Search Query :
2OUT
Solution structure of hi1506, a novel two domain protein from haemophilus influenzae Deposition Author(s): Doseeva, V. , He, Y. , Herzberg, O. , Orban, J. , Sari, N. , Schwarz, F. , Structure 2 Function Project (S2F) , Surabian, K.
Date: 2007-02-12 Method: SOLUTION NMR Resolution: N.A. Organism(s): Haemophilus Influenzae Sequences Data: 2OUT_A
6U9L
Imidazole-triggered ras-specific subtilisin subt_bacam Deposition Author(s): Bryan, P.N. , Orban, J. , Toth, E.A.
Date: 2019-09-09 Method: X-RAY DIFFRACTION Resolution: 1.7 Å Organism(s): Bacillus Amyloliquefaciens Sequences Data: 6U9L_S
6UAI
Imidazole-triggered ras-specific subtilisin subt_bacam complexed with ysam peptide Deposition Author(s): Bryan, P.N. , Orban, J. , Toth, E.A.
Date: 2019-09-10 Method: X-RAY DIFFRACTION Resolution: 1.2 Å Organism(s): Bacillus Amyloliquefaciens , Synthetic Construct Sequences Data: 6UAI_S , 6UAI_B
6UAO
Imidazole-triggered ras-specific subtilisin subt_bacam complexed with the peptide eeysam Deposition Author(s): Bryan, P.N. , Orban, J. , Toth, E.A.
Date: 2019-09-11 Method: X-RAY DIFFRACTION Resolution: 1.63 Å Organism(s): Bacillus Amyloliquefaciens , Synthetic Construct Sequences Data: 6UAO_S , 6UAO_B
6UBE
Azide-triggered subtilisin subt_bacam complexed with the peptide lfral Deposition Author(s): Bryan, P.N. , Custer, G. , Gallagher, D.T. , Orban, J. , Toth, E.A.
Date: 2019-09-11 Method: X-RAY DIFFRACTION Resolution: 1.6 Å Organism(s): Bacillus Amyloliquefaciens , Synthetic Construct Sequences Data: 6UBE_S , 6UBE_B
7MN1
Rules for designing protein fold switches and their implications for the folding code Deposition Author(s): Bryan, P. , Chen, Y. , Chen, Y. , Choi, J. , Gallagher, T. , He, Y. , Kauffman, T. , Motabar, D. , Orban, J. , Ruan, B. , Simmerman, R. , Solomon, T.
Date: 2021-04-30 Method: SOLUTION NMR Resolution: N.A. Organism(s): Thermus Thermophilus Sequences Data: 7MN1_A
7MN2
Rules for designing protein fold switches and their implications for the folding code Deposition Author(s): Bryan, P. , Chen, Y. , Chen, Y. , Choi, J. , Gallagher, T. , He, Y. , Kauffman, T. , Motabar, D. , Orban, J. , Ruan, B. , Simmerman, R. , Solomon, T.
Date: 2021-04-30 Method: SOLUTION NMR Resolution: N.A. Organism(s): Thermus Thermophilus Sequences Data: 7MN2_A
7MP7
Rules for designing protein fold switches and their implications for the folding code Deposition Author(s): Bryan, P. , Chen, Y. , Chen, Y. , Choi, J. , Gallagher, T. , He, Y. , Kauffman, T. , Motabar, D. , Orban, J. , Ruan, B. , Simmerman, R. , Solomon, T.
Date: 2021-05-04 Method: SOLUTION NMR Resolution: N.A. Organism(s): Thermus Thermophilus Sequences Data: 7MP7_A
7MQ4
Rules for designing protein fold switches and their implications for the folding code Deposition Author(s): Bryan, P. , Chen, Y. , Chen, Y. , Choi, J. , Gallagher, T. , He, Y. , Kauffman, T. , Motabar, D. , Orban, J. , Ruan, B. , Simmerman, R. , Solomon, T.
Date: 2021-05-05 Method: SOLUTION NMR Resolution: N.A. Organism(s): Thermus Thermophilus Sequences Data: 7MQ4_A
8E6Y
Nmr structure of sa1_v90t at 30 degrees celsius Deposition Author(s): Orban, J. , Solomon, T.S.
Date: 2022-08-23 Method: SOLUTION NMR Resolution: N.A. Organism(s): Synthetic Construct Sequences Data: 8E6Y_A