Pcr Error Rate Calculator
Contents |
Go Anwendungen und VerfahrenMost
Dna Polymerase Fidelity
Popular Products LaborlösungenChemikalienLaborautomationManagement - und Analysesoftware für LabordatenLaborgeräteKunststoffartikel und Zubehör für das LaborMarkenThermo
Rna Polymerase Error Rate
Scientific™Applied Biosystems™Invitrogen™Gibco™Ion Torrent™BiowissenschaftenAntibodiesZellanalyseZellkultur - und TransfektionsreagenzienKlonierungDNA - und RNA-AufreinigungEpigenetikDurchflusszytometrieGenexpressionsanalyseGenom-EditierungPCR | Real-time PCRProteinbiologieRNAiSequenzierungStammzellenforschungIndustrie und Angewandte WissenschaftenBiotechnologie in der LandwirtschaftTiergesundheitBioproduktionZement, Kohle und MineralienChromatographieUmweltNahrungsmittel / GetränkeindustrieForensikHerstellung und VerarbeitungMassenspektrometrieMikrobiologiePharmazeutik gotaq error rate und BiopharmazeutikNachweis und Messung radioaktiver StrahlungSpektroskopie, Isotop- und ElementanalyseKlinik & DiagnostikAnatomische PathologieKrebsforschungKlinische MikrobiologieKlinische und translationale ForschungDiagnoseentwicklungDiagnostiktestsPräklinische bis begleitende DiagnostikGesundheitswesenAuswahlhilfe für ProdukteServicesNeue ProdukteSonderaktionenLerncenterAlle Produkte anzeigen Beliebteste ProdukteMessbecherLaborzentrifugenTrockenschränke und Öfen für das LaborLipofectamine™ ReagenzienNalgene™ LaborartikelOligos, Primer, Sonden und NukleotidePipetten und PipettenspitzenSuperScript™ Reverse TranskriptaseTaqMan® Real-Time PCR AssaysTRIzol™ ReagenzienBeliebteste KategorienAntikörper und ImmunassaysZellkultur - und TransfektionsreagenzienChromatographiesäulen, Harze und ZenrifugenfilterAssays für die ArzneimittelforschungGele und MembranenInstrumente & GeräteReagenzien und Chemikalien für das LaborLaborausstattung, Kunststoffe und GlaswarenPrimer/Oligos, Klonierung und GensyntheseSoftware und digitale SpeicherungBestell-ToolsBestellinf
4.4 X 10-7 in Phusion HF buffer and 9.5 X 10-7 in GC buffer as reported by
Q5 Dna Polymerase Error Rate
Finnzymes/Thermo Scientific. Links to this resource Products: Phusion High-Fidelity PCR Master Mix q5 error rate with GC Buffer, Phusion High-Fidelity DNA Polymerase, Phusion High-Fidelity PCR Master Mix with HF Buffer, Phusion High-Fidelity reverse transcriptase error rate PCR Kit Products Product CatalogNew ProductsSpecial Offers My NEB Products Save your favorite products by clicking Add to My NEB, making re-ordering and remembering what you need quick https://www.thermofisher.com/us/en/home/brands/thermo-scientific/molecular-biology/molecular-biology-learning-center/molecular-biology-resource-library/thermo-scientific-web-tools/pcr-fidelity-calculator.html and simple. Tools & Resources Returning to use the same tools or tables often?Click Add to My NEB to save the links and view as often as you like. Applications Find great application content?Click Add to My NEB to save and impress your labmates with your knowledge. Other Pages Keep track of any other pages you find useful https://www.neb.com/faqs/2012/09/06/what-is-the-error-rate-of-phusion-reg-high-fidelity-dna-polymerase by clicking Add to My NEB. About NEB Services Freezer ProgramsCustomized Solutions & OEMBusiness Development OpportunitiesCollaborationLicensing Student Services Educational Course SupportiGEM CompetitionBioBuilderClubMolecular Biology Summer Workshops Research at NEB Publications Company Information LeadershipNewsCareers Contact Business Development busdev@neb.comInquiry Form New England Biolabs Inc. Customer Service 1-800-632-5227 FAX: 1-800-632-7440 Monday - Friday 9:00 AM - 8:00 PM EST customerservice@neb.com New England Biolabs Inc. Customized Solutions & OEM NEBsolutions@neb.comInquiry Form New England Biolabs Inc. Freezer Programs 1-800-632-5227 x 8 FAX: 1-888-632-4436 freezers@neb.com New England Biolabs Inc. Technical Support 1-800-632-7799 Monday - Friday 9:00 AM - 5:00 PM EST info@neb.com Mailing Address 240 County RoadIpswich, MA 01938-2723 978-927-5054 FAX: 978-921-1350 International Ordering & Support Contact Information for US Sales Inquiries and Support Ready to go Mobile? Download our Android App Ready to go Mobile? Download our iPhone App Stay Informed! Sign-up for NEB updates Request Materials: Catalog & Literature Find Us on Social Media FacebookTwitterYouTubeGooglePlusLinkedInInstagram © Copyright 2016 New England Biolabs. All Rights Reserved Site MapCertificationsBusiness Development OpportunitiesTerms of UseTrademarksTerms of SalePressPrivacy Policy Popular T
Processing Charges · Articles in Press · Author Guidelines · Bibliographic Information · Citations to this Journal · Contact https://www.hindawi.com/journals/mbi/2014/287430/ Information · Editorial Board · Editorial Workflow · Free eTOC Alerts · Publication Ethics · Reviewers Acknowledgment · Submit a Manuscript · Subscription Information · Table of Contents Open Special Issues · Published Special Issues · Special Issue Guidelines Abstract Full-Text PDF Full-Text HTML Full-Text ePUB Full-Text XML Linked References Citations error rate to this Article How to Cite this Article Views 13,721 Citations 20 ePub 31 PDF 2,285 Molecular Biology InternationalVolume 2014 (2014), Article ID 287430, 8 pageshttp://dx.doi.org/10.1155/2014/287430Research ArticleError Rate Comparison during Polymerase Chain Reaction by DNA PolymerasePeter McInerney,1,2 Paul Adams,1,3 and Masood Z. Hadi1,3,41Joint BioEnergy Institute, Emeryville, CA, USA2Sandia National Laboratories, Livermore, CA, USA3Physical Biosciences Division, Lawrence Berkeley polymerase error rate National Laboratories, Berkeley, CA 94720, USA4Synthetic Biology Program, Space BioSciences Division, NASA AMES Research Center, Mail Stop 239-15, Moffett Field, CA 94035, USAReceived 22 May 2014; Accepted 21 July 2014; Published 17 August 2014Academic Editor: Alessandro Desideri Copyright © 2014 Peter McInerney et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.AbstractAs larger-scale cloning projects become more prevalent, there is an increasing need for comparisons among high fidelity DNA polymerases used for PCR amplification. All polymerases marketed for PCR applications are tested for fidelity properties (i.e., error rate determination) by vendors, and numerous literature reports have addressed PCR enzyme fidelity. Nonetheless, it is often difficult to make direct comparisons among different enzymes due to numerous methodological and analytical differences from study to study. We have measured the error rates for 6 DNA polymeras