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Circulation Research
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April 17, 2001
The carboxyl terminal domain regulates the unitary conductance and voltage dependence of connexin40 gap junction channels
J M Anumonwo, S M Taffet, H Gu, et al.
Archivos Del Instituto De Cardiologia De Mexico
|
March 1, 1981
[Primary aldosteronism. Diagnostic aspects and treatment]
C Posadas, M Delmar, G Sánchez Torres, et al.
Cell Communication & Adhesion
|
June 18, 2002
Functional demonstration of connexin-protein binding using surface plasmon resonance
H S Duffy, M Delmar, W Coombs, et al.
Biophysical Journal
|
September 1, 1996
PH regulation of connexin43: molecular analysis of the gating particle
J F Ek-Vitorín, G Calero, G E Morley, et al.
Circulation Research
|
May 29, 1999
Hetero-domain interactions as a mechanism for the regulation of connexin channels
K Stergiopoulos, J L Alvarado, M Mastroianni, et al.
Developmental Genetics
|
March 18, 1999
Connexin diversity and gap junction regulation by pHi
D Francis, K Stergiopoulos, J F Ek-Vitorín, et al.
Circulation Research
|
July 22, 1998
A particle-receptor model for the insulin-induced closure of connexin43 channels
N Homma, J L Alvarado, W Coombs, et al.
Circulation Research
|
June 9, 2001
Null mutation of connexin43 causes slow propagation of ventricular activation in the late stages of mouse embryonic development
D Vaidya, H S Tamaddon, C W Lo, et al.
Circulation Research
|
August 1, 1992
Gap junctional channels in adult mammalian sinus nodal cells. Immunolocalization and electrophysiology
J M Anumonwo, H Z Wang, E Trabka-Janik, et al.
Circulation Research
|
June 1, 1992
Immunolocalization and expression of functional and nonfunctional cell-to-cell channels from wild-type and mutant rat heart connexin43 cDNA
B Dunham, S Liu, S Taffet, et al.
Page
of 6
Search research articles
Search
Showing results (41-50 of 51) with videos related to
Sort By:
Page
of 6
Circulation Research
|
April 17, 2001
The carboxyl terminal domain regulates the unitary conductance and voltage dependence of connexin40 gap junction channels
J M Anumonwo, S M Taffet, H Gu, et al.
Archivos Del Instituto De Cardiologia De Mexico
|
March 1, 1981
[Primary aldosteronism. Diagnostic aspects and treatment]
C Posadas, M Delmar, G Sánchez Torres, et al.
Cell Communication & Adhesion
|
June 18, 2002
Functional demonstration of connexin-protein binding using surface plasmon resonance
H S Duffy, M Delmar, W Coombs, et al.
Biophysical Journal
|
September 1, 1996
PH regulation of connexin43: molecular analysis of the gating particle
J F Ek-Vitorín, G Calero, G E Morley, et al.
Circulation Research
|
May 29, 1999
Hetero-domain interactions as a mechanism for the regulation of connexin channels
K Stergiopoulos, J L Alvarado, M Mastroianni, et al.
Developmental Genetics
|
March 18, 1999
Connexin diversity and gap junction regulation by pHi
D Francis, K Stergiopoulos, J F Ek-Vitorín, et al.
Circulation Research
|
July 22, 1998
A particle-receptor model for the insulin-induced closure of connexin43 channels
N Homma, J L Alvarado, W Coombs, et al.
Circulation Research
|
June 9, 2001
Null mutation of connexin43 causes slow propagation of ventricular activation in the late stages of mouse embryonic development
D Vaidya, H S Tamaddon, C W Lo, et al.
Circulation Research
|
August 1, 1992
Gap junctional channels in adult mammalian sinus nodal cells. Immunolocalization and electrophysiology
J M Anumonwo, H Z Wang, E Trabka-Janik, et al.
Circulation Research
|
June 1, 1992
Immunolocalization and expression of functional and nonfunctional cell-to-cell channels from wild-type and mutant rat heart connexin43 cDNA
B Dunham, S Liu, S Taffet, et al.
Page
of 6