Instant search results.
These results are sorted by relevance. You can sort the results by clicking on the table headers.
Download citations for all displayed entries in BibTeX format| Entry ID | Original Release date | Data summary | Entry Title | Citation Title | Authors | Additional Matches |
|---|---|---|---|---|---|---|
| 31023 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.21 in CDCl3 with cis/trans switching (TC conformation, 53%) |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31022 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.21 in 50% d6-DMSO and 50% water with cis/trans switching (CC conformation, 50%) |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31021 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.31 in d6-DMSO with cis/trans switching (B-CT conformation) |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31019 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 9-residue Rosetta-designed cyclic peptide D9.16 in CDCl3 with cis/trans switching (B-TC conformation) |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 30998 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.31 in d6-DMSO with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31002 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.31 in CDCl3 with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31001 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 9-residue Rosetta-designed cyclic peptide D9.16 in CDCl3 with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31000 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.21 in 50% d6-DMSO and 50% water with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 30999 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.21 in d6-DMSO with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 30997 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 9-residue Rosetta-designed cyclic peptide D9.16 in d6-DMSO with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 31003 | 2022-09-08 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution NMR structure of 8-residue Rosetta-designed cyclic peptide D8.21 in CDCl3 with cis/trans switching |
Accurate de novo design of membrane-traversing macrocycles
|
A K Bera, A Lauko, C Glynn, D Baker, D Craik, G Bhardwaj, G G Alpkilic, G T Montelione, J O'Connor, J Palmer, J Rodriguez, L L Dong, L Stewart, M Bick, M Di Piazza, P Hosseinzadeh, R Choi, R Griffin, R Tejero, S Rettie, T A Ramelot, T W Craven, V K Mulligan, W van Voorhis, X Li, Y H Huang | |
| 51152 | 2023-04-05 | Chemical Shifts: 1 set |
alpha-Synuclein at low pH and high Temperature |
High-Resolution Structural Information of Membrane-bound alpha-Synuclein provides Insight into the MoA of the Anti-Parkinson Drug UCB0599
|
Andreas Beier, Karin Ledolter, Markus Hartl, Richard J Taylor, Robert Konrat, Terry S Baker, Theresa Hofurthner, Thomas C Schwarz, Thomas Gossenreiter | |
| 51148 | 2023-04-05 | Chemical Shifts: 1 set |
Bicelle-bound alpha-Synuclein |
High-Resolution Structural Information of Membrane-bound alpha-Synuclein provides Insight into the MoA of the Anti-Parkinson Drug UCB0599
|
Andreas Beier, Karin Ledolter, Markus Hartl, Richard J Taylor, Robert Konrat, Terry S Baker, Theresa Hofurthner, Thomas C Schwarz, Thomas Gossenreiter | |
| 50996 | 2023-04-05 | Chemical Shifts: 1 set |
SDS-Micelle bound alpha-Synuclein |
High-Resolution Structural Information of Membrane-bound alpha-Synuclein provides Insight into the MoA of the Anti-Parkinson Drug UCB0599
|
Andreas Beier, Karin Ledolter, Markus Hartl, Richard J Taylor, Robert Konrat, Terry S Baker, Theresa Hofurthner, Thomas C Schwarz, Thomas Gossenreiter | |
| 30890 | 2021-12-06 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR structure of de novo designed protein 0515 |
De novo protein design by deep network hallucination
|
Alex Kang, Asim K Bera, Cameron M Chow, Christoffer Norn, David Baker, Frank DiMaio, Gaetano T Montelione, Ivan Anishchenko, Jingzhou Hao, Khushboo Bafna, Lauren Carter, Samuel J Pellock, Sergey Ovchinnikov, Tamuka M Chidyausiku, Theresa A Ramelot | |
| 30844 | 2022-07-06 | Chemical Shifts: 1 set |
High resolution NMR solution structure of a de novo designed minimal thioredoxin fold protein |
Sampling of structure and sequence space of small protein folds
|
A Tobin, D Baker, E M Strauch, J L Urbauer, K Noble, L Carter, R Crow, T Linsky | |
| 30802 | 2021-05-14 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR Structure of DE NOVO DESIGNED Rossmann 3x3 Fold Protein r3x3_bp3, Northeast Structural Genomics Consortium (NESG) Target OR689 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 30763 | 2020-08-03 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR Structure of DE NOVO DESIGNED Rossmann 2x3 Fold Protein r2x3_168, Northeast Structural Genomics Consortium (NESG) Target OR386 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 30753 | 2021-02-15 | Chemical Shifts: 1 set |
Solution NMR structure of de novo designed TMB2.3 |
De novo design of transmembrane beta-barrels
|
Alex Kang, Alyssa Q Stiving, Anastassia A Vorobieva, Asim K Bera, Binyong Liang, Cameron M Chow, Dagan C Marx, David Baker, David J Brockwell, G Nasir N Khan, Jim E Horne, Karen G Fleming, Lukas K Tamm, Paul White, Sheena E Radford, Sinduja Marx, Sophie R Harvey, Stacey Gerben, Vicki H Wysocki | |
| 30574 | 2020-04-17 | Chemical Shifts: 1 set |
NMR ensemble of computationally designed protein XAA |
Computational design of closely related proteins that adopt two well-defined but structurally divergent folds
|
A C McShan, D A Fletcher, D Baker, D Moschidi, K Y Wei, L P Carter, M J Bick, N G Sgourakis, P S Huang, S E Boyken, S Nerli | |
| 30573 | 2020-04-17 | Chemical Shifts: 1 set |
NMR ensemble of computationally designed protein XAA_GVDQ mutant M4L |
Computational design of closely related proteins that adopt two well-defined but structurally divergent folds
|
A C McShan, D A Fletcher, D Baker, D Moschidi, K Y Wei, L P Carter, M J Bick, N G Sgourakis, P S Huang, S E Boyken, S Nerli | |
| 30527 | 2019-06-07 | Chemical Shifts: 1 set |
De novo Designed Protein Foldit3 |
De novo protein design by citizen scientists.
|
Aaron Bauer, Alexander Boykov, Alex Ford, Brian Koepnick, Daniel-Adriano A Silva, David Baker, Firas Khatib, Foldit Players, Frank DiMaio, Gaetano T Montelione, Gaohua Liu, Jeff Flatten, Linda Wei, Matthew J Bick, Roger D Estep, Seth Cooper, Susan Kleinfelter, Tamir Husain, Toke Norgard-Solano, Yojiro Ishida, Zoran Popovic | |
| 34295 | 2019-07-02 | Chemical Shifts: 1 set |
Stabilising and Understanding a Miniprotein by Rational Design. |
Stabilizing and Understanding a Miniprotein by Rational Redesign.
|
C Williams, D Nicol, D N Woolfson, E G Baker, F Zieleniewski, J Samphire, K L Porter Goff, M P Crump | |
| 30474 | 2018-12-13 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
De Novo Design of a Protein Heterodimer with Specificity Mediated by Hydrogen Bond Networks |
Programmable design of orthogonal protein heterodimers.
