Biological Magnetic Resonance Data BankA Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules |
Member of |
Entry ID | Data summary | Entry Title | Citation Title | Authors |
---|---|---|---|---|
52051 | Chemical Shifts: 1 set |
Backbone resonance assignments for UBE2T | Backbone 1H, 15N and 13C resonance assignments for an E2 ubiquitin conjugating enzyme-UBE2T | CongBao Kang, Hui Qi Q Ng, Qiwei Huang, Wan Hsin H Lim, Yong Yao Y Loh, Zhiyuan Ke |
31023 | 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 | 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 | 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 | 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 | 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 |
30997 | 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 | 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 |
31002 | 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 | 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 | 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 | 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 |
30949 | Chemical Shifts: 1 set |
NMR Solution Structure of Cter 27 | Mutagenesis of cyclotide Cter 27 exemplifies a robust folding strategy for bracelet cyclotides | D J Craik, L Y Chan, P J Harvey, Q Kaas, T T Dang, Y H Huang |
51012 | Chemical Shifts: 1 set |
Backbone resonance assignments of KRAS Q61H mutant bound to GDP | 1H, 15N and 13C resonance assignments of the Q61H mutant of human KRAS bound to GDP | CongBao Kang, Elizabeth Yihui Y Ng, Qingxin Li, Qiwei Huang |
50736 | Chemical Shifts: 1 set |
Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50735 | Chemical Shifts: 1 set |
Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50733 | Chemical Shifts: 1 set |
NN206* (P22A and M85A; hereafter NN206*) | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50702 | Chemical Shifts: 1 set |
Degron-tagged Ig2D5 | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50698 | Chemical Shifts: 1 set |
Domains 5 of the gelation factor from Dictyostelium discoideum | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50697 | Chemical Shifts: 1 set |
The N-terminal domain (NTD) of MtaLonA | Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease | Chia-Ying Y Hsu, Chien-Chu C Lin, Chung-I I Chang, Shing-Jong J Huang, Shiou-Ru R Tzeng, Yin-Chu C Tseng, Yi-Ting T Kuo |
50394 | Chemical Shifts: 2 sets |
MERS-CoV macro domain with NAD at 298K and 308K | Elucidating the tunability of binding behavior for the MERS-CoV macro domain with NAD metabolites | Chao-Cheng C Cho, Chia-Yu Y Chien, Chi-Fon F Chang, Chun-Hua H Hsu, Meng-Hsuan H Lin, Yi-Chih C Chiu, Yi-Ping P Huang |
50397 | Chemical Shifts: 2 sets |
MERS-CoV macro domain with AMP at 298K and 308K | Elucidating the tunability of binding behavior for the MERS-CoV macro domain with NAD metabolites | Chao-Cheng C Cho, Chia-Yu Y Chien, Chi-Fon F Chang, Chun-Hua H Hsu, Meng-Hsuan H Lin, Yi-Chih C Chiu, Yi-Ping P Huang |
50396 | Chemical Shifts: 2 sets |
MERS-CoV macro domain with ADP at 298K and 308K | Elucidating the tunability of binding behavior for the MERS-CoV macro domain with NAD metabolites | Chao-Cheng C Cho, Chia-Yu Y Chien, Chi-Fon F Chang, Chun-Hua H Hsu, Meng-Hsuan H Lin, Yi-Chih C Chiu, Yi-Ping P Huang |
50395 | Chemical Shifts: 2 sets |
MERS-CoV macro domain with ATP at 298K and 308K | Elucidating the tunability of binding behavior for the MERS-CoV macro domain with NAD metabolites | Chao-Cheng C Cho, Chia-Yu Y Chien, Chi-Fon F Chang, Chun-Hua H Hsu, Meng-Hsuan H Lin, Yi-Chih C Chiu, Yi-Ping P Huang |
50393 | Chemical Shifts: 2 sets |
MERS-CoV macro domain with ADP-ribose at 298K and 308K | Elucidating the tunability of binding behavior for the MERS-CoV macro domain with NAD metabolites | Chao-Cheng C Cho, Chia-Yu Y Chien, Chi-Fon F Chang, Chun-Hua H Hsu, Meng-Hsuan H Lin, Yi-Chih C Chiu, Yi-Ping P Huang |
50164 | Chemical Shifts: 1 set |
hyen M | Discovery and mechanistic studies of cytotoxic cyclotides from the medicinal herb Hybanthus enneaspermus | Anjaneya S Ravipati, David J Craik, Edward K Gilding, Lai Y Chan, Nicholas D Condon, Qingdan Du, Quentin Kaas, Sonia Troeira T Henriques, Yen-Hua H Huang |
50165 | Chemical Shifts: 1 set |
hyen C | Discovery and mechanistic studies of cytotoxic cyclotides from the medicinal herb Hybanthus enneaspermus | Anjaneya S Ravipati, David J Craik, Edward K Gilding, Lai Y Chan, Nicholas D Condon, Qingdan Du, Quentin Kaas, Sonia Troeira T Henriques, Yen-Hua H Huang |
50162 | Chemical Shifts: 1 set |
hyen L | Discovery and mechanistic studies of cytotoxic cyclotides from the medicinal herb Hybanthus enneaspermus | Anjaneya S Ravipati, David J Craik, Edward K Gilding, Lai Y Chan, Nicholas D Condon, Qingdan Du, Quentin Kaas, Sonia Troeira T Henriques, Yen-Hua H Huang |
50163 | Chemical Shifts: 1 set |
hyen E | Discovery and mechanistic studies of cytotoxic cyclotides from the medicinal herb Hybanthus enneaspermus | Anjaneya S Ravipati, David J Craik, Edward K Gilding, Lai Y Chan, Nicholas D Condon, Qingdan Du, Quentin Kaas, Sonia Troeira T Henriques, Yen-Hua H Huang |
50161 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for hyen D | Discovery and mechanistic studies of cytotoxic cyclotides from the medicinal herb Hybanthus enneaspermus | Anjaneya S Ravipati, David J Craik, Edward K Gilding, Lai Y Chan, Nicholas D Condon, Qingdan Du, Quentin Kaas, Sonia Troeira T Henriques, Yen-Hua H Huang |
30714 | Chemical Shifts: 1 set |
Solution NMR structure of Prochlorosin 2.1 produced by Prochlorococcus MIT 9313 | Catalytic promiscuity in the biosynthesis of cyclic peptide secondary metabolites in planktonic marine cyanobacteria. | B Li, D Rusch, D Sher, I Joewono, K Huang, L Kelly, P J Knerr, S W Chisholm, W A van der Donk, Y Shi |
30713 | Chemical Shifts: 1 set |
Solution NMR structure of Prochlorosin 2.10 produced by Prochlorococcus MIT 9313 | Catalytic promiscuity in the biosynthesis of cyclic peptide secondary metabolites in planktonic marine cyanobacteria. | B Li, D Rusch, D Sher, I Joewono, K Huang, L Kelly, P J Knerr, S W Chisholm, W A van der Donk, Y Shi |
30672 | Chemical Shifts: 1 set |
SMARCB1 nucleosome-interacting C-terminal alpha helix | Recurrent SMARCB1 Mutations Reveal a Nucleosome Acidic Patch Interaction Site That Potentiates mSWI/SNF Complex Chromatin Remodeling | Alfredo M Valencia, Cigall Kadoch, Clayton K Collings, Clifford J Woolf, Crystal Hermawan, Dawn E Comstock, Hai T Dao, Hyuk-Soo S Seo, Junwei Huang, Lee Barrett, Mary Kate K Dornon, Nazar Mashtalir, Nicholas E Vangos, Olubusayo Bolonduro, Roodolph St Pierre, Sirano Dhe-Paganon, Tom W Muir, Yung-Chih C Cheng, Zhen-Yu Y Sun, Zoe C Yeoh |
30610 | Chemical Shifts: 1 set |
hMcl1 inhibitor complex | AMG 176, a Selective MCL1 Inhibitor, Is Effective in Hematologic Cancer Models Alone and in Combination with Established Therapies. | A C Cheng, A Coxon, A Wei, A W Roberts, B Belmontes, B Lucas, C H Benes, D A Whittington, D C Huang, D Chui, D Moujalled, E Cajulis, G Moody, G Pomilio, J Canon, J D McClanaghan, J Gong, J Houze, J P Taygerly, J Sun, K S Keegan, L Damon, L Poppe, L Zhu, M Cardozo, M Vimolratana, M Zancanella, N A Paras, P Beltran, P E Hughes, P Greninger, R K Egan, S Caenepeel, S P Brown, T Osgood, X Huang, X Wang, Y Li |
