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About
What is Reactome ?
News
Team
Scientific Advisory Board
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Release Calendar
Statistics
Our Logo
License Agreement
Privacy Notice
Disclaimer
Content
Table of Contents
DOIs
Data Schema
Reactome Research Spotlight
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COVID-19 Disease Pathways
Docs
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How do I search ?
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Tissue Distribution
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HCO3- [cytosol]
Stable Identifier
R-ALL-111627
Type
Chemical Compound [SimpleEntity]
Compartment
cytosol
Synonyms
bicarbonate, hydrogencarbonate, acid carbonate
Icon
Locations in the PathwayBrowser
for Species:
Homo sapiens
Bos taurus
Caenorhabditis elegans
Canis familiaris
Danio rerio
Dictyostelium discoideum
Drosophila melanogaster
Gallus gallus
Mus musculus
Plasmodium falciparum
Rattus norvegicus
Saccharomyces cerevisiae
Schizosaccharomyces pombe
Sus scrofa
Xenopus tropicalis
Expand all
Metabolism (Bos taurus)
Metabolism of lipids (Bos taurus)
Fatty acid metabolism (Bos taurus)
Carnitine metabolism (Bos taurus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Bos taurus)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Bos taurus)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Bos taurus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Bos taurus)
HCO3- [cytosol]
Metabolism of nucleotides (Bos taurus)
Nucleotide biosynthesis (Bos taurus)
Pyrimidine biosynthesis (Bos taurus)
CAD hexamer transforms L-Gln to CAP (Bos taurus)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Bos taurus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Bos taurus)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Bos taurus)
HCO3- [cytosol]
Transport of small molecules (Bos taurus)
ABC-family proteins mediated transport (Bos taurus)
HCO3- transport through ion channel (Bos taurus)
HCO3- [cytosol]
Ion channel transport (Bos taurus)
Stimuli-sensing channels (Bos taurus)
BESTs transport cytosolic HCO3- to extracellular region (Bos taurus)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Bos taurus)
Erythrocytes take up carbon dioxide and release oxygen (Bos taurus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Bos taurus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Bos taurus)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Bos taurus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Bos taurus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Bos taurus)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Bos taurus)
Transport of inorganic cations/anions and amino acids/oligopeptides (Bos taurus)
Bicarbonate transporters (Bos taurus)
Na+-driven Cl-/HCO3- exchanger transport (Bos taurus)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Bos taurus)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Bos taurus)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Bos taurus)
HCO3- [cytosol]
Multifunctional anion exchangers (Bos taurus)
SLC26A3,6 exchange Cl- for HCO3- (Bos taurus)
HCO3- [cytosol]
Metabolism (Caenorhabditis elegans)
Metabolism of lipids (Caenorhabditis elegans)
Fatty acid metabolism (Caenorhabditis elegans)
Carnitine metabolism (Caenorhabditis elegans)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Caenorhabditis elegans)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Caenorhabditis elegans)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Caenorhabditis elegans)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Caenorhabditis elegans)
HCO3- [cytosol]
Metabolism of nucleotides (Caenorhabditis elegans)
Nucleotide biosynthesis (Caenorhabditis elegans)
Pyrimidine biosynthesis (Caenorhabditis elegans)
CAD hexamer transforms L-Gln to CAP (Caenorhabditis elegans)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Caenorhabditis elegans)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Caenorhabditis elegans)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Caenorhabditis elegans)
HCO3- [cytosol]
Transport of small molecules (Caenorhabditis elegans)
ABC-family proteins mediated transport (Caenorhabditis elegans)
HCO3- transport through ion channel (Caenorhabditis elegans)
HCO3- [cytosol]
Ion channel transport (Caenorhabditis elegans)
Stimuli-sensing channels (Caenorhabditis elegans)
BESTs transport cytosolic HCO3- to extracellular region (Caenorhabditis elegans)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Caenorhabditis elegans)
Erythrocytes take up carbon dioxide and release oxygen (Caenorhabditis elegans)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Caenorhabditis elegans)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Caenorhabditis elegans)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Caenorhabditis elegans)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Caenorhabditis elegans)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Caenorhabditis elegans)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Caenorhabditis elegans)
Transport of inorganic cations/anions and amino acids/oligopeptides (Caenorhabditis elegans)
Bicarbonate transporters (Caenorhabditis elegans)
Na+-driven Cl-/HCO3- exchanger transport (Caenorhabditis elegans)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Caenorhabditis elegans)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Caenorhabditis elegans)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Caenorhabditis elegans)
HCO3- [cytosol]
