| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2002PNAS...99.9679M |
| P356 | DOI | 10.1073/PNAS.142310499 |
| P932 | PMC publication ID | 124975 |
| P698 | PubMed publication ID | 12107280 |
| P5875 | ResearchGate publication ID | 11271716 |
| P50 | author | Todd O. Yeates | Q32063648 |
| P2093 | author name string | David Eisenberg | |
| Parag Mallick | |||
| Daniel R Boutz | |||
| P2860 | cites work | Complete Genome Sequence of an Aerobic Hyper-thermophilic Crenarchaeon, Aeropyrum pernix K1 | Q22066070 |
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| Crystal structures of a novel ferric reductase from the hyperthermophilic archaeon Archaeoglobus fulgidus and its complex with NADP+ | Q27634518 | ||
| Solution structure of Pyrobaculum aerophilum DsrC, an archaeal homologue of the gamma subunit of dissimilatory sulfite reductase | Q27636384 | ||
| Structure and importance of the dimerization domain in elongation factor Ts from Thermus thermophilus | Q27733297 | ||
| The crystal structure of a hyperthermophilic archaeal TATA-box binding protein | Q27734618 | ||
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| Distribution of protein folds in the three superkingdoms of life. | Q31917687 | ||
| Machine learning approaches for the prediction of signal peptides and other protein sorting signals | Q33538324 | ||
| Chaperone activity with a redox switch | Q33852523 | ||
| Protein stability in extremophilic archaea | Q34019689 | ||
| Comparative genomics and understanding of microbial biology | Q34040059 | ||
| Genome of Methanocaldococcus (Methanococcus) jannaschii | Q34157845 | ||
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| Thiols of intracellular pathogens. Identification of ovothiol A in Leishmania donovani and structural analysis of a novel thiol from Mycobacterium bovis | Q34333144 | ||
| Molecular and cellular aspects of thiol-disulfide exchange. | Q34373608 | ||
| The function of gamma-glutamylcysteine and bis-gamma-glutamylcystine reductase in Halobacterium halobium | Q34561137 | ||
| Selecting protein targets for structural genomics of Pyrobaculum aerophilum: validating automated fold assignment methods by using binary hypothesis testing | Q35073856 | ||
| Protein fold recognition using sequence-derived predictions | Q36279845 | ||
| Evolution of glutathione metabolism | Q36499046 | ||
| P433 | issue | 15 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 9679-9684 | |
| P577 | publication date | 2002-07-09 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Genomic evidence that the intracellular proteins of archaeal microbes contain disulfide bonds | |
| P478 | volume | 99 |
| Q24530143 | A novel function of tissue-type transglutaminase: protein disulphide isomerase |
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| Q26851891 | A survey of protein structures from archaeal viruses |
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| Q46261151 | Aeropyrum pernix membrane topology of protein VKOR promotes protein disulfide bond formation in two subcellular compartments |
| Q33996056 | Amylomaltase of Pyrobaculum aerophilum IM2 produces thermoreversible starch gels |
| Q57095200 | An intermolecular disulfide bond is required for thermostability and thermoactivity of β-glycosidase from Thermococcus kodakarensis KOD1 |
| Q46235070 | An interrupted beta-propeller and protein disorder: structural bioinformatics insights into the N-terminus of alsin |
| Q27678283 | An intersubunit disulfide bridge stabilizes the tetrameric nucleoside diphosphate kinase of Aquifex aeolicus |
| Q33396099 | Analysis on conservation of disulphide bonds and their structural features in homologous protein domain families |
| Q26780240 | Archaeal Enzymes and Applications in Industrial Biocatalysts |
| Q36954475 | Bacterial species exhibit diversity in their mechanisms and capacity for protein disulfide bond formation. |
| Q33281558 | Biochemical and structural characterization of mammalian-like purine nucleoside phosphorylase from the Archaeon Pyrococcus furiosus |
