Probing the limits of genetic recoding in essential genes.
about
Concerning RNA-guided gene drives for the alteration of wild populationsRewriting the blueprint of life by synthetic genomics and genome engineeringRevealing the amino acid composition of proteins within an expanded genetic codeGenomically recoded organisms expand biological functionsExperimental challenges of sense codon reassignment: an innovative approach to genetic code expansionSense codon emancipation for proteome-wide incorporation of noncanonical amino acids: rare isoleucine codon AUA as a target for genetic code expansionXenomicrobiology: a roadmap for genetic code engineeringEvolutionary dynamics of CRISPR gene drivesSite-specific albumination of a therapeutic protein with multi-subunit to prolong activity in vivoqPCRTag Analysis--A High Throughput, Real Time PCR Assay for Sc2.0 GenotypingSelectable Markers for Use in Genetic Manipulation of Extensively Drug-Resistant (XDR) Acinetobacter baumannii HUMC1.Genomes by design.Large-scale de novo DNA synthesis: technologies and applications.Reducing the genetic code induces massive rearrangement of the proteome.On the road to synthetic life: the minimal cell and genome-scale engineering.Liquid-based iterative recombineering method tolerant to counter-selection escapes.Differential requirements of singleplex and multiplex recombineering of large DNA constructs.Discovering functional, non-proteinogenic amino acid containing, peptides using genetic code reprogramming.Transient overexpression of DNA adenine methylase enables efficient and mobile genome engineering with reduced off-target effects.Expanding the amino acid repertoire of ribosomal polypeptide synthesis via the artificial division of codon boxes.Reassignment of a rare sense codon to a non-canonical amino acid in Escherichia coliUS Competitiveness in Synthetic Biology.CRMAGE: CRISPR Optimized MAGE Recombineering.Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids.Codon Bias as a Means to Fine-Tune Gene Expression.Efficient Reassignment of a Frequent Serine Codon in Wild-Type Escherichia coli.Emergent rules for codon choice elucidated by editing rare arginine codons in Escherichia coli.The dawn of evolutionary genome engineering.Biological applications of expanded genetic codes.Synthetic biology approaches to biological containment: pre-emptively tackling potential risks.Bioengineering strategies to generate artificial protein complexes.Synthetic chromosomes.Overcoming Challenges in Engineering the Genetic CodeMinimal genome: Worthwhile or worthless efforts toward being smaller?Incorporation of Non-Canonical Amino Acids.Future of the Genetic Code.Designing logical codon reassignment - Expanding the chemistry in biology.Rewriting the Genetic Code.Genomic Recoding Broadly Obstructs the Propagation of Horizontally Transferred Genetic Elements.Coevolution mechanisms that adapt viruses to genetic code variations implemented in their hosts.
P2860
Q21128771-0BF5C329-EE02-4056-B040-AC846057C845Q27021207-85EBC64E-070A-45A6-BA60-6A8642135DF5Q28251152-97B757F5-7C67-449A-BBD0-D6F90AA95E90Q28300435-F699E4F7-05F4-45A7-8644-D1703565CF58Q28303893-537DDF8F-9749-441E-9F29-F40817609E9CQ28305963-A2B05AB3-D57C-42EF-AD4C-736FB14CA8CDQ28597532-D7FCB1EE-F36B-42FF-BD92-024CD4FF6D23Q29169120-4EBF059C-B58D-42BC-94E8-42031AD68A2FQ30300201-1441F562-1728-49C0-AF0A-2AC6F8D38416Q30355785-5B4A3CF4-8A27-4B5A-BA66-50011225A0EBQ33649288-12E1EA98-BE61-4A57-907A-5B8AA7714407Q33834503-2A3BCD6B-EB9E-468F-AB63-7B677BD82962Q34417984-86B18666-0BD6-4FBC-8048-57873FD63BDCQ34661070-5CB73D5C-6031-4015-AEED-DFFF1696D8E5Q35541257-3F59E8FE-0A43-4978-9BF3-3914624B1121Q35578593-96F1F8F8-ADD2-41ED-B8EA-F19B21FAE04EQ35625131-C73C1300-AD74-491A-BAFD-79C0DA042242Q35747679-402408CF-F388-4423-8E3D-9DFF255D2896Q35819501-76C290A9-E857-437F-89CE-A3D734D7E452Q35965595-FB22E603-D08B-480E-95F1-2C328225E371Q36299179-3C3474BD-B588-4460-80EF-79CE43EF53FAQ36388406-419AA35A-5E5F-4DB2-B23C-1EB3774C9E92Q36500383-8D842FB3-A61E-4C48-974E-6448FEB41D85Q36669000-7DF672EC-C586-45FC-93BC-869E742B3BFFQ36692751-273C2582-3400-43B7-869F-8099F13D66C1Q36728530-E00B20B0-67B0-4E0D-8758-C3D9B7A3E52FQ37281621-84D20930-62DD-4540-9BDE-FC04A6366F60Q38215368-A603AA1E-B5A3-4BF5-BBE8-3A8E4AEB64FDQ38244615-0EB321AB-8A5D-4EEF-ABA1-3F8F8939642DQ38383986-173A9B79-C161-4D77-A5D8-767AED22A195Q38460874-8357E903-D57B-471C-8D4C-6AEE57EA722EQ38537984-E25DC5D5-1912-485D-A184-D1A0030DCA4DQ38582812-25931E0E-9C6B-4888-AADE-1CCDD5656E10Q38584116-2CB4D096-4ED3-4A34-B08F-D592A6B3E238Q38588687-08B3C80E-F608-406A-83AF-D490D16AB1F8Q38750016-35306C23-4CB3-46F0-A275-29E310169F3EQ39065918-1EAA28CF-650B-4E79-BB05-4C10B77392E7Q39428992-1757E2F0-48DC-4507-B3EB-5C3637F0000DQ40646957-1E1AE7A4-40F3-42D7-B3F2-2765DBE6F28CQ40830871-F88F3A54-E54E-43BC-A5D6-7C796A5E365B
P2860
Probing the limits of genetic recoding in essential genes.
description
2013 nî lūn-bûn
@nan
2013 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Probing the limits of genetic recoding in essential genes.
@ast
Probing the limits of genetic recoding in essential genes.
@en
Probing the limits of genetic recoding in essential genes.
@nl
type
label
Probing the limits of genetic recoding in essential genes.
@ast
Probing the limits of genetic recoding in essential genes.
@en
Probing the limits of genetic recoding in essential genes.
@nl
prefLabel
Probing the limits of genetic recoding in essential genes.
@ast
Probing the limits of genetic recoding in essential genes.
@en
Probing the limits of genetic recoding in essential genes.
@nl
P2093
P2860
P356
P1433
P1476
Probing the limits of genetic recoding in essential genes
@en
P2093
P2860
P304
P356
10.1126/SCIENCE.1241460
P407
P577
2013-10-01T00:00:00Z