30574 | 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 | 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 |
27576 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for A97S TTR in 5% DMSO | Biophysical characterization and modulation of Transthyretin Ala97Ser | Frans Ricardo, Kon-Ping P Lin, Pei-Hao H Wu, Shing-Jong J Huang, Tsyr-Yan Y Yu, Yo-Tsen T Liu, Yu Chang, Yueh-Jung J Yen |
27575 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for transthyetin in 5% DMSO | Biophysical characterization and modulation of Transthyretin Ala97Ser | Frans Ricardo, Kon-Ping P Lin, Pei-Hao H Wu, Shing-Jong J Huang, Tsyr-Yan Y Yu, Yo-Tsen T Liu, Yu Chang, Yueh-Jung J Yen |
36143 | Chemical Shifts: 1 set |
zinc finger domain of METTL3-METTL14 N6-methyladenosine methyltransferase | Solution structure of the RNA recognition domain of METTL3-METTL14 N6-methyladenosine methyltransferase | C Tang, D Zhang, J Huang, L Y Qin, P Yin, S Yang, T Zou, X Dong, X Wang, Y L Zhu, Z Gong |
27206 | Chemical Shifts: 1 set |
Centrosomin aa1090-1148 | The centrosomin CM2 domain is a multi-functional binding domain with distinct cell cycle roles | Bettina Keszthelyi, Bo Huang, Carey J Fagerstrom, David A Agard, Mark Kelly, Nasser M Rusan, Y Rose R Citron |
27113 | Chemical Shifts: 1 set |
1H, 15N and 13C assignments of apo-form dFABP | The ligand-mediated affinity of brain-type fatty acid-binding protein for membranes determines the directionality of lipophilic cargo transport | Hsin-Hui H Lin, Ping-Chiang C Lyu, Wun-Shaing Wayne W Chang, Yi-Yun Y Cheng, Yun-Fang F Huang |
27112 | Chemical Shifts: 1 set |
1H, 15N and 13C assignments of Drosophila brain-type fatty acid-binding protein ligated with oleic acid | The ligand-mediated affinity of brain-type fatty acid-binding protein for membranes determines the directionality of lipophilic cargo transport | Hsin-Hui H Lin, Ping-Chiang C Lyu, Wun-Shaing Wayne W Chang, Yi-Yun Y Cheng, Yun-Fang F Huang |
30143 | 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 |
30145 | 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 |
30146 | 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 |
30142 | 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 |
30144 | 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 |
30140 | 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 | 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 | 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 |
26046 | 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 |
26045 | 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 |
30067 | 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 |
30069 | 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 |
25371 | Chemical Shifts: 1 set |
NMR assignments of a novel lectin from sea mussel Crenomytilus grayanus | A Multivalent Marine Lectin from Crenomytilus grayanus Possesses Anti-cancer Activity through Recognizing Globotriose Gb3 | Chih-Ta Henry T Chien, Chung-Yi Y Wu, Han-Ying Y Wu, I-Fan F Tu, I-Ming M Lee, Iren Wang, Jiahn-Haur H Liao, Kai-Fa F Huang, Meng-Ru R Ho, Pavel A Lukyanov, Shang-Te Danny T Hsu, Shih-Hsiung H Wu, Wei Li, Yu-Ling L Shih |
25151 | Chemical Shifts: 1 set |
Solution structure of spider-venom peptide Hs1a | Nav1.7 inhibitors normalise mechanical responses in chronic visceral hypersensitivity | Alan Wickenden, Fernanda Cardoso, Frank Bosmans, Glenn F King, Irina Vetter, Joel Castro, Johnny X Huang, Joseph A Nicolazzo, Julie K Klint, Lian Jin, Matt A Cooper, Mehdi Mobli, Natali Minassian, Rebecca Hagan, Richard J Lewis, Robert Neff, Sing Y Er, Stuart M Brierley, Yi Liu |
25145 | Chemical Shifts: 1 set |
Solution structure of the B1 box monomer of the tripartite 19 from human. | The RING domain of human promyelocytic leukemia protein (PML). | Chi-Fon F Chang, Hsiu-Ming M Shih, Mandar T Naik, Pei-Ju J Fang, Peter Guntert, Shu-Yu Y Huang, Tai-Huang H Huang |
25143 | Chemical Shifts: 1 set |
Solution structure of the RING finger of the tripartite 19 from human. | The RING domain of human promyelocytic leukemia protein (PML). | Chi-Fon F Chang, Hsiu-Ming M Shih, Mandar T Naik, Pei-Ju J Fang, Peter Guntert, Shu-Yu Y Huang, Tai-Huang H Huang |
19611 | Chemical Shifts: 1 set |
Enzymatic cyclisation of kalata B1 using sortase A | Semienzymatic cyclization of disulfide-rich peptides using Sortase A. | Chia Chia Tan, Ching-I Anderson Wang, Christina I Schroeder, David J Craik, Jason P Mulvenna, K Johan Rosengren, Lai Y Chan, Soohyun Kwon, Xinying Jia, Yen-Hua Huang |
16572 | Chemical Shifts: 1 set |
NMR solution structure of Lamin-B1 protein from Home sapiens: Northeast Structural Genomics Consortium target, HR5546A(438-548) | NMR solution structure of Lamin-B1 protein from Home sapiens: Northeast Structural Genomics Consortium target, HR5546A(438-548) | Colleen Ciccosanti, Gaetano T Montelione, G V T Swapna, John Everett, Keith Hamilton, Rachel L Belote, Rong Xiao, Thomas Acton, Y Huang |
15377 | Chemical Shifts: 1 set |
Solution structure of human DESR1 | Solution structure of human DESR1, a CSL zinc-binding protein. | Fangming Wu, F Yang, H Huang, J Sun, J Wu, J Zhang, M Yu, P Ji, W Chu, Y Shi, Z Wu |
15363 | Chemical Shifts: 1 set |
A D-amino acid containing conopeptide, marmophine, from Conus marmoreus | Purification and structural characterization of a D-amino acid-containing conopeptide, conomarphin, from Conus marmoreus | C G Wang, C W Chi, F J Huang, H Jiang, L Liu, Q Wang, W H Du, X Shao, Y H Han, Y Wang |
7397 | Chemical Shifts: 1 set |
Purification and structural characterization of a D-amino acid containing conopeptide, marmophine, from Conus marmoreus | Purification and structural characterization of a D-amino acid-containing conopeptide, conomarphin, from Conus marmoreus | C Chi, C Wang, F J Huang, H Jiang, L Liu, Q Wang, W Du, X G Shao, Y H Han, Y H Wang |
15195 | Chemical Shifts: 1 set |
Solution Structure of an M-1 Conotoxin with a novel disulfide linkage | Solution Structure of an M-1 Conotoxin with a novel disulfide linkage | C W Chi, F Huang, J Li, W Du, W Fang, Y Han |
15150 | Chemical Shifts: 1 set |
Solution Structure and Binding Property of the Domain-swapped Dimer of ZO2PDZ2 | Domain-swapped dimerization of the second PDZ domain of ZO2 may provide a structural basis for the polymerization of claudins | D Xie, G Zhang, H Huang, J H Wu, J H Zhang, J W Wu, M Wu, P Ji, P Jiang, W Du, Y S Yang, Y Y Shi |
15057 | Chemical Shifts: 1 set |
Solution Structrue of C-terminal Bromodomain of Brd4 | Structural basis and binding properties of the second bromodomain of Brd4 with acetylated histone tails | B Ding, H Huang, J Wu, J Zhang, X Wang, Y Liu, Y Shi |
7225 | Chemical Shifts: 1 set |
Solution NMR structure of the UPF0291 protein ynzC from Bacillus subtilis. Northeast Structural Genomics target SR384. (CASP Target) | Solution NMR structure of the SOS response protein YnzC from Bacillus subtilis | B Rost, C K Ho, G T Montelione, G VT Swapna, J Liu, J M Aramini, K Cunningham, K Shetty, L A Owens, L-C Ma, L Zhao, M C Baran, M Jiang, R Xiao, S Sharma, T B Acton, Y J Huang |
6448 | Chemical Shifts: 1 set Coupling Constants: 1 set |
Solution structure of the hypothetical protein ytfP from Escherichia coli. Northeast Structural Genomics target ER111. | 1H, 13C, and 15N Resonance Assignments for Escherichia coli ytfP, a Member of the Broadly Conserved UPF0131 Protein Domain Family | G T Montelione, G VT Swapna, J M Aramini, J R Cort, M A Kennedy, P K Rajan, R Shastry, R Xiao, T B Acton, Y J Huang |
