Gating charge interactions with the S1 segment during activation of a Na+ channel voltage sensor. Submitted by Anonymous on Mon, 2015-03-16 12:25 Read more about Gating charge interactions with the S1 segment during activation of a Na+ channel voltage sensor.
Constitutive coupling of a naturally occurring human alpha1a-adrenergic receptor genetic variant to EGFR transactivation pathway. Submitted by Anonymous on Mon, 2015-03-16 12:24 Read more about Constitutive coupling of a naturally occurring human alpha1a-adrenergic receptor genetic variant to EGFR transactivation pathway.
An emerging consensus on voltage-dependent gating from computational modeling and molecular dynamics simulations. Submitted by Anonymous on Mon, 2015-03-16 11:18 Read more about An emerging consensus on voltage-dependent gating from computational modeling and molecular dynamics simulations.
Chemoselective tarantula toxins report voltage activation of wild-type ion channels in live cells. Submitted by Anonymous on Mon, 2015-03-16 11:15 Read more about Chemoselective tarantula toxins report voltage activation of wild-type ion channels in live cells.
Local anesthetic and antiepileptic drug access and binding to a bacterial voltage-gated sodium channel. Submitted by Anonymous on Mon, 2015-03-16 11:13 Read more about Local anesthetic and antiepileptic drug access and binding to a bacterial voltage-gated sodium channel.
Control of protein signaling using a computationally designed GTPase/GEF orthogonal pair. Submitted by Anonymous on Sun, 2015-03-15 12:11 Read more about Control of protein signaling using a computationally designed GTPase/GEF orthogonal pair.
Design of a phosphorylatable PDZ domain with peptide-specific affinity changes. Submitted by Anonymous on Sun, 2015-03-15 12:10 Read more about Design of a phosphorylatable PDZ domain with peptide-specific affinity changes.
Amino-acid site variability among natural and designed proteins. Submitted by Anonymous on Sun, 2015-03-15 12:09 Read more about Amino-acid site variability among natural and designed proteins.
Quantification of the transferability of a designed protein specificity switch reveals extensive epistasis in molecular recognition. Submitted by Anonymous on Sun, 2015-03-15 12:09 Read more about Quantification of the transferability of a designed protein specificity switch reveals extensive epistasis in molecular recognition.
The P2/P2' sites affect the substrate cleavage of TNF-α converting enzyme (TACE). Submitted by Anonymous on Sun, 2015-03-15 08:07 Read more about The P2/P2' sites affect the substrate cleavage of TNF-α converting enzyme (TACE).