Non-specific receptor-binding fungal targeting antimicrobial peptide and its preparation method and application
An antimicrobial peptide and binding technology, which is applied in the field of non-specific receptor binding fungal targeting antimicrobial peptides and its preparation, can solve the problems of non-serious, negative effects of antifungal drugs that cannot be ignored, and difficult treatment methods, and achieve precise target The effects of specificity, high cell viability, and high application value
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Embodiment 1
[0014] Use R language to statistically analyze the amino acid sequence characteristics of fungal antimicrobial peptides and broad-spectrum antimicrobial peptides in the natural antimicrobial peptide library, compare the parameters of the two types of antimicrobial peptides, especially the amino acid composition, and screen to obtain the best amino acid composition, namely Ala, Cys ,Ser,Leu,Ile; on this basis, the symmetrical structure of amino acid centered on tryptophan (++hyh W hyh++), (h, hydrophobic amino acid; +, positively charged amino acid; y, hydrophilic amino acid ); To obtain a short-chain targeting antimicrobial peptide sequence with low toxicity, high efficiency and less likely to cause immune regulation disorder.
[0015] Amino acid sequence of table 1 antimicrobial peptide
[0016]
Embodiment 2
[0018] Synthesis of pheromone-labeled antimicrobial peptides by solid-phase chemical synthesis
[0019] 1. The preparation of antimicrobial peptides is carried out one by one from the C-terminal to the N-terminal, and is completed by a peptide synthesizer. First, Fmoc-X (X is the first amino acid at the C-terminal of each antimicrobial peptide) is inserted into Wang resin, and then the Fmoc group is removed to obtain X-Wang resin; then Fmoc-Y-Trt-OH (9 -Fmoxy-trimethyl-Y, Y is the second amino acid at the C-terminus of each antimicrobial peptide); according to this procedure, it is synthesized from the C-terminus to the N-terminus until the synthesis is completed, and the side of the Fmoc group is removed chain protection resin;
[0020] 2. Add a cleavage reagent to the peptide resin obtained above, react for 2 hours at 20°C in the dark, filter; wash the precipitate with TFA (trifluoroacetic acid), mix the washing liquid with the above filtrate, concentrate with a rotary evap...
Embodiment 3
[0024] Determination of Antimicrobial Peptide Activity
[0025] 1. Determination of antibacterial activity: the antimicrobial peptides are configured into a certain storage solution for use. The minimum inhibitory concentrations of several antimicrobial peptides were determined by the broth microdilution method. Using 0.01% acetic acid containing 0.2% BSA (bacteria) and RPMI1640 (fungus) added with MOPS as diluents, a series of gradient antimicrobial peptide solutions were sequentially prepared using the double dilution method. Take 100 μL of the above solution and place it in a 96-well cell culture plate, then add an equal volume of the bacteria solution to be tested (~10 5 individual / mL) in each well. Positive controls (containing bacterial fluid but not antimicrobial peptides) and negative controls (neither bacterial fluid nor peptides) were set up. Incubate at a constant temperature of 37°C for 20 hours (for fungi, cultivate at 28°C for 48 hours), and the minimum inhibi...
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