Molecular breeding of polymerases for amplification of ancient DNA - Test2 - elhamkhani - TriplyDB

Molecular breeding of polymerases for amplification of ancient DNA

Molecular breeding of polymerases for amplification of ancient DNA

http://www.wikidata.org/entity/Q28757044

about

sameAs

DNA polymerases as useful reagents for biotechnology - the history of developmental research in the field Ancient genomics Learning from directed evolution: Thermus aquaticus DNA polymerase mutants with translesion synthesis activity 5-Hydroxy-5-methylhydantoin DNA lesion, a molecular trap for DNA glycosylases Detection of DNA sequences refractory to PCR amplification using a biophysical SERRS assay (Surface Enhanced Resonant Raman Spectroscopy)DNA polymerases engineered by directed evolution to incorporate non-standard nucleotides Road blocks on paleogenomes--polymerase extension profiling reveals the frequency of blocking lesions in ancient DNA Microfluidic systems for biosensing New insights in the removal of the hydantoins, oxidation product of pyrimidines, via the base excision and nucleotide incision repair pathways.Microdroplets in microfluidics: an evolving platform for discoveries in chemistry and biology.CyDNA: synthesis and replication of highly Cy-dye substituted DNA by an evolved polymerase.Molecular breeding of polymerases for resistance to environmental inhibitors.SeSaM-Tv-II generates a protein sequence space that is unobtainable by epPCR.Mutant Taq DNA polymerases with improved elongation ability as a useful reagent for genetic engineering.Enzyme-free detection and quantification of double-stranded nucleic acids.Screening mutant libraries of T7 RNA polymerase for candidates with increased acceptance of 2'-modified nucleotides.Directed evolution of DNA polymerases: construction and screening of DNA polymerase mutant libraries.A high-throughput screening method to reengineer DNA polymerases for random mutagenesis.Systematic evaluation of bias in microbial community profiles induced by whole genome amplification.Reconstructing ancient genomes and epigenomes.DNA polymerase from temperate phage Bam35 is endowed with processive polymerization and abasic sites translesion synthesis capacity.In vitro evolution of phi29 DNA polymerase using isothermal compartmentalized self replication technique.Screening through the PLICable promoter toolbox enhances protein production in Escherichia coli.Human evolution: a tale from ancient genomes.Directed polymerase evolution.Click nucleic acid ligation: applications in biology and nanotechnology.Methods for the directed evolution of proteins.A triazole linkage that mimics the DNA phosphodiester group in living systems.A polymerase engineered for bisulfite sequencing.Historical records from dated sediment cores reveal the multidecadal dynamic of the toxic dinoflagellate Alexandrium minutum in the Bay of Brest (France).Evolving a polymerase for hydrophobic base analogues.Exploring the Chemistry of Genetic Information Storage and Propagation through Polymerase Engineering.Compartmentalized self-replication under fast PCR cycling conditions yields Taq DNA polymerase mutants with increased DNA-binding affinity and blood resistance.Synthetic polymers and their potential as genetic materials.Compartmentalized partnered replication for the directed evolution of genetic parts and circuits.Design and Discovery of New Combinations of Mutant DNA Polymerases and Modified DNA Substrates.A simple method to evaluate the biochemical compatibility of oil/surfactant mixtures for experiments in microdroplets.Effects of nutrients and warming onPlanktothrixdynamics and diversity: a palaeolimnological view based on sedimentary DNA and RNA Ancient DNA for the Archaeologist: The Future of African Research