|
Aniruddha Sahasrabuddhe, David Baker, David Flores-Solis, Florian Busch, Frank DiMaio, Lauren P Carter, Matthew J Bick, Mengxuan Jia, Nikolaos G Sgourakis, Peilong Lu, Robert A Langan, Scott E Boyken, Sherry Bermeo, T J Brunette, Vicki H Wysocki, Vikram Khipple K Mulligan, Zachary L VanAernum, Zibo Chen | |
| 30450 | 2019-04-09 | Chemical Shifts: 1 set |
CS-rosetta determined structures of the N-terminal domain of AlgF from P. aeruginosa |
Pseudomonas aeruginosa AlgF is an adaptor protein required for acetylation of the alginate exopolysaccharide
|
E H Snell, E N Kitova, G B Whitfield, J DC Codee, J S Klassen, J T Weadge, K E Low, L M Riley, M TC Walvoort, P A Chong, P Baker, P L Howell, S D Tammam, S J Caldwell, T D Grant | |
| 27420 | 2018-04-11 | Chemical Shifts: 1 set |
Chemical shifts for the de novo mini protein gHH_44 in the reduced state. |
Cytosolic expression, solution structures, and molecular dynamics simulation of genetically encodable disulfide-rich de novo designed peptides
|
Christopher D Bahl, David Baker, Elizabeth A Shaw, Garry W Buchko, Martin Karplus, Peter J Myler, Stephen A Rettie, Surya Pulavarti, Thomas Szyperski, Victor Ovchinnikov | |
| 30359 | 2018-01-05 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design10.1 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30357 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design8.2 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30358 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design9.1 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30360 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design10.2 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30361 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design11_ss |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30362 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design12_ss |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30363 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design14_ss |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30364 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design7.2 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30365 | 2018-01-05 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design7.3a |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30366 | 2018-01-05 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design7.3a |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30356 | 2017-12-26 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle design7.1 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 30355 | 2018-01-02 | Chemical Shifts: 1 set |
Solution structure of de novo macrocycle Design8.1 |
Comprehensive computational design of ordered peptide macrocycles.
|
D A Silva, D Baker, D E Kim, F Pardo-Avila, G Bhardwaj, G Varani, I K Webb, J N Adkins, J R Cort, M D Shortridge, P Hosseinzadeh, S A Rettie, T W Craven, V K Mulligan, Y M Ibrahim | |
| 27269 | 2018-09-04 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for gHEEE_02 in presence of 10 mM TCEP |
Cytosolic expression, solution structures, and molecular dynamics simulation of genetically encodable disulfide-rich de novo designed peptides
|
Christopher D Bahl, David Baker, Elizabeth A Shaw, Garry W Buchko, Martin Karplus, Peter J Myler, Stephen A Rettie, Surya Pulavarti, Thomas Szyperski, Victor Ovchinnikov | |
| 30312 | 2018-07-03 | Chemical Shifts: 1 set Spectral_peak_list: 3 sets |
Solution structure of the de novo mini protein gHEEE_02 |
Cytosolic expression, solution structures, and molecular dynamics simulation of genetically encodable disulfide-rich de novo designed peptides
|
Christopher D Bahl, David Baker, Elizabeth A Shaw, Garry W Buchko, Martin Karplus, Peter J Myler, Stephen A Rettie, Surya Pulavarti, Thomas Szyperski, Victor Ovchinnikov | |
| 30249 | 2017-07-20 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR structure of the de novo mini protein HEEH_rd4_0097 |
Global analysis of protein folding using massively parallel design, synthesis, and testing
|
Aaron Chevalier, Alexander Lemak, Alex Ford, Cheryl H Arrowsmith, David Baker, Gabriel J Rocklin, Inna Goreshnik, Lauren Carter, Rashmi Ravichandran, Scott Houliston, Tamuka M Chidyausiku, Vikram K Mulligan | |
| 30242 | 2017-07-20 | Chemical Shifts: 1 set |
Solution structure of the de novo mini protein EHEE_rd1_0284 |
Global analysis of protein folding using massively parallel design, synthesis, and testing
|
Aaron Chevalier, Alexander Lemak, Alex Ford, Cheryl H Arrowsmith, David Baker, Gabriel J Rocklin, Inna Goreshnik, Lauren Carter, Rashmi Ravichandran, Scott Houliston, Tamuka M Chidyausiku, Vikram K Mulligan | |
| 30241 | 2017-07-20 | Chemical Shifts: 1 set |
Solution structure of the de novo mini protein EEHEE_rd3_1049 |
Global analysis of protein folding using massively parallel design, synthesis, and testing
|
Aaron Chevalier, Alexander Lemak, Alex Ford, Cheryl H Arrowsmith, David Baker, Gabriel J Rocklin, Inna Goreshnik, Lauren Carter, Rashmi Ravichandran, Scott Houliston, Tamuka M Chidyausiku, Vikram K Mulligan | |
| 30240 | 2017-07-20 | Chemical Shifts: 1 set |
Solution structure of the de novo mini protein HHH_rd1_0142 |
Global analysis of protein folding using massively parallel design, synthesis, and testing
|
Aaron Chevalier, Alexander Lemak, Alex Ford, Cheryl H Arrowsmith, David Baker, Gabriel J Rocklin, Inna Goreshnik, Lauren Carter, Rashmi Ravichandran, Scott Houliston, Tamuka M Chidyausiku, Vikram K Mulligan | |
| 30204 | 2017-09-25 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution structure of the de novo mini protein gHH_44 |
Accurate de novo design of hyperstable constrained peptides
|
Alexander Eletsky, Andrew Watkins, Christopher D Bahl, Colin E Correnti, David Baker, David J Craik, Evangelos Coutsias, Gabriel J Rocklin, Garry W Buchko, Gaurav Bhardwaj, James M Olson, Jason M Gilmore, Lauren P Carter, Olivier Cheneval, Per Jr J Greisen, Peta J Harvey, Po-Ssu S Huang, Quentin Kaas, Richard Bonneau, Stephen A Rettie, Surya V Pulavarti, Thomas Szyperski, Thomas W Linsky, Vikram Khipple K Mulligan, William A Johnsen, Xianzhong Xu, Yifan Song | |
| 34031 | 2017-05-12 | Chemical Shifts: 1 set |
Engineering protein stability with atomic precision in a monomeric miniprotein |
Engineering protein stability with atomic precision in a monomeric miniprotein
|
C Williams, D N Woolfson, E G Baker, G G Bartlett, J W Heal, K L Hudson, K L Porter Goff, M P Crump, R B Sessions | |
| 34032 | 2017-05-12 | Chemical Shifts: 1 set |
Engineering protein stability with atomic precision in a monomeric miniprotein |
Engineering protein stability with atomic precision in a monomeric miniprotein
|
C Williams, D N Woolfson, E G Baker, G G Bartlett, J W Heal, K L Hudson, K L Porter Goff, M P Crump, R B Sessions | |
| 34033 | 2017-05-12 | Chemical Shifts: 1 set |
Engineering protein stability with atomic precision in a monomeric miniprotein |
Engineering protein stability with atomic precision in a monomeric miniprotein
|
C Williams, D N Woolfson, E G Baker, G G Bartlett, J W Heal, K L Hudson, K L Porter Goff, M P Crump, R B Sessions | |
| 30142 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_EEH_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30146 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_cEE_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30145 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_cHHH_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30144 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_cHh_DL_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30143 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_cHH_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30140 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_EHE_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30141 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_EEH_D2 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30138 | 2016-09-16 | Chemical Shifts: 1 set |
NMR Solution Structure of Designed Peptide NC_HEE_D1 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 26045 | 2016-09-13 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution structure of the de novo mini protein HHH_06 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 26046 | 2016-09-13 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution structure of the de novo mini protein EEH_04 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30069 | 2016-09-22 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution structure of the de novo miniprotein EEHE_02 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30067 | 2016-09-22 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution structure of the de novo miniprotein EHE_06 |
Accurate de novo design of hyperstable constrained peptides.
