about
Expansion of the genetic code enables design of a novel "gold" class of green fluorescent proteinsRational design of protein stability: effect of (2S,4R)-4-fluoroproline on the stability and folding pathway of ubiquitinProbing the role of tryptophans in Aequorea victoria green fluorescent proteins with an expanded genetic code.Stabilization of bacterially expressed erythropoietin by single site-specific introduction of short branched PEG chains at naturally occurring glycosylation sites.Acceleration of protein folding by four orders of magnitude through a single amino acid substitution.Synthesis of defined ubiquitin dimers.A highly active DNA polymerase with a fluorous core.Small-molecule-dependent regulation of transfer RNA in bacteria.Biosynthesis of a fluorescent protein with extreme pseudo-Stokes shift by introducing a genetically encoded non-natural amino acid outside the fluorophore.Efforts towards the design of 'teflon' proteins: in vivo translation with trifluorinated leucine and methionine analogues.Aminotryptophan-containing barstar: structure--function tradeoff in protein design and engineering with an expanded genetic code.Acceleration of the Rate-Limiting Step of Thioredoxin Folding by Replacement of its Conserved cis-Proline with (4 S)-Fluoroproline.Formation of Ubiquitin Dimers via Azide–Alkyne Click ReactionGeneration of a Mono-ubiquitinated PCNA Mimic by Click ChemistryFunctional analyses of ancestral thioredoxins provide insights into their evolutionary historySynthesis of Erythropoietins Site-Specifically Conjugated with Complex-Type N-Glycans
P50
Q27641115-AC73FEFD-FC9F-4A8C-8FD9-D25652888C18Q30403280-77561437-FC00-402D-ABAB-6AD18C5CB741Q33202101-0919A7A6-93F6-43BF-97E8-2B8ED1C3E272Q38802664-DF488FCD-B375-4C9B-9B44-842229019E89Q40785901-C1F808D2-0709-4020-892F-F13C3EE6D1F7Q42843355-BBDE079C-9B29-4ABF-8616-14E460FEC757Q43193473-FE77E02C-179C-4644-99D2-C23B06759B43Q44230729-CF606EA2-0ACA-4EE4-9B79-229F9CDA9AA5Q50526261-3A54624E-6345-4449-A77E-C7E219E850DEQ51090981-BA685667-92E2-4689-9A66-E7F855B191EBQ51178414-DD74C7D3-B622-4150-B608-3BF4E818C4D9Q54260349-F79C6960-EFC2-4C8C-9E35-219DF18034B8Q58376403-D9A6738C-1C06-42A8-B1BE-D4E67A5B1B02Q58376407-197A6F62-A712-44E0-97CC-3823DE5FC416Q92320860-A04D907F-881C-4CBE-AABA-C3CD2B39769CQ93020711-E596C79F-CA67-47EC-82DB-061C386B2BCA
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
M Rubini
@ast
M Rubini
@en
M Rubini
@es
M Rubini
@nl
type
label
M Rubini
@ast
M Rubini
@en
M Rubini
@es
M Rubini
@nl
prefLabel
M Rubini
@ast
M Rubini
@en
M Rubini
@es
M Rubini
@nl
P108
P106
P1153
7006976225
P31
P496
0000-0002-3102-2558