Expanding the scope of site-specific recombinases for genetic and metabolic engineering
about
Genome-editing Technologies for Gene and Cell TherapyGene stacking by recombinasesGenetic and genomic tools for the marine annelid Platynereis dumeriliiDigital and analog gene circuits for biotechnology.Synthetic zinc finger proteins: the advent of targeted gene regulation and genome modification technologies.Improving microbial biogasoline production in Escherichia coli using tolerance engineering.Improved cell-penetrating zinc-finger nuclease proteins for precision genome engineeringVersatile genetic paintbrushes: Brainbow technologies.Creating cancer translocations in human cells using Cas9 DSBs and nCas9 paired nicks.Redesigning Recombinase Specificity for Safe Harbor Sites in the Human GenomeGenome engineering: Drosophila melanogaster and beyondA Tet-on and Cre-loxP Based Genetic Engineering System for Convenient Recycling of Selection Markers in Penicillium oxalicum.Cancer-specific binary expression system activated in mice by bacteriophage HK022 Integrase.A programmable Cas9-serine recombinase fusion protein that operates on DNA sequences in mammalian cellsThe Development of TALE Nucleases for Biotechnology.Expanding the zinc-finger recombinase repertoire: directed evolution and mutational analysis of serine recombinase specificity determinants.Enhancing the specificity of recombinase-mediated genome engineering through dimer interface redesign.Clinical-scale purification of pluripotent stem cell derivatives for cell-based therapies.A comprehensive overview of computational resources to aid in precision genome editing with engineered nucleases.Genome editing: the breakthrough technology for inherited retinal disease?Recombinase-Mediated Cassette Exchange Using Adenoviral Vectors.Target-specific variants of Flp recombinase mediate genome engineering reactions in mammalian cells.Actinophage R4 integrase-based site-specific chromosomal integration of non-replicative closed circular DNA.Crystal structure of an engineered, HIV-specific recombinase for removal of integrated proviral DNA.A photoactivatable Cre-loxP recombination system for optogenetic genome engineering.Shifting the balance of fermentation products between hydrogen and volatile fatty acids: microbial community structure and function.Anti-cancer binary system activated by bacteriophage HK022 integrase.Engineering altered protein-DNA recognition specificity.
P2860
Q26769662-B2E9EC63-EB6C-4AC2-8882-68CD86E3A3B7Q26786485-EE1E08D9-0A61-466D-BB90-D4DD6E5CD596Q27024130-77F40C2F-BC99-42E4-99DF-52E7C5C992BEQ33828854-DF92107D-8526-47C0-8923-7A816F144864Q34070213-5B341521-601B-4971-B389-0C3D37A87FE9Q34461893-4404CAA5-474D-4CC4-AB45-E542A7FDDE36Q35161372-0BDFA72D-CDE1-4A8A-8C22-D5A16436BAFCQ35262459-0B1D8C50-963E-40BE-B6C2-44F82519760BQ35430903-9A682E8F-1B88-4166-B781-6AC359E632DCQ35790419-5291F7EB-E182-47F9-B1FF-831598F84461Q36600188-EA94F571-11F7-4C30-B2F2-F985651639FAQ36789161-BD918E18-103A-4831-A463-B53881974516Q36841477-783CC873-0224-4AD9-8EB3-5575A1951BD5Q37522969-F31C785E-6012-43AF-97FB-4C39FB4DA073Q37652116-BBE9A660-32F6-4363-9016-B6572D69C152Q37701251-295E2605-B7A5-4623-928F-246EDF4BFCE1Q37701711-80057F08-3CA7-417F-9257-2F315AD6C1E8Q38410411-6EE15387-1B88-4883-A264-9BFEBDEE7010Q38884774-404D3CD6-F5A2-43E7-AEE9-A6F507CA7B57Q39427852-2D3EC02E-715F-4D9D-AC93-1D891F477CC3Q40080426-3DFA81EB-AD79-41D4-9EB5-72F2794DE334Q40833258-65D0C196-B371-450E-BF5A-845E53F38EEBQ40913881-5F17E06D-A853-4C02-81D1-FCA6B73F38E5Q41932718-11A05A5C-FCAA-462E-9F43-5657E9ED76D9Q51127806-E45ADD5A-74F0-4B8D-9D7E-8BD2CB8D7892Q51162651-61169385-902A-4B8B-A84D-4510A3A3DBBFQ55261099-742EE9BA-8039-4445-89A2-DC1ADAF5516BQ55359800-6E0B3D87-F31C-47D3-A7D3-6876F23F6C15
P2860
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@ast
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@en
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@nl
type
label
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@ast
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@en
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@nl
prefLabel
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@ast
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@en
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@nl
P2093
P2860
P3181
P356
P1476
Expanding the scope of site-specific recombinases for genetic and metabolic engineering
@en
P2093
Carlos F. Barbas
Shannon J. Sirk
Thomas Gaj
P2860
P3181
P356
10.1002/BIT.25096
P407
P577
2014-01-01T00:00:00Z