|
A Eletsky, A Watkins, C D Bahl, C E Correnti, D Baker, D J Craik, E Coutsias, G Bhardwaj, G J Rocklin, G W Buchko, J M Gilmore, J M Olson, L P Carter, O Cheneval, P J Greisen, P J Harvey, P S Huang, Q Kaas, R Bonneau, S A Rettie, S V Pulavarti, T Szyperski, T W Linsky, V K Mulligan, W A Johnsen, X Xu, Y Song | |
| 30047 | 2016-09-30 | Chemical Shifts: 1 set |
Solution structure of Ras Binding Domain (RBD) of B-Raf |
A Small Molecule RAS-Mimetic Disrupts RAS Association with Effector Proteins to Block Signaling.
|
A K Aggarwal, C Guha, D Mulholland, E P Reddy, I Basu, J R Hart, K Dutta, L Ueno, M V Reddy, P K Vogt, R Vasquez-Del Carpio, S C Cosenza, S J Baker, S K Athuluri-Divakar, Y K Gupta | |
| 30050 | 2016-06-20 | Chemical Shifts: 1 set |
Solution structure of Ras Binding Domain (RBD) of B-Raf |
A Small Molecule RAS-Mimetic Disrupts RAS Association with Effector Proteins to Block Signaling
|
A K Aggarwal, C Guha, D Mulholland, E P Reddy, I Basu, J R Hart, K Dutta, L Ueno, M V Reddy, P K Vogt, R Vasquez-Del Carpio, S C Cosenza, S J Baker, S K Athuluri-Divakar, Y K Gupta | |
| 30048 | 2016-06-20 | Chemical Shifts: 1 set |
Solution structure of Ras Binding Domain (RBD) of B-Raf complexed with Rigosertib (Complex I) |
A Small Molecule RAS-Mimetic Disrupts RAS Association with Effector Proteins to Block Signaling
|
A K Aggarwal, C Guha, D Mulholland, E P Reddy, I Basu, J R Hart, K Dutta, L Ueno, M V Reddy, P K Vogt, R Vasquez-Del Carpio, S C Cosenza, S J Baker, S K Athuluri-Divakar, Y K Gupta | |
| 30000 | 2016-06-17 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR structure of De novo designed PLOOP2X3_50 fold protein, Northeast Structural Genomics Consortium (NESG) target OR258 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 25527 | 2015-06-01 | Chemical Shifts: 1 set |
Chemical shift assignments and structure of the alpha-crystallin domain from human, HSPB5 |
A conserved histidine modulates HSPB5 structure to trigger chaperone activity in response to stress-related acidosis
|
Andrew J Borst, Daniel R Southworth, David Baker, Eric Tse, Katja D Dove, Lei Shi, Ponni Rajagopal, Rachel E Klevit, Scott P Delbecq | |
| 18837 | 2013-02-28 | Chemical Shifts: 1 set |
15N, 13C and 1H Resonance Assignments and Secondary Structure Determination of a Variable Heavy Chain Antibody |
(15)N, (13)C and (1)H resonance assignments and secondary structure determination of a variable heavy domain of a heavy chain antibody
|
Alastair D G Lawson, Alastair S Baker, Alistair J Henry, Christine E Prosser, Frederick W Muskett, Jorg Kinne, Laura M Griffin, Lorna C Waters, Mark D Carr, Philip W Addis, Richard J Taylor, Ulrich Wernery, Vaclav Veverka | |
| 17613 | 2011-06-01 | Chemical Shifts: 1 set Residual Dipolar Couplings: 2 sets |
Solution NMR Structure of DE NOVO DESIGNED PROTEIN, P-LOOP NTPASE FOLD, Northeast Structural Genomics Consortium Target OR36 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 17390 | 2011-01-24 | Chemical Shifts: 1 set |
Solution NMR Structure of de novo designed protein, P-loop NTPase fold, Northeast Structural Genomics Consortium Target OR32 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 17304 | 2010-12-16 | Chemical Shifts: 1 set Spectral_peak_list: 2 sets |
Solution NMR Structure of de novo designed rossmann 2x3 fold protein, Northeast Structural Genomics Consortium Target OR28 |
Role of backbone strain in de novo design of complex alpha/beta protein structures
|
D Baker, G Liu, G T Montelione, J Castellanos, N Koga, R Koga | |
| 16145 | 2009-06-25 | Chemical Shifts: 1 set |
Structure of SDF-1/CXCL12 |
Monomeric structure of the cardioprotective chemokine SDF-1/CXCL12
|
B F Volkman, C T Veldkamp, F C Peterson, H Basnet, J E Baker, J J Weiner, J J Ziarek, J Su, R Lennertz | |
| 16142 | 2009-06-25 | Chemical Shifts: 1 set |
Structure of SDF-1/CXCL12 |
Monomeric structure of the cardioprotective chemokine SDF-1/CXCL12
|
B F Volkman, C T Veldkamp, F C Peterson, H Basnet, J E Baker, J J Weiner, J J Ziarek, J Su, R Lennertz | |
| 16143 | 2009-06-25 | Chemical Shifts: 1 set |
Structure of SDF-1/CXCL12 |
Monomeric structure of the cardioprotective chemokine SDF-1/CXCL12
|
B F Volkman, C T Veldkamp, F C Peterson, H Basnet, J E Baker, J J Weiner, J J Ziarek, J Su, R Lennertz | |
| 15340 | 2007-11-21 | Chemical Shifts: 1 set |
1H, 13C, and 15N Backbone Assignments and 13C Aliphatic Sidechain Assignments for PKA Phosphorylated CFTR Regulatory Region |
CFTR regulatory region interacts with NBD1 predominantly via multiple transient helices.
|
Jennifer MR Baker, Julie D Forman-Kay, Patrick H Thibodeau, Philip J Thomas, Rhea P Hudson, Voula Kanelis, Wing-Yiu Choy | |
| 15336 | 2007-11-21 | Chemical Shifts: 1 set |
1H, 13C and 15N Backbone Resonance Assignments of the Nonphosphorylated CFTR Regulatory Region |
CFTR regulatory region interacts with NBD1 predominantly via multiple transient helices.
