Detection of low-copy-number genomic DNA sequences in individual bacterial cells by using peptide nucleic acid-assisted rolling-circle amplification and fluorescence in situ hybridization.
about
Ultrasensitive detection of DNA and protein markers in cancer cellsRolling circle amplification: a versatile tool for chemical biology, materials science and medicineNanopore based sequence specific detection of duplex DNA for genomic profiling.Target DNA detection and quantitation on a single cell with single base resolution.In situ visualization of newly synthesized proteins in environmental microbes using amino acid tagging and click chemistry.Visual detection of bacterial pathogens via PNA-based padlock probe assembly and isothermal amplification of DNAzymesSequence specificity at targeting double-stranded DNA with a γ-PNA oligomer modified with guanidinium G-clamp nucleobases.Fluorescent probes for nucleic Acid visualization in fixed and live cells.Fluorescence imaging of single-copy DNA sequences within the human genome using PNA-directed padlock probe assembly.DNA mimics for the rapid identification of microorganisms by fluorescence in situ hybridization (FISH).Strategies for highly sensitive biomarker detection by Rolling Circle Amplification of signals from nucleic acid composed sensors.Labeling of unique sequences in double-stranded DNA at sites of vicinal nicks generated by nicking endonucleases.Next-generation bis-locked nucleic acids with stacking linker and 2'-glycylamino-LNA show enhanced DNA invasion into supercoiled duplexesCascade signal amplification strategy for the detection of cancer cells by rolling circle amplification and nanoparticles tagging.Dual functional Phi29 DNA polymerase-triggered exponential rolling circle amplification for sequence-specific detection of target DNA embedded in long-stranded genomic DNA.Preparation of DNA ladder based on multiplex PCR technique.PNA-based microbial pathogen identification and resistance marker detection: An accurate, isothermal rapid assay based on genome-specific features.Identification of Nitrite-Reducing Bacteria Using Sequential mRNA Fluorescence In Situ Hybridization and Fluorescence-Assisted Cell Sorting
P2860
Q26781035-E8BED2ED-DCBC-4A8D-8387-A42446CEDAD7Q29543898-B34B7BB9-4807-48AF-A9A3-B2284BE77B0AQ33709623-F3810C42-B1E8-4A95-8614-D70B04BA89F6Q33816120-75F2365C-830E-472C-9417-A5666C9BA070Q34006258-248B6B2D-6C35-47B3-A7D3-32AED9E50A58Q34731955-23690046-59C2-436C-8952-9A0F88279E42Q35029199-AFC81AFC-BE19-4597-8EE2-B80375B70059Q35066396-CA29A787-FAC7-4B4C-B7F7-16D1B9153E18Q36795808-23E76320-4595-4CF5-BD89-035FDD4EE5CFQ37083226-08B89C0C-09F7-4435-8E1B-47FB7E1E56C7Q37934584-EF41D343-BDDB-4954-8043-6EA257A9EC50Q38269002-F32FB69A-49D5-450E-8B91-A76CF44CE3B5Q38293935-A69B94D6-EB09-4E18-9288-18CF686A1D7EQ39363127-82F10FBC-BCCE-4624-8247-3418F3CEDE6CQ41108273-DEE515D0-D371-4113-AF27-75F6349C81FAQ42026063-DE211E0B-4A35-4BD7-8999-DF6CA0E26FAEQ42137556-ED87F69A-9349-4BFB-BB7F-E1EA14944BA2Q57431287-ED888DDE-2AF0-492B-B436-CD0A194530B7
P2860
Detection of low-copy-number genomic DNA sequences in individual bacterial cells by using peptide nucleic acid-assisted rolling-circle amplification and fluorescence in situ hybridization.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Detection of low-copy-number g ...... escence in situ hybridization.
@ast
Detection of low-copy-number g ...... escence in situ hybridization.
@en
type
label
Detection of low-copy-number g ...... escence in situ hybridization.
@ast
Detection of low-copy-number g ...... escence in situ hybridization.
@en
prefLabel
Detection of low-copy-number g ...... escence in situ hybridization.
@ast
Detection of low-copy-number g ...... escence in situ hybridization.
@en
P2093
P2860
P356
P1476
Detection of low-copy-number g ...... escence in situ hybridization.
@en
P2093
Charles Lee
Irina Smolina
Maxim Frank-Kamenetskii
P2860
P304
P356
10.1128/AEM.02038-06
P407
P577
2007-02-09T00:00:00Z