Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis (Q48891809): Difference between revisions

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Created claim: language of work or name (P407): English (Q1860), #petscan
Set a claim value: title (P1476): Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis
 
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label / enlabel / en
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis.
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis
label / nllabel / nl
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis.
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis
Property / titleProperty / title
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis. (English)
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis (English)
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Property / cites work: Stimulation of total CO2 flux by 10% CO2 in rabbit CCD: role of an apical Sch-28080- and Ba-sensitive mechanism / rank
 
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Property / cites work: Stimulation of total CO2 flux by 10% CO2 in rabbit CCD: role of an apical Sch-28080- and Ba-sensitive mechanism / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
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Property / cites work: Responses of respiratory modulated and tonic units in the retrotrapezoid nucleus to CO2 / rank
 
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Property / cites work: Responses of respiratory modulated and tonic units in the retrotrapezoid nucleus to CO2 / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
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Property / cites work: Regulation of ATP-sensitive K+ channel by membrane-bound protein phosphatases in rat principal tubule cell / rank
 
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Property / cites work: Regulation of ATP-sensitive K+ channel by membrane-bound protein phosphatases in rat principal tubule cell / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
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Property / cites work: Identification of a critical motif responsible for gating of Kir2.3 channel by intracellular protons / rank
 
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Property / cites work: Identification of a critical motif responsible for gating of Kir2.3 channel by intracellular protons / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
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Property / cites work: Depolarization and stimulation of neurons in nucleus tractus solitarii by carbon dioxide does not require chemical synaptic input / rank
 
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Property / cites work: Depolarization and stimulation of neurons in nucleus tractus solitarii by carbon dioxide does not require chemical synaptic input / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
Timestamp+2020-12-12T00:00:00Z
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Property / cites work: Oxygen deprivation activates an ATP-inhibitable K+ channel in substantia nigra neurons / rank
 
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Property / cites work: Oxygen deprivation activates an ATP-inhibitable K+ channel in substantia nigra neurons / reference
 
stated in: PubMed
reference URL: https://pubmed.ncbi.nlm.nih.gov/10790154
retrieved: 12 December 2020
Timestamp+2020-12-12T00:00:00Z
Timezone+00:00
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Precision1 day
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Property / main subject: hypercapnia / reference
 

Latest revision as of 22:31, 26 July 2024

scientific article published in May 2000
Language Label Description Also known as
English
Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis
scientific article published in May 2000

    Statements

    title
    Modulation of kir4.1 and kir5.1 by hypercapnia and intracellular acidosis (English)
    1 reference
    stated in
    Europe PubMed Central
    PubMed publication ID
    10790154
    retrieved
    16 February 2018
    reference URL
    http://europepmc.org/abstract/MED/10790154
    cites work

    Identifiers

     
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