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Biological Magnetic Resonance Data BankA Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules |
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| Entry ID | Data summary | Entry Title | Citation Title | Authors |
|---|---|---|---|---|
| 34753 | Chemical Shifts: 1 set |
Solution structure of TLR9 transmembrane and cytoplasmic juxtamembrane regions |
The Architecture of Transmembrane and Cytoplasmic Juxtamembrane regions of Toll-like receptors
|
A L Kayushin, A S Arseniev, A V Shabalkina, E F Kot, F D Kornilov, K S Mineev, L Cong, M V Goncharuk, P E Volynsky, S A Goncharuk, V A Lushpa, W Xiaohui |
| 34750 | Chemical Shifts: 1 set |
Solution structure of TLR2 transmembrane and cytoplasmic juxtamembrane regions |
The Architecture of Transmembrane and Cytoplasmic Juxtamembrane regions of Toll-like receptors
|
A L Kayushin, A S Arseniev, A V Shabalkina, E F Kot, F D Kornilov, K S Mineev, L Cong, M V Goncharuk, P E Volynsky, S A Goncharuk, V A Lushpa, W Xiaohui |
| 34751 | Chemical Shifts: 1 set |
Solution structure of TLR3 transmembrane and cytoplasmic juxtamembrane regions |
The Architecture of Transmembrane and Cytoplasmic Juxtamembrane regions of Toll-like receptors
|
A L Kayushin, A S Arseniev, A V Shabalkina, E F Kot, F D Kornilov, K S Mineev, L Cong, M V Goncharuk, P E Volynsky, S A Goncharuk, V A Lushpa, W Xiaohui |
| 34752 | Chemical Shifts: 1 set |
Solution structure of TLR5 transmembrane and cytoplasmic juxtamembrane regions |
The Architecture of Transmembrane and Cytoplasmic Juxtamembrane regions of Toll-like receptors
|
A L Kayushin, A S Arseniev, A V Shabalkina, E F Kot, F D Kornilov, K S Mineev, L Cong, M V Goncharuk, P E Volynsky, S A Goncharuk, V A Lushpa, W Xiaohui |
| 34164 | Chemical Shifts: 1 set |
Putative inactive (dormant) dimeric state of GHR transmembrane domain |
Structural basis of the signal transduction via transmembrane domain of the human growth hormone receptor.
|
A S Arseniev, A S Urban, D M Lesovoy, E V Bocharov, K V Pavlov, O V Bocharova, P E Volynsky, R G Efremov |
| 34160 | Chemical Shifts: 1 set |
Putative active dimeric state of GHR transmembrane domain |
Structural basis of the signal transduction via transmembrane domain of the human growth hormone receptor.
|
A S Arseniev, A S Urban, D M Lesovoy, E V Bocharov, K V Pavlov, O V Bocharova, P E Volynsky, R G Efremov |
| 34125 | Chemical Shifts: 1 set |
Cytotoxin-1 in DPC-micelle |
Impact of membrane partitioning on the spatial structure of an S-type cobra cytotoxin.
|
A G Konshina, A S Arseniev, D M Lesovoy, M A Dubinnyi, P E Volynsky, P V Dubovskii, R G Efremov, Y E Pustovalova, Y N Utkin |
| 34109 | Chemical Shifts: 1 set |
NMR structure of TLR4 transmembrane domain (624-657) in DPC micelles |
Spatial structure of TLR4 transmembrane domain in bicelles provides the insight into the receptor activation mechanism.
|
A S Aresinev, E V Novikova, K S Mineev, M V Goncharuk, P E Volynsky, S A Goncharuk |
| 34108 | Chemical Shifts: 3 sets |
NMR structure of TLR4 transmembrane domain (624-670) in DMPG/DHPC bicelles |
Spatial structure of TLR4 transmembrane domain in bicelles provides the insight into the receptor activation mechanism.
|
A S Aresinev, E V Novikova, K S Mineev, M V Goncharuk, P E Volynsky, S A Goncharuk |
| 34040 | Chemical Shifts: 1 set |
N-terminal motif dimerization of EGFR transmembrane domain in bicellar environment |
The Conformation of the Epidermal Growth Factor Receptor Transmembrane Domain Dimer Dynamically Adapts to the Local Membrane Environment.
|
A A Polyansky, A S Arseniev, E V Bocharov, K S Mineev, K V Pavlov, O V Bocharova, P E Bragin, P E Volynsky, R G Efremov |
| 15463 | Chemical Shifts: 1 set |
Spatial Structure and Hydrophobic Organization Determine Membrane Activity of Latarcins, Spider Antimicrobial Peptides |
Three-dimensional structure/hydrophobicity of latarcins specifies their mode of membrane activity
|
A A Polyansky, A S Arseniev, D V Karpunin, P E Volynsky, P V Dubovskii, R G Efremov, V V Chupin |
| 7402 | Chemical Shifts: 1 set |
Spatial Structure and Membrane Permeabilization for Latarcin-1, a Spider Antimicrobial Peptide |
Three-dimensional structure/hydrophobicity of latarcins specifies their mode of membrane activity
|
A A Polyansky, A S Arseniev, D V Karpunin, P E Volynsky, P V Dubovskii, R G Efremov, V V Chupin |
| 15231 | Chemical Shifts: 1 set Coupling Constants: 1 set |
ErbB2TM |
Spatial structure of the dimeric transmembrane domain of the growth factor receptor ErbB2 presumably corresponding to the receptor active state
|
A G Sobol, Alexander S Arseniev, Eduard V Bocharov, E N Tkach, Konstantin S Mineev, M P Kirpichnikov, Pavel E Volynsky, R G Efremov, V V Chupin, Y S Ermolyuk |
| 7288 | Chemical Shifts: 1 set Heteronuclear NOE Values: 1 set T1 Relaxation Values: 1 set T2 Relaxation Values: 1 set H Exchange Rates: 1 set |
1H, 13C, 15N Chemical Shift Assignments and 15N Relaxation Data for Transmembrane Domain of BNIP3 |
Unique dimeric structure of BNip3 transmembrane domain suggests membrane permeabilization as a cell death trigger.
|
Alexander S Arseniev, Alexey A Schulga, Dmitry V Karpunin, Eduard V Bocharov, Innokenty V Maslennikov, Konstantin V Pavlov, Marina V Goncharuk, Michail P Kirpichnikov, Pavel E Volynsky, Roman G Efremov, Yaroslav S Ermolyuk, Yulia E Pustovalova |
| 7205 | Chemical Shifts: 1 set Coupling Constants: 1 set T1 Relaxation Values: 1 set T2 Relaxation Values: 1 set |
1H, 13C, and 15N Chemical Shift Assignments for Transmembrane Segment of ErbB4 |
Spatial structure of the dimeric transmembrane domain of the growth factor receptor ErbB2 presumably corresponding to the receptor active state
|
A G Sobol, Alexander S Arseniev, Eduard V Bocharov, E N Tkach, Konstantin S Mineev, M P Kirpichnikov, Pavel E Volynsky, R G Efremov, V V Chupin, Y S Ermolyuk |