Search Count: 4
 |
Structural And Electrophysiological Analysis Of Annexin V Mutants. Mutagenesis Of Human Annexin V, An In Vitro Voltage-Gated Calcium Channel, Provides Information About The Structural Features Of The Ion Pathway, The Voltage Sensor And The Ion Selectivity Filter
Organism: Homo sapiens
Method: X-RAY DIFFRACTION Resolution:2.00 Å Release Date: 1995-03-31 Classification: CALCIUM/PHOSPHOLIPID BINDING Ligands: CA |
 |
Structural And Electrophysiological Analysis Of Annexin V Mutants. Mutagenesis Of Human Annexin V, An In Vitro Voltage-Gated Calcium Channel, Provides Information About The Structural Features Of The Ion Pathway, The Voltage Sensor And The Ion Selectivity Filter
Organism: Homo sapiens
Method: X-RAY DIFFRACTION Resolution:2.30 Å Release Date: 1995-03-31 Classification: CALCIUM/PHOSPHOLIPID BINDING Ligands: CA, SO4 |
 |
Structural And Electrophysiological Analysis Of Annexin V Mutants. Mutagenesis Of Human Annexin V, An In Vitro Voltage-Gated Calcium Channel, Provides Information About The Structural Features Of The Ion Pathway, The Voltage Sensor And The Ion Selectivity Filter
Organism: Homo sapiens
Method: X-RAY DIFFRACTION Resolution:2.00 Å Release Date: 1995-03-31 Classification: CALCIUM/PHOSPHOLIPID BINDING Ligands: CA, SO4 |
 |
Structural And Electrophysiological Analysis Of Annexin V Mutants. Mutagenesis Of Human Annexin V, An In Vitro Voltage-Gated Calcium Channel, Provides Information About The Structural Features Of The Ion Pathway, The Voltage Sensor And The Ion Selectivity Filter
Organism: Homo sapiens
Method: X-RAY DIFFRACTION Resolution:3.00 Å Release Date: 1995-03-31 Classification: CALCIUM/PHOSPHOLIPID BINDING |