID: 31543875

Horizontal gene transfer through natural competence is an important driving force of bacterial evolution and antibiotic resistance development. In several Gram-negative pathogens natural competence is regulated by the concerted action...

Fatty acid starvation activates RelA by depleting lysine precursor pyruvate

Sinha A, Winther K, Roghanian M, Gerdes K

Mol Microbiol . 2019 Aug; 112(4):1339-1349. PMID: 31400173

Bacteria undergoing nutrient starvation induce the ubiquitous stringent response, resulting in gross physiological changes that reprograms cell metabolism from fast to slow growth. The stringent response is mediated by the...

Broken replication forks trigger heritable DNA breaks in the terminus of a circular chromosome

Sinha A, Possoz C, Durand A, Desfontaines J, Barre F, Leach D, et al.

PLoS Genet . 2018 Mar; 14(3):e1007256. PMID: 29522563

It was recently reported that the recBC mutants of Escherichia coli, deficient for DNA double-strand break (DSB) repair, have a decreased copy number of their terminus region. We previously showed...

Division-induced DNA double strand breaks in the chromosome terminus region of Escherichia coli lacking RecBCD DNA repair enzyme

Sinha A, Durand A, Desfontaines J, Iurchenko I, Auger H, Leach D, et al.

PLoS Genet . 2017 Oct; 13(10):e1006895. PMID: 28968392

Marker frequency analysis of the Escherichia coli recB mutant chromosome has revealed a deficit of DNA in a specific zone of the terminus, centred on the dif/TerC region. Using fluorescence...

10.

The inactivation of rfaP, rarA or sspA gene improves the viability of the Escherichia coli DNA polymerase III holD mutant

Michel B, Sinha A

Mol Microbiol . 2017 Mar; 104(6):1008-1026. PMID: 28342235

The Escherichia coli holD mutant is poorly viable because the stability of holoenzyme polymerase III (Pol III HE) on DNA is compromised. Consequently, the SOS response is induced and the...