Linear-after-the-exponential (LATE)-PCR: an advanced method of asymmetric PCR and its uses in quantitative real-time analysis.
about
Diagnostic application of padlock probes--multiplex detection of plant pathogens using universal microarraysAn automated microfluidic system for single-stranded DNA preparation and magnetic bead-based microarray analysis.Single-molecule LATE-PCR analysis of human mitochondrial genomic sequence variationsComparison of a multiplex real-time PCR assay with a multiplex Luminex assay for influenza virus detection.Rapid label-free identification of mixed bacterial infections by surface plasmon resonance.Single-cell duplex RT-LATE-PCR reveals Oct4 and Xist RNA gradients in 8-cell embryos.Optimised padlock probe ligation and microarray detection of multiple (non-authorised) GMOs in a single reactionExploring the fitness landscape of an RNA virus by using a universal barcode microarrayLinear-After-The-Exponential (LATE)-PCR: primer design criteria for high yields of specific single-stranded DNA and improved real-time detectionHeat shock memory in preimplantation mouse embryosComparison and transfer testing of multiplex ligation detection methods for GM plants.Development and comparison of two assay formats for parallel detection of four biothreat pathogens by using suspension microarrays.Amplified electrochemiluminescence detection of nucleic acids by hairpin probe-based isothermal amplification.A novel molecular test for influenza B virus detection and lineage differentiation.Seven novel probe systems for real-time PCR provide absolute single-base discrimination, higher signaling, and generic components.Single-Tube Mutation Scanning of The Epidermal Growth Factor Receptor Gene Using Multiplex LATE-PCR and Lights-On/Lights-Off Probesflp-32 Ligand/receptor silencing phenocopy faster plant pathogenic nematodes.Multicolor Melting Curve Analysis-Based Multilocus Melt Typing of Vibrio parahaemolyticus.Identification of PCR products using PNA amphiphiles in micellar electrokinetic chromatography.Efficient enzymatic synthesis and dual-colour fluorescent labelling of DNA probes using long chain azido-dUTP and BCN dyesMultiplex asymmetric PCR-based oligonucleotide microarray for detection of drug resistance genes containing single mutations in Enterobacteriaceae.COMplementary Primer ASymmetric PCR (COMPAS-PCR) Applied to the Identification of Salmo salar, Salmo trutta and Their HybridsClosed-Tube Barcoding.Detection of genetic variation using dual-labeled peptide nucleic acid (PNA) probe-based melting point analysisDesign and Construction of a Single-Tube, LATE-PCR, Multiplex Endpoint Assay with Lights-On/Lights-Off Probes for the Detection of Pathogens Associated with SepsisCombination of fluorescence color and melting temperature as a two-dimensional label for homogeneous multiplex PCR detection.Use of sloppy molecular beacon probes for identification of mycobacterial species.Integrated Amplification Microarrays for Infectious Disease Diagnostics.Advances in viral disease diagnostic and molecular epidemiological technologies.Evaluation of Candidate Reference Genes for Real-Time Quantitative PCR of Plant Samples Using Purified cDNA as Template.Single-stranded DNA (ssDNA) production in DNA aptamer generation.Molecular detection and genotyping of noroviruses.Construction of a microfluidic chip, using dried-down reagents, for LATE-PCR amplification and detection of single-stranded DNA.A multiplex snapback primer system for the enrichment and detection of JAK2 V617F and MPL W515L/K mutations in Philadelphia-negative myeloproliferative neoplasms.Development of a multiplex DNA-based traceability tool for crop plant materials.Direct amplification of single-stranded DNA for pyrosequencing using linear-after-the-exponential (LATE)-PCR.Specificity of SNP detection with molecular beacons is improved by stem and loop separation with spacers.Two-temperature LATE-PCR endpoint genotyping.Dilute-'N'-Go dideoxy sequencing of all DNA strands generated in multiplex LATE-PCR assaysAPOBEC3A efficiently deaminates methylated, but not TET-oxidized, cytosine bases in DNA.
