CPRiL

Title : Is CFTR an exchanger?: Regulation of HCO₃ ^-Transport and extracellular pH by CFTR.

Pub. Date : 2021 Mar

PMID : 33376814

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12 Functional Relationships(s) Download
	Sentence	Compound Name	Protein Name	Organism
1	: Regulation of HCO3 -Transport and extracellular pH by CFTR.	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
2	Expression of functional CFTR may normally regulate extracellular pH via control of bicarbonate efflux.	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
3	Reports also suggest that the CFTR may be a Cl-/HCO3- exchanger.	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
4	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
5	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
6	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
7	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
8	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
9	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
10	We compared evidentiary support of four possible models of CFTR"s role in the transport of bicarbonate: 1) CFTR as a Cl-channel that permits bicarbonate conductance, 2) CFTR as an anion Cl-/HCO3- exchanger (AE), 3.)	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
11	CFTR as a Cl-channel that allows for transport of bicarbonate and regulates an independent AE.	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens
12	This data, as well as that published by others, suggest that while CFTR may support and regulate bicarbonate flux it is unlikely it directly performs Cl-/HCO3- anion exchange.	Bicarbonates	CF transmembrane conductance regulator	Homo sapiens

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