Capturing reaction paths and intermediates in Cre-loxP recombination using single-molecule fluorescence
about
Single-molecule analysis of ϕC31 integrase-mediated site-specific recombination by tethered particle motionThe partitioning and copy number control systems of the selfish yeast plasmid: an optimized molecular design for stable persistence in host cells.Single molecule TPM analysis of the catalytic pentad mutants of Cre and Flp site-specific recombinases: contributions of the pentad residues to the pre-chemical steps of recombinationTethered fluorophore motion: studying large DNA conformational changes by single-fluorophore imagingSite-specific recombinatorics: in situ cellular barcoding with the Cre Lox systemAssembly, translocation, and activation of XerCD-dif recombination by FtsK translocase analyzed in real-time by FRET and two-color tethered fluorophore motion.Single-molecule microscopy of Cre recombinationA Tet-on and Cre-loxP Based Genetic Engineering System for Convenient Recycling of Selection Markers in Penicillium oxalicum.Real-time single-molecule tethered particle motion analysis reveals mechanistic similarities and contrasts of Flp site-specific recombinase with Cre and λ IntConformational transitions during FtsK translocase activation of individual XerCD-dif recombination complexes.RNA Polymerase Pausing during Initial Transcription.Studying DNA-protein interactions with single-molecule Förster resonance energy transfer.Optimal Background Estimators in Single-Molecule FRET MicroscopyInsights into the preferential order of strand exchange in the Cre/loxP recombinase system: impact of the DNA spacer flanking sequence and flexibility.TPM analyses reveal that FtsK contributes both to the assembly and the activation of the XerCD-dif recombination synapseConformational heterogeneity and bubble dynamics in single bacterial transcription initiation complexes.
P2860
Q28817301-C19F426F-FA6C-4013-ABF3-D1A129E0055CQ34763487-8703C1D8-262A-47A3-962B-805E4F8CFBC0Q35237033-E2008D16-DAFB-4601-BB70-092F4AD26675Q35237698-A6ECFDEA-9CD1-4B37-A7D6-7B663EC37271Q36065296-F953BBF9-BB0A-4490-9F18-45047EC7162FQ36079087-06BED0EB-A874-444C-AF70-178F2B3BCF54Q36485069-A3D49CDB-2AC6-4128-977F-9D0557E1B6A5Q36789161-21BFAA95-4E54-4EDA-9DAD-D3FDF9E634A8Q37080351-301E3A4D-19AD-458B-B586-37988CDEDD30Q37256161-6E4C2614-1396-44FF-9F61-13E746F67ACEQ37273159-423D0953-7FF6-44F6-8238-5C229AB0675AQ38174426-62174C88-F510-43E0-ADFE-9265BB4FCC0CQ41165238-F8947FD8-95EA-4C92-AAF8-3926A0476B25Q41629853-72BB4589-D65B-4C41-B4F8-41DAC4F0FD18Q41941303-5EDCACF5-FB83-45B2-8CEB-75C82CCEC5DDQ49610071-762CD2A1-60BB-452F-AF6B-EA3A0A99AD4F
P2860
Capturing reaction paths and intermediates in Cre-loxP recombination using single-molecule fluorescence
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Capturing reaction paths and i ...... g single-molecule fluorescence
@ast
Capturing reaction paths and i ...... g single-molecule fluorescence
@en
type
label
Capturing reaction paths and i ...... g single-molecule fluorescence
@ast
Capturing reaction paths and i ...... g single-molecule fluorescence
@en
prefLabel
Capturing reaction paths and i ...... g single-molecule fluorescence
@ast
Capturing reaction paths and i ...... g single-molecule fluorescence
@en
P2093
P2860
P356
P1476
Capturing reaction paths and i ...... g single-molecule fluorescence
@en
P2093
Achillefs N Kapanidis
Jaroslaw Mazuryk
Justin N M Pinkney
Lidia K Arciszewska
Pawel Zawadzki
P2860
P304
20871-20876
P356
10.1073/PNAS.1211922109
P407
P577
2012-11-26T00:00:00Z