P2860

Q21131089-48A192DB-11EB-41CB-8B93-607B00268428 Q26996712-87C7C109-83D4-46CE-BE4E-2F81270394D6 Q27667194-96F8D480-92B3-445C-B269-548DA5F32EF2 Q27667498-E728D287-A4DC-44BA-B94F-1DF453A10799 Q28649883-E46B634C-5EB5-48A1-B6B4-1FE6826AFFB4 Q28652878-92CD986F-B6B5-4557-9DF0-827360DA1E08 Q28749306-C94CF69E-7A3A-472C-B08B-F48D47E1ECB5 Q30472412-92B5C10F-FCC6-47E1-BFF9-A345A84CBF33 Q31025778-08CDB3E9-36B0-4C65-84F9-13094B69472D Q33613844-080BBF7B-DB50-4E3D-B2DF-AC4177ADFBED Q33773349-46977DDE-4507-4C8F-A4A9-DD7B3A84BE0B Q33812691-855CE033-1E17-44CA-ACA0-F880B98D0F88 Q33931885-D78DF69D-CB5D-4D46-9F40-DA79715AD131 Q34127081-2CB2BB42-AF0E-4387-BADB-3AE7ECFA4DE2 Q34303333-2B11932C-654C-4C49-8848-FF8D9EA69CEF Q34397679-DEDE1BB8-9A26-4F53-885E-ACA24DD4963C Q34803084-802432EF-E73D-463C-A883-9E24F3B082B6 Q35016506-26FA6BB7-F432-4CDE-80D9-E56A85D24223 Q35076736-645407C2-F332-49D9-A8E2-7E30FAA9E606 Q35657312-D729F54F-47BC-4FC2-A2B4-312996CB6117 Q35845934-E7EB81A2-3563-43EB-A405-AA9A892000C3 Q36145694-9F1E01CC-BAC9-4475-8EF0-1CD1C3A766AC Q36165783-C677F11D-63B6-45DB-91BB-10E462FBE66C Q36228947-5686BBDA-35E8-4334-B3FC-E28B67072C79 Q37695439-FE95E3DB-8762-44FC-BDA0-960B90BA07E4 Q37996084-F15D6ACF-620B-4DC7-817F-B7357B0E2EFC Q38521229-5DD59E47-AADC-4DD7-9D0E-791EDB8DFFEE Q38625398-7036C047-2A71-48B1-867C-DA1149E9D2CD Q38843909-7982A0AF-65E1-4278-B89E-1B5D35AA4AC4 Q39780504-2C7AA871-E7BF-4DB2-9A7B-D323051A240F Q42024628-E33458AA-4F1B-426D-B6C5-CD461BE40B38 Q42215235-9AA5BC0C-2C5E-4BF7-B802-784AECC34A57 Q42286052-CB4CD830-45A4-4346-ABDE-C584231F6B1B Q43998243-B532FE87-E384-4706-9805-C6A386AD59FD Q47421780-A697DAAC-34A6-482F-B776-0C7112CC01EC Q48276998-E0898FA9-ABCD-4631-BAA4-D6AF59D5B657 Q48525351-4F521845-BC2E-4D8E-9641-2EB882736C34 Q57963917-AE1B6043-5E6C-49F4-8AD3-370623959809 Q58472102-2583DE5E-3B2B-4D35-AE30-A53E593B3EEC

