Formamide can dramatically improve the specificity of PCR.
about
Betaine improves the PCR amplification of GC-rich DNA sequencesEffects of amplification facilitators on diagnostic PCR in the presence of blood, feces, and meatImproved efficiency and robustness in qPCR and multiplex end-point PCR by twisted intercalating nucleic acid modified primersBovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates.The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices.DMSO and betaine greatly improve amplification of GC-rich constructs in de novo synthesis.The enhancement of PCR amplification by low molecular weight amides.Polymerase chain reaction: basic protocol plus troubleshooting and optimization strategies.Overview of thermostable DNA polymerases for classical PCR applications: from molecular and biochemical fundamentals to commercial systems.Factors affecting fidelity of DNA synthesis during PCR amplification of d(C-A)n.d(G-T)n microsatellite repeats.Effects of upconversion nanoparticles on polymerase chain reaction.The search for mutations in the gene for the beta subunit of the cGMP phosphodiesterase (PDEB) in patients with autosomal recessive retinitis pigmentosa.Detection and enumeration of bacteria in soil by direct DNA extraction and polymerase chain reaction.Enhancing the specificity and efficiency of polymerase chain reaction using polyethyleneimine-based derivatives and hybrid nanocomposites.Improvement of PCR sequencing by formamideTesting the feasibility of DNA typing for human identification by PCR and an oligonucleotide ligation assayUse of degenerate primers for polymerase chain reaction cloning and sequencing of the Lactococcus lactis subsp. lactis recA gene.Detection of Xanthomonas campestris pv. citri by the polymerase chain reaction method.A general method for cloning recA genes of gram-positive bacteria by polymerase chain reaction.Cloning and sequencing of a gene encoding a 21-kilodalton outer membrane protein from Bordetella avium and expression of the gene in Salmonella typhimurium.Isolation and characterization of the TaSnRK2.10 gene and its association with agronomic traits in wheat (Triticum aestivum L.).Properties of targeted preamplification in DNA and cDNA quantification.Amplification of GC-rich DNA for high-throughput family-based genetic studies.The human vaginal bacterial biota and bacterial vaginosis.Strand-Exchange Nucleic Acid Circuitry with Enhanced Thermo-and Structure- Buffering Abilities Turns Gene Diagnostics Ultra-Reliable and Environmental Compatible.DMSO Increases Mutation Scanning Detection Sensitivity of High-Resolution Melting in Clinical Samples.Metabolically active eukaryotic communities in extremely acidic mine drainage.Genetic analysis with nanoPCR.Tetraalkylammonium derivatives as real-time PCR enhancers and stabilizers of the qPCR mixtures containing SYBR Green I.The polymerase chain reaction. Applications in dermatology.Detection of Onchocerca volvulus (Nematoda: Onchocercidae) infection in vectors from Amazonian Brazil following mass Mectizan distribution.New specificity and yield enhancer of polymerase chain reactions.Assessing population-level variation in the mitochondrial genome of Euphausia superba using 454 next-generation sequencing.Experimental versus in silico fluorescent amplified fragment length polymorphism analysis of Mycobacterium tuberculosis: improved typing with an extended fragment range.Characterization of genetic elements required for site-specific integration of the temperate lactococcal bacteriophage phi LC3 and construction of integration-negative phi LC3 mutantsDetection of the pathogenic parasite Toxoplasma gondii by specific amplification of ribosomal sequences using comultiplex polymerase chain reaction.General method for amplifying regions of very high G+C content.PCR amplification of highly GC-rich DNA template after denaturation by NaOHA new sequence variant of the human DNA ligase type I gene (LIG I).Effect of transition metal ions on the fluorescence and Taq-catalyzed polymerase chain reaction of tricyclic cytidine analogs.