|
Jennifer MR Baker, Julie D Forman-Kay, Patrick H Thibodeau, Philip J Thomas, Rhea P Hudson, Voula Kanelis, Wing-Yiu Choy | |
| 7101 | 2006-11-17 | Chemical Shifts: 1 set |
Mistranslation of a computationally designed protein yields an exceptionally stable homodimer: Implications for protein evolution and engineering. |
Mis-translation of a computationally designed protein yields an exceptionally stable homodimer: Implications for protein evolution and engineering.
|
A L Watters, B Kuhlman, B L Stoddard, B M Lunde, D Baker, G Dantas, G Varani, J Lipfert, M Tompa, N G Isern, S Doniach, T Roseman, Z M Eletr | |
| 7102 | 2007-04-16 | Chemical Shifts: 1 set |
High-resolution structural and thermodynamic analysis of extreme stabilization of human procarboxypeptidase by computational protein design |
High-resolution structural and thermodynamic analysis of extreme stabilization of human procarboxypeptidase by computational protein design
|
B Kuhlman, C Corrent, D Baker, E A Merritt, G Dantas, G Varani, J J Havranek, N G Isern, S L Reichow, Z M Eletr | |
| 5232 | 2002-08-22 | Chemical Shifts: 1 set |
1H, 13C, and 15N resonance assignments of the DNA-binding domain of the essential protein Cdc13 complexed with single-stranded telomeric DNA |
Letter to the Editor: 1H, 13C, and 15N resonance assignments of the DNA-binding domain of the essential protein Cdc13 complexed with single-stranded telomeric DNA
|
Deborah S Wuttke, Rachel M Mitton-Fry | Common name: Baker's yeast |
| 17173 | 2011-03-30 | Chemical Shifts: 1 set |
1H, 13C, and 15N chemical shift assignments of the Nrd1-CTD Interacting Domain |
1H, 13C, and 15N resonance assignments for the CTD-interacting domain of Nrd1 bound to Ser5-phosphorylated CTD of RNA polymerase II.
|
Frank Lohr, Hana erna, Josef Pasulka, Karel Kubiek, Richard tefl | Common name: Baker's yeast |
| 17879 | 2011-12-02 | Chemical Shifts: 1 set |
NMR structure of Atg8-Atg7C30 complex |
Structural basis of Atg8 activation and transfer to Atg3 by a homodimeric E1, Atg7
|
Fuyuhiko Inagaki, Hiroyuki Kumeta, Hitoshi Nakatogawa, Kenji Ogura, Kenji Satoo, Nobuo N Noda, Yoshinori Ohsumi, Yuko Fujioka | Common name: baker's yeast |
| 16659 | 2010-05-05 | Chemical Shifts: 1 set |
Assignment and structural characterization of intrinsically disordered CDK inhibitor phosphoSic1 from yeast |
Structure/function implications in a dynamic complex of the intrinsically disordered Sic1 with the Cdc4 subunit of an SCF ubiquitin ligase.
|
Alexander Grishaev, Frank Sicheri, Hong Lin, Joseph Marsh, Julie D Forman-Kay, Mike Tyers, Stephen Orlicky, Tanja Mittag | Common name: baker's yeast |
| 27405 | 2019-04-24 | Chemical Shifts: 1 set |
The 15N, 13C and 1H Chemical Shift Assignment of Sis1 J domain from S. cerevisiae |
1H, 15N and 13C resonance assignments of the J-domain of co-chaperone Sis1 from Saccharomyces cerevisiae
|
Anwar Iqbal, Carlos HI Ramos, Fabio CL Almeida, Gisele C Amorim, Glaucia MS Pinheiro | Common name: baker's yeast |
| 18055 | 2013-01-04 | Chemical Shifts: 1 set |
NH chemical shift assignments for free AbpSH3 bound to WT Ark1p peptide |
Differential Dynamic Engagement within 24 SH3 Domain: Peptide Complexes Revealed by Co-Linear Chemical Shift Perturbation Analysis.
|
Alan R Davidson, Elliott J Stollar, Hong Lin, Julie D Forman-Kay | Common name: baker's yeast |
| 17502 | 2012-03-01 | Chemical Shifts: 1 set |
NMR STRUCTURE OF THE C-TERMINAL RRM DOMAIN OF POLY(U) BINDING 1 |
Pub1p C-terminal RRM domain interacts with Tif4631p through a conserved region neighbouring the Pab1p binding site
|
Clara M Santiveri, Jose M Perez-Canadillas, Palma R Rico-Lastres, Santiago M Martinez-Lumbreras, Yasmina Mirassou | Common name: baker's yeast |
| 50796 | 2021-09-13 | Chemical Shifts: 1 set |
Backbone assignment for yeast Yth1 zinc finger domain 4 |
Dynamics in Fip1 regulate eukaryotic mRNA 3' end processing
|
Ananthanarayanan Kumar, Conny WH Yu, Juan B Rodriguez-Molina, Lori A Passmore, Stefan MV Freund, Xiaohan Li | Common name: baker's yeast |
| 11495 | 2014-01-14 | Chemical Shifts: 1 set |
Backbone and side-chain 1H, 15N and 13C resonance assignments of the microtubule-binding domains of yeast cytoplasmic dynein in the low affinity state |
Backbone and side-chain 1H, 15N and 13C resonance assignments of the microtubule-binding domain of yeast cytoplasmic dynein in the high and low-affinity states.
|
Ichio Shimada, Masahide Kikkawa, Noritaka Nishida, Osamu Takarada | Common name: baker's yeast |
| 18071 | 2013-01-03 | Chemical Shifts: 1 set |
NH chemical shift Assignments for AbpSH3 bound to WT Prk1 peptide (ArkA_P(-1)A) |
Differential Dynamic Engagement within 24 SH3 Domain: Peptide Complexes Revealed by Co-Linear Chemical Shift Perturbation Analysis.
|
Alan R Davidson, Elliott J Stollar, Hong Lin, Julie D Forman-Kay | Common name: baker's yeast |
| 17589 | 2011-06-22 | Chemical Shifts: 1 set |
Backbone Resonance Assignments for Prp24-RRM3 |
A novel occluded RNA recognition motif in Prp24 unwinds the U6 RNA internal stem loop.
|
Ashley C Richie, David A Brow, Lawrence J Clos, Samuel E Butcher, Stephen Martin-Tumasz | Common name: Baker's yeast |
| 16279 | 2011-08-31 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for the yeast Hsp90 Middle Domain |
Structural analysis of the interaction between Hsp90 and the tumor suppressor protein p53.
|
Franz Hagn, Horst Kessler, Johannes Buchner, Julia Rohrberg, Klaus Richter, Marco Retzlaff, Oliver Demmer, Stephan Lagleder | Common name: baker's yeast |
| 51814 | 2023-08-31 | Chemical Shifts: 1 set |
Backbone Chemical Shift Assignments (1H, 13C, and 15N) for the CH Domain of Yeast Kinetochore Protein Ndc80 |
Multivalent Molecular Tweezers Disrupt the Essential NDC80 Interaction with Microtubules
|
Abbna Kirupakaran, Alexander Dudziak, Christine Beuck, Elsa Sanchez-Garcia, Felix Niemeyer, Jessica Felice F Schmuck, Joel Mieres-Perez, Jonas Neblik, My-Hue H Le, Peter Bayer, Stefan Westermann, Thomas Schrader, Ursula Telgheder | Common name: baker's yeast |
| 34691 | 2022-10-21 | Chemical Shifts: 1 set |
NMR structure of Npl3 RRM1 bound to the AUCCAA RNA |
RNA recognition by Npl3p reveals U2 snRNA-binding compatible with a chaperone role during splicing
|
Ahmed Moursy, Antoine Clery, Frederic H-T H Allain, Irene Beusch, Jaroslaw Mazur, Katharina M Betz, Malgorzata M Duszczyk, Mark D Robinson, Sanjana Rao, Sebastien Campagne, Stefan Gerhardy, Vikram Govind G Panse | Common name: Baker's yeast |
| 16244 | 2009-09-04 | Chemical Shifts: 1 set |
Backbone NH Assignments for Prp24-RRM23 Bound to AGAGAU RNA |
(1)H, (13)C and (15)N resonance assignments of a ribonucleoprotein complex consisting of Prp24-RRM2 bound to a fragment of U6 RNA.
|
Samuel E Butcher, Stephen Martin-Tumasz | Common name: baker's yeast |
| 5395 | 2003-02-20 | Chemical Shifts: 2 sets |
Chemical Shift Assignments for the Unmodified Branch Site Helix |
Sculpting of the Spliceosomal Branch Site Recognition Motif by a Conserved Pseudouridine
|
Meredith I Newby, Nancy L Greenbaum | Common name: Baker's yeast |
| 34140 | 2017-07-27 | Chemical Shifts: 1 set |
Solution structure of the RNA binding domain of Nrd1 |
The structure of transcription termination factor Nrd1 reveals an original mode for GUAA recognition.
|
B Gonzalez, C M Santiveri, E Franco-Echevarria, J M Perez-Canadillas, M Sanchez, N Gonzalez-Polo, O Calvo, R Campos-Olivas, S Martinez-Lumbreras, S Zorrilla | Common name: Baker's yeast |
| 6956 | 2006-04-26 | Chemical Shifts: 2 sets |
RNA recognition by the Vts1 SAM domain |
RNA recognition by the Vts1p SAM domain
|
L W Donaldson, P E Johnson | Common name: baker's yeast |
| 18488 | 2012-07-02 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments of an oxidizied and mutant form of sulfiredoxin from Saccharomyces cervisiae |
The rate-limiting step of sulfiredoxin is associated with the transfer of the gamma-phosphate of ATP to the sulfinic acid of overoxidized typical 2-Cys peroxiredoxins
|
Guy Branlant, Samia Boukhenouna, Sophie Rahuel-Clermont, Xavier Roussel | Common name: baker's yeast |
| 17916 | 2011-12-14 | Chemical Shifts: 1 set |
Backbone assignments for the C-terminal domain of yeast Tfg2 |
Structural and binding studies of the C-terminal domains of yeast TFIIF subunits Tfg1 and Tfg2.
|
Adina M Kilpatrick, Angela M Gronenborn, Guillermo A Calero, Leonardus MI Koharudin | Common name: baker's yeast |
| 18235 | 2015-07-24 | Chemical Shifts: 1 set |
Solution Structure Of The N-Terminal Domain Of The Yeast Protein Dre2 |
A S-adenosylmethionine methyltransferase-like domain within the essential, Fe-S-containing yeast protein Dre2
|
Annalisa Pastore, Bertrand Raynal, Costantin Craescu, Daniel Mansuy, Giuseppe Baldacci, Jacques Gallay, Laurence Vernis, Meng-Er Huang, Nicolas Soler, Yves-Michel Frapart | Common name: Baker's yeast |
| 12016 | 2018-02-27 | Chemical Shifts: 1 set |
Backbone 1H and 15N Chemical Shift Assignments for Sup35NM |
Molecular basis for diversification of yeast prion strain conformation
|
Boran Uluca, Henrike Heise, Henrik Muller, Hiroshi Kurahashi, Kazuo Kuwata, Motomasa Tanaka, Shinju Sugiyama, Shinya Hanashima, Timo Piechatzek, Toshinobu Shida, Yoshiki Yamaguchi, Yuji O Kamatari, Yumiko Ohhashi, Yusuke Komi | Common name: baker's yeast |
| 18959 | 2013-11-26 | Chemical Shifts: 2 sets |
NMR structure of Rsa1p238-259 from S. Cerevisiae |
Characterization of the interaction between protein Snu13p/15.5K and the Rsa1p/NUFIP factor and demonstration of its functional importance for snoRNP assembly.
|
Benjamin Rothe, Bruno Charpentier, Christiane Branlant, Christophe Romier, Edouard Bertrand, Jonathan Bizarro, Magali Blaud, Marc Quinternet, Marie-Cecile Robert, Regis Back, Xavier Manival | Common name: Baker's yeast |
| 6228 | 2005-03-17 | Chemical Shifts: 1 set |
The Solution Structure of the FATC Domain of the Protein Kinase TOR Suggest a Redox Regulatory Mechanism |
The solution structure of the FATC domain of the protein kinase TOR suggests a role for redox-dependent structural and cellular stability
|
J M Mulet, K Rathgeb-Szabo, M N Hall, S A Dames, S Grzesiek | Common name: Baker's yeast |
| 19884 | 2014-04-08 | Chemical Shifts: 1 set |
Yeast cytochrome c peroxidase assignment |
The cytochrome c peroxidase and cytochrome c encounter complex: The other side of the story.
|
Frank Lohr, Harald Schwalbe, Jesika Schilder, Marcellus Ubbink | Common name: baker's yeast |
| 34053 | 2017-02-23 | Chemical Shifts: 1 set |
Structure of a stable G-hairpin |
Structure of a stable G-hairpin
|
B Pagano, J Amato, J Plavec, J Sponer, L Tomaska, L Trantirek, M Gajarsky, M L Zivkovic, P Stadlbauer, R Fiala | Common name: baker's yeast |
| 25221 | 2014-12-22 | Chemical Shifts: 1 set |
Solution structure of the PHD domain of Yeast YNG2 |
Solution structure of the PHD domain of Yeast YNG2
|
Alexander Lemak, Lilia Kaustov, Sahar Farhadi, Samira Taeb, Yi Sheng | Common name: baker's yeast |
| 50472 | 2020-12-16 | Chemical Shifts: 1 set |
Methyl assignments of Hsp90 FL AIM LV pro-R labeled |
The co-chaperone p23 coordinates client binding and progression of the Hsp90 chaperone cycle via flexible regions
|
Abraham Lopez, Alexandra Rehn, Birgit Blank, Jannis Lawatscheck, Johannes Buchner, Lee Freiburger, Maximilian M Biebl, Michael Sattler | Common name: baker's yeast |
| 25184 | 2015-10-08 | Chemical Shifts: 1 set |
Backbone chemical shift assignment of FG-NUP (49-172) under in cell condition. |
Atomic Scale Dynamic Behavior of the Nuclear Transport Selectivity Barrier
|
Alia Kamal, David Cowburn, Deniz B Temel, Jaclyn Tetenbaum-Novatt, Kaushik Dutta, Loren Hough, Michael Rout, Sam Sparks | Common name: baker's yeast |
| 17352 | 2011-03-30 | Chemical Shifts: 1 set |
The structure of a domain from yeast |
Solution structure of the Taf14 YEATS domain and its roles in cell growth of Saccharomyces cerevisiae.
|
Chao Xu, Jiahai Zhang, Wen Zhang, Xiaoming Tu, Xuecheng Zhang | Common name: baker's yeast |
| 6202 | 2004-12-16 | Chemical Shifts: 1 set |
Assignment of the 1H, 15N and 13C resonances of the Class II E2 Conjugating Enzyme, Ubc1 |
Letter to the Editor: Assignment of the 1H, 13C, and 15N resonances of the class II E2 conjugating enzyme, Ubc1
|
Gary S Shaw, Nadine Merkley | Common name: Baker's yeast |
| 34668 | 2022-01-07 | Chemical Shifts: 1 set |
Solution structure of the chimeric Nrd1-Nab3 heterodimerization domains |
Structural basis of Nrd1-Nab3 heterodimerization
|
B Chaves-Arquero, C M Santiveri, J M Perez-Canadillas, M A Jimenez, O Calvo, R Campos-Olivas, S Camero, S Martinez-Lumbreras, Y Mirassou | Common name: baker's yeast |
| 25473 | 2016-11-02 | Chemical Shifts: 1 set |
Pcf11 second N-terminal domain |
Chemical shift assignments of a new folded domain from yeast Pcf11
|
Cameron D Mackereth, Lionel Minvielle-Sebastia, Natacha Perebaskine, Sebastien Fribourg, Xiaoqian Xu | Common name: baker's yeast |
| 19459 | 2013-11-11 | Chemical Shifts: 1 set |
CR1~1-2 |
Using Mutagenesis and Structural Biology to Map the Binding Site for the Plasmodium falciparum Merozoite Protein PfRh4 on the Human Immune Adherence Receptor.
|
Alan F Cowman, Christoph Q Schmidt, Dennis E Hourcade, Haydyn DT Mertens, Hyon Ju Park, John P Atkinson, Mara Guariento, Mateusz Maciejewski, M Kathryn Liszewski, Paul N Barlow, Richard Hauhart, Wai-Hong Tham | Common name: baker's yeast |
| 19458 | 2013-11-11 | Chemical Shifts: 1 set |
CR1-2-3 |
Using Mutagenesis and Structural Biology to Map the Binding Site for the Plasmodium falciparum Merozoite Protein PfRh4 on the Human Immune Adherence Receptor.
|
Alan F Cowman, Christoph Q Schmidt, Dennis E Hourcade, Haydyn DT Mertens, Hyon Ju Park, John P Atkinson, Mara Guariento, Mateusz Maciejewski, M Kathryn Liszewski, Paul N Barlow, Richard Hauhart, Wai-Hong Tham | Common name: baker's yeast |
| 16425 | 2010-07-27 | Chemical Shifts: 1 set |
Interdomain RRM packing contributes to RNA recognition in the rna15, hrp1, anchor RNA 3' processing ternary complex |
Novel Protein-Protein Contacts Facilitate mRNA 3'-Processing Signal Recognition by Rna15 and Hrp1.
|
Claire Moore, Connie Lu, Gabriele Varani, Thomas C Leeper, Xiangping Qu | Common name: baker's yeast |
| 6356 | 2005-05-03 | Chemical Shifts: 1 set |
Yeast frataxin solution structure |
Yeast frataxin solution structure, iron binding and ferrochelatase interaction
|
Andy Dancis, Emmanual Lesuisse, Simona V Proteasa, Steve A Alam, Timothy L Stemmler, Yanan He, Yan Zhang | Common name: Baker's yeast |
| 25443 | 2015-08-10 | Chemical Shifts: 1 set |
Snu17p-Pml1p structure intermediate during RES complex assembly |
Structures of intermediates during RES complex assembly
|
Markus Zweckstetter, Piotr Wysoczanski, Stefan Becker | Common name: Baker's yeast |
| 27301 | 2019-04-12 | Chemical Shifts: 1 set |
Backbone and side chain assignments of Scm3 from Saccharomyces cerevisiae |
Backbone and side-chain resonance assignments of centromeric protein Scm3 from Saccharomyces cerevisiae
|
Anusri Bhattacharya, Ashutosh Kumar, Ramakrishna V Hosur, Vaibhav Kumar Shukla | Common name: baker's yeast |
| 25881 | 2016-05-23 | Chemical Shifts: 2 sets |
Chemical shift assignment of yeast Hit1 protein zinc finger |
Functional and structural insights into the zinc-finger HIT protein family involved in box C/D snoRNP biogenesis
|
Benjamin Rothe, Benoit Bragantini, Bruno Charpentier, Decebal Tiotiu, Jean-Michel Saliou, Marc Quinternet, Sarah Cianferani, Xavier Manival | Common name: baker's yeast |
| 18244 | 2012-03-28 | Chemical Shifts: 2 sets |
Structure of the complex of the central activation doamin of Gcn4 bound to the mediator co-activator domain 1 of Gal11/med15 |
The Acidic Transcription Activator Gcn4 Binds the Mediator Subunit Gal11/Med15 Using a Simple Protein Interface Forming a Fuzzy Complex
|
Clemens C Heikaus, David Baker, Derek Pacheco, Eric Herbig, Leonid Kisselev, Linda Warfield, Peter S Brzovic, Rachel E Klevit, Robert Vernon, Steven Hahn | Common name: baker's yeast |
| 18066 | 2013-01-04 | Chemical Shifts: 1 set |
NH chemical shift Assignments for AbpSH3 bound to mutant ArkA peptide (ArkA_P(-4)A) |
Differential Dynamic Engagement within 24 SH3 Domain: Peptide Complexes Revealed by Co-Linear Chemical Shift Perturbation Analysis.
|
Alan R Davidson, Elliott J Stollar, Hong Lin, Julie D Forman-Kay | Common name: baker's yeast |
| 51203 | 2024-03-08 | Chemical Shifts: 1 set |
Backbone resonance assignment of budding yeast Centromeric H3 variant Cse4 N-terminus |
Disorder in CENP-ACse4 tail-chaperone interaction facilitates binding with Ame1/Okp1 at the kinetochore STRUCTURE-D-23-00019R7
|
Anusri Bhattacharya, Ashutosh Kumar, Shivangi Shukla | Common name: baker's yeast |
| 16412 | 2010-09-17 | Chemical Shifts: 1 set |
Solution structure of Rtt103 bound to CTD peptide |
Cooperative interaction of transcription termination factors with the RNA polymerase II C-terminal domain.
|
Anton Meinhart, Bradley M Lunde, Fan Yang, Gabriele Varani, Hannes Mutschler, Hyunsuk Suh, Minkyu Kim, Stephen Buratowski, Steve L Reichow, Thomas C Leeper | Common name: baker's yeast |
| 18186 | 2012-02-10 | Chemical Shifts: 1 set |
Solution structure of the Get5 carboxyl domain from S. cerevisiae |
Get5 carboxyl-terminal domain is a novel dimerization motif that tethers an extended Get4/Get5 complex.
|
David G VanderVelde, Justin W Chartron, Meera Rao, William M Clemons | Common name: baker's yeast |
| 18064 | 2013-01-04 | Chemical Shifts: 1 set |
NH chemical shift Assignments for AbpSH3 bound to mutant ArkA peptide (L(-7)V) |
Differential Dynamic Engagement within 24 SH3 Domain: Peptide Complexes Revealed by Co-Linear Chemical Shift Perturbation Analysis.
|
Alan R Davidson, Elliott J Stollar, Hong Lin, Julie D Forman-Kay | Common name: baker's yeast |
| 52416 | 2024-05-20 | Chemical Shifts: 1 set |
Resonance assignment of a loc1p region |
Intrinsically disordered RNA-binding motifs cooperate to catalyze RNA folding and drive phase separation
|
Andre Gerber, Annika Niedner-Boblenz, Dierk Niessing, Dorothee Dormann, Elena Davydenko, Irina Anosova, Janosch Hennig, Jean-Christophe Paillart, Kathi Zarnack, Mario Hofweber, Marisa Muller, Melina Klostermann, Michael Sattler, Robert Janowski, Roland Heym, Thomas Monecke, Wieland Mayer | Common name: baker's yeast |
| 18487 | 2012-07-02 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set Spectral_peak_list: 2 sets |
Solution NMR Structure of NifU-like protein from Saccharomyces cerevisiae, Northeast Structural Genomics Consortium (NESG) Target YR313A |
Solution NMR Structure of NifU-like protein from Saccharomyces cerevisiae, Northeast Structural Genomics Consortium (NESG) Target YR313A
|
Eitan Kohan, Gaetano T Montelione, Gaohua Liu, Haleema Janjua, Hsiau-Wei Lee, John K Everett, Keith Hamilton, Ritu Shastry, Rong Xiao, Thomas B Acton, Yuangpeng J Huang | Common name: Baker's yeast |
| 26697 | 2016-09-09 | Chemical Shifts: 1 set |
Denatured CSE4 Protein from Saccharomyces cerevisiae |
Resonance assignment of disordered protein with repetitive and overlapping sequence using combinatorial approach reveals initial structural propensities and local restrictions in the denatured state
|
Ashutosh Kumar, Nikita Malik | Common name: baker's yeast |
| 16114 | 2010-02-11 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of a Ubiquitin/UIM fusion protein |
Conformational dynamics and structural plasticity play critical roles in the ubiquitin recognition of a UIM domain.
|
Angel E Garcia, George I Makhatadze, Mayank M Patel, Nikolaos G Sgourakis, Scott A McCallum | Common name: baker's yeast |
| 15485 | 2008-06-26 | Chemical Shifts: 1 set |
Segmental isotope labeling of Npl3 |
Improved segmental isotope labeling methods for the NMR study of multidomain or large proteins: application to the RRMs of Npl3p and hnRNP L.
|
Frederic H-T Allain, Lenka Skrisovska | Common name: baker's yeast |
| 4567 | 2000-04-03 | Chemical Shifts: 1 set |
1H, 15N and 13C resonance assignments for the catalytic domain of the yeast E2, UBC1 |
Letter to the Editor: 1H, 15N and 13C Resonance Assignments for the Catalytic Domain of the Yeast E2, UBC1
|
Gary S Shaw, Katherine S Hamilton, Michael J Ellison | Common name: baker's yeast |
| 19005 | 2013-04-02 | Chemical Shifts: 1 set |
1H, 13C, and 15N backbone chemical shift assignments of the low-spin CN-bound yeast cytochrome c peroxidase with the N-terminal His-tag |
Expression, Purification, Characterization, and Solution Nuclear Magnetic Resonance Study of Highly Deuterated Yeast Cytochrome c Peroxidase with Enhanced Solubility
|
Alexander N Volkov, Alexandre Wohlkonig, Nico AJ van Nuland, Sameh H Soror | Common name: baker's yeast |
| 12040 | 2020-02-28 | Chemical Shifts: 1 set |
1H, 13C and 15N resonance assignments of the proteasome lid subunit Rpn12 from Saccharomyces cerevisiae |
Backbone 1H, 13C and 15N resonance assignments of the proteasome lid subunit Rpn12 from Saccharomyces cerevisiae
|
Changwen Jin, Shuaipeng Ma, Xiaogang Niu, Yunfei Hu | Common name: baker's yeast |
| 6555 | 2008-07-01 | Chemical Shifts: 1 set |
Solution structure of YBL071w-A from Saccharomyces cerevisiae |
Biochemical and Structural Characterization of a Novel Family of Cystathionine beta-Synthase Domain Proteins Fused to a Zn Ribbon-Like Domain
|
Aled M Edwards, Alexander F Yakunin, Alexei V Savchenko, Alexey G Murzin, Alex Singer, Andrew Binkowski, Andrzej Joachimiak, Cheryl H Arrowsmith, Greg Brown, Jonathan A Lukin, Linda Xu, Michael Proudfoot, Rongguang Zhang, Stephen A Sanders | Common name: baker's yeast |
| 5394 | 2005-11-14 | Chemical Shifts: 2 sets |
Sculpting of the Eukaryotic Branch Site Recognition Motif by a Conserved Pseudouridine |
Sculpting of the Spliceosomal Branch Site Recognition Motif by a Conserved Pseudouridine
|
Meredith I Newby, Nancy L Greenbaum | Common name: Baker's yeast |
| 34260 | 2020-01-31 | Chemical Shifts: 1 set |
Structure of Nrd1 CID - Sen1 NIM complex |
Structure of Nrd1 CID - Sen1 NIM complex
|
K Kubicek, O Jasnovidova, R Stefl | Common name: Baker's yeast |
| 16243 | 2009-09-04 | Chemical Shifts: 1 set |
Backbone NH Assignments for Prp24-RRM23 |
(1)H, (13)C and (15)N resonance assignments of a ribonucleoprotein complex consisting of Prp24-RRM2 bound to a fragment of U6 RNA.
|
Samuel E Butcher, Stephen Martin-Tumasz | Common name: baker's yeast |
| 6476 | 2005-09-22 | Chemical Shifts: 1 set |
Full 1H, 13C and 15N Chemical Shift Assignments for the GII loop mutant domain (GII-L) of the yeast linker histone, Hho1p |
Engineering the structural stability and functional properties of the GI domain into the intrinsically unfolded GII domain of the yeast linker histone Hho1p.
