1. The Effects of Melittin and Apamin on Airborne Fungi-Induced Chemical Mediator and Extracellular Matrix Production from Nasal Polyp Fibroblasts
    Seung-Heon Shin et al, 2017, Toxins CrossRef
  2. Antimicrobial Properties of Apis mellifera’s Bee Venom
    Hesham El-Seedi et al, 2020, Toxins CrossRef
  3. Natural Products-Derived Chemicals: Breaking Barriers to Novel Anti-HSV Drug Development
    Jakub Treml et al, 2020, Viruses CrossRef
  4. Hydrogels Embedded With Melittin and Tobramycin Are Effective Against Pseudomonas aeruginosa Biofilms in an Animal Wound Model
    Michael M. Maiden et al, 2019, Frontiers in Microbiology CrossRef
  5. Enhanced intracellular delivery of macromolecules by melittin derivatives mediated cellular uptake
    Heiwon Kyung et al, 2018, Journal of Industrial and Engineering Chemistry CrossRef
  6. Insects, arachnids and centipedes venom: A powerful weapon against bacteria. A literature review
    Filippo Fratini et al, 2017, Toxicon CrossRef
  7. Antimicrobials from Venomous Animals: An Overview
    Tania Yacoub et al, 2020, Molecules CrossRef
  8. Antimicrobial Peptides: A New Hope in Biomedical and Pharmaceutical Fields
    Antonio Moretta et al, 2021, Frontiers in Cellular and Infection Microbiology CrossRef
  9. In-depth characterization of antibacterial activity of melittin against Staphylococcus aureus and use in a model of non-surgical MRSA-infected skin wounds
    William Gustavo Lima et al, 2021, European Journal of Pharmaceutical Sciences CrossRef
    L. I. Butenko et al, 2018, Pharmacy & Pharmacology CrossRef
  11. Antimicrobial Peptides with Antibacterial Activity against Vancomycin-Resistant Staphylococcus aureus Strains: Classification, Structures, and Mechanisms of Action
    Isabella Hernández-Aristizábal et al, 2021, International Journal of Molecular Sciences CrossRef
  12. In vitro and in vivo toxicity and antibacterial efficacy of melittin against clinical extensively drug-resistant bacteria
    Parvin Askari et al, 2021, BMC Pharmacology and Toxicology CrossRef
  13. Comparison of Antivirulence Activities of Black Ginseng against Methicillin-Resistant Staphylococcus aureus According to the Number of Repeated Steaming and Drying Cycles
    Young-Seob Lee et al, 2021, Antibiotics CrossRef
  14. Venom-derived peptide Mastoparan-1 eradicates planktonic and biofilm-embedded methicillin-resistant Staphylococcus aureus isolates
    Hamed Memariani et al, 2018, Microbial Pathogenesis CrossRef
  15. The anti‑hepatocellular carcinoma activity of Mel‑P15 is mediated by natural killer cells
    Tao Xu et al, 2017, Oncology Letters CrossRef
  16. Natural Anti-biofilm Agents: Strategies to Control Biofilm-Forming Pathogens
    Rojita Mishra et al, 2020, Frontiers in Microbiology CrossRef
  17. Beehive Products as Antibacterial Agents: A Review
    Rita Abou Nader et al, 2021, Antibiotics CrossRef
  18. Applications and evolution of melittin, the quintessential membrane active peptide
    Shantanu Guha et al, 2021, Biochemical Pharmacology CrossRef
  19. The Effect of Whole Honey Bee Venom (Apismellifera) on Reducing Skin Infection of Rabbits Caused by Methicillin Resistant Staphylococcus aureus: An In vivo Study
    Lamyaa Kadhim Baqer et al, 2018, Journal of Pure and Applied Microbiology CrossRef
  20. Helical Structure of Recombinant Melittin
    Lisa S. Ramirez et al, 2019, The Journal of Physical Chemistry B CrossRef
  21. Bacterial Nosocomial Infections: Multidrug Resistance as a Trigger for the Development of Novel Antimicrobials
    Sílvia A. Sousa et al, 2021, Antibiotics CrossRef
  22. Influence of apitoxin and melittin from Apis mellifera bee on Staphylococcus aureus strains
    Ana Flávia Marques Pereira et al, 2020, Microbial Pathogenesis CrossRef
  23. Highly synergistic activity of melittin with imipenem and colistin in biofilm inhibition against multidrug-resistant strong biofilm producer strains of Acinetobacter baumannii
    Ali Mohammadi Bardbari et al, 2018, European Journal of Clinical Microbiology & Infectious Diseases CrossRef
  24. Antimicrobial Peptides Derived From Insects Offer a Novel Therapeutic Option to Combat Biofilm: A Review
    Alaka Sahoo et al, 2021, Frontiers in Microbiology CrossRef
  25. Design and characterization of short hybrid antimicrobial peptides from pEM-2, mastoparan-VT1, and mastoparan-B
    Hamed Memariani et al, 2017, Chemical Biology & Drug Design CrossRef
  26. MEL-pep, an analog of melittin, disrupts cell membranes and reverses 5-fluorouracil resistance in human hepatocellular carcinoma cells
    Mengyun Ke et al, 2018, The International Journal of Biochemistry & Cell Biology CrossRef
  27. Functional structure and antimicrobial activity of persulcatusin, an antimicrobial peptide from the hard tick Ixodes persulcatus
    Naruhide Miyoshi et al, 2016, Parasites & Vectors CrossRef
  28. Expression of novel lhmlt fusion protein using plant viral vector and study of its anticancer effect
    Zahid Naseri et al, 2020, Plant Cell, Tissue and Organ Culture (PCTOC) CrossRef
  29. Venom peptides – A comprehensive translational perspective in pain management
    Vidya V et al, 2021, Current Research in Toxicology CrossRef
  30. Mechanism of antimicrobial activity of honeybee (Apis mellifera) venom on Gram-negative bacteria: Escherichia coli and Pseudomonas spp.
