It looks like you're offline.
Donate
English (en) Change Website Language
Open Library logo
additional options menu
Directed enzyme evolution /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-009.mrc:121073651:5293
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-009.mrc:121073651:5293?format=raw

LEADER: 05293cam a2200397Ia 4500
001 4084723
005 20221027032530.0
008 030610t20032003nju 000 0 eng d
020 $a158829286X (alk. paper)
035 $a(OCoLC)ocm52400248
035 $a(NNC)4084723
035 $a4084723
040 $aWJ7$cWJ7$dOrLoB-B
090 $aQH442$b.D597 2003
245 00 $aDirected enzyme evolution :$bscreening and selection methods /$cedited by Frances H. Arnold and George Georgiou.
260 $aTotowa, N.J. :$bHumana Press,$c[2003], ©2003.
300 $axv, 383 pages :$billustrations (some color) ;$c24 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aMethods in molecular biology ;$v230
504 $aIncludes bibliographic references and index.
505 00 $g1.$tGenetic Complementation Protocols /$rJessica L. Sneeden and Lawrence A. Loeb -- $g2.$tUse of Pol I-Deficient E. coli for Functional Complementation of DNA Polymerase /$rManel Camps and Lawrence A. Loeb -- $g3.$tSelection of Novel Eukaryotic DNA Polymerases by Mutagenesis and Genetic Complementation of Yeast /$rRanga N. Venkatesan and Lawrence A. Loeb -- $g4.$tAutogene Selections /$rJijumon Chelliserrykattil and Andrew D. Ellington -- $g5.$tSelection for Soluble Proteins via Fusion with Chloramphenicol Acetyltransferase /$rVolker Sieber -- $g6.$tProside: A Phage-Based Method for Selecting Thermostable Proteins /$rAndreas Martin, Franz X. Schmid and Volker Sieber -- $g7.$tMinimization of Proteins by Random Fragmentation and Selection /$rGary W. Rudgers and Timothy Palzkill -- $g8.$tEvaluating a Screen and Analysis of Mutant Libraries /$rOriana Salazar and Lianhong Sun -- $g9.$tScreening Mutant Libraries in Saccharomyces cerevisiae /$rThomas Bulter, Volker Sieber and Miguel Alcalde --
505 80 $g10.$tSolid-Phase Screening Using Digital Image Analysis /$rAlexander V. Tobias and John M. Joern -- $g11.$tScreening for Thermostability /$rPatrick C. Cirino and Radu Georgescu -- $g12.$tHigh-Throughput Screening of Mutant [alpha]-Amylase Libraries for Increased Activity at 129[degrees]C /$rHolger Berk and Robert J. Lebbink -- $g13.$tHigh-Throughput Carbon Monoxide Binding Assay for Cytochromes P450 /$rChristopher R. Otey -- $g14.$tHigh-Throughput Screen for Aromatic Hydroxylation /$rChristopher R. Otey and John M. Joern -- $g15.$tColorimetric Screen for Aliphatic Hydroxylation by Cytochrome P450 Using p-Nitrophenyl-Substituted Alkanes /$rEdgardo T. Farinas -- $g16.$tHigh-Throughput Screens Based on NAD(P)H Depletion /$rAnton Glieder and Peter Meinhold -- $g17.$tHigh-Throughput Tetramethylbenzidine (TMB) Screen for Peroxidases /$rRadu Georgescu -- $g18.$tScreen for Oxidases by Detection of Hydrogen Peroxide with Horseradish Peroxidase /$rLianhong Sun and Makoto Yagasaki --
505 80 $g19.$tColorimetric Dehydrogenase Screen Based on NAD(P)H Generation /$rKimberly M. Mayer -- $g20.$tColorimetric Assays for Screening Laccases /$rMiguel Alcalde and Thomas Bulter -- $g21.$tpH Sensing Agar Plate Assays for Esterolytic Enzyme Activity /$rKarl E. Griswold -- $g22.$tA pH-Indicator-Based Screen for Hydrolytic Haloalkane Dehalogenase /$rHulmin Zhao -- $g23.$tDetection of Aromatic [alpha]-Hydroxyketones with Tetrazolium Salts /$rMichael Breuer and Bernhard Hauer -- $g24.$tSelection of Heat-Stable Clostridium cellulovorans Cellulases After In Vitro Recombination /$rKoichiro Murashima and Roy H. Doi -- $g25.$tScreening and Selection Strategies for Disulfide Isomerase Activity /$rRonald Lafond, Xiaoming Zhan and George Georgiou -- $g26.$tAn Overview of High-Throughput Screening Systems for Enantioselective Enzymatic Transformations /$rManfred T. Reetz -- $g27.$tSelect Protocols of High-Throughput ee-Screening Systems for Assaying Enantioselective Enzymes /$rManfred T. Reetz --
505 80 $g28.$tDirected Evolution of the Substrate Specificities of a Site-Specific Recombinase and an Aminoacyl-tRNA Synthetase Using Fluorescence-Activated Cell Sorting (FACS) /$rStephen W. Santoro and Peter G. Schultz -- $g29.$tCalmodulin-Tagged Phage and Two-Filter Sandwich Assays for the Identification of Enzymatic Activities /$rChristian Heinis, Julian Bertschinger and Dario Neri -- $g30.$tHigh-Throughput FACS Method for Directed Evolution of Substrate Specificity /$rMark J. Olsen, Jongsik Gam, Brent L. Iverson and George Georgiou -- $g31.$tImproving Protein Folding Efficiency by Directed Evolution Using the GFP Folding Reporter /$rGeoffrey S. Waldo.
650 0 $aMolecular evolution$vLaboratory manuals.
650 0 $aGene libraries$vLaboratory manuals.
650 0 $aProtein engineering$vLaboratory manuals.
650 0 $aGenetic engineering$vLaboratory manuals.
650 2 $aDirected Molecular Evolution$xmethods.$0https://id.nlm.nih.gov/mesh/D019020Q000379
650 2 $aGene Library.$0https://id.nlm.nih.gov/mesh/D015723
650 2 $aProtein Engineering$xmethods.$0https://id.nlm.nih.gov/mesh/D015202Q000379
700 1 $aArnold, Frances Hamilton.$0http://id.loc.gov/authorities/names/n88666692
700 1 $aGeorgiou, George.$0http://id.loc.gov/authorities/names/n91056661
830 0 $aMethods in molecular biology (Clifton, N.J.) ;$vv. 230.$0http://id.loc.gov/authorities/names/n92002874
852 00 $boff,hsl$hQH506$i.M56 v.230