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Lakk M 53
Showing records 1 to 25 | Display all abstracts from Lakk M123938 Resting trabecular meshwork cells experience constitutive cation influx
Yarishkin O
Vision Research 2024; 224: 108487
123115 TRPV4 and chloride channels mediate volume sensing in trabecular meshwork cells
Baumann JM
American Journal of Physiology and Cell Physiology 2024; 327: C403-C414
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Redmon SN
Research square 2024; 0:
122477 TRPV4 overactivation enhances cellular contractility and drives ocular hypertension in TGFβ2 overexpressing eyes
Rudzitis CN
bioRxiv : the preprint server for biology 2024; 0:
123971 Resting human trabecular meshwork cells experience tonic cation influx
Yarishkin O
Research square 2024; 0:
123938 Resting trabecular meshwork cells experience constitutive cation influx
Lakk M
Vision Research 2024; 224: 108487
122477 TRPV4 overactivation enhances cellular contractility and drives ocular hypertension in TGFβ2 overexpressing eyes
Lakk M
bioRxiv : the preprint server for biology 2024; 0:
123971 Resting human trabecular meshwork cells experience tonic cation influx
Lakk M
Research square 2024; 0:
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Lakk M
Research square 2024; 0:
123115 TRPV4 and chloride channels mediate volume sensing in trabecular meshwork cells
Yarishkin O
American Journal of Physiology and Cell Physiology 2024; 327: C403-C414
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Tseng YT
Research square 2024; 0:
123938 Resting trabecular meshwork cells experience constitutive cation influx
Rudzitis CN
Vision Research 2024; 224: 108487
123115 TRPV4 and chloride channels mediate volume sensing in trabecular meshwork cells
Lakk M
American Journal of Physiology and Cell Physiology 2024; 327: C403-C414
123971 Resting human trabecular meshwork cells experience tonic cation influx
Rudzitis CN
Research square 2024; 0:
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Tseng YT; Tseng YT
Research square 2024; 0:
122477 TRPV4 overactivation enhances cellular contractility and drives ocular hypertension in TGFβ2 overexpressing eyes
Singh A
bioRxiv : the preprint server for biology 2024; 0:
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Tseng YT
Research square 2024; 0:
123115 TRPV4 and chloride channels mediate volume sensing in trabecular meshwork cells
De Ieso ML
American Journal of Physiology and Cell Physiology 2024; 327: C403-C414
122672 TRPV4 subserves physiological and pathological elevations in intraocular pressure
Rudzitis CN
Research square 2024; 0:
123971 Resting human trabecular meshwork cells experience tonic cation influx
Kirdajova D
Research square 2024; 0:
122477 TRPV4 overactivation enhances cellular contractility and drives ocular hypertension in TGFβ2 overexpressing eyes
Redmon SN
bioRxiv : the preprint server for biology 2024; 0:
123938 Resting trabecular meshwork cells experience constitutive cation influx
Searle JE
Vision Research 2024; 224: 108487
123971 Resting human trabecular meshwork cells experience tonic cation influx
Kirdajova D
Research square 2024; 0:
123938 Resting trabecular meshwork cells experience constitutive cation influx
Searle JE
Vision Research 2024; 224: 108487
123971 Resting human trabecular meshwork cells experience tonic cation influx
Kirdajova D
Research square 2024; 0:
