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1.
Electron. j. biotechnol ; Electron. j. biotechnol;32: 47-54, Mar. 2018. tab, ilus, graf
Article de Anglais | LILACS | ID: biblio-1022746

RÉSUMÉ

Background: Cathepsin C (CTSC) (dipeptidyl peptidase I, DPPI), is a member of the papain superfamily of cysteine proteases and involves in a variety of host reactions. However, the information of CTST in Chinese giant salamander (Andrias davidianus), an amphibian species with important evolutionary position and economic values, remained unclear. Results: The full-length salamander CTSC cDNA contained a 96 bp of 5'-UTR, a 1392 bp of ORF encoding 463 amino acids, and a 95 bp of 3'-UTR. The salamander CTSC possessed several sequence features similar to other reported CTSCs such as a signal peptide, a propeptide and a mature peptide. The active site triad of Cys, His and Asn were also found existing in salamander CTSC. Salamander CTSC mRNA was constitutively expressed in all the examined tissues with significantly variant expression level. The highest expression of CTSC was in intestine, followed with stomach, spleen, lung and brain. Following Aeromonas hydrophila infection for 12 h, salamander CTSC was significantly up-regulated in several tissues including lung, spleen, brain, kidney, heart, stomach and skin. Conclusion: CTSC plays roles in the immune response to bacterial infection, which provided valuable information for further studying the functions of CTSC in salamander.


Sujet(s)
Animaux , Urodela/génétique , Urodela/immunologie , Infections bactériennes à Gram négatif/médecine vétérinaire , Cathepsine C/immunologie , Urodela/microbiologie , Infections bactériennes à Gram négatif/immunologie , Clonage moléculaire , Aeromonas hydrophila/physiologie , Analyse de séquence , ADN complémentaire , Cathepsine C/génétique , Cathepsine C/métabolisme , Transcription inverse , Immunité innée/génétique
2.
Electron. j. biotechnol ; Electron. j. biotechnol;31: 93-99, Jan. 2018. ilus, graf, tab
Article de Anglais | LILACS | ID: biblio-1022150

RÉSUMÉ

Background: Peptidoglycan (PGN) recognition proteins (PGRPs) are important pattern recognition receptors of the host innate immune system that are involved in the immune defense against bacterial pathogens. PGRPs have been characterized in several fish species. The PGN-binding ability is important for the function of PGRPs. However, the PGRP-PGN interaction mechanism in fish remains unclear. In the present study, the 3-D model of a long PGRP of half-smooth tongue sole (Cynoglossus semilaevis) (csPGRP-L), a marine teleost with great economic value, was constructed through the comparative modeling method, and the key amino acids involved in the interaction with Lys-type PGNs and Dap-type PGNs were analyzed by molecular dynamics and molecular docking methods. Results: csPGRP-L possessed a typical PGRP structure, consisting of five ß-sheets and four α-helices. Molecular docking showed that the van der Waals forces had a slightly larger contribution than Coulombic interaction in the csPGRP-L-PGN complex. Moreover, the binding energies of csPGRP-L-PGNs computed by MM-PBSA method revealed that csPGRP-L might selectively bind both types of MTP-PGNs and MPP-PGNs. In addition, the binding energy of each residue of csPGRP-L was also calculated, revealing that the residues involved in the interaction with Lys-type PGNs were different from that with Dap-type PGNs. Conclusions: The 3-D structure of csPGRP-L possessed typical PGRP structure and might selectively bind both types of MTP- and MPP-PGNs, which provided useful insights to understanding the functions of fish PGRPs.


Sujet(s)
Animaux , Langue/immunologie , Poissons plats/immunologie , Poissons plats/métabolisme , Sites de fixation , Poissons plats/génétique , Peptidoglycane , Protéines de transport , Récepteurs de type Toll , Simulation de dynamique moléculaire , Simulation de docking moléculaire , Ligands
3.
Electron. j. biotechnol ; Electron. j. biotechnol;16(4): 3-3, July 2013. ilus, tab
Article de Anglais | LILACS | ID: lil-684018

RÉSUMÉ

Background: Interleukin-22 (IL-22) plays an important role in the regulation of immune responses. However, little is known about its function or structure in fish. Results: The IL-22 gene was first cloned from So-iny mullet (Liza haematocheila), one of commercially important fish species in China. Then, 3-D structure model of the mullet IL-22 was constructed by comparative modeling method using human IL-22 (1M4R) as template, and a 5 ns molecular dynamics (MD) was studied. The open reading frame (ORF) of mullet IL-22 cDNA was 555 bp, encoding 184 amino acids. The mullet IL-22 shared higher identities with the other fish IL-22 homologs and possessed a conserved IL-10 signature motif at its C-terminal. The mullet IL-22 model possessed six conserved helix structure. PROCHECK, SAVES and Molprobity server analysis confirmed that this model threaded well with human IL-22. Strikingly, analysis with CastP, cons-PPISP server suggested that the cysteines in mullet IL-22 might not be involved in the forming of disulfide bond for structural stabilization, but related to protein-protein interactions. Conclusions: The structure of IL-22 in So-iny mullet (Liza haematocheila) was constructed using comparative modeling method which provide more information for studying the function of fish IL-22.


Sujet(s)
Animaux , Interleukines/métabolisme , Simulation de dynamique moléculaire , Poissons/métabolisme , Logiciel , Analyse de séquence , Imagerie tridimensionnelle
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