|
Volumn 25, Issue 10, 2012, Pages 625-630
|
An enhanced approach for engineering thermally stable proteins using yeast display
|
Author keywords
protein engineering; thermal stability; yeast surface display
|
Indexed keywords
BIOTECHNOLOGY APPLICATIONS;
FITNESS LANDSCAPE;
GREEN FLUORESCENT PROTEIN;
PROTEIN ENGINEERING;
PROTEIN STABILITY;
SURFACE DISPLAYS;
THERMAL DENATURATIONS;
THERMALLY STABLE;
VALIDATED METHODS;
YEAST DISPLAY;
GENETIC ENGINEERING;
THERMODYNAMIC STABILITY;
YEAST;
PROTEINS;
ENHANCED GREEN FLUORESCENT PROTEIN;
FUNGAL PROTEIN;
ARTICLE;
CLONE;
ENRICHMENT CULTURE;
FUNGAL VIABILITY;
HEAT TOLERANCE;
MOLECULAR CLONING;
NONHUMAN;
POLYMERASE CHAIN REACTION;
PRIORITY JOURNAL;
PROTEIN DENATURATION;
PROTEIN ENGINEERING;
PROTEIN PURIFICATION;
PROTEIN SECRETION;
PROTEIN STABILITY;
THERMOSTABILITY;
YEAST;
YEAST DISPLAY;
AMINO ACID SEQUENCE;
GREEN FLUORESCENT PROTEINS;
MODELS, MOLECULAR;
MOLECULAR SEQUENCE DATA;
MUTAGENESIS, INSERTIONAL;
PROTEIN DENATURATION;
PROTEIN ENGINEERING;
PROTEIN STABILITY;
SACCHAROMYCES CEREVISIAE;
TEMPERATURE;
|
EID: 84866985849
PISSN: 17410126
EISSN: 17410134
Source Type: Journal
DOI: 10.1093/protein/gzs041 Document Type: Article |
Times cited : (12)
|
References (19)
|