OpenAlex Citation Counts

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OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

Requested Article:

Restriction endonuclease cleavage of phage DNA enables resuscitation from Cas13-induced bacterial dormancy
Madison C Williams, Alexandra E. Reker, Shally R. Margolis, et al.
Nature Microbiology (2023) Vol. 8, Iss. 3, pp. 400-409
Open Access | Times Cited: 27

Showing 1-25 of 27 citing articles:

The highly diverse antiphage defence systems of bacteria
Héloïse Georjon, Aude Bernheim
Nature Reviews Microbiology (2023) Vol. 21, Iss. 10, pp. 686-700
Closed Access | Times Cited: 210

A host of armor: Prokaryotic immune strategies against mobile genetic elements
David Mayo-Muñoz, Rafael Pinilla‐Redondo, Nils Birkholz, et al.
Cell Reports (2023) Vol. 42, Iss. 7, pp. 112672-112672
Open Access | Times Cited: 64

Phage Paride can kill dormant, antibiotic-tolerant cells of Pseudomonas aeruginosa by direct lytic replication
Enea Maffei, Anne-Kathrin Woischnig, Marco Burkolter, et al.
Nature Communications (2024) Vol. 15, Iss. 1
Open Access | Times Cited: 22

Accumulation of defense systems in phage-resistant strains of Pseudomonas aeruginosa
Ana Rita Costa, Daan F. van den Berg, Jelger Q. Esser, et al.
Science Advances (2024) Vol. 10, Iss. 8
Open Access | Times Cited: 22

Abortive infection antiphage defense systems: separating mechanism and phenotype
Nitzan Aframian, Avigdor Eldar
Trends in Microbiology (2023) Vol. 31, Iss. 10, pp. 1003-1012
Closed Access | Times Cited: 29

Multi-layered genome defences in bacteria
Aleksei Agapov, Kate S. Baker, Paritosh Bedekar, et al.
Current Opinion in Microbiology (2024) Vol. 78, pp. 102436-102436
Open Access | Times Cited: 10

Diverse viral cas genes antagonize CRISPR immunity
Mark A. Katz, Edith M Sawyer, Luke Oriolt, et al.
Nature (2024)
Closed Access | Times Cited: 6

The bacterial defense system MADS interacts with CRISPR-Cas to limit phage infection and escape
Alice Maestri, Benoît J. Pons, Elizabeth Pursey, et al.
Cell Host & Microbe (2024) Vol. 32, Iss. 8, pp. 1412-1426.e11
Open Access | Times Cited: 5

Phages produce persisters
Laura Fernández‐García, Joy Kirigo, Daniel Huelgas‐Méndez, et al.
Microbial Biotechnology (2024) Vol. 17, Iss. 8
Open Access | Times Cited: 5

Micro-interfacial behavior of antibiotic-resistant bacteria and antibiotic resistance genes in the soil environment: A review
Jibao Deng, W. Zhang, Lingyu Zhang, et al.
Environment International (2024) Vol. 191, pp. 108972-108972
Open Access | Times Cited: 4

Phage-Defense Systems Are Unlikely to Cause Cell Suicide
Laura Fernández-García, Thomas K. Wood
Viruses (2023) Vol. 15, Iss. 9, pp. 1795-1795
Open Access | Times Cited: 11

Toxin/antitoxin systems induce persistence and work in concert with restriction/modification systems to inhibit phage
Laura Fernández-García, Sooyeon Song, Joy Kirigo, et al.
Microbiology Spectrum (2023) Vol. 12, Iss. 1
Open Access | Times Cited: 10

Phage infection fronts trigger early sporulation and collective defense in bacterial populations
Andreea Măgălie, Anastasios Marantos, Daniel Schwartz, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Open Access | Times Cited: 3

The Cas10 nuclease activity relieves host dormancy to facilitate spacer acquisition and retention during type III-A CRISPR immunity
Naama Aviram, Amanda K. Shilton, Nia G. Lyn, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Open Access | Times Cited: 2

Implications of lytic phage infections inducing persistence
Viviana Sanchez‐Torres, Joy Kirigo, Thomas K. Wood
Current Opinion in Microbiology (2024) Vol. 79, pp. 102482-102482
Closed Access | Times Cited: 2

Anti-CRISPR Discovery: Using Magnets to Find Needles in Haystacks
Kevin J. Forsberg
Journal of Molecular Biology (2023) Vol. 435, Iss. 7, pp. 167952-167952
Open Access | Times Cited: 7

Toxin/Antitoxin Systems Induce Persistence and Work in Concert with Restriction/Modification Systems to Inhibit Phage
Laura Fernández-García, Sooyeon Song, Joy Kirigo, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2023)
Open Access | Times Cited: 7

Ribosome inactivation by Escherichia coli GTPase RsgA inhibits T4 phage
Laura Fernández‐García, María Tomás, Thomas K. Wood
Frontiers in Microbiology (2023) Vol. 14
Open Access | Times Cited: 6

Accumulation of defense systems in phage resistant strains ofPseudomonas aeruginosa
Ana Rita Costa, Daan F. van den Berg, Jelger Q. Esser, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2022)
Open Access | Times Cited: 9

Cas10 relieves host growth arrest to facilitate spacer retention during type III-A CRISPR-Cas immunity
Naama Aviram, Amanda K. Shilton, Nia G. Lyn, et al.
Cell Host & Microbe (2024)
Closed Access | Times Cited: 1

Systematic functional assessment of antiphage systems in their native host
Emmanuelle David, Clarisse Plantady, Sophiane Poissonnier, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Open Access | Times Cited: 1

Phages Produce Persisters
Laura Fernández-García, Joy Kirigo, Daniel Huelgas‐Méndez, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2023)
Open Access | Times Cited: 4

Conjugation’s Toolkit: the Roles of Nonstructural Proteins in Bacterial Sex
Matthew Cooke, Christophe Herman
Journal of Bacteriology (2023) Vol. 205, Iss. 3
Open Access | Times Cited: 2

Diverse viralcasgenes antagonize CRISPR immunity
Mark A Katz, Edith M Sawyer, Albina Kozlova, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2023)
Open Access | Times Cited: 2

Diversity and abundance of ring nucleases in type III CRISPR-Cas loci
Ville Hoikkala, Haotian Chi, Sabine Grüschow, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Open Access

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