Chirality sensing by Escherichia coli topoisomerase IV and the mechanism of type II topoisomerases. - Wikidata - wikimedia - TriplyDB

Chirality sensing by Escherichia coli topoisomerase IV and the mechanism of type II topoisomerases.

Chirality sensing by Escherichia coli topoisomerase IV and the mechanism of type II topoisomerases.

http://www.wikidata.org/entity/Q30478358

about

The bacterial nucleoid: nature, dynamics and sister segregation Direct observation of strand passage by DNA-topoisomerase and its limited processivity A naturally chimeric type IIA topoisomerase in Aquifex aeolicus highlights an evolutionary path for the emergence of functional paralogs Structural basis for the MukB-topoisomerase IV interaction and its functional implicationsin vivo Mycobacterium tuberculosis DNA gyrase possesses two functional GyrA-boxes Generation of supercoils in nicked and gapped DNA drives DNA unknotting and postreplicative decatenation Mechanisms of chiral discrimination by topoisomerase IV A method to estimate the elastic energy stored in braided DNA molecules using hydrodynamic equations.Temperature control methods in a laser tweezers system The dynamic interplay between DNA topoisomerases and DNA topology.Helical chirality: a link between local interactions and global topology in DNA Simulation of DNA catenanes.Assessing sensitivity to antibacterial topoisomerase II inhibitors.DNA supercoiling and its role in DNA decatenation and unknotting.DNA chirality-dependent stimulation of topoisomerase IV activity by the C-terminal AAA+ domain of FtsK Torque and buckling in stretched intertwined double-helix DNAs The C-terminal domain of DNA gyrase A adopts a DNA-bending beta-pinwheel fold.Single-molecule measurements of DNA topology and topoisomerases.Direct observation of dynamic mechanical regulation of DNA condensation by environmental stimuli.Differential stability of DNA crossovers in solution mediated by divalent cations.The tail that wags the dog: topoisomerase IV ParC C-terminal domain controls strand passage activity through multipartite topology-dependent interactions with DNA.A topological view of the replicon Simulations of action of DNA topoisomerases to investigate boundaries and shapes of spaces of knots Braiding DNA: experiments, simulations, and models.Force as a useful variable in reactions: unfolding RNA Topoisomerase IV bends and overtwists DNA upon binding.Evolutionary twist on topoisomerases: conversion of gyrase to topoisomerase IV.How topoisomerase IV can efficiently unknot and decatenate negatively supercoiled DNA molecules without causing their torsional relaxation.Dynamics of phosphodiester synthesis by DNA ligase Single-molecule analysis reveals the molecular bearing mechanism of DNA strand exchange by a serine recombinase On the mean and variance of the writhe of random polygons Biological mechanisms, one molecule at a time Direct measurement of DNA bending by type IIA topoisomerases: implications for non-equilibrium topology simplification Spo11 and the Formation of DNA Double-Strand Breaks in Meiosis.Electrostatic braiding and homologous pairing of DNA double helices.Unlinking of supercoiled DNA catenanes by type IIA topoisomerases.The dimer state of GyrB is an active form: implications for the initial complex assembly and processive strand passage.Local sensing of global DNA topology: from crossover geometry to type II topoisomerase processivity A robust assay to measure DNA topology-dependent protein binding affinity.Direct Evidence for the Formation of Precatenanes during DNA Replication

P2860

Q26825279-3B12AA26-7707-45AE-AEE0-A10B11132367 Q27304824-55B9B92D-DD45-44C9-A2BC-CC66BDBA5DBD Q27665880-A887779F-D9B0-4F79-BAC2-35E6B237E8A5 Q27680145-8150E65C-9983-48BF-97F8-B8B744929FA1 Q27685244-C0373BF0-9E8D-4169-B084-A43352743FF3 Q28264677-3C2504F1-EDEF-4188-A10F-280F6C78E49D Q30486957-1A0CE11B-3C0D-4653-B615-797A8B102C97 Q30502376-F08742C5-33DF-4E4C-B85A-E2B5E6612692 Q33216020-B0EAC67D-E07C-48DA-92CA-45C992F006B2 Q33639806-73F00C5C-C56D-415F-BBBD-93859D43209C Q33670305-036D4A14-1ABB-413A-AAC8-9097CEF964CC Q33752506-7885FFB3-AA71-442A-A065-D9B2E3F22A8E Q33771873-B4696D98-2A7C-4275-B4E4-62876C8D0260 Q33783142-4A43772C-A49E-497A-81DE-7F59D08C04BC Q33871160-F87D17AD-DC87-4810-9EB2-5F07E105A3C5 Q33894400-9B061C97-8F57-44E1-88B5-DAEFCC329CC4 Q33904609-B589C7E0-9151-4AE8-84E5-67D89B5E440E Q33911168-35A5AC31-2AC1-4B66-890F-939400C70B97 Q33918119-D530B131-DD67-40D1-9266-E64F1C08BE6E Q33959446-5C924BD7-461F-42C7-8932-FBAE9A2E574D Q34133255-90FA8D1D-E9F8-434D-A489-6BE256A4F9C5 Q34165901-2F4F6F42-C72F-48AE-A45A-A357E1F1A076 Q34187603-65EA46DA-98EC-4AC0-9DC6-9553C0A83C4A Q34190678-E56245C2-1097-437B-A266-E37BCB950CAA Q34280037-BEF6636C-0D52-4281-B7AC-3F5A1535F790 Q34350487-52ED5F9B-CCAE-4C85-AFB9-26B04542C717 Q34450138-A95DCB57-99AD-4F9A-84F3-9F1D80CD8244 Q34523212-177EC41C-5ED1-4C8C-B70C-D71BC593F747 Q34776052-87F83771-1B59-4ABF-991A-E4EA2DA19586 Q34937846-F6BE1D48-5E32-49E6-9AE5-90966CAF5A82 Q35073963-A8B8BC6A-CC29-41B2-8FA3-15704F0EBF41 Q35080056-75D1C56C-3ACC-426D-936B-E2B9222273C3 Q35120752-88DCFCBF-944A-43A8-B7ED-FE74120ECD15 Q35212439-E23A369C-B187-4F21-ADB2-10CBAE27CB56 Q35218304-DA2E1CA6-4F05-4AAB-B15C-7022B85D7AF9 Q35224022-49B34AEA-AC52-437C-9531-3E7690E2C7AF Q35447601-BA187617-4C0B-43A8-9F1D-353709378B69 Q35468217-60B80475-E09E-43DA-BCED-B915F14AF30E Q35476141-0A355397-A3E7-4485-9247-66B2C7773313 Q35662242-8DB6503B-9AE4-43A9-83D3-FB6D374CEA0E

