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Dr Jonathan Chow
Dr

Jonathan Chow

Email: 
Phone: 
+61 7 344 33403

Overview

Availability

Dr Jonathan Chow is:
Available for supervision

Qualifications

  • Bachelor (Honours) of Science, The University of Queensland
  • Doctor of Philosophy, The University of Queensland

Works

Search Professor Jonathan Chow’s works on UQ eSpace

22 works between 2015 and 2024

1 - 20 of 22 works

2024

Journal Article

Taking the sting out of scorpions: electrophysiological investigation of the relative efficacy of three antivenoms against medically significant Centruroides species

Campbell, Sam I. D., Chow, Chun Yuen, Neri-Castro, Edgar, Alagón, Alejandro, Gómez, Aarón, Soria, Raúl, King, Glenn F. and Fry, Bryan G. (2024). Taking the sting out of scorpions: electrophysiological investigation of the relative efficacy of three antivenoms against medically significant Centruroides species. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 283 109977. doi: 10.1016/j.cbpc.2024.109977

Taking the sting out of scorpions: electrophysiological investigation of the relative efficacy of three antivenoms against medically significant Centruroides species

2024

Journal Article

Noninvasive diagnostic method to objectively measure olfaction and diagnose smell disorders by a molecularly targeted fluorescence imaging agent

Adilbay, Dauren, Gonzales, Junior, Zazhytska, Marianna, Demetrio de Souza Franca, Paula, Roberts, Sheryl, Viray, Tara D., Artschwager, Raik, Patel, Snehal, Kodra, Albana, Overdevest, Jonathan B., Chow, Chun Yuen, King, Glenn F., Jain, Sanjay K., Ordonez, Alvaro A., Carroll, Laurence S., Lomvardas, Stavros, Reiner, Thomas and Pillarsetty, Nagavarakishore (2024). Noninvasive diagnostic method to objectively measure olfaction and diagnose smell disorders by a molecularly targeted fluorescence imaging agent. Journal of Nuclear Medicine, 65 (8), 1293-1300. doi: 10.2967/jnumed.123.266123

Noninvasive diagnostic method to objectively measure olfaction and diagnose smell disorders by a molecularly targeted fluorescence imaging agent

2024

Conference Publication

Mending achy-breaky hearts: cyclic peptide TL01 is an enhancer of cardiac intracellular protein-protein interactions and promotes heart contractility

Rojas-Azofeifa, Daniela, Passioura, Toby, McMillen, Timothy, Cheesman, Elisabeth, Saez, Natalie, Chow, Jonathan, Eagles, David, Norman, Alexander, Perry, Matthew, Molenar, Peter, Regnier, Michael, King, Glenn and Palpant, Nathan (2024). Mending achy-breaky hearts: cyclic peptide TL01 is an enhancer of cardiac intracellular protein-protein interactions and promotes heart contractility. 37th European Peptide Symposium 14th International Peptide Symposium, Florence, Italy, 25-29 August 2024. Oxford, United Kingdom: John Wiley & Sons.

Mending achy-breaky hearts: cyclic peptide TL01 is an enhancer of cardiac intracellular protein-protein interactions and promotes heart contractility

2024

Journal Article

Shining a light on venom-peptide receptors: venom peptides as targeted agents for in vivo molecular imaging

Chow, Chun Yuen and King, Glenn F. (2024). Shining a light on venom-peptide receptors: venom peptides as targeted agents for in vivo molecular imaging. Toxins, 16 (7) 307, 307. doi: 10.3390/toxins16070307

Shining a light on venom-peptide receptors: venom peptides as targeted agents for in vivo molecular imaging

2024

Journal Article

Training immunophenotyping deep learning models with the same-section ground truth cell label derivation method improves virtual staining accuracy

