Download Supplemental Table GENE FUNCTION REFERENCE Aquaporin 3

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Document related concepts
no text concepts found
Transcript 
Supplemental Table
Table S1: Specific genes previously identified as having a functional role in salinity tolerance in
crustaceans.
GENE
Aquaporin 3 (AQP)
Calreticulin (CRT)
Na+/K+- ATPase (NKA)
Na+/K+/2Cl- cotransporter (NKCC)
Carbonic anhydrase (CA)
V type- (H+) ATPase
ILF2 (interlukin enhancer binding
factor 2)
Alkaline phosphatase
Selenophosphate (SPS1)
Integrin
ABC protein C12 (ABCC 12)
P38 MAP kinase
USP
Na+/H-exchanger
Ca2+ -ATPase
Cystic Fibrosis Transmembrane
Regulator (CFTR)
Arginine kinase
OST complex
Acyl-CoA binding protein (ACBP)
Catechol-o-methyltransferase (COMT)
Mitochondrial carrier protein
FUNCTION
cell volume regulation and water
permeability under stress
signal transduction in many biological
processes of growth, moulting and stress
response
creating an electrochemical gradient
across the cell membrane in the gills of
crustaceans for actively absorb or release
ions
transport ions into gill cells either from the
blood or media based on salinity
involved in all main gill function such as
regulation of Na+, Cl-, H+, HCO3(specifically in low salinities)
role in salinity acclimation and
osmoregulation
a transcriptional regulator against biotic
stresses
involved in salinity acclimation and
osmoregulation response
involved in salinity tolerance, oxidative
role
involved in salinity stress
REFERENCE
(Gao, 2009)
functional role in osmoregulation and
salinity tolerance under osmotic stresses
regulation processes (mRNA stability,
protein degradation) under environmental
stress
involved in salinity tolerance
regulation of Na+ and H- levels and
involved in regulation of extracellular
acid-base
involved in Ca2+ regulation and
calcification
regulation of Cl- channels and increases
the osmoregulatory capacity
involved in active ion transport across
membrane
maintaining homeostasis during
salinity/osmotic stress
(Liu et al., 2012)
role in salinity tolerance and adaptation
within low and high salinity levels
association with low and high salinity and
crucial role within salinity stresses
involved in osmoregulation signal
transduction
(Kiruthika et al., 2013)
29
(Luana et al., 2007)
(Santos et al., 2007)
(Boudour-Boucheker et al., 2014)
(Faleiros et al., 2010)
(Henry et al., 2003)
(Tsai and Lin, 2007)
(Barman et al., 2012)
(Lovett et al., 1994)
(Gillanders et al., 2003)
(Pongsomboon et al., 2009)
(He et al., 2013)
(Kotlyar et al., 2000)
(Freire et al., 2008)
(Freire et al., 2008)
(Bodinier et al., 2009)
(Kotlyar et al., 2000)
(Pongsomboon et al., 2009)
(Rajesh et al., 2012)
(Menze et al., 2005)
Related documents