In silico Characterization of the Heme Oxygenase 1 From Bottlenose Dolphin ( Tursiops truncatus ): Evidence of Changes in the Active Site and Purifying Selection

In silico Characterization of the Heme Oxygenase 1 From Bottlenose Dolphin ( Tursiops truncatus ): Evidence of Changes in the Active Site and Purifying Selection

Cetacea is a clade well-adapted to the aquatic lifestyle, with diverse adaptations and physiological responses, as well as a robust antioxidant defense system. Serious injuries caused by boats and fishing nets are common in bottlenose dolphins ( ); however, these animals do not show signs of serious...

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Published in:Frontiers in physiology Vol. 12; p. 711645
Main Authors: Reyes-Ramos, Carlos A, Gaxiola-Robles, Ramón, Vázquez-Medina, José Pablo, Ramírez-Jirano, Luis Javier, Bitzer-Quintero, Oscar Kurt, Zenteno-Savín, Tania
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 12-08-2021
Subjects:
anti-inflammatory response
dolphin
heme oxygenase
immunology
inflammation
Physiology
heme oxygenase
dolphin
inflammation
anti-inflammatory response
immunology
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Summary:Cetacea is a clade well-adapted to the aquatic lifestyle, with diverse adaptations and physiological responses, as well as a robust antioxidant defense system. Serious injuries caused by boats and fishing nets are common in bottlenose dolphins ( ); however, these animals do not show signs of serious infections. Evidence suggests an adaptive response to tissue damage and associated infections in cetaceans. Heme oxygenase (HO) is a cytoprotective protein that participates in the anti-inflammatory response. HO catalyzes the first step in the oxidative degradation of the heme group. Various stimuli, including inflammatory mediators, regulate the inducible HO-1 isoform. This study aims to characterize HO-1 of the bottlenose dolphin and compare its structure to the terrestrial mammal protein. Upstream HO-1 sequence of the bottlenose dolphin was obtained from NCBI and Ensemble databases, and the gene structure was determined using bioinformatics tools. Five exons and four introns were identified, and proximal regulatory elements were detected in the upstream region. The presence of 10 α-helices, three 3 helices, the heme group lodged between the proximal and distal helices, and a histidine-25 in the proximal helix serving as a ligand to the heme group were inferred for . Amino acid sequence alignment suggests HO-1 is a conserved protein. The HO-1 "fingerprint" and histidine-25 appear to be fully conserved among all species analyzed. Evidence of positive selection within an α-helix configuration without changes in protein configuration and evidence of purifying selection were found, indicating evolutionary conservation of the coding sequence structure.
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Reviewed by: Jason Somarelli, Duke University Medical Center, United States; Roberta Foresti, INSERM U955 Institut Mondor de Recherche Biomédicale (IMRB), France
Edited by: Andreas Fahlman, Fundación Oceanogràfic de la Comunitat Valenciana, Spain
This article was submitted to Aquatic Physiology, a section of the journal Frontiers in Physiology
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2021.711645