Azam, Abu Bakr, Wee, Felicia, Vaeyrynen, Juha P., Yim, Willa Wen-You, Xue, Yue Zhen, Chua, Bok Leong, Lim, Jeffrey Chun Tatt, Somasundaram, Aditya Chidambaram, Tan, Daniel Shao Weng, Takano, Angela, Chow, Chun Yuen, Khor, Li Yan, Lim, Tony Kiat Hon, Yeong, Joe, Lau, Mai Chan and Cai, Yiyu (2024). Training immunophenotyping deep learning models with the same-section ground truth cell label derivation method improves virtual staining accuracy. Frontiers in Immunology, 15 1404640, 1-11. doi: 10.3389/fimmu.2024.1404640

Training immunophenotyping deep learning models with the same-section ground truth cell label derivation method improves virtual staining accuracy

2023

Journal Article

Development and validation of nerve-targeted bacteriochlorin sensors

Hernández-Gil, Javier, Chow, Chun Yuen, Chatras, Hugo, de Souza França, Paula Demétrio, Samuels, Zachary V., Cornejo, Mike, King, Glenn F., Lewis, Jason S., Reiner, Thomas and Gonzales, Junior (2023). Development and validation of nerve-targeted bacteriochlorin sensors. Journal of the American Chemical Society, 145 (26), 14276-14287. doi: 10.1021/jacs.3c02520

Development and validation of nerve-targeted bacteriochlorin sensors

2023

Journal Article

The voltage‐gated sodium channel NaV 1 .7 underlies endometriosis‐associated chronic pelvic pain

Castro, Joel, Maddern, Jessica, Chow, Chun Yuen, Tran, Poanna, Vetter, Irina, King, Glenn F. and Brierley, Stuart M. (2023). The voltage‐gated sodium channel NaV 1 .7 underlies endometriosis‐associated chronic pelvic pain. Journal of Neurochemistry, 168 (11), 3760-3776. doi: 10.1111/jnc.15795

The voltage‐gated sodium channel NaV 1 .7 underlies endometriosis‐associated chronic pelvic pain

2022

Journal Article

Cysteine-rich α-conotoxin SII displays novel interactions at the muscle nicotinic acetylcholine receptor

Wilhelm, Patrick, Luna-Ramirez, Karen, Chin, Yanni K.-Y., Dekan, Zoltan, Abraham, Nikita, Tae, Han-Shen, Chow, Chun Yuen, Eagles, David A., King, Glenn F., Lewis, Richard J., Adams, David J. and Alewood, Paul F. (2022). Cysteine-rich α-conotoxin SII displays novel interactions at the muscle nicotinic acetylcholine receptor. ACS Chemical Neuroscience, 13 (8), 1245-1250. doi: 10.1021/acschemneuro.1c00857

Cysteine-rich α-conotoxin SII displays novel interactions at the muscle nicotinic acetylcholine receptor

2021

Journal Article

Therapeutic inhibition of acid sensing ion channel 1a recovers heart function after ischemia-reperfusion injury

Redd, Meredith A., Scheuer, Sarah E., Saez, Natalie J., Yoshikawa, Yusuke, Chiu, Han Sheng, Gao, Ling, Hicks, Mark, Villanueva, Jeanette E., Joshi, Yashutosh, Chow, Chun Yuen, Cuellar-Partida, Gabriel, Peart, Jason N., See Hoe, Louise E., Chen, Xiaoli, Sun, Yuliangzi, Suen, Jacky Y., Hatch, Robert J., Rollo, Ben, Xiao, Di, Alzubaidi, Mubarak A.H., Maljevic, Snezana, Quaife-Ryan, Gregory A., Hudson, James E., Porrello, Enzo R., White, Melanie Y., Cordwell, Stuart J., Fraser, John F., Petrou, Steven, Reichelt, Melissa E. ... Palpant, Nathan J. (2021). Therapeutic inhibition of acid sensing ion channel 1a recovers heart function after ischemia-reperfusion injury. Circulation, 144 (12), 947-960. doi: 10.1161/circulationaha.121.054360

Therapeutic inhibition of acid sensing ion channel 1a recovers heart function after ischemia-reperfusion injury

