Genome-Wide Identification, Structure Characterization, and Expression Pattern Profiling of the Aquaporin Gene Family in Betula pendula
Résumé
Aquaporin water channels (AQPs) constitute a large family of transmembrane proteins
present throughout all kingdoms of life. They play key roles in the flux of water and many solutes
across the membranes. The AQP diversity, protein features, and biological functions of silver
birch are still unknown. A genome analysis of Betula pendula identified 33 putative genes encoding
full-length AQP sequences (BpeAQPs). They are grouped into five subfamilies, representing ten
plasma membrane intrinsic proteins (PIPs), eight tonoplast intrinsic proteins (TIPs), eight NOD26-like
intrinsic proteins (NIPs), four X intrinsic proteins (XIPs), and three small basic intrinsic proteins
(SIPs). The BpeAQP gene structure is conserved within each subfamily, with exon numbers ranging
from one to five. The predictions of the aromatic/arginine selectivity filter (ar/R), Froger’s positions,
specificity-determining positions, and 2D and 3D biochemical properties indicate noticeable transport
specificities to various non-aqueous substrates between members and/or subfamilies. Nevertheless,
overall, the BpePIPs display mostly hydrophilic ar/R selective filter and lining-pore residues, whereas
the BpeTIP, BpeNIP, BpeSIP, and BpeXIP subfamilies mostly contain hydrophobic permeation signatures.
Transcriptional expression analyses indicate that 23 BpeAQP genes are transcribed, including
five organ-related expressions. Surprisingly, no significant transcriptional expression is monitored in
leaves in response to cold stress (6 C), although interesting trends can be distinguished and will be
discussed, notably in relation to the plasticity of this pioneer species, B. pendula. The current study
presents the first detailed genome-wide analysis of the AQP gene family in a Betulaceae species, and
our results lay a foundation for a better understanding of the specific functions of the BpeAQP genes
in the responses of the silver birch trees to cold stress.
Domaines
Biologie cellulaireOrigine | Fichiers éditeurs autorisés sur une archive ouverte |
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