    Izlem Haktanir et al, 2021, AMB Express CrossRef
  31. Diversity of peptidic and proteinaceous toxins from social Hymenoptera venoms
    José Roberto Aparecido dos Santos-Pinto et al, 2018, Toxicon CrossRef
  32. Insect Antimicrobial Peptides, a Mini Review
    Qinghua Wu et al, 2018, Toxins CrossRef
  33. Bottlebrush Polymer-Conjugated Melittin Exhibits Enhanced Antitumor Activity and Better Safety Profile
    Fei Jia et al, 2021, ACS Applied Materials & Interfaces CrossRef
  34. Antimicrobial Peptides and Proteins: From Nature’s Reservoir to the Laboratory and Beyond
    Tanumoy Sarkar et al, 2021, Frontiers in Chemistry CrossRef
  35. Potential Therapeutic Applications of Bee Venom on Skin Disease and Its Mechanisms: A Literature Review
    Haejoong Kim et al, 2019, Toxins CrossRef
  36. Antimicrobial Activity of an Extract of Hermetia illucens Larvae Immunized with Lactobacillus casei against Salmonella Species
    Kyu-Shik Lee et al, 2020, Insects CrossRef
  37. Therapeutic Properties of Bioactive Compounds from Different Honeybee Products
    Laura Cornara et al, 2017, Frontiers in Pharmacology CrossRef
  38. Challenge in the Discovery of New Drugs: Antimicrobial Peptides against WHO-List of Critical and High-Priority Bacteria
    Cesar Augusto Roque-Borda et al, 2021, Pharmaceutics CrossRef
  39. Melittin suppresses tumor progression by regulating tumor-associated macrophages in a Lewis lung carcinoma mouse model
    Chanju Lee et al, 2017, Oncotarget CrossRef
  40. Exploration Through the Venoms from Hymenoptera as Potential Therapeutic Agents in Cancer Therapy
    Maira Huerta-Rey et al, 2017, International Journal of Pharmacology CrossRef
  41. The antibacterial activity and toxin production control of bee venom in mouse MRSA pneumonia model
    Ryong Kong et al, 2020, BMC Complementary Medicine and Therapies CrossRef
  42. Activity of five antimicrobial peptides against periodontal as well as non-periodontal pathogenic strains
    Katharina Enigk et al, 2020, Journal of Oral Microbiology CrossRef
  43. Hydrophobic interactions modulate antimicrobial peptoid selectivity towards anionic lipid membranes
    Konstantin Andreev et al, 2018, Biochimica et Biophysica Acta (BBA) - Biomembranes CrossRef
  44. Review: Lessons Learned From Clinical Trials Using Antimicrobial Peptides (AMPs)
    Gabrielle S. Dijksteel et al, 2021, Frontiers in Microbiology CrossRef
  45. Synergistic activity of melittin with mupirocin: A study against methicillin-resistant S. Aureus (MRSA) and methicillin-susceptible S. Aureus (MSSA) isolates
    Reza Hakimi Alni et al, 2020, Saudi Journal of Biological Sciences CrossRef
  46. The membrane effects of melittin on gastric and colorectal cancer
    Caroline Soliman et al, 2019, PLOS ONE CrossRef
  47. Potent Activity of Hybrid Arthropod Antimicrobial Peptides Linked by Glycine Spacers
    Miray Tonk et al, 2021, International Journal of Molecular Sciences CrossRef
  48. Selected application of peptide molecules as pharmaceutical agents and in cosmeceuticals
    Manica Negahdaripour et al, 2019, Expert Opinion on Biological Therapy CrossRef
  49. Beyond Pollination: Honey Bees (Apis mellifera) as Zootherapy Keystone Species
    August Easton-Calabria et al, 2019, Frontiers in Ecology and Evolution CrossRef
  50. Bee venom-derived antimicrobial peptide melectin has broad-spectrum potency, cell selectivity, and salt-resistant properties
    Su Jin Ko et al, 2020, Scientific Reports CrossRef
  51. Melittin: from honeybees to superbugs
    Hamed Memariani et al, 2019, Applied Microbiology and Biotechnology CrossRef
  52. Quantitative Measurement of Melittin in Asian Honeybee Venom Using a New Method Including UPLC-QqTOF-MS
    Sheng Huang et al, 2020, Toxins CrossRef
  53. Developing Antimicrobial Synergy With AMPs
    Leora Duong et al, 2021, Frontiers in Medical Technology CrossRef
  54. Promising Antimicrobial Properties of Bioactive Compounds from Different Honeybee Products
    Magdalena Ratajczak et al, 2021, Molecules CrossRef
  55. Synergistic antimicrobial activity of melittin with clindamycin on the expression of encoding exfoliative toxin in Staphylococcus aureus
    Hassan Mahmoudi et al, 2020, Toxicon CrossRef