Metabolism (Canis familiaris)
Metabolism of lipids (Canis familiaris)
Fatty acid metabolism (Canis familiaris)
Carnitine metabolism (Canis familiaris)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Canis familiaris)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Canis familiaris)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Canis familiaris)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Canis familiaris)
HCO3- [cytosol]
Metabolism of nucleotides (Canis familiaris)
Nucleotide biosynthesis (Canis familiaris)
Pyrimidine biosynthesis (Canis familiaris)
CAD hexamer transforms L-Gln to CAP (Canis familiaris)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Canis familiaris)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Canis familiaris)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Canis familiaris)
HCO3- [cytosol]
Transport of small molecules (Canis familiaris)
ABC-family proteins mediated transport (Canis familiaris)
HCO3- transport through ion channel (Canis familiaris)
HCO3- [cytosol]
Ion channel transport (Canis familiaris)
Stimuli-sensing channels (Canis familiaris)
BESTs transport cytosolic HCO3- to extracellular region (Canis familiaris)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Canis familiaris)
Erythrocytes take up carbon dioxide and release oxygen (Canis familiaris)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Canis familiaris)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Canis familiaris)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Canis familiaris)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Canis familiaris)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Canis familiaris)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Canis familiaris)
Transport of inorganic cations/anions and amino acids/oligopeptides (Canis familiaris)
Bicarbonate transporters (Canis familiaris)
Na+-driven Cl-/HCO3- exchanger transport (Canis familiaris)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Canis familiaris)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Canis familiaris)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Canis familiaris)
HCO3- [cytosol]
Multifunctional anion exchangers (Canis familiaris)
SLC26A3,6 exchange Cl- for HCO3- (Canis familiaris)
HCO3- [cytosol]
Metabolism (Danio rerio)
Metabolism of lipids (Danio rerio)
Fatty acid metabolism (Danio rerio)
Carnitine metabolism (Danio rerio)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Danio rerio)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Danio rerio)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Danio rerio)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Danio rerio)
HCO3- [cytosol]
Metabolism of nucleotides (Danio rerio)
Nucleotide biosynthesis (Danio rerio)
Pyrimidine biosynthesis (Danio rerio)
CAD hexamer transforms L-Gln to CAP (Danio rerio)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Danio rerio)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Danio rerio)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Danio rerio)
HCO3- [cytosol]
Transport of small molecules (Danio rerio)
ABC-family proteins mediated transport (Danio rerio)
HCO3- transport through ion channel (Danio rerio)
HCO3- [cytosol]
Ion channel transport (Danio rerio)
Stimuli-sensing channels (Danio rerio)
BESTs transport cytosolic HCO3- to extracellular region (Danio rerio)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Danio rerio)
Erythrocytes take up carbon dioxide and release oxygen (Danio rerio)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Danio rerio)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Danio rerio)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Danio rerio)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Danio rerio)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Danio rerio)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Danio rerio)
Transport of inorganic cations/anions and amino acids/oligopeptides (Danio rerio)
Bicarbonate transporters (Danio rerio)
Na+-driven Cl-/HCO3- exchanger transport (Danio rerio)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Danio rerio)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Danio rerio)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Danio rerio)
HCO3- [cytosol]
Multifunctional anion exchangers (Danio rerio)
SLC26A3,6 exchange Cl- for HCO3- (Danio rerio)
HCO3- [cytosol]
Metabolism (Dictyostelium discoideum)
Metabolism of lipids (Dictyostelium discoideum)
Fatty acid metabolism (Dictyostelium discoideum)
Carnitine metabolism (Dictyostelium discoideum)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Dictyostelium discoideum)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Dictyostelium discoideum)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Dictyostelium discoideum)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Dictyostelium discoideum)
HCO3- [cytosol]
Metabolism of nucleotides (Dictyostelium discoideum)
Nucleotide biosynthesis (Dictyostelium discoideum)
Pyrimidine biosynthesis (Dictyostelium discoideum)
CAD hexamer transforms L-Gln to CAP (Dictyostelium discoideum)
HCO3- [cytosol]
Transport of small molecules (Dictyostelium discoideum)
SLC-mediated transmembrane transport (Dictyostelium discoideum)
Transport of inorganic cations/anions and amino acids/oligopeptides (Dictyostelium discoideum)
Multifunctional anion exchangers (Dictyostelium discoideum)
SLC26A3,6 exchange Cl- for HCO3- (Dictyostelium discoideum)
HCO3- [cytosol]
Metabolism (Drosophila melanogaster)
