| Record ID | marc_columbia/Columbia-extract-20221130-006.mrc:139362424:5503 |
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LEADER: 05503fam a2200397 a 4500
001 2617922
005 20221012204937.0
008 981201t20002000njua b 001 0 eng
010 $a 98053251
020 $a0896035417 (alk. paper)
035 $a(OCoLC)40453058
035 $a(OCoLC)ocm40453058
035 $9AQW0528CU
035 $a(NNC)2617922
035 $a2617922
040 $aDLC$cDLC$dDLC$dOrLoB-B
050 00 $aTP248.25.P53$bA68 2000
082 00 $a660/.2842$221
245 00 $aAqueous two-phase systems :$bmethods and protocols /$cedited by Rajni Hatti-Kaul.
260 $aTotowa, N.J. :$bHumana Press,$c[2000], ©2000.
300 $axiii, 440 pages :$billustrations ;$c24 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aMethods in biotechnology ;$v11
504 $aIncludes bibliographical references and index.
505 00 $g1.$tAqueous Two-Phase Systems: A General Overview /$rRajni Hatti-Kaul --$gPt. I.$tPreparation and Characterization of Aqueous Two-Phase Systems.$g2.$tThe Phase Diagram /$rAnita Kaul.$g3.$tPreparation of Aqueous Two-Phase Systems /$rDaniel Forciniti.$g4.$tMeasurement of Some Physical Properties of Aqueous Two-Phase Systems /$rDonald E. Brooks and Raymond Norris-Jones --$gPt. II.$tPartitioning Techniques.$g5.$tSingle-Step Partitioning in Aqueous Two-Phase Systems /$rTelma Teixeira Franco and Rajni Hatti-Kaul.$g6.$tPartition by Countercurrent Distribution (CCD) /$rHans-Erik Akerlund.$g7.$tLiquid-Liquid Partition Chromatography (LLPC) /$rUlla-Britt Hansson and Christer Wingren --$gPt. III.$tPartitioning of Soluble Molecules and Particulates.$g8.$tMetal Ion Separations in Aqueous Biphasic Systems and with ABEC Resins /$rJonathan G. Huddleston, Scott T. Griffin and Jianhua Zhang /$r[et al.].$g9.$tPartition of Amino Acids and Peptides in Aqueous Two-Phase Systems /$rI-Ming Chu and Wen-Yi Chen.
505 80 $g10.$tPredicting Partition Coefficients of Small Solutes Based on Hydrophobicity /$rMark A. Eiteman.$g11.$tEukaryotic Cell Partition: Experimental Considerations /$rJames M. Van Alstine.$g12.$tConcentration and Purification of Viruses /$rLena Hammar.$g13.$tIsolation of Plant Plasma Membranes and Production of Inside-Out Vesicles /$rChrister Larsson and Susanne Widell.$g14.$tIsolation of Inside-Out Thylakoid Vesicles /$rHans-Erik Akerlund.$g15.$tTwo-Phase Partitioning as a Method for Isolation of Tight Plasma Membrane Vesicles from Saccharomyces cerevisiae and from Chlamydomonas reinhardtii /$rBirgitta Norling.$g16.$tPurification of Cyanobacterial Thylakoid, Plasma, and Outer Membranes by Two-Phase Partitioning /$rBirgitta Norling.$g17.$tPurification of Plasma Membranes by Affinity Partitioning /$rBengt Jergil and Lars Ekblad.$g18.$tStudying the Influence of Salts on Partitioning of Proteins: Isoelectric Point Determination /$rDaniel Forciniti.
505 80 $g19.$tPartitioning of Chemically Modified Proteins: A Method for Detection of the Resolution of Aqueous Two-Phase Systems /$rTelma Teixeira Franco.$g20.$tDetection and Analysis of Interactions by Two-Phase Partition /$rLars Backman.$g21.$tCryopartitioning in Two-Phase Systems Containing Organic Solvents /$rGote Johansson --$gPt. IV.$tIsolation and Purification of Proteins by Two-Phase Extraction.$g22.$tOptimization of Extractions in Aqueous Two-Phase Systems /$rUlrich Menge.$g23.$tTwo-Phase Extraction of Proteins from Cell Debris /$rKristina Kohler Van Alstine and Andres Veide.$g24.$tAqueous Two-Phase Extraction of Proteins from Animal Tissue /$rMichael J. Boland.$g25.$tChaotropic Aqueous Two-Phase Systems: Preparation and Uses /$rDaniel Forciniti.$g26.$tTemperature-Induced Phase Partitioning for Protein Purification /$rAnita Kaul, Josefine Persson and Folke Tjerneld.$g27.$tExtraction of Amphiphilic Proteins Using Detergent-Based Aqueous Two-Phase Systems /$rTorsten Minuth.
505 80 $g28.$tUse of Charged PEG and Dextran Derivatives for Biomolecule Partitioning /$rGote Johansson.$g29.$tAffinity Partitioning Using Poly(ethylene glycol) with Covalently Coupled Hydrophobic Groups /$rVithaldas P. Shanbhag and Poul Erik H. Jensen.$g30.$tDye-Ligand Affinity Partitioning of Proteins /$rGerhard Kopperschlager and Jurgen Kirchberger.$g31.$tMetal Affinity Protein Partitioning /$rRoberto Z. Guzman and Javier E. Garcia.$g32.$tRecovery of Proteins and Phase Components /$rGote Johansson.$g33.$tCombination of Extraction with Adsorption for Protein Purification /$rGabriel Raya-Tonetti and Nora I. Perotti.$g34.$tIntegration of Extraction with Affinity Precipitation /$rMasamichi Kamihira, Rajni Hatti-Kaul and Bo Mattiasson.$g35.$tAffinity Partitioning Using Magnetic Two-Phase Systems /$rMasamichi Kamihira.$g36.$tLarge-Scale Extraction of Proteins /$rTeresa Cunha and Raquel Aires-Barros --$gPt. V.$tBioconversions in Two-Phase Systems.
505 80 $g37.$tExtractive Bioconversion in Aqueous Two-Phase Systems /$rRajni Hatti-Kaul.$g38.$tEnzyme Reaction in Polymer-Polymer Organic Solvent Two-Phase Systems /$rBo Mattiasson.
650 0 $aPhase partition.$0http://id.loc.gov/authorities/subjects/sh89002545
650 0 $aSeparation (Technology)$0http://id.loc.gov/authorities/subjects/sh85120087
650 0 $aBiotechnology$xTechnique.$0http://id.loc.gov/authorities/subjects/sh2009117110
700 1 $aHatti-Kaul, Rajni.$0http://id.loc.gov/authorities/names/n98106471
830 0 $aMethods in biotechnology ;$v11.$0http://id.loc.gov/authorities/names/n88538382
852 00 $boff,eng$hTP248.25.P53$iA68 2000