2021

Journal Article

Pharmacological Inhibition of the Voltage-Gated Sodium Channel Nav1.7 Alleviates Chronic Visceral Pain in a Rodent Model of Irritable Bowel Syndrome

Jiang, Yan, Castro, Joel, Blomster, Linda V., Agwa, Akello J., Maddern, Jessica, Schober, Gudrun, Herzig, Volker, Chow, Chun Yuen, Cardoso, Fernanda C., Demétrio De Souza França, Paula, Gonzales, Junior, Schroeder, Christina I., Esche, Steffen, Reiner, Thomas, Brierley, Stuart M. and King, Glenn F. (2021). Pharmacological Inhibition of the Voltage-Gated Sodium Channel Nav1.7 Alleviates Chronic Visceral Pain in a Rodent Model of Irritable Bowel Syndrome. ACS Pharmacology & Translational Science, 4 (4) acsptsci.1c00072, 1362-1378. doi: 10.1021/acsptsci.1c00072

Pharmacological Inhibition of the Voltage-Gated Sodium Channel Nav1.7 Alleviates Chronic Visceral Pain in a Rodent Model of Irritable Bowel Syndrome

2020

Journal Article

Fifteen years of NaV1.7 channels as an analgesic target: Why has excellent in vitro pharmacology not translated into in vivo analgesic efficacy?

Eagles, David A., Chow, Chun Yuen and King, Glenn F. (2020). Fifteen years of NaV1.7 channels as an analgesic target: Why has excellent in vitro pharmacology not translated into in vivo analgesic efficacy?. British Journal of Pharmacology, 179 (14) bph.15327, 3592-3611. doi: 10.1111/bph.15327

Fifteen years of NaV1.7 channels as an analgesic target: Why has excellent in vitro pharmacology not translated into in vivo analgesic efficacy?

2020

Journal Article

Venom-derived modulators of epilepsy-related ion channels

Chow, Chun Yuen, Absalom, Nathan, Biggs, Kimberley, King, Glenn F. and Ma, Linlin (2020). Venom-derived modulators of epilepsy-related ion channels. Biochemical Pharmacology, 181 114043, 114043. doi: 10.1016/j.bcp.2020.114043

Venom-derived modulators of epilepsy-related ion channels

2020

Journal Article

A selective naV1.1 activator with potential for treatment of dravet syndrome epilepsy

Chow, Chun Yuen, Chin, Yanni K.Y., Ma, Linlin, Undheim, Eivind A.B., Herzig, Volker and King, Glenn F. (2020). A selective naV1.1 activator with potential for treatment of dravet syndrome epilepsy. Biochemical Pharmacology, 181 113991, 113991. doi: 10.1016/j.bcp.2020.113991

A selective naV1.1 activator with potential for treatment of dravet syndrome epilepsy

2020

Journal Article

Fluorescence labeling of a NaV1.7-targeted peptide for near-infrared nerve visualization

Gonzales, Junior, Pirovano, Giacomo, Chow, Chun Yuen, de Souza Franca, Paula Demetrio, Carter, Lukas M., Klint, Julie K., Guru, Navjot, Lewis, Jason S., King, Glenn F. and Reiner, Thomas (2020). Fluorescence labeling of a NaV1.7-targeted peptide for near-infrared nerve visualization. EJNMMI Research, 10 (1) 49, 49. doi: 10.1186/s13550-020-00630-4

Fluorescence labeling of a NaV1.7-targeted peptide for near-infrared nerve visualization

2019

Journal Article

Venom peptides with dual modulatory activity on the voltage-gated sodium channel NaV1.1 provide novel leads for development of antiepileptic drugs