Metabolism of lipids (Drosophila melanogaster)
Fatty acid metabolism (Drosophila melanogaster)
Carnitine metabolism (Drosophila melanogaster)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Drosophila melanogaster)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Drosophila melanogaster)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Drosophila melanogaster)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Drosophila melanogaster)
HCO3- [cytosol]
Metabolism of nucleotides (Drosophila melanogaster)
Nucleotide biosynthesis (Drosophila melanogaster)
Pyrimidine biosynthesis (Drosophila melanogaster)
CAD hexamer transforms L-Gln to CAP (Drosophila melanogaster)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Drosophila melanogaster)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Drosophila melanogaster)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Drosophila melanogaster)
HCO3- [cytosol]
Transport of small molecules (Drosophila melanogaster)
ABC-family proteins mediated transport (Drosophila melanogaster)
HCO3- transport through ion channel (Drosophila melanogaster)
HCO3- [cytosol]
Ion channel transport (Drosophila melanogaster)
Stimuli-sensing channels (Drosophila melanogaster)
BESTs transport cytosolic HCO3- to extracellular region (Drosophila melanogaster)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Drosophila melanogaster)
Erythrocytes take up carbon dioxide and release oxygen (Drosophila melanogaster)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Drosophila melanogaster)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Drosophila melanogaster)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Drosophila melanogaster)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Drosophila melanogaster)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Drosophila melanogaster)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Drosophila melanogaster)
Transport of inorganic cations/anions and amino acids/oligopeptides (Drosophila melanogaster)
Bicarbonate transporters (Drosophila melanogaster)
Na+-driven Cl-/HCO3- exchanger transport (Drosophila melanogaster)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Drosophila melanogaster)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Drosophila melanogaster)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Drosophila melanogaster)
HCO3- [cytosol]
Metabolism (Gallus gallus)
Nucleotide metabolism (Gallus gallus)
Pyrimidine metabolism: de novo synthesis of UMP (Gallus gallus)
L-glutamine + 2 ATP + HCO3- + H2O => carbamoyl phosphate + L-glutamate + 2 ADP + orthophosphate (Gallus gallus)
HCO3- [cytosol]
Transport of small molecules (Gallus gallus)
ABC-family proteins mediated transport (Gallus gallus)
HCO3- transport through ion channel (Gallus gallus)
HCO3- [cytosol]
Ion channel transport (Gallus gallus)
Stimuli-sensing channels (Gallus gallus)
BESTs transport cytosolic HCO3- to extracellular region (Gallus gallus)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Gallus gallus)
Erythrocytes take up carbon dioxide and release oxygen (Gallus gallus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Gallus gallus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Gallus gallus)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Gallus gallus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Gallus gallus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Gallus gallus)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Gallus gallus)
Transport of inorganic cations/anions and amino acids/oligopeptides (Gallus gallus)
Bicarbonate transporters (Gallus gallus)
Na+-driven Cl-/HCO3- exchanger transport (Gallus gallus)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Gallus gallus)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Gallus gallus)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Gallus gallus)
HCO3- [cytosol]
Multifunctional anion exchangers (Gallus gallus)
SLC26A3,6 exchange Cl- for HCO3- (Gallus gallus)
HCO3- [cytosol]
Disease (Homo sapiens)
Disorders of transmembrane transporters (Homo sapiens)
SLC transporter disorders (Homo sapiens)
Defective SLC26A3 causes congenital secretory chloride diarrhea 1 (DIAR1) (Homo sapiens)
SLC26A3 does not exchange Cl- for HCO3- (Homo sapiens)
HCO3- [cytosol]
Defective SLC4A1 causes hereditary spherocytosis type 4 (HSP4), distal renal tubular acidosis (dRTA) and dRTA with hemolytic anemia (dRTA-HA) (Homo sapiens)
Defective SLC4A1 does not exchange Cl- for HCO3- (in erythrocytes) (Homo sapiens)
HCO3- [cytosol]
Defective SLC4A4 causes renal tubular acidosis, proximal, with ocular abnormalities and mental retardation (pRTA-OA) (Homo sapiens)
Defective SLC4A4 does not cotransport Na+ with 3HCO3- (Homo sapiens)
HCO3- [cytosol]
Metabolism (Homo sapiens)
Metabolism of lipids (Homo sapiens)
Fatty acid metabolism (Homo sapiens)
Carnitine metabolism (Homo sapiens)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Homo sapiens)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Homo sapiens)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Homo sapiens)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Homo sapiens)
HCO3- [cytosol]
Metabolism of nucleotides (Homo sapiens)
Nucleotide biosynthesis (Homo sapiens)
Pyrimidine biosynthesis (Homo sapiens)
CAD hexamer transforms L-Gln to CAP (Homo sapiens)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Homo sapiens)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Homo sapiens)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Homo sapiens)