P2860
Q24793968-4C6F2823-57D2-4BA9-829B-1421FF09A166Q27331965-5B3E4513-91B5-43AC-AB36-619224900A1AQ28475515-7A306B45-B19C-4353-8F47-CF908B7024B3Q30426234-E20C60B5-11B5-4B05-BA09-AA47783BB123Q30475065-B61BFFA4-44D6-4694-B490-BDFFB3E0F372Q33309349-50ADDFBA-2F42-4594-9C0E-520FFA779C48Q33389559-DE1B02B1-4033-444C-9E35-42554EE78D04Q33810838-B760DE59-8B81-48EA-AE62-ED22A7958302Q33853941-A1965B50-E49B-4209-932F-D06D4177DA42Q33862781-2B4C1218-1600-4E56-84B1-E6B5AF0A295CQ34132563-C8A847BE-6753-4A4C-9880-0E55C517121CQ34166528-A38CE5FE-37B8-4DA3-8D42-FA782B0AD549Q34355689-851A1164-61BE-4CB5-8BCA-A62136E5C322Q34389152-C7F98A31-8F3F-423B-8F0A-685A0B35F184Q34409750-98C8D9D9-B81B-4D97-8674-458261DBB048Q34523257-D3AC9E6C-B377-47DD-8C25-A918F81ECAEFQ34611121-6BDFFBFD-F83A-42F6-BCDE-7E3C18EE1177Q35773670-8C7EAB44-20DE-402B-846B-73267D936D2BQ35857611-81A8A15F-247C-4300-804D-AB63B0854FDDQ35906675-727A4886-C746-490F-955D-D3A2504EF177Q36095002-592120E9-E875-4803-9DC5-4C366305F4CCQ36174990-FBC9AC75-F5AF-41D8-AF7F-5ACC47A5837DQ36181214-1E569317-7E6D-4389-80F9-4F95EEAEB177Q36247224-A38BBA0B-93C1-4B31-A30E-76936ACB3168Q36522567-879F0128-2DEF-4B52-A5DA-5E04E572EC26Q36769400-D1B02CF5-F1F4-43A4-923F-F3587BD742D7Q37156889-5C04E29F-CC8F-408F-98E7-C8D8341B830FQ37214171-B633658E-1E41-4727-8E16-9F7B836AB35FQ37478698-2D4EF4BC-7411-415A-98D1-EFBF947A9D6AQ37531748-482454C1-F241-4E43-93BE-94030F2AAA97Q37982285-E441A238-2B4B-4E74-9701-5592DFDC13E7Q38081826-8D64C52D-8C4E-43FC-9B5F-FDB2A1077617Q38312007-0168BFDA-0D87-4734-98ED-46CC4DBB93F0Q38366759-978FB8FF-0634-449C-BF34-503061A546D6Q40086529-95795CE4-311C-4F7C-B915-D1B80671100CQ40304426-B4F4A085-467D-4B13-988F-85EBB06665CBQ40326440-AACE77FB-B80D-4726-B7A6-517762C9290EQ41094382-7348716F-CFA2-4075-B64C-24CBC68B2724Q41168773-8A55BEF0-C1B1-403F-AA8F-88E571563D26Q41510570-EE399C68-4D14-41EC-9748-A631E8876394
P2860
Linear-after-the-exponential (LATE)-PCR: an advanced method of asymmetric PCR and its uses in quantitative real-time analysis.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Linear-after-the-exponential ( ...... antitative real-time analysis.
@ast
Linear-after-the-exponential ( ...... antitative real-time analysis.
@en
type
label
Linear-after-the-exponential ( ...... antitative real-time analysis.
@ast
Linear-after-the-exponential ( ...... antitative real-time analysis.
@en
prefLabel
Linear-after-the-exponential ( ...... antitative real-time analysis.
@ast
Linear-after-the-exponential ( ...... antitative real-time analysis.
@en
P2093
P2860
P356
P1476
Linear-after-the-exponential ( ...... antitative real-time analysis.
@en
P2093
J Aquiles Sanchez
John E Rice
Kenneth E Pierce
Lawrence J Wangh
P2860
P304
P356
10.1073/PNAS.0305476101
P407
P577
2004-02-09T00:00:00Z