Protein structure and evolution: are they constrained globally by a principle derived from information theory?

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Protein structure and evolution: are they constrained globally by a principle derived from information theory? is …
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scholarly articleQ13442814

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P819ADS bibcode2015PLoSO..1025663H
P356DOI10.1371/JOURNAL.PONE.0125663
P932PMC publication ID4429977
P698PubMed publication ID25970335
P5875ResearchGate publication ID276361835

P2093author name stringLeslie Hatton
Gregory Warr
P2860cites workA Mathematical Theory of CommunicationQ724029
Are there laws of genome evolution?Q21145321
The relationship of protein conservation and sequence lengthQ24799730
Proteome wide purification and identification of O-GlcNAc-modified proteins using click chemistry and mass spectrometryQ27334695
The case for open computer programsQ27921796
Global identification and characterization of both O-GlcNAcylation and phosphorylation at the murine synapseQ28594444
On the frequency of protein glycosylation, as deduced from analysis of the SWISS-PROT databaseQ28610113
Word decoding of protein amino Acid sequences with availability analysis: a linguistic approachQ28710553
UniCarbKB: building a knowledge platform for glycoproteomicsQ30050744
Simple stochastic birth and death models of genome evolution: was there enough time for us to evolve?Q33193877
A general tendency for conservation of protein length across eukaryotic kingdomsQ33340403
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Pyrrolysine encoded by UAG in Archaea: charging of a UAG-decoding specialized tRNA.Q34130079
Mathematical modeling and comparison of protein size distribution in different plant, animal, fungal and microbial species reveals a negative correlation between protein size and protein number, thus providing insight into the evolution of proteomesQ34148115
Proteome-wide post-translational modification statistics: frequency analysis and curation of the swiss-prot database.Q34228253
A universal scaling law determines time reversibility and steady state of substitutions under selection.Q36732060
N- and O-glycosylation in the murine synaptosomeQ37388959
The use of information theory in evolutionary biologyQ37982765
Post-translational modification: nature's escape from genetic imprisonment and the basis for dynamic information encodingQ38035237
Advances in LC-MS/MS-based glycoproteomics: getting closer to system-wide site-specific mapping of the N- and O-glycoproteome.Q38211893
Validation of the reliability of computational O-GlcNAc predictionQ39295994
Distance-dependent classification of amino acids by information theory.Q51690029
Power laws, Pareto distributions and Zipf's lawQ55898849
A Brief History of Generative Models for Power Law and Lognormal DistributionsQ56059727
Power-Law Distributions of Component Size in General Software SystemsQ56784529
Power laws in softwareQ58219987
Protein-length distributions for the three domains of lifeQ60017703
Average gene length is highly conserved in prokaryotes and eukaryotes and diverges only between the two kingdomsQ83149762
P275copyright licenseCreative Commons CC0 LicenseQ6938433
P6216copyright statuscopyrighted, dedicated to the public domain by copyright holderQ88088423
P433issue5
P407language of work or nameEnglishQ1860
P921main subjectprotein evolutionQ59870539
P304page(s)e0125663
P577publication date2015-05-13
P1433published inPLOS OneQ564954
P1476titleProtein structure and evolution: are they constrained globally by a principle derived from information theory?
P478volume10

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Q91870377Strong evidence of an information-theoretical conservation principle linking all discrete systemscites workP2860

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