| Q27653010 | Biochemical and structural studies of a L-haloacid dehalogenase from the thermophilic archaeon Sulfolobus tokodaii |
| Q28476522 | Calculation of the relative chemical stabilities of proteins as a function of temperature and redox chemistry in a hot spring |
| Q43024483 | Characterisation of the components of the thioredoxin system in the archaeon Sulfolobus solfataricus |
| Q31072248 | Characterization of a multifunctional protein disulfide oxidoreductase from Sulfolobus solfataricus |
| Q41997244 | Characterization of surface-exposed reactive cysteine residues in Saccharomyces cerevisiae |
| Q36713196 | Comparative analysis to identify determinants of changing life style in Thermosynechococcus elongatus BP-1, a thermophilic cyanobacterium |
| Q21093605 | Comparative genomics of Thermus thermophilus and Deinococcus radiodurans: divergent routes of adaptation to thermophily and radiation resistance |
| Q24797455 | Comprehensive de novo structure prediction in a systems-biology context for the archaea Halobacterium sp. NRC-1 |
| Q47735366 | Crystal structure of a lipase from Streptomyces sp. strain W007 - implications for thermostability and regiospecificity |
| Q27650393 | Crystal structure of highly thermostable glycerol kinase from a hyperthermophilic archaeon in a dimeric form |
| Q36458214 | Crystal structure of the probable haloacid dehalogenase PH0459 from Pyrococcus horikoshii OT3. |
| Q41974186 | Crystallization and preliminary X-ray crystallographic analysis of two dimeric hyperthermostable thioredoxins isolated from Sulfolobus solfataricus. |
| Q27657686 | Crystallographic snapshots of iterative substrate translocations during nicotianamine synthesis in archaea |
| Q94101568 | Current Awareness on Comparative and Functional Genomics |
| Q30394922 | Cysteine function governs its conservation and degeneration and restricts its utilization on protein surfaces |
| Q27650579 | Cysteine usage in Sulfolobus spindle-shaped virus 1 and extension to hyperthermophilic viruses in general |
| Q35878643 | Cysteine-cysteine contact preference leads to target-focusing in protein folding |
| Q39659789 | Dihydrodipicolinate synthase from Thermotoga maritima. |
| Q27644275 | Discovery of a Thermophilic Protein Complex Stabilized by Topologically Interlinked Chains |
| Q43025584 | Discovery of an intermolecular disulfide bond required for the thermostability of a heterodimeric protein from the thermophile Hydrogenobacter thermophilus |
| Q33939487 | Distance-dependent statistical potentials for discriminating thermophilic and mesophilic proteins |
| Q39748648 | Disulfide Bonding among μ1 Trimers in Mammalian Reovirus Outer Capsid: a Late and Reversible Step in Virion Morphogenesis |
| Q41787799 | Disulfide bond formation and cysteine exclusion in gram-positive bacteria |
| Q49788752 | Disulfide bond formation in prokaryotes |
| Q33723782 | Disulfide bond formation in prokaryotes: history, diversity and design |
| Q47329867 | Every OGT Is Illuminated … by Fluorescent and Synchrotron Lights. |
| Q35555475 | GDAP: a web tool for genome-wide protein disulfide bond prediction |
| Q22065753 | Genome sequence of Haloarcula marismortui: a halophilic archaeon from the Dead Sea |
| Q36498037 | Hot crenarchaeal viruses reveal deep evolutionary connections |
| Q38841270 | Improving the 'tool box' for robust industrial enzymes |
| Q40611276 | In Vivo Formation of the Protein Disulfide Bond That Enhances the Thermostability of Diphosphomevalonate Decarboxylase, an Intracellular Enzyme from the Hyperthermophilic Archaeon Sulfolobus solfataricus. |
| Q27661744 | Insights into the hyperthermostability and unusual region-specificity of archaeal Pyrococcus abyssi tRNA m1A57/58 methyltransferase |
| Q35757065 | Intramolecular disulfide bond between catalytic cysteines in an intein precursor |
| Q21092836 | JAMM: a metalloprotease-like zinc site in the proteasome and signalosome |