|
Andrew Sanderson, Jean O Thomas, Katherine Stott, Timothy J Stevens | Common name: Baker's yeast |
| 15393 | 2008-07-29 | Chemical Shifts: 1 set |
Structure of Chz1 Complexed with H2A.Z-H2B and Eviction of Nucleosomal H2A-H2B |
NMR structure of chaperone Chz1 complexed with histones H2A.Z-H2B
|
Carl Wu, Daron I Freedberg, Ed Luk, Flemming Hansen, Hanqiao Feng, Hidenori Kato, Lewis E Key, Yawen Bai, Zheng Zhou | Common name: baker's yeast |
| 50096 | 2020-09-19 | Chemical Shifts: 1 set |
1H, 15N chemical shift assignments of the imino groups of yeast tRNAPhe: influence of the post-transcriptional modifications |
1H, 15N chemical shift assignments of the imino groups of yeast tRNA Phe: influence of the post-transcriptional modifications
|
Alexandre Gato, Carine Tisne, Marjorie Catala, Pierre Barraud | Common name: baker's yeast |
| 17006 | 2010-08-12 | Chemical Shifts: 1 set |
Solution structure of alpha-mannosidase binding domain of Atg19 |
Selective Transport of {alpha}-Mannosidase by Autophagic Pathways: STRUCTURAL BASIS FOR CARGO RECOGNITION BY Atg19 AND Atg34.
|
Fuyuhiko Inagaki, Hiroyuki Kumeta, Kuninori Suzuki, Nobuo N Noda, Yasunori Watanabe, Yoshinori Ohsumi | Common name: baker's yeast |
| 17903 | 2011-12-06 | Chemical Shifts: 1 set |
NMR Solution Structure of Yeast Iso-1-cytochrome c Mutant P71H in oxidized states |
Conformational toggling of Yeast Iso-1-cytochrome c in the oxidized and reduced states
|
Chunyang Cao, Houming Wu, Jing Zhu, Maili Liu, Tianlei Ying, Wenxian Lan, Xiangshi Tan, Xianwang Jiang, Xu Zhang, Zhonghua Wang, Zhong-xian Huang, Zhongzheng Yang | Common name: baker's yeast |
| 52034 | 2023-07-26 | Chemical Shifts: 1 set |
Ded1p Reca1 domain |
Ded1p RecA1 domain
|
Julian Hubner | Common name: baker's yeast |
| 30330 | 2018-03-16 | Chemical Shifts: 1 set |
Solution structure of yeast Med15 ABD2 residues 277-368 |
Gcn4-Mediator Specificity Is Mediated by a Large and Dynamic Fuzzy Protein-Protein Complex.
|
D Pachecko, J Luo, J Ranish, L M Tuttle, L Warfield, R E Klevit, S Hahn | Common name: Baker's yeast |
| 30028 | 2017-03-09 | Chemical Shifts: 1 set |
GCN4p pH 4.4 |
Nuclear Magnetic Resonance Structures of GCN4p Are Largely Conserved When Ion Pairs Are Disrupted at Acidic pH but Show a Relaxation of the Coiled Coil Superhelix
|
Andrei T Alexandrescu, Anne R Kaplan, Mark W Maciejewski, Megan R Brady, Richard A Kammerer | Common name: baker's yeast |
| 27923 | 2019-08-06 | Chemical Shifts: 1 set |
scAtg3FR(86-159) |
A switch element in the autophagy E2 Atg3 mediates allosteric regulation across the lipidation cascade
|
Brenda A Schulman, Christy Grace, Daniel J Klionsky, Xu Liu, Yumei Zheng, Yu Qiu | Common name: baker's yeast |
| 19311 | 2013-12-16 | Chemical Shifts: 1 set |
Chemical shifts and structural restraints for Saccharomyces cerevisiae Est3 protein |
Structure of Est3 reveals a bimodal surface with differential roles in telomere replication.
|
Deborah S Wuttke, Geoffrey S Armstrong, Johnathan W Lubin, Timothy M Tucey, Timsi Rao, Victoria Lundblad | Common name: baker's yeast |
| 36162 | 2018-10-12 | Chemical Shifts: 1 set |
Solution structure of the SBDalpha domain of yeast Ssa1 |
The C-terminal GGAP motif of Hsp70 mediates substrate recognition and stress response in yeast
|
G W Jones, H Wu, H Zhang, J Wang, L Xu, S Perrett, S Wu, W Gong, W Hu | Common name: Baker's yeast |
| 25767 | 2016-09-29 | Chemical Shifts: 1 set |
NMR structure of the Vta1NTD-Did2(176-204) complex |
NMR studies on the interactions between yeast Vta1 and Did2 during the multivesicular bodies sorting pathway
|
Bin Zhao, Chunxi Wang, Chunyang Cao, Cody J Wild, Jiaolong Wang, Jie Shen, Maili Liu, Wenxian Lan, Xu Zhang, Zhaohui Xu, Zhongzheng Yang | Common name: baker's yeast |
| 19626 | 2014-09-08 | Chemical Shifts: 1 set |
1H,13C and 15N assignment of Rsa1p(317-352)/Hit1p((70-164) |
Protein Hit1, a novel box C/D snoRNP assembly factor, controls cellular concentration of the scaffolding protein Rsa1 by direct interaction.
|
Alain Van V Dorsselaer, Benjamin Rothe, Bruno Charpentier, Christiane Branlant, Christine Loegler, Clemence Jacquemin, Decebal Tiotiu, Florence Schlotter, Jean-Michel M Saliou, Kelvin Eckert, Marc Quinternet, Regis Back, Sarah Sanglier-Cianferani, Severine Massenet, Solange Morera, Vlad Pena, Xavier Manival | Common name: baker's yeast |
| 34247 | 2018-09-13 | Chemical Shifts: 1 set |
NMR Solution Structure of yeast TSR2(1-152) |
Molecular basis for disassembly of an importin:ribosomal protein complex by the escortin Tsr2
|
A Leitner, C Pena, E Michel, F F Damberger, F H-T Allain, M Oplova, R Aebersold, S Schuetz, V G Panse | Common name: Baker's yeast |
| 52287 | 2024-04-12 | Chemical Shifts: 1 set |
Backbone Assignments of Ydj1 G70N mutant J-domain and Gly-rich region |
Comparative structural and functional analysis of the glycine-rich regions of Class A and B J-domain protein cochaperones of Hsp70
|
Bartlomiej Tomiczek, Brenda A Schilke, Elizabeth A Craig, Marco Tonelli, Milena Stolarska, Szymon J Ciesielski | Common name: baker's yeast |
| 18069 | 2013-01-04 | Chemical Shifts: 1 set |
NH chemical shift Assignments for AbpSH3 bound to mutant ArkA peptide (ArkA_P(0)A) |
Differential Dynamic Engagement within 24 SH3 Domain: Peptide Complexes Revealed by Co-Linear Chemical Shift Perturbation Analysis.
|
Alan R Davidson, Elliott J Stollar, Hong Lin, Julie D Forman-Kay | Common name: baker's yeast |
| 19098 | 2016-04-12 | Chemical Shifts: 1 set |
Sidechain and backbone NMR resonance assignment for the RNA binding and C-terminal domain of the ribosome assembly factor Nop6 from S. cerevisiae |
Backbone and sidechain NMR assignments for the ribosome assembly factor Nop6 from Saccharomyces cerevisiae
|
Anatoli Lioutikov, Jan P Wurm, Jens Woehnert, Karl-Dieter Entian, Peter Koetter | Common name: baker's yeast |