Coa_NP2 failed to relax endothelium-intact aortic rings that were

Coa_NP2 failed to relax endothelium-intact aortic rings that were precontracted with an isosmotic potassium Krebs–Henseleit solution (Fig. 6). Unfortunately, when searching for homologous sequences (for the structural model of Coa_NP2), using the Blast tool, no adequate sequences for ANP or BNP were found stored in the RCSB Protein Data Bank. The best homology (95%) was achieved with a CNP complexed with its receptor (1JDP) [16]. To better understand our structure, we removed the receptor from the global complex and used the CNP (GLSKGCFGLKLDRIGSMSGLGC)

as a model, because its consensus domain is similar to that of the Coa_NP2 (SYGISSGCFGLKLDRIGTMSGLGCWRLLQDSP). After applying the methods of molecular modeling and energy refinement, the most probable structure for Coa_NP2 is shown in Fig. 7A. The overlap of Coa_NP2 after refinement Ivacaftor supplier and use of the CNP model is shown in Fig. 7B. The structural differences (RMSD 1.79 Å) should be noted; these are probably related to the extensions of the portions C and N terminal Coa_NP2 in relation

to CNP. The overlap (RMSD 0.54 Å) of Coa_NP1 and Coa_NP2 shows that both molecules have very similar structures (Fig. 7C). The comparative analysis between the sequences of Coa_NP1 and Coa_NP2 show a 90% homology approximately (Table 2). This study describes the isolation of a new natriuretic peptide from C. o. abyssus venom (Coa_NP2), whose primary structure DAPT price was determined as SYGISSGCFGLKLDRIGTMSGLGCWRLLQDSP.

Its purity and average molecular mass were confirmed by mass spectrometry as being 3419.88 Da ( Fig. 2) (the theoretical average molecular mass is 3418.94 Da, monoisotopic molecular mass is 3416.66 Da and PI is 7.78). The primary structure revealed two half cysteines, suggesting the presence of one disulfide bridge. Tertiary structure of Coa_NP2 prevision, when compared to CNP (human), revealed a RMSD difference of 1.79 Å and this effect is probably caused by the extension of the C-terminal of Coa_NP2, but when compared to the structure of Coa_NP1 [5], the RMSD difference is only 0.54 Å. It was expected because Coa_NP1 Chlormezanone and Coa_NP2 sequences have homologies of around 90%. We found that the natriuretic peptide isolated from C. o. abyssus venom (Coa_NP2) presented a homologous structure to ANP and BNP. Furthermore, the mean functional findings of this present study were (i) the Coa_NP2 produced a dose-dependent decrease in the mean arterial pressure (Coa_NP2 infusion of 0.25 or 0.50 μg/ml; Fig. 3); (ii) this hypotensive effect occurred along with a significant increase of nitric oxide formation in plasma ( Fig. 4 and Fig. 5); and (iii) the vasorelaxation produced by the natriuretic peptide, Coa_NP2, in thoracic aortic rings precontracted with phenylephrine was endothelium-dependent. As it was demonstrated by the vasorelaxation abolition in endothelium-denuded ring preparations ( Fig.

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