6355 | Chemical Shifts: 1 set |
Solution Structure Of The Staphylococcus Epidermis Protein SE0936. Northest Strucutral Genomics Consortium Target SeR8. | Solution Structure Of The Staphylococcus Epidermis Protein SE0936. Northest Strucutral Genomics Consortium Target SeR8. | G T Montelione, M C Baran, R Xiao, T Acton, Y P Huang |
6203 | Chemical Shifts: 2 sets |
1H chemical shift assignments for ThrB12-DKP-insulin | How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor. | A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |
6205 | Chemical Shifts: 2 sets |
1H chemical shift assignments for AbaB12-DKP-insulin | How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor. | A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |
6204 | Chemical Shifts: 4 sets |
1H chemical shift assignments for AlaB12-DKP-insulin | How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor. | A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |
6173 | Chemical Shifts: 2 sets Coupling Constants: 1 set |
PfR48 final project | Solution Structure of the 50S Ribosomal Protein L35Ae from Pyrococcus furiosus: Northeast Strucutral Genomics Consortium target: Pfr48 | B Rost, David Snyder, G T Montelione, J Liu, J M Aramini, J R Cort, L C Ma, M A Kennedy, R Shastry, R Xiao, T B Acton, Y J Huang |
6096 | Chemical Shifts: 1 set |
The solution structure of the pH-induced monomer of dynein light chain LC8 from Drosophila | The solution structure of the pH-induced monomer of dynein light-chain LC8 from Drosophila | A S Edison, E Barbar, G T Montelione, M Makokha, Y J Huang |
5835 | Coupling Constants: 1 set |
The Solution Structure and Dynamics of Recombinant Onconases | Effect of N-terminal and Met23 mutations on the structure and dynamics of onconase | Chen-Kuon Tsai, Chi-Fon Chang, Tai-huang Huang, Vitaliy Y Gorbatyuk |
5798 | Chemical Shifts: 1 set |
Solution structure of Protein yrbA from Escherichia Coli: Northeast Structural Genomics Consortium target ER115 | Solution structure of Protein yrbA from Escherichia Coli: Northeast Structural Genomics Consortium target ER115 | G T Montelione, J Y Huang, R Shastry, S VT Gurla, T B Acton, Y-W Chiang |
5795 | Chemical Shifts: 3 sets |
The Solution Structure of a Novel Type of Antifungal Peptide Distinct With a Five-disulfide Motif from Eucommia ulmoides Oliv | Solution structure of Eucommia antifungal peptide: a novel structural model distinct with a five-disulfide motif. | D C Wang, G Z Tu, Ren-Huai Huang, Y Xiang, Y Zhang |
5735 | Chemical Shifts: 1 set |
The Solution Structure of Rat Ab-(1-28) and its Interaction with Zinc: Insights into the Scarity of Amyloid Deposition in Aged Rat Brain | The Solution Structure of Rat Abeta-(1-28) and its Interaction with Zinc ion: Insights into the Scarity of Amyloid Deposition in Aged Rat Brain | J Huang, J Lin, W Tang, W Y Sun, Y H Ye, Y Yao |
5691 | Chemical Shifts: 1 set Coupling Constants: 1 set |
Solution Structure of the 30S ribosomal protein S28E from Pyrococcus horikoshii. Northeast Structural Genomics Consortium target JR19 | Solution NMR structure of the 30S ribosomal protein S28E from Pyrococcus horikoshii. | B Honig, B Rost, Chi K Ho, Gaetano T Montelione, James M Aramini, J Liu, John R Cort, Liang-yu Shih, M A Kennedy, Rong Xiao, S Goldsmith-Fischman, Thomas B Acton, Y J Huang |
4317 | Chemical Shifts: 1 set |
1H, 13C, and 15N Chemical Shift Assignments for NS1(1-73) | A novel RNA-binding motif in influenza A virus non-structural protein 1 | C B Rios, Chen-ya Chien, D E Zimmerman, Gaetano T Montelione, R M Krug, R Tejero, Y Huang |