HCO3- [cytosol]
Sensory Perception (Homo sapiens)
Sensory processing of sound (Homo sapiens)
Sensory processing of sound by outer hair cells of the cochlea (Homo sapiens)
SLC26A5 (prestin) changes conformation in response to depolarization (Homo sapiens)
Cl-,HCO3- [cytosol]
HCO3- [cytosol]
SLC26A5 tetramer (expanded):Cl-,HCO3- [plasma membrane] (Homo sapiens)
Cl-,HCO3- [cytosol]
HCO3- [cytosol]
Transport of small molecules (Homo sapiens)
ABC-family proteins mediated transport (Homo sapiens)
HCO3- transport through ion channel (Homo sapiens)
HCO3- [cytosol]
Ion channel transport (Homo sapiens)
Stimuli-sensing channels (Homo sapiens)
BESTs transport cytosolic HCO3- to extracellular region (Homo sapiens)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Homo sapiens)
Erythrocytes take up carbon dioxide and release oxygen (Homo sapiens)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Homo sapiens)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Homo sapiens)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Homo sapiens)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Homo sapiens)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Homo sapiens)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Homo sapiens)
Transport of inorganic cations/anions and amino acids/oligopeptides (Homo sapiens)
Bicarbonate transporters (Homo sapiens)
Na+-driven Cl-/HCO3- exchanger transport (Homo sapiens)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Homo sapiens)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Homo sapiens)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Homo sapiens)
HCO3- [cytosol]
Multifunctional anion exchangers (Homo sapiens)
SLC26A3,6 exchange Cl- for HCO3- (Homo sapiens)
HCO3- [cytosol]
Metabolism (Mus musculus)
Metabolism of lipids (Mus musculus)
Fatty acid metabolism (Mus musculus)
Carnitine metabolism (Mus musculus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Mus musculus)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Mus musculus)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Mus musculus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Mus musculus)
HCO3- [cytosol]
Metabolism of nucleotides (Mus musculus)
Nucleotide biosynthesis (Mus musculus)
Pyrimidine biosynthesis (Mus musculus)
CAD hexamer transforms L-Gln to CAP (Mus musculus)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Mus musculus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Mus musculus)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Mus musculus)
HCO3- [cytosol]
Transport of small molecules (Mus musculus)
ABC-family proteins mediated transport (Mus musculus)
HCO3- transport through ion channel (Mus musculus)
HCO3- [cytosol]
Ion channel transport (Mus musculus)
Stimuli-sensing channels (Mus musculus)
BESTs transport cytosolic HCO3- to extracellular region (Mus musculus)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Mus musculus)
Erythrocytes take up carbon dioxide and release oxygen (Mus musculus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Mus musculus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Mus musculus)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Mus musculus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Mus musculus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Mus musculus)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Mus musculus)
Transport of inorganic cations/anions and amino acids/oligopeptides (Mus musculus)
Bicarbonate transporters (Mus musculus)
Na+-driven Cl-/HCO3- exchanger transport (Mus musculus)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Mus musculus)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Mus musculus)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Mus musculus)
HCO3- [cytosol]
Multifunctional anion exchangers (Mus musculus)
SLC26A3,6 exchange Cl- for HCO3- (Mus musculus)
HCO3- [cytosol]
Metabolism (Plasmodium falciparum)
Metabolism of lipids (Plasmodium falciparum)
Fatty acid metabolism (Plasmodium falciparum)
Carnitine metabolism (Plasmodium falciparum)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Plasmodium falciparum)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Plasmodium falciparum)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Plasmodium falciparum)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Plasmodium falciparum)
HCO3- [cytosol]
Metabolism of nucleotides (Plasmodium falciparum)
Nucleotide biosynthesis (Plasmodium falciparum)
Pyrimidine biosynthesis (Plasmodium falciparum)
CAD hexamer transforms L-Gln to CAP (Plasmodium falciparum)
HCO3- [cytosol]
Metabolism (Rattus norvegicus)
Metabolism of lipids (Rattus norvegicus)
Fatty acid metabolism (Rattus norvegicus)
Carnitine metabolism (Rattus norvegicus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Rattus norvegicus)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Rattus norvegicus)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Rattus norvegicus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Rattus norvegicus)
HCO3- [cytosol]
Metabolism of nucleotides (Rattus norvegicus)
Nucleotide biosynthesis (Rattus norvegicus)
Pyrimidine biosynthesis (Rattus norvegicus)
CAD hexamer transforms L-Gln to CAP (Rattus norvegicus)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Rattus norvegicus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Rattus norvegicus)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Rattus norvegicus)
HCO3- [cytosol]
Transport of small molecules (Rattus norvegicus)
