Abstract
The solute carrier 4 (SLC4) family is a class of cell membranes transporters involved in base transport that plays crucial roles in diverse physiological processes. In our study, 15 slc4 genes were identified and annotated in spotted sea bass, including five members of Cl−/HCO3− exchangers, eight genes coding Na+-dependent HCO3− transporters, and two copies of Na+-coupled borate transporters. The gene sequence and structure, chromosomal and syntenic arrangement, phylogenetic and evolution profiles were analyzed. Results showed that the slc4 gene in teleosts obviously expanded compared with higher vertebrates, arising from teleost-specific whole genome duplication event. Most gene sites of slc4 in spotted sea bass were under strong purifying selection during evolution, while positive selection sites were only detected in slc4a1b, slc4a8, and slc4a10b. Additionally, qRT-PCR results showed that different slc4 genes exhibited distinct branchial expression patterns after alkalinity and salinity stresses, of which the strongly responsive members may play essential roles during these physiological processes. Our study provides the systemic overview of the slc4 gene family in spotted sea bass and enables a better understanding for the evolution of this family and further deciphering the biological roles in maintaining ion and acid–base homeostasis in teleosts.
Highlights
The solute carrier 4 (SLC4) family members are integral membrane proteins which carry bicarbonate (HCO3 − ) or/and carbonate (CO3 2− ) and other electrolytes (e.g., Na+ and Cl− ) across the plasma membrane [1]
A total of 15 slc4 genes were identified in spotted sea bass and further classified into three classes based on the reported classification of Liu and Alper [3,4], including 5 genes of Na+ -independent
Cl− /HCO3 − exchangers (Cl− /HCO3 − exchanger), 8 members of Na+ -dependent HCO3 − transporters (Na+ /HCO3 − cotransporter), and 2 genes belonging to Na+ -coupled borate transporter (Na+ /Borate cotransporter)
Summary
The solute carrier 4 (SLC4) family members are integral membrane proteins which carry bicarbonate (HCO3 − ) or/and carbonate (CO3 2− ) and other electrolytes (e.g., Na+ and Cl− ) across the plasma membrane [1]. These transporters are responsible for maintaining both intracellular and extracellular pH in all eukaryotes [2,3]. Based on the specific transport modes, SLC4 gene family proteins were classified into three functional groups in mammals: (1) Na+ -independent, Cl− /HCO3 − exchangers including. Slc4a1 and slc4a4 have been proposed to play critical roles in ion regulatory pathways in gills of zebrafish (Danio rerio) [14]. slc4a1, slc4a2, and slc4a4 were considered as the contributors for alkali-adaption in gill and kidney of Amur ide (Leuciscus waleckii) [15]
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