Kinetic control of one-pot trans-splicing reactions by using a wild-type and designed split intein
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Nature's recipe for splitting inteinsNMR and Crystal Structures of the Pyrococcus horikoshii RadA Intein Guide a Strategy for Engineering a Highly Efficient and Promiscuous InteinStructure-based engineering and comparison of novel split inteins for protein ligationStructural and dynamical features of inteins and implications on protein splicing.Recent progress in intein research: from mechanism to directed evolution and applications.Naturally split inteins assemble through a "capture and collapse" mechanismCircular permutation prediction reveals a viable backbone disconnection for split proteins: an approach in identifying a new functional split intein.Development of an intein-mediated split-Cas9 system for gene therapyIntramolecular disulfide bond between catalytic cysteines in an intein precursor.In-cell fluorescence activation and labeling of proteins mediated by FRET-quenched split inteinsSegmental isotopic labeling of a 140 kDa dimeric multi-domain protein CheA from Escherichia coli by expressed protein ligation and protein trans-splicing.Ultrafast protein splicing is common among cyanobacterial split inteins: implications for protein engineering.Streamlined expressed protein ligation using split inteins.Photocrosslinking approaches to interactome mapping.Extein residues play an intimate role in the rate-limiting step of protein trans-splicing.Split Inteins: Nature's Protein Ligases.Oriented covalent immobilization of antibodies for measurement of intermolecular binding forces between zipper-like contact surfaces of split inteins.Expression of fluorescent cyclotides using protein trans-splicing for easy monitoring of cyclotide-protein interactions.Mutual synergistic protein folding in split intein.Inteins: Nature's Gift to Protein Chemists.Simultaneous assembly of two target proteins using split inteins for live cell imaging.'Traceless' tracing of proteins - high-affinity trans-splicing directed by a minimal interaction pair.In vitro incorporation of a cell-binding protein to a lentiviral vector using an engineered split intein enables targeted delivery of genetic cargo.Unprecedented rates and efficiencies revealed for new natural split inteins from metagenomic sources.Engineering split intein DnaE from Nostoc punctiforme for rapid protein purification.A molecular engineering toolbox for the structural biologist.Click-tag and amine-tag: chemical tag approaches for efficient protein labeling in vitro and on live cells using the naturally split Npu DnaE intein.Postsynthetic Domain Assembly with NpuDnaE and SspDnaB Split Inteins.Peptide Arrays on Planar Supports.Mycobacterial DnaB helicase intein as oxidative stress sensor
P2860
Q26830327-EC0D7DC5-1603-44EE-9201-759BACDAAC0AQ27678916-8EE9CBAD-BB93-4E04-8DBB-357464AD3DF0Q27689357-C3311280-F778-4FE2-A01F-9AF5C486F9B0Q30360932-5B7469AE-1136-4849-A52D-5C77F8B3F77FQ34296283-F0E29B68-7B2F-4E56-8570-0CDB93FF8FBAQ34385356-3515390F-B5F0-4FFA-A113-2C1C5FDD9E59Q34399439-08D5CA85-BB98-41A6-A971-2EED3E4449E5Q34481059-FEAC7D3E-6CC3-4013-BA86-F3DECEAC1C7BQ35757065-4A779333-05A6-4D29-8D60-D7DF1EDBACAAQ35884225-A73B8EEC-222F-40EA-A92B-40BBABD2B1C3Q36117328-613A9670-CE02-4173-A24C-CAAC42E276F3Q36502962-4487D559-428F-45C7-ADE0-64A2C4E618F5Q36530093-5380D2CD-0A1D-4BE5-B2A4-47E9D422492AQ36675377-28056208-54A8-489C-BFDD-A9290B674D24Q36779108-9C2D2FB8-F9D8-4FD0-B96A-067BF4804FCEQ36787669-BD617B9C-3C08-4BCF-8E68-3B8183827F6BQ37139900-86C6E037-C621-43F8-9952-A655FD65D722Q37157185-FCF78CCE-8B86-4A16-8919-D0E5AF287385Q37246459-C2498571-A493-47EF-98D8-B5D63DD3AF48Q37630472-57E960C0-EB10-4B77-AB9B-1B043B3785F3Q39229907-E317FE6F-F98B-4D86-B82E-F071DDAD4BA7Q41092167-375A25E8-A5A7-42CA-856B-D12E72BD06B5Q41643722-1BFF46DF-93C8-4436-984A-5684A9390079Q42245329-FFB5B302-61D6-405C-B432-819536A47859Q44081000-B3EF7B20-2963-49B0-9A7A-35D6CACA28CFQ47256792-D5284801-1D50-432A-AA75-98836A1F3AF2Q51749261-C271A5C3-4B52-4409-8637-90B4A4ADC3AFQ51803027-5F56917C-77F8-443D-8BF0-F3C13B2DEA3DQ52861233-8054BF8D-2D04-4E4B-B7ED-8E59C48A66F7Q57752805-C6FEB869-FE17-4431-AC70-48EDEF6FB57C
P2860
Kinetic control of one-pot trans-splicing reactions by using a wild-type and designed split intein
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Kinetic control of one-pot tra ...... type and designed split intein
@ast
Kinetic control of one-pot tra ...... type and designed split intein
@en
type
label
Kinetic control of one-pot tra ...... type and designed split intein
@ast
Kinetic control of one-pot tra ...... type and designed split intein
@en
prefLabel
Kinetic control of one-pot tra ...... type and designed split intein
@ast
Kinetic control of one-pot tra ...... type and designed split intein
@en
P2093
P2860
P356
P1476
Kinetic control of one-pot tra ...... type and designed split intein
@en
P2093
Miquel Vila-Perelló
Neel H Shah
Tom W Muir
P2860
P304
P356
10.1002/ANIE.201102909
P407
P577
2011-06-08T00:00:00Z