P2860

Chirality sensing by Escherichia coli topoisomerase IV and the mechanism of type II topoisomerases.

http://www.wikidata.org/entity/Q30478358

description

2003 nî lūn-bûn

@nan

2003 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2003 թվականի հուլիսին հրատարակված գիտական հոդված

@hy

2003年の論文

@ja

2003年論文

@yue

2003年論文

@zh-hant

2003年論文

@zh-hk

2003年論文

@zh-mo

2003年論文

@zh-tw

2003年论文

@wuu

name

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@ast

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@en

type

label

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@ast

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@en

prefLabel

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@ast

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@en

P1433

Q30478358-10A2362F-3026-4809-9620-EA5750E7975A

P1476

Q30478358-BBCBA3DF-4B70-446A-8C28-8EE971F84BF5

P2093

Q30478358-183AAD3E-C9C2-4421-B812-9EE3469A7081

Q30478358-4F418BCC-F32F-4598-A867-1599F0FD791E

Q30478358-6363B221-F1F2-4A77-8620-B175A39CB598

Q30478358-7471FE75-119D-496B-87AA-DF2A67A06B32

Q30478358-BCD5912E-A61A-4947-B421-CACF9BFA3204

P2860

Q30478358-1059F1F3-1A5B-4363-91DC-04E9B029D8FD

Q30478358-194E47F1-EA3B-4CD9-915B-0D4D63C84B9D

Q30478358-1E9291D0-96B7-4A8E-A247-99B59C7115B0

Q30478358-1EE26358-CD1F-4DCA-9E07-C027BD801772

Q30478358-248D9112-999F-45B2-98D0-10128772470A

Q30478358-2B336409-18D6-4C1C-B8EA-BF19C2AAFFEC

Q30478358-3364014D-8C7C-4F70-907A-7A604A925FB1

Q30478358-3A1F8A45-C6BF-4C6F-8D1D-277424DA3A24

Q30478358-4AFF8112-7711-48D5-B539-CF076A148996

Q30478358-4B7BF42A-7D4C-4B42-822E-F4A67D37534C

P304

Q30478358-84141840-4A9C-476A-8890-EB6862BCB9AD

P31

Q30478358-675BD9D9-547B-416B-B21E-82201E972D59

P356

Q30478358-92A093CC-A6AC-40CA-8DC6-4BB4FB73CDEC

P407

Q30478358-012BF1B3-FFFB-43CF-AEF9-27F32EAF2AEF

P433

Q30478358-5FE3195E-DB2E-48AC-AA2E-68DAFCBB8F9E

P478

Q30478358-68436EBE-9C1C-4A23-B1F5-2C7DFD6ED045

P50

Q30478358-6CE79979-C847-49BE-9488-CF0E2D8F2AEC

Q30478358-9CBD7E26-C580-4DF8-A56A-0B6EFE9BDE31

P577

Q30478358-6F9E89E5-84E1-49A9-95A7-14A703B76624

P5875

Q30478358-361CE66A-2E35-459E-AADB-3D567DAC5C1C

P698

Q30478358-D2A11183-4E17-4933-8713-9944C4206004

P932

Q30478358-6FD14717-6E0B-4E69-BE01-A40DB190DA45

P356

PNAS.1133178100

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Chirality sensing by Escherich ...... ism of type II topoisomerases.

@en

P2093

Alexander Vologodskii

http://www.w3.org/2001/XMLSchema#string

Nancy J Crisona

http://www.w3.org/2001/XMLSchema#string

Nicholas R Cozzarelli

http://www.w3.org/2001/XMLSchema#string

Steven B Smith

http://www.w3.org/2001/XMLSchema#string

Zev Bryant

http://www.w3.org/2001/XMLSchema#string

P2860

Behavior of supercoiled DNA.

The writhing number of a space curve

A model for the mechanism of strand passage by DNA gyrase

Structure and mechanism of DNA topoisomerase II

DNA topoisomerases

Using mechanical force to probe the mechanism of pausing and arrest during continuous elongation by Escherichia coli RNA polymerase.

Effect of supercoiling on the juxtaposition and relative orientation of DNA sites.

Roles of topoisomerase IV and DNA gyrase in DNA unlinking during replication in Escherichia coli.

Mechanism of topology simplification by type II DNA topoisomerases.

DNA topoisomerases: why so many?

P304

8654-8659

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.1133178100

http://www.w3.org/2001/XMLSchema#string

P407

P433

15

http://www.w3.org/2001/XMLSchema#string

P478

100

http://www.w3.org/2001/XMLSchema#string

P50

Carlos Bustamante

P577

2003-07-11T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

10664119

http://www.w3.org/2001/XMLSchema#string

P698

12857958

http://www.w3.org/2001/XMLSchema#string

P932

166367

http://www.w3.org/2001/XMLSchema#string