ABC-family proteins mediated transport (Rattus norvegicus)
HCO3- transport through ion channel (Rattus norvegicus)
HCO3- [cytosol]
Ion channel transport (Rattus norvegicus)
Stimuli-sensing channels (Rattus norvegicus)
BESTs transport cytosolic HCO3- to extracellular region (Rattus norvegicus)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Rattus norvegicus)
Erythrocytes take up carbon dioxide and release oxygen (Rattus norvegicus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Rattus norvegicus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Rattus norvegicus)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Rattus norvegicus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Rattus norvegicus)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Rattus norvegicus)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Rattus norvegicus)
Transport of inorganic cations/anions and amino acids/oligopeptides (Rattus norvegicus)
Bicarbonate transporters (Rattus norvegicus)
Na+-driven Cl-/HCO3- exchanger transport (Rattus norvegicus)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Rattus norvegicus)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Rattus norvegicus)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Rattus norvegicus)
HCO3- [cytosol]
Multifunctional anion exchangers (Rattus norvegicus)
SLC26A3,6 exchange Cl- for HCO3- (Rattus norvegicus)
HCO3- [cytosol]
Metabolism (Saccharomyces cerevisiae)
Metabolism of lipids (Saccharomyces cerevisiae)
Fatty acid metabolism (Saccharomyces cerevisiae)
Carnitine metabolism (Saccharomyces cerevisiae)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Saccharomyces cerevisiae)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Saccharomyces cerevisiae)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Saccharomyces cerevisiae)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Saccharomyces cerevisiae)
HCO3- [cytosol]
Metabolism of nucleotides (Saccharomyces cerevisiae)
Nucleotide biosynthesis (Saccharomyces cerevisiae)
Pyrimidine biosynthesis (Saccharomyces cerevisiae)
CAD hexamer transforms L-Gln to CAP (Saccharomyces cerevisiae)
HCO3- [cytosol]
Transport of small molecules (Saccharomyces cerevisiae)
ABC-family proteins mediated transport (Saccharomyces cerevisiae)
HCO3- transport through ion channel (Saccharomyces cerevisiae)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Saccharomyces cerevisiae)
Transport of inorganic cations/anions and amino acids/oligopeptides (Saccharomyces cerevisiae)
Multifunctional anion exchangers (Saccharomyces cerevisiae)
SLC26A3,6 exchange Cl- for HCO3- (Saccharomyces cerevisiae)
HCO3- [cytosol]
Metabolism (Schizosaccharomyces pombe)
Metabolism of lipids (Schizosaccharomyces pombe)
Fatty acid metabolism (Schizosaccharomyces pombe)
Carnitine metabolism (Schizosaccharomyces pombe)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Schizosaccharomyces pombe)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Schizosaccharomyces pombe)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Schizosaccharomyces pombe)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Schizosaccharomyces pombe)
HCO3- [cytosol]
Metabolism of nucleotides (Schizosaccharomyces pombe)
Nucleotide biosynthesis (Schizosaccharomyces pombe)
Pyrimidine biosynthesis (Schizosaccharomyces pombe)
CAD hexamer transforms L-Gln to CAP (Schizosaccharomyces pombe)
HCO3- [cytosol]
Transport of small molecules (Schizosaccharomyces pombe)
ABC-family proteins mediated transport (Schizosaccharomyces pombe)
HCO3- transport through ion channel (Schizosaccharomyces pombe)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Schizosaccharomyces pombe)
Transport of inorganic cations/anions and amino acids/oligopeptides (Schizosaccharomyces pombe)
Multifunctional anion exchangers (Schizosaccharomyces pombe)
SLC26A3,6 exchange Cl- for HCO3- (Schizosaccharomyces pombe)
HCO3- [cytosol]
Metabolism (Sus scrofa)
Metabolism of lipids (Sus scrofa)
Fatty acid metabolism (Sus scrofa)
Carnitine metabolism (Sus scrofa)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Sus scrofa)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Sus scrofa)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Sus scrofa)
HCO3- [cytosol]
Metabolism of nucleotides (Sus scrofa)
Nucleotide biosynthesis (Sus scrofa)
Pyrimidine biosynthesis (Sus scrofa)
CAD hexamer transforms L-Gln to CAP (Sus scrofa)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Sus scrofa)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Sus scrofa)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Sus scrofa)
HCO3- [cytosol]
Transport of small molecules (Sus scrofa)
ABC-family proteins mediated transport (Sus scrofa)
HCO3- transport through ion channel (Sus scrofa)
HCO3- [cytosol]
Ion channel transport (Sus scrofa)
Stimuli-sensing channels (Sus scrofa)
BESTs transport cytosolic HCO3- to extracellular region (Sus scrofa)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Sus scrofa)
Erythrocytes take up carbon dioxide and release oxygen (Sus scrofa)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Sus scrofa)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Sus scrofa)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Sus scrofa)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Sus scrofa)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Sus scrofa)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Sus scrofa)
Transport of inorganic cations/anions and amino acids/oligopeptides (Sus scrofa)
Bicarbonate transporters (Sus scrofa)
