scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Ricardo S Vieira-Pires | Q56944281 |
Joao H. Morais-Cabral | Q71396255 | ||
P2093 | author name string | João Henrique Morais-Cabral | |
Ricardo Simão Vieira-Pires | |||
P2860 | cites work | Molecular dynamics simulations of the unfolding of an alpha-helical analogue of ribonuclease A S-peptide in water | Q44354473 |
3(10)-helices in proteins are parahelices | Q44525139 | ||
Helix packing angle preferences | Q46090179 | ||
Voltage-sensing residues in the S2 and S4 segments of the Shaker K+ channel | Q46299178 | ||
Helix forming tendency of valine substituted poly-alanine: a molecular dynamics investigation | Q46504993 | ||
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Solution structure of amphibian tachykinin Uperolein bound to DPC micelles | Q80275142 | ||
X-ray structure of a voltage-dependent K+ channel | Q22337257 | ||
The structure of proteins; two hydrogen-bonded helical configurations of the polypeptide chain | Q24519280 | ||
Atomic structure of a voltage-dependent K+ channel in a lipid membrane-like environment | Q27649044 | ||
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel | Q27649693 | ||
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Conformational changes and slow dynamics through microsecond polarized atomistic molecular simulation of an integral Kv1.2 ion channel | Q28474700 | ||
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Sequential formation of ion pairs during activation of a sodium channel voltage sensor | Q33564069 | ||
Calculation of the gating charge for the Kv1.2 voltage-activated potassium channel | Q33858393 | ||
Helix geometry in proteins | Q34049849 | ||
The role of alpha-, 3(10)-, and pi-helix in helix-->coil transitions | Q34199126 | ||
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A shaker K+ channel with a miniature engineered voltage sensor | Q34437176 | ||
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Peptide helices based on alpha-amino acids. | Q36241364 | ||
Facile transition between 3(10)- and alpha-helix: structures of 8-, 9-, and 10-residue peptides containing the -(Leu-Aib-Ala)2-Phe-Aib- fragment | Q36278820 | ||
A cyclic nucleotide modulated prokaryotic K+ channel | Q36445332 | ||
How does voltage open an ion channel? | Q36480474 | ||
S4-based voltage sensors have three major conformations | Q36976792 | ||
Sensing voltage across lipid membranes | Q37069037 | ||
Structural characteristics of alpha-helical peptide molecules containing Aib residues | Q37951600 | ||
A single carboxy-terminal arginine determines the amino-terminal helix conformation of an alanine-based peptide | Q43022332 | ||
P433 | issue | 6 | |
P921 | main subject | membrane protein | Q423042 |
transport protein | Q2111029 | ||
P304 | page(s) | 585-592 | |
P577 | publication date | 2010-12-01 | |
P1433 | published in | The Journal of General Physiology | Q1092259 |
P1476 | title | 3(10) helices in channels and other membrane proteins | |
P478 | volume | 136 |
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Q28271341 | Structure of the voltage-gated two-pore channel TPC1 from Arabidopsis thaliana |
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Q47713355 | Unique amalgamation of primary and secondary structural elements transform peptaibols into potent bioactive cell-penetrating peptides. |
Q21129281 | Voltage-Controlled Enzymes: The New JanusBifrons |
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