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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:

Application of Antimicrobial Peptides of the Innate Immune System in Combination With Conventional Antibiotics—A Novel Way to Combat Antibiotic Resistance?
Maria S. Zharkova, Д. С. Орлов, O. Yu. Golubeva, et al.
Frontiers in Cellular and Infection Microbiology (2019) Vol. 9
Open Access | Times Cited: 230

Showing 1-25 of 230 citing articles:

Coronavirus infections and immune responses
Geng Li, Yaohua Fan, Yanni Lai, et al.
Journal of Medical Virology (2020) Vol. 92, Iss. 4, pp. 424-432
Open Access | Times Cited: 1945
The value of antimicrobial peptides in the age of resistance
Maria Magana, Pushpanathan Muthuirulan, Ana L. Santos, et al.
The Lancet Infectious Diseases (2020) Vol. 20, Iss. 9, pp. e216-e230
Closed Access | Times Cited: 845
Progress in Alternative Strategies to Combat Antimicrobial Resistance: Focus on Antibiotics
Jayaseelan Murugaiyan, P. Anand Kumar, G. Srinivasa Rao, et al.
Antibiotics (2022) Vol. 11, Iss. 2, pp. 200-200
Open Access | Times Cited: 299
Antimicrobial peptides (AMPs): A promising class of antimicrobial compounds
Mine Erdem Büyükkiraz, Zülal Kesmen
Journal of Applied Microbiology (2021) Vol. 132, Iss. 3, pp. 1573-1596
Closed Access | Times Cited: 285
Applications of Lysozyme, an Innate Immune Defense Factor, as an Alternative Antibiotic
Patrizia Ferraboschi, Samuele Ciceri, Paride Grisenti
Antibiotics (2021) Vol. 10, Iss. 12, pp. 1534-1534
Open Access | Times Cited: 262
The Demand for New Antibiotics: Antimicrobial Peptides, Nanoparticles, and Combinatorial Therapies as Future Strategies in Antibacterial Agent Design
Ángel León-Buitimea, Cesar R. Garza-Cárdenas, Javier A. Garza-Cervantes, et al.
Frontiers in Microbiology (2020) Vol. 11
Open Access | Times Cited: 233
Combating Implant Infections: Shifting Focus from Bacteria to Host
Saber Amin Yavari, Suzanne M. Castenmiller, Jos A. G. van Strijp, et al.
Advanced Materials (2020) Vol. 32, Iss. 43
Open Access | Times Cited: 185
The Potential of Human Peptide LL-37 as an Antimicrobial and Anti-Biofilm Agent
Kylen E. Ridyard, Joerg Overhage
Antibiotics (2021) Vol. 10, Iss. 6, pp. 650-650
Open Access | Times Cited: 158
Antimicrobial peptides, conventional antibiotics, and their synergistic utility for the treatment of drug‐resistant infections
Yiyun Zhu, Weijing Hao, Xia Wang, et al.
Medicinal Research Reviews (2022) Vol. 42, Iss. 4, pp. 1377-1422
Closed Access | Times Cited: 156
Antimicrobial Peptides—Mechanisms of Action, Antimicrobial Effects and Clinical Applications
Jasminka Talapko, Tomislav Meštrović, Martina Juzbašić, et al.
Antibiotics (2022) Vol. 11, Iss. 10, pp. 1417-1417
Open Access | Times Cited: 132
Flourishing Antibacterial Strategies for Osteomyelitis Therapy
Xukai Wang, Mingran Zhang, Tongtong Zhu, et al.
Advanced Science (2023) Vol. 10, Iss. 11
Open Access | Times Cited: 59
Synergistic action of antimicrobial peptides and antibiotics: current understanding and future directions
Sattar Taheri-Araghi
Frontiers in Microbiology (2024) Vol. 15
Open Access | Times Cited: 24
Advances in Lipid and Metal Nanoparticles for Antimicrobial Peptide Delivery
Marcin Makowski, Ítala C. Silva, Constança Pais do Amaral, et al.
Pharmaceutics (2019) Vol. 11, Iss. 11, pp. 588-588
Open Access | Times Cited: 118
Cell-Free Protein Synthesis: A Promising Option for Future Drug Development
Srujan Kumar Dondapati, Marlitt Stech, Anne Zemella, et al.
BioDrugs (2020) Vol. 34, Iss. 3, pp. 327-348
Open Access | Times Cited: 95
Tantalum and its derivatives in orthopedic and dental implants: Osteogenesis and antibacterial properties
Xu Wang, Boyu Ning, Xibo Pei
Colloids and Surfaces B Biointerfaces (2021) Vol. 208, pp. 112055-112055
Closed Access | Times Cited: 92
Cyanobacteria and Eukaryotic Microalgae as Emerging Sources of Antibacterial Peptides
Verónica Rojas, Luís Rivas, Constanza Cárdenas, et al.
Molecules (2020) Vol. 25, Iss. 24, pp. 5804-5804
Open Access | Times Cited: 87
Helicobacter pylori treatment in the post-antibiotics era—searching for new drug targets
Paula Roszczenko, Marta Ilona Wojtyś, Elżbieta Katarzyna Jagusztyn-Krynicka
Applied Microbiology and Biotechnology (2020) Vol. 104, Iss. 23, pp. 9891-9905
Open Access | Times Cited: 85
amPEPpy 1.0: a portable and accurate antimicrobial peptide prediction tool
Travis J. Lawrence, Dana L. Carper, Margaret K. Spangler, et al.
Bioinformatics (2020) Vol. 37, Iss. 14, pp. 2058-2060
Open Access | Times Cited: 83
AMPGAN v2: Machine Learning-Guided Design of Antimicrobial Peptides
Colin M. Van Oort, Jonathon B. Ferrell, Jacob M. Remington, et al.
Journal of Chemical Information and Modeling (2021) Vol. 61, Iss. 5, pp. 2198-2207
Open Access | Times Cited: 83
Promising role of defensins peptides as therapeutics to combat against viral infection
Subhash Solanki, Parul Singh, Poonam Kashyap, et al.
Microbial Pathogenesis (2021) Vol. 155, pp. 104930-104930
Open Access | Times Cited: 63
Essential Oils: A Natural Weapon against Antibiotic-Resistant Bacteria Responsible for Nosocomial Infections
Ramona Iseppi, Martina Mariani, Carla Condò, et al.
Antibiotics (2021) Vol. 10, Iss. 4, pp. 417-417
Open Access | Times Cited: 61
Antimicrobial Peptides Therapy: An Emerging Alternative for Treating Drug-Resistant Bacteria.
Ifeanyi Elibe, Emeka Innocent Nweze
PubMed (2022) Vol. 95, Iss. 4, pp. 445-463
Closed Access | Times Cited: 61
Microbial resistance to nanotechnologies: An important but understudied consideration using antimicrobial nanotechnologies in orthopaedic implants
Zhuoran Wu, Brian Chan, Jessalyn Low, et al.
Bioactive Materials (2022) Vol. 16, pp. 249-270
Open Access | Times Cited: 56
Milk-Derived Antimicrobial Peptides: Overview, Applications, and Future Perspectives
Anamika Singh, Rachael Terumbur Duche, Arundhati Ganesh Wandhare, et al.
Probiotics and Antimicrobial Proteins (2022) Vol. 15, Iss. 1, pp. 44-62
Open Access | Times Cited: 52
The Use of Antibody-Antibiotic Conjugates to Fight Bacterial Infections
Marco Cavaco, Miguel A. R. B. Castanho, Vera Neves
Frontiers in Microbiology (2022) Vol. 13
Open Access | Times Cited: 50
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