Protein Engineering Design & Selection
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Oxford University Press
Showing first 25 out of 3,701 results
A thermostable enzyme as an experimental platform to study properties of less stable homologues
H. Lill, T. Hisabori, G. Groth, D. Bald
2004
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Protein Engineering Design & Selection
doi:10.1093/protein/gzh069 pmid:15333775 wikidata:Q51626346
Engineering BmpA as a carrier for surface display of IgG-binding domain on Lactococcus lactis
P. Zadravec, A. Mavric, B. Bogovic Matijasic, B. Strukelj, A. Berlec
2013
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Protein Engineering Design & Selection
doi:10.1093/protein/gzt059 pmid:24336343 wikidata:Q45134396
Phage-displayed peptides selected for binding to Campylobacter jejuni are antimicrobial
S. L. Bishop-Hurley, P. J. Rea, C. S. McSweeney
2010
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Protein Engineering Design & Selection
doi:10.1093/protein/gzq050 pmid:20682764 wikidata:Q33648705
Diversity and censoring of landscape phage libraries
G.A. Kuzmicheva, P.K. Jayanna, I.B. Sorokulova, V.A. Petrenko
2008
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Protein Engineering Design & Selection
doi:10.1093/protein/gzn060 pmcid:PMC2640155 wikidata:Q33383107
Structure- and sequence-based design of synthetic single-domain antibody libraries
Alexander M Sevy, Ming-Tang Chen, Michelle Castor, Tyler Sylvia, Harini Krishnamurthy, Andrii Ishchenko, Chung-Ming Hsieh
2020
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Protein Engineering Design & Selection
doi:10.1093/protein/gzaa028 pmid:33341882
Identification of amino acids involved in protein structural uniqueness: implication for de novo protein design
Yasuhiro Isogai, Motonori Ota, Anna Ishii, Manabu Ishida, Ken Nishikawa
2002
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Protein Engineering Design & Selection
doi:10.1093/protein/15.7.555 pmid:12200537
Differential nuclear localization of complexes may underlie in vivo intrabody efficacy in Huntington's disease
D.C. Butler, A. Snyder-Keller, E. De Genst, A. Messer
2014
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Protein Engineering Design & Selection
doi:10.1093/protein/gzu041 pmcid:PMC4191446 wikidata:Q34313192
The 2000 Olympic Games of protein structure prediction; fully automated programs are being evaluated vis-à-vis human teams in the protein structure prediction experiment CAFASP2
Daniel Fischer, Arne Elofsson, Leszek Rychlewski
2000
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Protein Engineering Design & Selection
doi:10.1093/protein/13.10.667 pmid:11112504 wikidata:Q30327606
Single-chain Fv with manifold N-glycans as bifunctional scaffolds for immunomolecules
M. Wang, L. S. Lee, A. Nepomich, J. D. Yang, C. Conover, M. Whitlow, D. Filpula
1998
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Protein Engineering Design & Selection
doi:10.1093/protein/11.12.1277 pmid:9930678 wikidata:Q38328704
Expression, purification and characterization of the homeodomain of rat ISL-1 protein
G. Behravan, P. O. Lycksell, G. Larsson
1997
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Protein Engineering Design & Selection
doi:10.1093/protein/10.11.1327 pmid:9514122 wikidata:Q28566887
Linking thermodynamics and measurements of protein stability
Kresten Lindorff-Larsen, Kaare Teilum
2021
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Protein Engineering Design & Selection
doi:10.1093/protein/gzab002 pmid:33724431
Computer modelling of the receptor-binding domains of VEGF and PIGF
T. P. Walsh, G. H. Grant
1997
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Protein Engineering Design & Selection
doi:10.1093/protein/10.4.389 pmid:9194163
Development of a novel strategy for engineering high-affinity proteins by yeast display
