Record in detail


General Info

  • lamp_id:L01A003280
  • Name:DMS5_PHYAZ
  • FullName:Dermaseptin-H5
  • Source:Phyllomedusa azurea
  • Mass:2454.9 Da
  • Sequence Length:25 aa
  • Isoelectric Point:10.51
  • Activity:Antibacterial
  • Sequence
        GLWSTIKNVGKEAAIAAGKAVLGSL
  • Function:Has antibacterial activity against the Gram-negative bacteria E.coli ATCC 11775 (MIC=0.5 uM), and the Gram-positive bacteria S.aureus ATCC 12600 (MIC=0.5 uM) and M.luteus ATCC 49732 (MIC=2.0 uM). Does not inhibit the growth of the fungus C.albicans. Probably acts by disturbing membrane functions with its amphipathic structure.

Cross-Linking

Top similar AMPs

  • Top similar AMPs on LAMP
  • 1. L12A05358|    From 41 To 65 E-value: 0.00000001 Score: 50.4
        GLWSTIKNVGKEAAIAAGKAVLGSL
  • 2. L02A001352    From 1 To 25 E-value: 0.00000004 Score: 48.5
        GLWSTIKNVGKEAAIAAGKAVLGSL
  • 3. L01A003280    From 1 To 25 E-value: 0.00000005 Score: 48.1
        GLWSTIKNVGKEAAIAAGKAVLGSL
  • 4. L13A024422    From 1 To 24 E-value: 0.0000002 Score: 46.6
        GLWSTIKNVGKEAAIAAGKAVLGS
  • 5. L03A000083    From 46 To 73 E-value: 0.006 Score: 31.2
        GMWSTIRNVGKSAAKAANLPAKAALGAI

Structure

  •   Domains
  •   1  Name:Brevinin    Interpro Link:IPR004275
  •   2  Name:Dermaseptin    Interpro Link:IPR022731
  •   3  Name:Dermaseptin_precursor    Interpro Link:IPR016322
  •   Structures

        No structs found on LAMP database

Activity

  •   Antibacterial Activities
  •   1  Target:  E. coli ATCC 11775  MIC:  1.23 μg/ml  (0.501039 μM)  
  •   2  Target:  S.aureus ATCC 12600  MIC:  1.23 μg/ml  (0.501039 μM)  
  •   3  Target:  M. luteus ATCC 49732  MIC:  4.91 μg/ml  (2.00008 μM)  
  •   4  Target:  E. coli  MIC:  1.22745 μg/ml  (0.5 μM)  
  •   5  Target:  S. aureus  MIC:  1.22745 μg/ml  (0.5 μM)  

Toxicity

  •   Toxicity

  •     No toxicity records found on LAMP database

Reference

  •   Reference
  •   [1]  McClean S.,Shaw C.,Orr D.F.,Bjourson A.J.,Thompson A.H.,
  •   Title:A combined mass spectrometric and cDNA sequencing approach to the isolation and characterization of novel antimicrobial peptides from the skin secretions of Phyllomedusa hypochondrialis azurea.
  •   Journal:Peptides, 2007, 28, 1331-1343  [PubMed:17553595]

Comments

  •   Comments

  •     No comments found on LAMP database



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