Gallinacin-2 precursor
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Gallinacin-2 precursor

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Gallinacin-2 precursor has potent antibacterial activity against the Gram-negative bacterium E.coli ML-35, and against the Gram-positive bacterium L.monocytogenes EGD. It lacks antifungal activity against C.albicans.

Category
Functional Peptides
Catalog number
BAT-012158
Sequence
FCKGGSCHFGGCPSHLIKVGSCFGFRSCCKWPWNA
1. Gallinacins: cysteine-rich antimicrobial peptides of chicken leukocytes
S S Harwig, K M Swiderek, V N Kokryakov, L Tan, T D Lee, E A Panyutich, G M Aleshina, O V Shamova, R I Lehrer FEBS Lett. 1994 Apr 11;342(3):281-5. doi: 10.1016/0014-5793(94)80517-2.
We purified three homologous antimicrobial peptides ('gallinacins') from chicken leukocytes, examined their antimicrobial activity in vitro, and established their primary sequences by a combination of gas phase microsequencing and on-line LC-ESI-MS analysis of endo- and exoprotease peptide digests. The peptides contained 36-39 amino acid residues, were relatively cationic due to their numerous lysine and arginine residues, and each contained 3 intramolecular cystine disulfide bonds. Gallinacins showed primary sequence homology to the recently delineated beta-defensin family, heretofore found only in the respiratory epithelial cells and neutrophils of cattle, suggesting that beta-defensins originated at least 250 million years ago, before avian and mammalian lineages diverged. The 9 invariant residues (6 cysteines, 2 glycines and 1 proline) common to avian gallinacins and bovine beta-defensins are likely to constitute the essential primary structural motif of this ancient family of host-defense peptides.
2. Isolation of antimicrobial peptides from avian heterophils
E W Evans, G G Beach, J Wunderlich, B G Harmon J Leukoc Biol. 1994 Nov;56(5):661-5. doi: 10.1002/jlb.56.5.661.
Five bactericidal peptides (chicken heterophil peptides CHP1 and CHP2; turkey heterophil peptides THP1, THP2, and THP3) were purified from avian heterophil granules. All peptides were cationic and rich in cysteine, arginine, and lysine. The complete amino acid sequence, consisting of 39 amino acids, was determined for CHP1. This peptide had a molecular weight of 4481 as determined by mass spectrometry. Partial NH2-terminal amino acid sequences were obtained for the remaining peptides. Both chicken peptides and THP1 shared sequence homology at 22 residues and a cysteine motif which was similar to that of bovine beta-defensins. THP2 and THP3 were homologous to each other but were not homologous to the other three and had a unique cysteine motif. Peptides CHP1, CHP2, and THP1 killed Staphylococcus aureus and Escherichia coli in vitro, whereas THP2 and THP3 killed only S. aureus in vitro.
3. Gallinacin-3, an inducible epithelial beta-defensin in the chicken
C Zhao, T Nguyen, L Liu, R E Sacco, K A Brogden, R I Lehrer Infect Immun. 2001 Apr;69(4):2684-91. doi: 10.1128/IAI.69.4.2684-2691.2001.
Gallinacin-3 and gallopavin-1 (GPV-1) are newly characterized, epithelial beta-defensins of the chicken (Gallus gallus) and turkey (Meleagris gallopavo), respectively. In normal chickens, the expression of gallinacin-3 was especially prominent in the tongue, bursa of Fabricius, and trachea. It also occurred in other organs, including the skin, esophagus, air sacs, large intestine, and kidney. Tracheal expression of gallinacin-3 increased significantly after experimental infection of chickens with Haemophilus paragallinarum, whereas its expression in the tongue, esophagus, and bursa of Fabricius was unaffected. The precursor of gallinacin-3 contained a long C-terminal extension not present in the prepropeptide. By comparing the cDNA sequences of gallinacin-3 and GPV-1, we concluded that a 2-nucleotide insertion into the gallinacin-3 gene had induced a frameshift that read through the original stop codon and allowed the chicken propeptide to lengthen. The striking structural resemblance of the precursors of beta-defensins to those of crotamines (highly toxic peptides found in rattlesnake venom) supports their homology, even though defensins are specialized to kill microorganisms and crotamines are specialized to kill much larger prey.
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