Na+-driven Cl-/HCO3- exchanger transport (Sus scrofa)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Sus scrofa)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Sus scrofa)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Sus scrofa)
HCO3- [cytosol]
Multifunctional anion exchangers (Sus scrofa)
SLC26A3,6 exchange Cl- for HCO3- (Sus scrofa)
HCO3- [cytosol]
Metabolism (Xenopus tropicalis)
Metabolism of lipids (Xenopus tropicalis)
Fatty acid metabolism (Xenopus tropicalis)
Carnitine metabolism (Xenopus tropicalis)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Xenopus tropicalis)
HCO3- [cytosol]
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Xenopus tropicalis)
HCO3- [cytosol]
Fatty acyl-CoA biosynthesis (Xenopus tropicalis)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Xenopus tropicalis)
HCO3- [cytosol]
Metabolism of nucleotides (Xenopus tropicalis)
Nucleotide biosynthesis (Xenopus tropicalis)
Pyrimidine biosynthesis (Xenopus tropicalis)
CAD hexamer transforms L-Gln to CAP (Xenopus tropicalis)
HCO3- [cytosol]
Reversible hydration of carbon dioxide (Xenopus tropicalis)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Xenopus tropicalis)
HCO3- [cytosol]
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Xenopus tropicalis)
HCO3- [cytosol]
Transport of small molecules (Xenopus tropicalis)
ABC-family proteins mediated transport (Xenopus tropicalis)
HCO3- transport through ion channel (Xenopus tropicalis)
HCO3- [cytosol]
Ion channel transport (Xenopus tropicalis)
Stimuli-sensing channels (Xenopus tropicalis)
BESTs transport cytosolic HCO3- to extracellular region (Xenopus tropicalis)
HCO3- [cytosol]
O2/CO2 exchange in erythrocytes (Xenopus tropicalis)
Erythrocytes take up carbon dioxide and release oxygen (Xenopus tropicalis)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Xenopus tropicalis)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Xenopus tropicalis)
HCO3- [cytosol]
Erythrocytes take up oxygen and release carbon dioxide (Xenopus tropicalis)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Xenopus tropicalis)
HCO3- [cytosol]
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Xenopus tropicalis)
HCO3- [cytosol]
SLC-mediated transmembrane transport (Xenopus tropicalis)
Transport of inorganic cations/anions and amino acids/oligopeptides (Xenopus tropicalis)
Bicarbonate transporters (Xenopus tropicalis)
Na+-driven Cl-/HCO3- exchanger transport (Xenopus tropicalis)
HCO3- [cytosol]
SLC4A1,2,3 exchanges HCO3- for Cl- (Xenopus tropicalis)
HCO3- [cytosol]
SLC4A4 cotransports Na+ with 3HCO3- (Xenopus tropicalis)
HCO3- [cytosol]
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Xenopus tropicalis)
HCO3- [cytosol]
Multifunctional anion exchangers (Xenopus tropicalis)
SLC26A3,6 exchange Cl- for HCO3- (Xenopus tropicalis)
HCO3- [cytosol]
External Reference Information
External Reference
hydrogencarbonate [ChEBI:17544]
Participates
as an input of
L-glutamine + 2 ATP + HCO3- + H2O => carbamoyl phosphate + L-glutamate + 2 ADP + orthophosphate (Gallus gallus)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Plasmodium falciparum)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Saccharomyces cerevisiae)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Schizosaccharomyces pombe)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Dictyostelium discoideum)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Caenorhabditis elegans)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Drosophila melanogaster)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Xenopus tropicalis)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Danio rerio)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Bos taurus)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Canis familiaris)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Rattus norvegicus)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Mus musculus)
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Homo sapiens)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Plasmodium falciparum)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Saccharomyces cerevisiae)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Schizosaccharomyces pombe)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Dictyostelium discoideum)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Caenorhabditis elegans)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Drosophila melanogaster)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Gallus gallus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Xenopus tropicalis)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Danio rerio)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Sus scrofa)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Bos taurus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Canis familiaris)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Rattus norvegicus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Mus musculus)
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA (Homo sapiens)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Plasmodium falciparum)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Saccharomyces cerevisiae)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Schizosaccharomyces pombe)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Dictyostelium discoideum)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Caenorhabditis elegans)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Drosophila melanogaster)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Gallus gallus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Xenopus tropicalis)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Danio rerio)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Sus scrofa)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Bos taurus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Canis familiaris)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Rattus norvegicus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Mus musculus)
