TRIOL Inhibits Rapid Intracellular Acidification and Cerebral Ischemic Injury: The Role of Glutamate in Neuronal Metabolic Reprogramming | ACS Chemical Neuroscience
![Sensitive detection of C6 glioma cells. (A) Equivalent circuit model.... | Download Scientific Diagram Sensitive detection of C6 glioma cells. (A) Equivalent circuit model.... | Download Scientific Diagram](https://www.researchgate.net/publication/311858300/figure/fig1/AS:442828535930880@1482589958774/Sensitive-detection-of-C6-glioma-cells-A-Equivalent-circuit-model-B-Photograph-of.png)
Sensitive detection of C6 glioma cells. (A) Equivalent circuit model.... | Download Scientific Diagram
![Carotid body chemoreceptors: physiology, pathology, and implications for health and disease | Physiological Reviews Carotid body chemoreceptors: physiology, pathology, and implications for health and disease | Physiological Reviews](https://journals.physiology.org/cms/10.1152/physrev.00039.2019/asset/images/medium/prv-00039-2019r01.png)
Carotid body chemoreceptors: physiology, pathology, and implications for health and disease | Physiological Reviews
![Functional and pharmacological characterization of two different ASIC1a/2a heteromers reveals their sensitivity to the spider toxin PcTx1 | Scientific Reports Functional and pharmacological characterization of two different ASIC1a/2a heteromers reveals their sensitivity to the spider toxin PcTx1 | Scientific Reports](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fsrep27647/MediaObjects/41598_2016_Article_BFsrep27647_Fig1_HTML.jpg)
Functional and pharmacological characterization of two different ASIC1a/2a heteromers reveals their sensitivity to the spider toxin PcTx1 | Scientific Reports
![Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects](https://www.mdpi.com/toxins/toxins-14-00709/article_deploy/html/images/toxins-14-00709-g001.png)
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
sGAG accumulation of non-primed and primed BMSCs and ACs at different... | Download Scientific Diagram
![TM1 of ASIC3, but not the N-terminus, is important for STOM regulation.... | Download Scientific Diagram TM1 of ASIC3, but not the N-terminus, is important for STOM regulation.... | Download Scientific Diagram](https://www.researchgate.net/publication/339008005/figure/fig4/AS:11431281177307010@1690438130944/TM1-of-ASIC3-but-not-the-N-terminus-is-important-for-STOM-regulation-A-C-Each.png)
TM1 of ASIC3, but not the N-terminus, is important for STOM regulation.... | Download Scientific Diagram
![A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans | Nature Neuroscience A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans | Nature Neuroscience](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41593-023-01260-4/MediaObjects/41593_2023_1260_Fig1_HTML.png)
A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans | Nature Neuroscience
![Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects](https://www.mdpi.com/toxins/toxins-14-00709/article_deploy/html/images/toxins-14-00709-g003.png)
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
![Acidotoxicity and acid-sensing ion channels contribute to motoneuron degeneration | Cell Death & Differentiation Acidotoxicity and acid-sensing ion channels contribute to motoneuron degeneration | Cell Death & Differentiation](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fcdd.2012.158/MediaObjects/41418_2013_Article_BFcdd2012158_Fig1_HTML.jpg)
Acidotoxicity and acid-sensing ion channels contribute to motoneuron degeneration | Cell Death & Differentiation
![Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects](https://www.mdpi.com/toxins/toxins-14-00709/article_deploy/html/images/toxins-14-00709-g007.png)
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
![Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS](https://www.pnas.org/cms/10.1073/pnas.0600768103/asset/bde03e33-f56c-4ccd-bd25-354fce931d64/assets/graphic/zpq0300629520003.jpeg)
Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS
![The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library](https://physoc.onlinelibrary.wiley.com/cms/asset/17a6c3a1-7921-4e1d-b42e-675ab4435ccf/tjp15674-gra-0001-m.jpg)
The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library
![A High‐Performance Application Specific Integrated Circuit for Electrical and Neurochemical Traumatic Brain Injury Monitoring - Pagkalos - 2018 - ChemPhysChem - Wiley Online Library A High‐Performance Application Specific Integrated Circuit for Electrical and Neurochemical Traumatic Brain Injury Monitoring - Pagkalos - 2018 - ChemPhysChem - Wiley Online Library](https://chemistry-europe.onlinelibrary.wiley.com/cms/asset/06879fd5-6fa8-499b-99a4-40af34bf7356/cphc201701119-fig-0007-m.jpg)
A High‐Performance Application Specific Integrated Circuit for Electrical and Neurochemical Traumatic Brain Injury Monitoring - Pagkalos - 2018 - ChemPhysChem - Wiley Online Library
![The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library](https://physoc.onlinelibrary.wiley.com/cms/asset/9755f9ca-06fe-4a90-b728-ac344c79a26c/tjp15674-fig-0001-m.jpg)
The fallacy of functional nomenclature in the kingdom of biological multifunctionality: physiological and evolutionary considerations on ion channels - Munaron - The Journal of Physiology - Wiley Online Library
![Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS](https://www.pnas.org/cms/10.1073/pnas.0600768103/asset/4d163ace-28c7-445b-bc0a-c6409585b1c8/assets/graphic/zpq0300629520004.jpeg)
Acid-sensitive ionic channels in midbrain dopamine neurons are sensitive to ammonium, which may contribute to hyperammonemia damage | PNAS
![A proton-inhibited DEG/ENaC ion channel maintains neuronal ionstasis and promotes neuronal survival under stress - ScienceDirect A proton-inhibited DEG/ENaC ion channel maintains neuronal ionstasis and promotes neuronal survival under stress - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S258900422301194X-fx1.jpg)
A proton-inhibited DEG/ENaC ion channel maintains neuronal ionstasis and promotes neuronal survival under stress - ScienceDirect
Expression of ASICs in BMSCs and ACs. (a) Immunofluorescence of ASIC-1... | Download Scientific Diagram
![Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects](https://pub.mdpi-res.com/toxins/toxins-14-00709/article_deploy/html/images/toxins-14-00709-g002.png?1665980258)