| Q28754640 | MTH1745, a protein disulfide isomerase-like protein from thermophilic archaea, Methanothermobacter thermoautotrophicum involving in stress response |
| Q37724253 | Mechanisms of oxidative protein folding in the bacterial cell envelope |
| Q45192381 | Methylthioadenosine phosphorylase from the archaeon Pyrococcus furiosus. Mechanism of the reaction and assignment of disulfide bonds |
| Q39173556 | Multifactorial level of extremostability of proteins: can they be exploited for protein engineering? |
| Q37772120 | Multiple catalytically active thioredoxin folds: a winning strategy for many functions |
| Q42579166 | Network model of a protein globule |
| Q30729945 | Occurrence of protein disulfide bonds in different domains of life: a comparison of proteins from the Protein Data Bank |
| Q36527281 | On the use of DXMS to produce more crystallizable proteins: structures of the T. maritima proteins TM0160 and TM1171. |
| Q39255935 | Physicochemically stable cholera toxin B subunit pentamer created by peripheral molecular constraints imposed by de novo-introduced intersubunit disulfide crosslinks. |
| Q33940312 | Posttranslational protein modification in Archaea |
| Q28652594 | Potential role of glutathione in evolution of thiol-based redox signaling sites in proteins |
| Q46802200 | Predicting disulfide bond connectivity in proteins by correlated mutations analysis |
| Q36575813 | Protein disulfides and protein disulfide oxidoreductases in hyperthermophiles |
| Q51736618 | Protein flexibility and cysteine reactivity: influence of mobility on the H-bond network and effects on pKa prediction. |
| Q35165260 | Protein informatics towards function identification |
| Q83835885 | Proteomic mapping of the hyperthermophilic and acidophilic archaeon Sulfolobus solfataricus P2 |
| Q34629088 | Reconsideration of an early dogma, saying "there is no evidence for disulfide bonds in proteins from archaea". |
| Q30393259 | Redox biology: computational approaches to the investigation of functional cysteine residues |
| Q41123896 | Solution properties of the archaeal CRISPR DNA repeat-binding homeodomain protein Cbp2. |
| Q35044130 | Structural analysis of mevalonate-3-kinase provides insight into the mechanisms of isoprenoid pathway decarboxylases |
| Q24651853 | Structural and functional studies of archaeal viruses |
| Q27656590 | Structural and functional studies of the Thermus thermophilus 16S rRNA methyltransferase RsmG |
| Q42424697 | Structural differences between thermophilic and mesophilic membrane proteins |
| Q28652461 | Structure and regulatory role of the C-terminal winged helix domain of the archaeal minichromosome maintenance complex |
| Q34563522 | Structure of the DPS-like protein from Sulfolobus solfataricus reveals a bacterioferritin-like dimetal binding site within a DPS-like dodecameric assembly |
| Q27650725 | Structures and Functional Implications of an AMP-Binding Cystathionine β-Synthase Domain Protein from a Hyperthermophilic Archaeon |
| Q42108282 | THUMP from archaeal tRNA:m22G10 methyltransferase, a genuine autonomously folding domain |
| Q40941541 | The Minor Capsid Protein VP11 of Thermophilic Bacteriophage P23-77 Facilitates Virus Assembly by Using Lipid-Protein Interactions |
| Q35213995 | The archaeal Sec-dependent protein translocation pathway. |
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| Q92424272 | The molecular mass and isoelectric point of plant proteomes |
| Q24644821 | The oligomerization and ligand-binding properties of Sm-like archaeal proteins (SmAPs) |
| Q35023719 | The structure of G4, the poxvirus disulfide oxidoreductase essential for virus maturation and infectivity |
| Q27641869 | The structure of an alcohol dehydrogenase from the hyperthermophilic archaeon Aeropyrum pernix |
| Q38366561 | The survival mechanisms of thermophiles at high temperatures: an angle of omics |
| Q43030231 | Thermophilic archaeal enzymes and applications in biocatalysis |
| Q35224072 | Widespread disulfide bonding in proteins from thermophilic archaea |
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