Dosztanyi Zsuzsanna
Citata da
Citata da
IUPred: web server for the prediction of intrinsically unstructured regions of proteins based on estimated energy content
Z Dosztányi, V Csizmok, P Tompa, I Simon
Bioinformatics 21 (16), 3433-3434, 2005
InterPro in 2017—beyond protein family and domain annotations
RD Finn, TK Attwood, PC Babbitt, A Bateman, P Bork, AJ Bridge, ...
Nucleic acids research 45 (D1), D190-D199, 2017
IUPred2A: context-dependent prediction of protein disorder as a function of redox state and protein binding
B Mészáros, G Erdős, Z Dosztányi
Nucleic acids research 46 (W1), W329-W337, 2018
The pairwise energy content estimated from amino acid composition discriminates between folded and intrinsically unstructured proteins
Z Dosztanyi, V Csizmok, P Tompa, I Simon
Journal of molecular biology 347 (4), 827-839, 2005
D2P2: database of disordered protein predictions
ME Oates, P Romero, T Ishida, M Ghalwash, MJ Mizianty, B Xue, ...
Nucleic acids research 41 (D1), D508-D516, 2012
ANCHOR: web server for predicting protein binding regions in disordered proteins
Z Dosztányi, B Mészáros, I Simon
Bioinformatics 25 (20), 2745-2746, 2009
Prediction of protein binding regions in disordered proteins
B Mészáros, I Simon, Z Dosztányi
PLoS computational biology 5 (5), e1000376, 2009
Disorder and sequence repeats in hub proteins and their implications for network evolution
Z Dosztanyi, J Chen, AK Dunker, I Simon, P Tompa
Journal of proteome research 5 (11), 2985-2995, 2006
PDB_TM: selection and membrane localization of transmembrane proteins in the protein data bank
GE Tusnády, Z Dosztányi, I Simon
Nucleic acids research 33 (suppl_1), D275-D278, 2005
DisProt 7.0: a major update of the database of disordered proteins
D Piovesan, F Tabaro, I Mičetić, M Necci, F Quaglia, CJ Oldfield, ...
Nucleic acids research 45 (D1), D219-D227, 2017
IUPred3: prediction of protein disorder enhanced with unambiguous experimental annotation and visualization of evolutionary conservation
G Erdős, M Pajkos, Z Dosztányi
Nucleic acids research 49 (W1), W297-W303, 2021
Molecular principles of the interactions of disordered proteins
B Mészáros, P Tompa, I Simon, Z Dosztányi
Journal of molecular biology 372 (2), 549-561, 2007
Transmembrane proteins in the Protein Data Bank: identification and classification
GE Tusnády, Z Dosztányi, I Simon
Bioinformatics 20 (17), 2964-2972, 2004
Analyzing protein disorder with IUPred2A
G Erdős, Z Dosztányi
Current protocols in bioinformatics 70 (1), e99, 2020
What’s in a name? Why these proteins are intrinsically disordered: Why these proteins are intrinsically disordered
AK Dunker, MM Babu, E Barbar, M Blackledge, SE Bondos, Z Dosztányi, ...
Intrinsically disordered proteins 1 (1), e24157, 2013
DisProt: intrinsic protein disorder annotation in 2020
A Hatos, B Hajdu-Soltész, AM Monzon, N Palopoli, L Álvarez, ...
Nucleic acids research 48 (D1), D269-D276, 2020
Critical assessment of protein intrinsic disorder prediction
M Necci, D Piovesan, SCE Tosatto
Nature methods 18 (5), 472-481, 2021
MobiDB 3.0: more annotations for intrinsic disorder, conformational diversity and interactions in proteins
D Piovesan, F Tabaro, L Paladin, M Necci, I Mičetić, C Camilloni, N Davey, ...
Nucleic acids research 46 (D1), D471-D476, 2018
MobiDB: intrinsically disordered proteins in 2021
D Piovesan, M Necci, N Escobedo, AM Monzon, A Hatos, I Mičetić, ...
Nucleic acids research 49 (D1), D361-D367, 2021
Prediction of protein disorder based on IUPred
Z Dosztányi
Protein Science 27 (1), 331-340, 2018
Il sistema al momento non puň eseguire l'operazione. Riprova piů tardi.
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