P2860
Q24545409-A7C2EF91-5028-4968-AD45-C62B2F8D460CQ28344989-FDDFE1B7-888B-41E6-A14C-70FF391C7F23Q28728779-A4B66B86-46BA-40A3-9644-7858EA383335Q31062366-CDF07353-A846-48D7-9623-D8054FD891CBQ31917656-A63FDEEF-9CFC-4AB9-AD53-D2F0B698E5A8Q33605697-93FEBEBF-546C-40AF-9F97-6224DFEB03B5Q33938862-0213E644-574B-4242-8A95-147FD244862FQ34291869-B191873D-0AEB-49BF-A6BC-495978AB06DDQ34381737-F8BFC6E1-C019-4E40-ADA3-46A6794E9B1CQ34600618-1ED113CB-2149-4D7C-9A04-0DFD36E9C540Q34988975-9F06B4D8-1BF6-47E8-9220-953081A4BAC8Q35196035-CC2B5100-48F0-4099-98ED-6F54C86DA678Q35692592-EBC1602F-3A2E-4D46-83F1-A2B065143D28Q35787495-1E60CC44-25B9-4CBA-AEDC-B35FE7A7AD6FQ35797775-4042E0FB-02D4-44FE-ABB6-FBE8330FF438Q35882689-BE3979FD-FEB6-4B90-A86D-916D785ACE08Q35961711-93C66EB2-7174-41BB-8084-6D9F61E34D7FQ36064842-EEB63B84-84B2-4DD1-8452-213850934C0EQ36116508-9140A922-BDC3-4B1B-921E-910C48D51B03Q36136610-FBA80687-9DEF-405A-9309-F23830D2C9D4Q36327001-5593AFF5-6158-407B-A9BA-5925E5C31550Q36357087-908C8A69-BFF8-4E59-9CD0-5DC2C20886BBQ36636746-7784C0E9-B27D-4AFE-A62D-1E9208BE3888Q37111236-3BAF11B4-216A-48F4-ADD5-E3A535D9F867Q37393955-40511EA3-8171-42F5-BDC3-F92B64221E1DQ37503539-534DF537-52D7-40C8-9132-12118BEA7389Q37572070-CC6A5D55-D175-4264-804B-E81E225675AEQ38036142-F4890BB2-26B1-4362-ADB0-4A8E9511605EQ38289487-34917D3E-F0E7-4566-96FD-2CF03D93B228Q39113034-BAE255DD-08F4-4288-B83F-8D3D66ADE642Q39214239-C1B7246A-AEBC-405C-8E0A-A93481EE057FQ39543268-A09889E4-02EB-4457-B6A5-276B69FF5772Q39667663-D69E7EFF-6FCD-4BFC-B04F-6053249286EAQ39695224-BE7D9FB7-EA57-4E6F-8FD3-A47086994558Q39925528-2E1A97BF-49F4-4871-BF70-076FDCD240EEQ40174104-D4513A10-8763-4EAF-8982-A906057D3D2CQ40408084-9D471CDF-00CE-4FC6-BAA5-8DCD81EC72C6Q40413069-52968960-581F-4459-AB1C-6DAF4E93C652Q40508856-1491FBAF-1F2C-4629-BFF7-0F870959F6D2Q41844344-76F298E9-54CF-479A-889A-C91A0B088FF8
P2860
Formamide can dramatically improve the specificity of PCR.
description
1990 nî lūn-bûn
@nan
1990 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
Formamide can dramatically improve the specificity of PCR.
@ast
Formamide can dramatically improve the specificity of PCR.
@en
Formamide can dramatically improve the specificity of PCR.
@nl
type
label
Formamide can dramatically improve the specificity of PCR.
@ast
Formamide can dramatically improve the specificity of PCR.
@en
Formamide can dramatically improve the specificity of PCR.
@nl
prefLabel
Formamide can dramatically improve the specificity of PCR.
@ast
Formamide can dramatically improve the specificity of PCR.
@en
Formamide can dramatically improve the specificity of PCR.
@nl
P2093
P2860
P356
P1476
Formamide can dramatically improve the specificity of PCR.
@en
P2093
P2860
P356
10.1093/NAR/18.24.7465
P407
P577
1990-12-01T00:00:00Z