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A surprising simplicity to protein folding.
scientific article
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instance of
scholarly article
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
title
A surprising simplicity to protein folding.
(English)
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
main subject
protein folding
0 references
author name string
Baker D
series ordinal
1
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
language of work or name
English
0 references
publication date
1 May 2000
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
published in
Nature
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
volume
405
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
page(s)
39-42
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
issue
6782
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
cites work
Principles that govern the folding of protein chains
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
Is protein folding hierarchic? I. Local structure and peptide folding
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
How do small single-domain proteins fold?
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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Protein folding in the landscape perspective: chevron plots and non-Arrhenius kinetics
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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Funnels, pathways, and the energy landscape of protein folding: a synthesis
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reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
The fundamentals of protein folding: bringing together theory and experiment
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Chaperone rings in protein folding and degradation.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
Folding nucleus: specific or multiple? Insights from lattice models and experiments
1 reference
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Crossref
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https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
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Pathways for protein folding: is a new view needed?
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Fishing for folding nuclei in lattice models and proteins
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
Matching theory and experiment in protein folding
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Functional rapidly folding proteins from simplified amino acid sequences.
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7 January 2021
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The sequences of small proteins are not extensively optimized for rapid folding by natural selection
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
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Conservation of rapid two-state folding in mesophilic, thermophilic and hyperthermophilic cold shock proteins
1 reference
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Crossref
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https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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Mutational analysis of acylphosphatase suggests the importance of topology and contact order in protein folding.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
The folding transition state between SH3 domains is conformationally restricted and evolutionarily conserved.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Experiment and theory highlight role of native state topology in SH3 folding
1 reference
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Crossref
reference URL
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7 January 2021
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inferred from DOI database lookup
Contact order, transition state placement and the refolding rates of single domain proteins.
1 reference
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7 January 2021
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Exploring the origins of topological frustration: design of a minimally frustrated model of fragment B of protein A.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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The energy landscape theory of protein folding: insights into folding mechanisms and scenarios
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Specific nucleus as the transition state for protein folding: evidence from the lattice model.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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A simple model for calculating the kinetics of protein folding from three-dimensional structures
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
A theoretical search for folding/unfolding nuclei in three-dimensional protein structures
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Prediction of protein-folding mechanisms from free-energy landscapes derived from native structures
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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Theoretical Studies of Protein Folding
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https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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inferred from DOI database lookup
First principles prediction of protein folding rates
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Identification and characterization of the unfolding transition state of chymotrypsin inhibitor 2 by molecular dynamics simulations.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
"New view" of protein folding reconciled with the old through multiple unfolding simulations.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
A molecular dynamics simulation study of segment B1 of protein G.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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Protein folding dynamics: quantitative comparison between theory and experiment
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
inferred from DOI database lookup
Structure of the transition state in the folding process of human procarboxypeptidase A2 activation domain
1 reference
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Crossref
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https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
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Structure of the transition state for folding of the 129 aa protein CheY resembles that of a smaller protein, CI-2
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
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NMR structure of the N-terminal domain of E. coli DnaB helicase: implications for structure rearrangements in the helicase hexamer
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
based on heuristic
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Structure of the Ets-1 pointed domain and mitogen-activated protein kinase phosphorylation site.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
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7 January 2021
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A novel DNA-binding motif in MarA: the first structure for an AraC family transcriptional activator
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F35011000
retrieved
7 January 2021
based on heuristic
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Identifiers
DOI
10.1038/35011000
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
Dimensions Publication ID
1045150773
0 references
PubMed ID
10811210
1 reference
stated in
Europe PubMed Central
PubMed ID
10811210
retrieved
18 June 2017
ResearchGate publication ID
12507052
0 references
Springer Nature article ID
10.1038/35011000
0 references
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