Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling. - Wikidata - wikimedia - TriplyDB

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

http://www.wikidata.org/entity/Q41337691

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Adaptations to submarine hydrothermal environments exemplified by the genome of Nautilia profundicola Functional interaction of reverse gyrase with single-strand binding protein of the archaeon Sulfolobus The latch modulates nucleotide and DNA binding to the helicase-like domain of Thermotoga maritima reverse gyrase and is required for positive DNA supercoiling Crystal structures of Thermotoga maritima reverse gyrase: inferences for the mechanism of positive DNA supercoiling Helical chirality: a link between local interactions and global topology in DNA Reverse gyrase--recent advances and current mechanistic understanding of positive DNA supercoiling.How hyperthermophiles adapt to change their lives: DNA exchange in extreme conditions.Chromatin structure and dynamics in hot environments: architectural proteins and DNA topoisomerases of thermophilic archaea.Separate and combined biochemical activities of the subunits of a naturally split reverse gyrase Insight into the cellular involvement of the two reverse gyrases from the hyperthermophilic archaeon Sulfolobus solfataricus.The reverse gyrase helicase-like domain is a nucleotide-dependent switch that is attenuated by the topoisomerase domain Widespread distribution of archaeal reverse gyrase in thermophilic bacteria suggests a complex history of vertical inheritance and lateral gene transfers.DNA topoisomerases: harnessing and constraining energy to govern chromosome topology.Helicase-appended topoisomerases: new insight into the mechanism of directional strand transfer.Strain-level genomic variation in natural populations of Lebetimonas from an erupting deep-sea volcano.Genome stability: recent insights in the topoisomerase reverse gyrase and thermophilic DNA alkyltransferase.Functional evaluation of four putative DNA-binding regions in Thermoanaerobacter tengcongensis reverse gyrase.Reverse Gyrase Functions in Genome Integrity Maintenance by Protecting DNA Breaks In Vivo.Selective degradation of reverse gyrase and DNA fragmentation induced by alkylating agent in the archaeon Sulfolobus solfataricus.The archaeal topoisomerase reverse gyrase is a helix-destabilizing protein that unwinds four-way DNA junctions.Nucleotide-driven conformational changes in the reverse gyrase helicase-like domain couple the nucleotide cycle to DNA processing.Nucleotide- and stoichiometry-dependent DNA supercoiling by reverse gyrase.Mutational analysis of the helicase-like domain of Thermotoga maritima reverse gyrase.

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P2860

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

http://www.wikidata.org/entity/Q41337691

description

2004 nî lūn-bûn

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2004年の論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年論文

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2004年论文

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2004年论文

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2004年论文

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name

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

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type

label

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

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prefLabel

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

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Nucleic Acids Research

P1476

Reverse gyrase has heat-protective DNA chaperone activity independent of supercoiling.

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Daniela Stock

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P2860

Instability and decay of the primary structure of DNA

DNA stability at temperatures typical for hyperthermophiles

Crystal structure of the DNA nucleotide excision repair enzyme UvrB from Thermus thermophilus

Crystal structure of Thermus thermophilus HB8 UvrB protein, a key enzyme of nucleotide excision repair

Crystal structure of UvrB, a DNA helicase adapted for nucleotide excision repair.

Crystal structure of a complex of a type IA DNA topoisomerase with a single-stranded DNA molecule

Crystal structure of reverse gyrase: insights into the positive supercoiling of DNA

The yeast type I topoisomerase Top3 interacts with Sgs1, a DNA helicase homolog: a potential eukaryotic reverse gyrase

Biomolecular stability and life at high temperatures.

Stress genes and proteins in the archaea.

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3537-3545

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scholarly article

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10.1093/NAR/GKH683

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12

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32

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Martin Kampmann

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2004-07-06T00:00:00Z

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8462591

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15247343

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molecular chaperones

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484171

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