Mapping protease substrates by using a biotinylated phage substrate library.
about
Substrate profiling of tobacco etch virus protease using a novel fluorescence-assisted whole-cell assayPhage display--a powerful technique for immunotherapy: 2. Vaccine deliveryDetection of viruses by counting single fluorescent genetically biotinylated reporter immunophage using a lateral flow assayUltrasensitive immuno-detection using viral nanoparticles with modular assembly using genetically-directed biotinylationAptamer-Phage Reporters for Ultrasensitive Lateral Flow AssaysA highly scalable peptide-based assay system for proteomicsThe role of Tyr605 and Ala607 of thimet oligopeptidase and Tyr606 and Gly608 of neurolysin in substrate hydrolysis and inhibitor bindingFactor Xa subsite mapping by proteome-derived peptide libraries improved using WebPICS, a resource for proteomic identification of cleavage sites.Emerging principles in protease-based drug discovery.Detection of biomarkers using recombinant antibodies coupled to nanostructured platformsIntra-domain phage display (ID-PhD) of peptides and protein mini-domains censored from canonical pIII phage displayEP24.15 as a Potential Regulator of Kisspeptin Within the Neuroendocrine Hypothalamus.Site directed biotinylation of filamentous phage structural proteinsTranslocation Pathway-Dependent Assembly of Streptavidin- and Antibody-Binding Filamentous Virus-Like Particles.Functionalized viral nanoparticles as ultrasensitive reporters in lateral-flow assays.Phage-assisted continuous evolution of proteases with altered substrate specificity.Recombinant Allergens Production in Yeast.
P2860
Q21562118-BEE2EABB-4632-4D65-9D76-CF1A50151C09Q26865013-B5AAB6EB-4864-45FF-8134-B3CC1BC1788BQ28388142-BCF667BD-0C9F-4294-B66A-9B042AE4B3CCQ28392005-2343B714-AC58-4BC6-AFB5-52777286F780Q28395332-1D8646B7-A85F-4FE2-8C5D-3CCCBEB8974EQ28728598-E0A3E9A4-F012-470D-8782-837BCA0E6F2BQ33274869-52D3DF2A-5B07-4C4E-8BC5-265AEE62A477Q33993989-D60FC525-A669-406F-952A-4F2FE8ADCB74Q34282102-24B5A583-04C6-4A76-9D6C-5859148D67EFQ34352221-A0D681BE-C271-4F0C-B233-E98E70AB94D2Q35545646-C04F5239-E70D-44B9-B229-E81F9C49D798Q36521152-DF2D09F9-D49D-4B96-A85A-D8CDFA11D0C2Q40329257-1EE19599-1A93-437D-AFF7-0A62BB200458Q40529713-64801B5E-F87C-4513-AA2D-576D168F9F9CQ42279884-DE1CB9E7-B976-4B51-A2A6-7CCCF1C5796DQ42378984-92BD3DA1-10E8-44AB-83B8-5107D5D4AE36Q51094885-840446C5-C256-40DA-928B-ACC0CEDDA6E3
P2860
Mapping protease substrates by using a biotinylated phage substrate library.
description
2006 nî lūn-bûn
@nan
2006 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Mapping protease substrates by using a biotinylated phage substrate library.
@ast
Mapping protease substrates by using a biotinylated phage substrate library.
@en
type
label
Mapping protease substrates by using a biotinylated phage substrate library.
@ast
Mapping protease substrates by using a biotinylated phage substrate library.
@en
prefLabel
Mapping protease substrates by using a biotinylated phage substrate library.
@ast
Mapping protease substrates by using a biotinylated phage substrate library.
@en
P2093
P2860
P356
P1433
P1476
Mapping protease substrates by using a biotinylated phage substrate library.
@en
P2093
Amanda Pabon
Brian K Kay
Kamakshi Sishtla
Marc J Glucksman
Michael D Scholle
Ushma Kriplani
P2860
P304
P356
10.1002/CBIC.200500427
P577
2006-05-01T00:00:00Z