acetyl-CoA + bicarbonate + ATP => malonyl-CoA + H2O + ADP + orthophosphate (Homo sapiens)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Caenorhabditis elegans)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Drosophila melanogaster)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Gallus gallus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Xenopus tropicalis)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Danio rerio)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Sus scrofa)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Bos taurus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Canis familiaris)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Rattus norvegicus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Mus musculus)
Carbonic anhydrase dehydrates bicarbonate (cytosol) (Homo sapiens)
SLC26A3 does not exchange Cl- for HCO3- (Homo sapiens)
Defective SLC4A1 does not exchange Cl- for HCO3- (in erythrocytes) (Homo sapiens)
Defective SLC4A4 does not cotransport Na+ with 3HCO3- (Homo sapiens)
BESTs transport cytosolic HCO3- to extracellular region (Caenorhabditis elegans)
BESTs transport cytosolic HCO3- to extracellular region (Drosophila melanogaster)
BESTs transport cytosolic HCO3- to extracellular region (Gallus gallus)
BESTs transport cytosolic HCO3- to extracellular region (Xenopus tropicalis)
BESTs transport cytosolic HCO3- to extracellular region (Danio rerio)
BESTs transport cytosolic HCO3- to extracellular region (Sus scrofa)
BESTs transport cytosolic HCO3- to extracellular region (Bos taurus)
BESTs transport cytosolic HCO3- to extracellular region (Canis familiaris)
BESTs transport cytosolic HCO3- to extracellular region (Rattus norvegicus)
BESTs transport cytosolic HCO3- to extracellular region (Mus musculus)
BESTs transport cytosolic HCO3- to extracellular region (Homo sapiens)
SLC26A3,6 exchange Cl- for HCO3- (Saccharomyces cerevisiae)
SLC26A3,6 exchange Cl- for HCO3- (Schizosaccharomyces pombe)
SLC26A3,6 exchange Cl- for HCO3- (Dictyostelium discoideum)
SLC26A3,6 exchange Cl- for HCO3- (Gallus gallus)
SLC26A3,6 exchange Cl- for HCO3- (Xenopus tropicalis)
SLC26A3,6 exchange Cl- for HCO3- (Danio rerio)
SLC26A3,6 exchange Cl- for HCO3- (Sus scrofa)
SLC26A3,6 exchange Cl- for HCO3- (Bos taurus)
SLC26A3,6 exchange Cl- for HCO3- (Canis familiaris)
SLC26A3,6 exchange Cl- for HCO3- (Rattus norvegicus)
SLC26A3,6 exchange Cl- for HCO3- (Mus musculus)
SLC26A3,6 exchange Cl- for HCO3- (Homo sapiens)
SLC4A4 cotransports Na+ with 3HCO3- (Caenorhabditis elegans)
SLC4A4 cotransports Na+ with 3HCO3- (Drosophila melanogaster)
SLC4A4 cotransports Na+ with 3HCO3- (Gallus gallus)
SLC4A4 cotransports Na+ with 3HCO3- (Xenopus tropicalis)
SLC4A4 cotransports Na+ with 3HCO3- (Danio rerio)
SLC4A4 cotransports Na+ with 3HCO3- (Sus scrofa)
SLC4A4 cotransports Na+ with 3HCO3- (Bos taurus)
SLC4A4 cotransports Na+ with 3HCO3- (Canis familiaris)
SLC4A4 cotransports Na+ with 3HCO3- (Rattus norvegicus)
SLC4A4 cotransports Na+ with 3HCO3- (Mus musculus)
SLC4A4 cotransports Na+ with 3HCO3- (Homo sapiens)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Caenorhabditis elegans)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Drosophila melanogaster)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Gallus gallus)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Xenopus tropicalis)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Danio rerio)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Sus scrofa)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Bos taurus)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Canis familiaris)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Rattus norvegicus)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Mus musculus)
SLC4A5,7,9 cotransport Na+ with 3HCO3- (Homo sapiens)
SLC4A1,2,3 exchanges HCO3- for Cl- (Caenorhabditis elegans)
SLC4A1,2,3 exchanges HCO3- for Cl- (Drosophila melanogaster)
SLC4A1,2,3 exchanges HCO3- for Cl- (Gallus gallus)
SLC4A1,2,3 exchanges HCO3- for Cl- (Xenopus tropicalis)
SLC4A1,2,3 exchanges HCO3- for Cl- (Danio rerio)
SLC4A1,2,3 exchanges HCO3- for Cl- (Sus scrofa)
SLC4A1,2,3 exchanges HCO3- for Cl- (Bos taurus)
SLC4A1,2,3 exchanges HCO3- for Cl- (Canis familiaris)
SLC4A1,2,3 exchanges HCO3- for Cl- (Rattus norvegicus)
SLC4A1,2,3 exchanges HCO3- for Cl- (Mus musculus)
SLC4A1,2,3 exchanges HCO3- for Cl- (Homo sapiens)
HCO3- transport through ion channel (Saccharomyces cerevisiae)
HCO3- transport through ion channel (Schizosaccharomyces pombe)
HCO3- transport through ion channel (Caenorhabditis elegans)
HCO3- transport through ion channel (Drosophila melanogaster)
HCO3- transport through ion channel (Gallus gallus)
HCO3- transport through ion channel (Xenopus tropicalis)
HCO3- transport through ion channel (Danio rerio)
HCO3- transport through ion channel (Sus scrofa)
HCO3- transport through ion channel (Bos taurus)
HCO3- transport through ion channel (Canis familiaris)
HCO3- transport through ion channel (Rattus norvegicus)
HCO3- transport through ion channel (Mus musculus)