S.A. Richman, S.J. Healan, K.S. Weber, D.L. Donermeyer, M.L. Dossett, P.D. Greenberg, P.M. Allen, D.M. Kranz
2006
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Protein Engineering Design & Selection
doi:10.1093/protein/gzl008 pmid:16549400 wikidata:Q33237101
Disruption of the X-loop turn of the prion protein linked to scrapie resistance
A. D. Scouras, V. Daggett
2012
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Protein Engineering Design & Selection
doi:10.1093/protein/gzs009 pmcid:PMC3530274 wikidata:Q36488942
Towards conformational fidelity of a quaternary HIV-1 epitope: computational design and directed evolution of a minimal V1V2 antigen
Jennifer I Lai, Deeptak Verma, Chris Bailey-Kellogg, Margaret E Ackerman
2018
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Protein Engineering Design & Selection
doi:10.1093/protein/gzy010 pmcid:PMC6030936 wikidata:Q55518743
Assessing the role of tryptophan residues in the binding site
Uttamkumar Samanta, Pinak Chakrabarti
2001
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Protein Engineering Design & Selection
doi:10.1093/protein/14.1.7 pmid:11287674 wikidata:Q43565421
Use of phage display to probe the evolution of binding specificity and affinity in integrins
Renhao Li, Ronald H. Hoess, Joel S. Bennett, William F. DeGrado
2003
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Protein Engineering Design & Selection
doi:10.1093/proeng/gzg002 pmid:12646694 wikidata:Q30901420
Affinity maturation of human botulinum neurotoxin antibodies by light chain shuffling via yeast mating
J. Lou, I. Geren, C. Garcia-Rodriguez, C. M. Forsyth, W. Wen, K. Knopp, J. Brown, T. Smith, L. A. Smith, J. D. Marks
2010
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Protein Engineering Design & Selection
doi:10.1093/protein/gzq001 pmcid:PMC2841544 wikidata:Q33531378
Cold adaptation of a psychrophilic chitinase: a mutagenesis study
K. Mavromatis, G. Feller, M. Kokkinidis, V. Bouriotis
2003
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Protein Engineering Design & Selection
doi:10.1093/protein/gzg069 pmid:12915727 wikidata:Q51837390
On the rotational operators in protein structure simulations
C. Alvarado, K. Kazerounian
2003
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Protein Engineering Design & Selection
doi:10.1093/protein/gzg092 pmid:14600200 wikidata:Q30336496
Protein Engineering paper cited onto Red Hot Research list
1999 | Protein Engineering Design & Selectiondoi:10.1093/protein/12.1.1
VH/VL interface engineering to promote selective expression and inhibit conformational isomerization of thrombopoietin receptor agonist single-chain diabody
T. Igawa, H. Tsunoda, Y. Kikuchi, M. Yoshida, M. Tanaka, A. Koga, Y. Sekimori, T. Orita, Y. Aso, K. Hattori, M. Tsuchiya
2010
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Protein Engineering Design & Selection
doi:10.1093/protein/gzq034 pmid:20576629 wikidata:Q51773046
Mutations in the substrate entrance region of -glucosidase from Trichoderma reesei improve enzyme activity and thermostability
H.-L. Lee, C.-K. Chang, W.-Y. Jeng, A. H.- J. Wang, P.-H. Liang
2012
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Protein Engineering Design & Selection
doi:10.1093/protein/gzs073 pmid:23077275
Physicochemical feature-based classification of amino acid mutations
B. Shen, J. Bai, M. Vihinen
2007
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Protein Engineering Design & Selection
doi:10.1093/protein/gzm084 pmid:18096555 wikidata:Q30366637
Analysis and prediction of leucine-rich nuclear export signals
Tanja la Cour, Lars Kiemer, Anne Mølgaard, Ramneek Gupta, Karen Skriver, Søren Brunak
2004
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Protein Engineering Design & Selection
doi:10.1093/protein/gzh062 pmid:15314210 wikidata:Q29619228
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