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Ion Transport

AE1 Model

A kinetic model of Cl/HCO3 exchanger (AE1)

AE1 Model  Figure 2A

AE1 Model  Figure 2A

AE1 Model  Figure 2B

AE1 Model  Figure 2B

AE1 Model  Figure 2C

AE1 Model  Figure 2C

AE1 Model  Figure 2D

AE1 Model  Figure 2D

AE1 Model  Figure 2E

AE1 Model  Figure 2E

AE1 Model  Figure 2F

AE1 Model  Figure 2F

AE1 Model  Figure 3A

AE1 Model  Figure 3A

AE1 Model  Figure 3B

AE1 Model  Figure 3B

AE1 Model  Figure 3C

AE1 Model  Figure 3C

AE1 Model  Figure 3D

AE1 Model  Figure 3D

Chang, Fujita, 2001

HATPase

Chang, Fujita, 2001

NaH exchanger

Chang, Fujita, 2001

Anion exchanger

Eskandari, Wright, Loo,

Kinetics of the Reverse Mode of the Na+/Glucose Cotransporter

Eskandari, Wright, Loo,

Kinetics of the Reverse Mode of the Na+/Glucose Cotransporter

Eskandari, Wright, Loo,

Kinetics of the Reverse Mode of the Na+/Glucose Cotransporter

Eskandari, Wright, Loo,

Kinetics of the Reverse Mode of the Na+/Glucose Cotransporter

Mackenzie, Loo, PanayotovaHeiermann, Wright,

Biophysical Characteristics of the Pig Kidney Na/Glucose Cotransporter SGLT2 Reveal a Common Mechanism for SGLT1 and SGLT2

Mackenzie, Loo, PanayotovaHeiermann, Wright,

Biophysical Characteristics of the Pig Kidney Na/Glucose Cotransporter SGLT2 Reveal a Common Mechanism for SGLT1 and SGLT2

Mackenzie, Loo, PanayotovaHeiermann, Wright,

Biophysical Characteristics of the Pig Kidney Na/Glucose Cotransporter SGLT2 Reveal a Common Mechanism for SGLT1 and SGLT2

Moss, Kazmierczak, Kirley, Harris, 2009

A computational model for emergent dynamics in the kidney

Na+/K+ATPase Model

A kinetic model of Na+/K+ATPase (sodiumpotassium pump)

Na+/K+ATPase Model  Example

Na+/K+ATPase Model  Example

NHE3 Model  Figure 2

NHE3 Model  Figure 2

NHE3 Model  Figure 3A

NHE3 Model  Figure 3A

NHE3 Model  Figure 3B

NHE3 Model  Figure 3B

NHE3 Model  Figure 4A

NHE3 Model  Figure 4A

NHE3 Model  Figure 4B

NHE3 Model  Figure 4B

Parent, Supplisson, Loo, Wright,

Electrogenic Properties of the Cloned Na+/Glucose Cotransporter: II. A Transport Model under Nonrapid Equilibrium Conditions

Weinstein,

A kinetically defined Na+/H+ antiporter within a mathematical model of the rat proximal tubule

Weinstein,

A kinetically defined Na+/H+ antiporter within a mathematical model of the rat proximal tubule

Weinstein, 2000

A mathematical model of the outer medullary collecting duct of the rat