Chow, Chun Yuen, Chin, Yanni K.-Y., Walker, Andrew A., Guo, Shaodong, Blomster, Linda V., Ward, Micaiah J., Herzig, Volker, Rokyta, Darin R. and King, Glenn F. (2019). Venom peptides with dual modulatory activity on the voltage-gated sodium channel NaV1.1 provide novel leads for development of antiepileptic drugs. ACS Pharmacology & Translational Science, 3 (1) acsptsci.9b00079, 119-134. doi: 10.1021/acsptsci.9b00079

Venom peptides with dual modulatory activity on the voltage-gated sodium channel NaV1.1 provide novel leads for development of antiepileptic drugs

2019

Other Outputs

Development of NaV1.1-selective agonists with potential for treatment of Dravet syndrome epilepsy

Chow, Chun Yuen (2019). Development of NaV1.1-selective agonists with potential for treatment of Dravet syndrome epilepsy. PhD Thesis, Institute for Molecular Bioscience, The University of Queensland. doi: 10.14264/uql.2019.883

Development of NaV1.1-selective agonists with potential for treatment of Dravet syndrome epilepsy

2018

Journal Article

Novel venom-derived inhibitors of the human EAG channel, a putative antiepileptic drug target

Ma, Linlin, Chin, Yanni K.Y., Dekan, Zoltan, Herzig, Volker, Chow, Chun Yuen, Heighway, Jacqueline, Lam, Sau Wing, Guillemin, Gilles J., Alewood, Paul F. and King, Glenn F. (2018). Novel venom-derived inhibitors of the human EAG channel, a putative antiepileptic drug target. Biochemical Pharmacology, 158, 60-72. doi: 10.1016/j.bcp.2018.08.038

Novel venom-derived inhibitors of the human EAG channel, a putative antiepileptic drug target

2018

Journal Article

Selective NaV1.1 activation rescues Dravet syndrome mice from seizures and premature death

Richards, Kay L., Milligan, Carol J., Richardson, Robert J., Jancovski, Nikola, Grunnet, Morten, Jacobson, Laura H., Undheim, Eivind A. B., Mobli, Mehdi, Chow, Chun Yuen, Herzig, Volker, Csoti, Agota, Panyi, Gyorgy, Reid, Christopher A., King, Glenn F. and Petrou, Steven (2018). Selective NaV1.1 activation rescues Dravet syndrome mice from seizures and premature death. Proceedings of the National Academy of Sciences, 115 (34), 201804764-E8085. doi: 10.1073/pnas.1804764115

Selective NaV1.1 activation rescues Dravet syndrome mice from seizures and premature death

2018

Journal Article

Gating modifier toxins isolated from spider venom: modulation of voltage-gated sodium channels and the role of lipid membranes

Agwa, Akello J., Peigneur, Steve, Chow, Chun Yuen, Lawrence, Nicole, Craik, David J., Tytgat, Jan, King, Glenn F., Henriques, Sonia Troeira and Schroeder, Christina I. (2018). Gating modifier toxins isolated from spider venom: modulation of voltage-gated sodium channels and the role of lipid membranes. Journal of Biological Chemistry, 293 (23), 9041-9052. doi: 10.1074/jbc.RA118.002553

Gating modifier toxins isolated from spider venom: modulation of voltage-gated sodium channels and the role of lipid membranes

2018

Conference Publication

The use of peptide-membrane interactions in the design of selective and potent sodium channel inhibitors

Schroeder, Christina, Agwa, Akello, Mueller, Alexander, Chow, Chun Yuen, Peigneur, Steve, Lawrence, Nicole, Deplazes, Evelyne, Mark, Alan, Craik, David, Tytgat, Jan, King, Glenn, Vetter, Irina and Henriques, Sonia Troeira (2018). The use of peptide-membrane interactions in the design of selective and potent sodium channel inhibitors. 35th European Peptide Symposium, Dublin City University, Ireland, 26-31 August 2018. Oxford, United Kingdom: John Wiley & Sons.

The use of peptide-membrane interactions in the design of selective and potent sodium channel inhibitors

Supervision

Availability

Dr Jonathan Chow is:
Available for supervision

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Media

Enquiries

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