Entry ID |
Original Release date |
Data summary |
Entry Title |
Citation Title |
Authors |
34551 |
2021-08-17 |
Chemical Shifts: 1 set |
NMR structure of flagelliform spidroin (FlagSp) N-terminal domain from Trichonephila clavipes at pH 5.5 |
The dimerization mechanism of the N-terminal domain of spider silk proteins is conserved despite extensive sequence divergence
|
Alessandro Mantese, Anna Rising, Dipen Shah, Jan Johansson, Kaspar Tars, Kellie-Ann A Walsh-White, Kristaps Jaudzems, Kristine Kitoka, Margit Kaldmae, Medoune Sarr, Michael Landreh, Nina Kronqvist, Rimants Metlans |
34550 |
2021-08-17 |
Chemical Shifts: 1 set |
NMR structure of flagelliform spidroin (FlagSp) N-terminal domain from Trichonephila clavipes at pH 7.2 |
The dimerization mechanism of the N-terminal domain of spider silk proteins is conserved despite extensive sequence divergence
|
Alessandro Mantese, Anna Rising, Dipen Shah, Jan Johansson, Kaspar Tars, Kellie-Ann A Walsh-White, Kristaps Jaudzems, Kristine Kitoka, Margit Kaldmae, Medoune Sarr, Michael Landreh, Nina Kronqvist, Rimants Metlans |
18480 |
2013-11-26 |
Chemical Shifts: 1 set |
NMR structure of major ampullate spidroin 1 N-terminal domain at pH 5.5 |
Sequential pH-driven dimerization and stabilization of the N-terminal domain enables rapid spider silk formation.
|
Anna Rising, Daniel Otzen, Gefei Chen, Hans Jornvall, Jan Johansson, Jerker Widengren, Kerstin Nordling, Kristaps Jaudzems, Marlene Andersson, Martins Otikovs, Medoune Sarr, Michael Landreh, Nina Kronqvist, Qing Meng, Stefan D Knight, Stefan Wennmalm, Volodymyr Chmyrov |