HCO3- transport through ion channel (Homo sapiens)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Caenorhabditis elegans)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Drosophila melanogaster)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Gallus gallus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Xenopus tropicalis)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Danio rerio)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Sus scrofa)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Bos taurus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Canis familiaris)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Rattus norvegicus)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Mus musculus)
CAD hexamer transforms L-Gln to CAP (Danio rerio)
CAD hexamer transforms L-Gln to CAP (Homo sapiens)
CAD hexamer transforms L-Gln to CAP (Mus musculus)
CAD hexamer transforms L-Gln to CAP (Rattus norvegicus)
CAD hexamer transforms L-Gln to CAP (Canis familiaris)
CAD hexamer transforms L-Gln to CAP (Bos taurus)
CAD hexamer transforms L-Gln to CAP (Sus scrofa)
CAD hexamer transforms L-Gln to CAP (Xenopus tropicalis)
CAD hexamer transforms L-Gln to CAP (Drosophila melanogaster)
CAD hexamer transforms L-Gln to CAP (Caenorhabditis elegans)
CAD hexamer transforms L-Gln to CAP (Dictyostelium discoideum)
CAD hexamer transforms L-Gln to CAP (Schizosaccharomyces pombe)
CAD hexamer transforms L-Gln to CAP (Saccharomyces cerevisiae)
CAD hexamer transforms L-Gln to CAP (Plasmodium falciparum)
CA1:Zn2+,CA2:Zn2+ dehydrate HCO3- to CO2 (Homo sapiens)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Homo sapiens)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Mus musculus)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Rattus norvegicus)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Canis familiaris)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Bos taurus)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Sus scrofa)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Danio rerio)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Xenopus tropicalis)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Gallus gallus)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Drosophila melanogaster)
SLC4A1 exchanges cytosolic HCO3- for extracellular Cl- (Caenorhabditis elegans)
as an output of
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Caenorhabditis elegans)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Drosophila melanogaster)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Gallus gallus)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Xenopus tropicalis)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Danio rerio)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Sus scrofa)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Bos taurus)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Canis familiaris)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Rattus norvegicus)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Mus musculus)
Carbonic anhydrase hydrates carbon dioxide (cytosol) (Homo sapiens)
Na+-driven Cl-/HCO3- exchanger transport (Caenorhabditis elegans)
Na+-driven Cl-/HCO3- exchanger transport (Drosophila melanogaster)
Na+-driven Cl-/HCO3- exchanger transport (Gallus gallus)
Na+-driven Cl-/HCO3- exchanger transport (Xenopus tropicalis)
Na+-driven Cl-/HCO3- exchanger transport (Danio rerio)
Na+-driven Cl-/HCO3- exchanger transport (Sus scrofa)
Na+-driven Cl-/HCO3- exchanger transport (Bos taurus)
Na+-driven Cl-/HCO3- exchanger transport (Canis familiaris)
Na+-driven Cl-/HCO3- exchanger transport (Rattus norvegicus)
Na+-driven Cl-/HCO3- exchanger transport (Mus musculus)
Na+-driven Cl-/HCO3- exchanger transport (Homo sapiens)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Caenorhabditis elegans)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Drosophila melanogaster)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Gallus gallus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Homo sapiens)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Mus musculus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Rattus norvegicus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Canis familiaris)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Bos taurus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Sus scrofa)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Danio rerio)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Xenopus tropicalis)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Gallus gallus)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Drosophila melanogaster)
CA1:Zn2+,CA2:Zn2+ hydrate CO2 to HCO3- (Caenorhabditis elegans)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Homo sapiens)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Mus musculus)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Rattus norvegicus)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Canis familiaris)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Bos taurus)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Sus scrofa)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Danio rerio)
SLC4A1 exchanges cytosolic Cl- for extracellular HCO3- (Xenopus tropicalis)
as a member of
Cl-,HCO3- [cytosol]
Other forms of this molecule
HCO3- [extracellular region]
HCO3- [mitochondrial matrix]
Cross References
COMPOUND
C00288
PubChem Substance
11533114
ZINC
000006827693
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