P2860

Molecular breeding of polymerases for amplification of ancient DNA

http://www.wikidata.org/entity/Q28757044

description

2007 nî lūn-bûn

@nan

2007 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

2007 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

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

name

Molecular breeding of polymerases for amplification of ancient DNA

@ast

Molecular breeding of polymerases for amplification of ancient DNA

@en

Molecular breeding of polymerases for amplification of ancient DNA

@nl

type

label

Molecular breeding of polymerases for amplification of ancient DNA

@ast

Molecular breeding of polymerases for amplification of ancient DNA

@en

Molecular breeding of polymerases for amplification of ancient DNA

@nl

prefLabel

Molecular breeding of polymerases for amplification of ancient DNA

@ast

Molecular breeding of polymerases for amplification of ancient DNA

@en

Molecular breeding of polymerases for amplification of ancient DNA

@nl

P1433

Q28757044-5EB31A9F-E2EF-4BCA-BE8C-132AC55FB004

P1476

Q28757044-3B42C22E-515B-41C0-B572-CE5149FCC18F

P2093

Q28757044-0DD8131E-2C45-42D5-BB91-89DBA4BFADCF

Q28757044-4B02054A-3BC9-48DE-A859-EE6B00EFE74A

Q28757044-AADBE164-C84E-408A-A9B9-E51A99613BE5

Q28757044-AE271B25-FACB-4D7B-B327-60D937CFEA49

Q28757044-BFC1E399-CEC5-4172-949B-201982B50CBC

Q28757044-C353E0C4-3D13-4A30-A6A9-FCC9E518E384

P2860

Q28757044-02C9C73F-CD96-4964-A3BA-EE78C7E5C798

Q28757044-044A885C-95B9-48AB-89B8-B47C1B9FC873

Q28757044-0CB3CA0F-CE75-4FBC-A656-AEABF53DE604

Q28757044-0EC3C2DF-7C33-40A3-B6ED-E558EFCE734E

Q28757044-2545574A-1149-46A4-87E9-E17E61F92D76

Q28757044-3909EB20-2624-45C0-9EE3-156CD91C958B

Q28757044-39EC5368-072A-4579-87E1-23D8A441180B

Q28757044-4A506272-8B1A-4025-BA0C-A4325B1998C3

Q28757044-4E5B8798-EE45-4CBD-A9A1-93B9D7D48E0E

Q28757044-5998D52A-A945-47A7-9863-2571A3457C49

P2888

Q28757044-1742F6C6-8DDB-4934-ADA1-2D2071B526D3

P304

Q28757044-8D5348C9-DA3B-42B4-9B4C-702E5803BC12

P31

Q28757044-CC07F530-9F39-4A73-9E74-9C2A03CED69D

P356

Q28757044-3469415E-FEB0-44FD-8F32-526CA4A74F17

P407

Q28757044-A2CEACB4-A293-48A8-A8CB-87CE7E86F9F1

P433

Q28757044-1B3DECC9-F652-4A95-BEE6-859D990B076A

P478

Q28757044-EEC865F1-B59B-4664-A72F-E7D528141A2D

P50

Q28757044-5B48ECF1-E4DE-4583-BEF5-994B3A4B452C

Q28757044-64C6B3BD-04C5-4046-8918-58257BD1B212

Q28757044-BB3B0551-9B3E-4FC3-BE4A-A9216F0B76FC

P577

Q28757044-62A803F4-B42E-49AC-A551-BDA71E5678A5

P5875

Q28757044-BD4B3578-7D1A-4B43-A0BE-128D6F2A0B09

P698

Q28757044-D6FA3150-5CBC-401C-94CA-704E5468796B

P921

Q28757044-0836D7C8-9E95-4924-8DA2-8F31FE2411C7

Q28757044-7DEFFB94-47B8-4A9B-BF1D-C019723D0516

Q28757044-BF06B029-4D9E-436D-9012-DF7B555301A7

P932

Q28757044-915DA52C-F393-4B95-8210-9AB15AED2861

P356

P1433

Nature Biotechnology

P1476

Molecular breeding of polymerases for amplification of ancient DNA

@en

P2093

David Loakes

http://www.w3.org/2001/XMLSchema#string

Didier Gasparutto

http://www.w3.org/2001/XMLSchema#string

Jean Cadet

http://www.w3.org/2001/XMLSchema#string

Marc d'Abbadie

http://www.w3.org/2001/XMLSchema#string

Philipp Holliger

http://www.w3.org/2001/XMLSchema#string

Roger Woodgate

http://www.w3.org/2001/XMLSchema#string

P2860

Altered nucleotide misinsertion fidelity associated with poliota-dependent replication at the end of a DNA template.

Protein stability promotes evolvability

Novel thermostable Y-family polymerases: applications for the PCR amplification of damaged or ancient DNAs

Ancient DNA evidence for Old World origin of New World dogs

Error rate and specificity of human and murine DNA polymerase eta

Rate of depurination of native deoxyribonucleic acid

Neandertal DNA sequences and the origin of modern humans

DNA shuffling of a family of genes from diverse species accelerates directed evolution

Analysis of one million base pairs of Neanderthal DNA

DNA damage and DNA sequence retrieval from ancient tissues

P2888

P304

939-43

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NBT1321

http://www.w3.org/2001/XMLSchema#string

P407

P433

8

http://www.w3.org/2001/XMLSchema#string

P478

25

http://www.w3.org/2001/XMLSchema#string

P50

Michael Hofreiter

Alexandra Vaisman

P577

2007-08-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6204927

http://www.w3.org/2001/XMLSchema#string

P698

17632524

http://www.w3.org/2001/XMLSchema#string

P921

P932

1978225

http://www.w3.org/2001/XMLSchema#string