A novel compound, 12,13,17-trihydroxy-9(Z)-Octadecenoic acid, from linoleic acid by a new microbial isolateClavibacter sp. ALA2 Ching T. Hou OriginalPaper Pages: 1359 - 1362
Biocatalytic synthesis of some chiral pharmaceutical intermediates by lipases Ramesh N. PatelAmit BanerjeeLaszlo J. Szarka OriginalPaper Pages: 1363 - 1375
Application of immobilized lipase in production of camptosar (CPT-11) John C. Sih OriginalPaper Pages: 1377 - 1378
Enzymatic synthesis of geranyl acetate by transesterification with acetic anhydride as acyl donor Lisa N. YeeCasimir C. Akoh OriginalPaper Pages: 1379 - 1384
Lipase-catalyzed synthesis of lesquerolic acid wax and diol esters and their properties Douglas G. HayesRobert Kleiman OriginalPaper Pages: 1385 - 1392
Combined nonenzymatic-enzymatic method for the synthesis of simple alkyl fatty acid esters from soapstock Michael J. HaasKaren M. Scott OriginalPaper Pages: 1393 - 1401
Lipase-catalyzed enrichment of long-chain polyunsaturated fatty acids Gerald P. McNeillRobert G. AckmanStephen R. Moore OriginalPaper Pages: 1403 - 1407
Production of triglycerides enriched in long-chain n-3 polyunsaturated fatty acids from fish oil Stephen R. MooreGerald P. McNeill OriginalPaper Pages: 1409 - 1414
Production of structured lipids containing essential fatty acids by immobilizedRhizopus delemar lipase Yuji ShimadaAkio SugiharaYoshio Tominaga OriginalPaper Pages: 1415 - 1420
Production of docosahexaenoic and docosapentaenoic acids bySchizochytrium sp. isolated from Yap Islands T. NakaharaT. YokochiD. Honda OriginalPaper Pages: 1421 - 1426
Solvent polarity influences product selectivity of lipase-mediated esterification reactions in microaqueous media S. -J. KuoK. L. Parkin OriginalPaper Pages: 1427 - 1433
Design and action of steroidal aromatase inhibitors Shengrong LiEdward J. Parish OriginalPaper Pages: 1435 - 1451
Chemoenzymatic epoxidation of unsaturated fatty acid esters and plant oils M. Rüsch gen KlaasS. Warwel Biocatalysis Articles Pages: 1453 - 1457
Biocatalytical synthesis and monolayer studies of multiple hydroxylated wax esters Wolfram LokotschSiegmund LangFritz Wagner Biocatalysis Articles Pages: 1459 - 1464
Biotransformation of saturated monohydroxyl fatty acids to 2-tetrahydrofuranyl acetic acid derivatives: Mechanism of formations and the biological activity of 5-n-hexyl-tetrahydrofuran-2-acetic acid J. -K. HuangP. F. DowdR. A. Norton Biocatalysis Articles Pages: 1465 - 1469
Measurement of lipase activity in rubber (Hevea brasiliensis) seed O. U. NjokuI. C. OnonogbuF. U. Eneh Biocatalysis Articles Pages: 1471 - 1473
Sugar ester-modified lipase for the esterification of fatty acids and long-chain alcohols Sobhi BasheerMitsutoshi NakajimaUri Cogan Biocatalysis Articles Pages: 1475 - 1479
Application of lipases to the regioselective synthesis of sucrose fatty acid monoesters Douglas B. SarneyMark J. BarnardEvgeny N. Vulfson Biocatalysis Articles Pages: 1481 - 1487
Glyceride synthesis in a solvent-free system Anna Millqvist FurebyPatrick AdlercreutzBo Mattiasson Biocatalysis Articles Pages: 1489 - 1495
Diesel fuel as a solvent for the lipase-catalyzed alcoholysis of triglycerides and phosphatidylcholine Michael J. HaasKaren M. Scott Biocatalysis Articles Pages: 1497 - 1504
Selection of surfactant-modified lipases for interesterification of triglyceride and fatty acid Ken-ichi MogiMitsutoshi Nakajima Biocatalysis Articles Pages: 1505 - 1512
Enzymatic esterification of glycerol III. Lipase-catalyzed synthesis of regioisomerically pure 1,3-sn-diacylglycerols and 1 (3)-rac-monoacylglycerols derived from unsaturated fatty acids Claudia WaldingerManfred Schneider Biocatalysis Articles Pages: 1513 - 1519
Synthesis of medium-chain glycerides by lipase in organic solvent Dae Young KwonHyo Nam SongSuk Hoo Yoon Biocatalysis Articles Pages: 1521 - 1525
Esterification and interesterification reactions catalyzed by acetone powder from germinating rapeseed I. JachmaniánK. D. Mukherjee Biocatalysis Articles Pages: 1527 - 1532
Oil bodies of transgenicBrassica napus as a source of immobilized β-glucuronidase Blanka KühnelLarry A. HolbrookGijs J. H. van Rooijen Article Pages: 1533 - 1538
Distribution of Δ5-olefinic acids in the triacylglycerols fromPinus koraiensis andPinus pinaster seed oils Joseph GrestiCorinne MignerotRobert L. Wolff Article Pages: 1539 - 1547
Fuel properties and emissions of soybean oil esters as diesel fuel David Y. Z. ChangJon H. Van GerpenStephen J. Marley Article Pages: 1549 - 1555
Turbidimetric measurement of haze in canola oil by acetone precipitation Hua LiuRoman PrzybylskiN. A. Michael Eskin Article Pages: 1557 - 1560
Separation and analysis of phospholipids in different foods with a light-scattering detector Maria Fiorenza CaboniSimonetta MenottaGiovanni Lercker Article Pages: 1561 - 1566
Synchrotron radiation X-ray diffraction study on phase behavior of PPP-POP binary mixtures A. MinatoS. UenoK. Sato Article Pages: 1567 - 1572
Supercritical fluid extraction of sunflower seed oil with CO2-ethanol mixtures María José CoceroLourdes Calvo Article Pages: 1573 - 1578
Fractionation of oligomeric triacylglycerides and the relation to rejection limits for used frying oils M. Tasioula-MargariG. Márquez-RuízM. C. Dobarganes Article Pages: 1579 - 1584
Antioxidant properties of phenolic compounds in macadamia nuts L. A. QuinnH. H. Tang Article Pages: 1585 - 1588
Antioxidant activity of tocopherols and phenolic compounds of virgin olive oil M. BaldioliM. ServiliG. F. Montedoro Article Pages: 1589 - 1593
Fatty acid composition of French infant formulas with emphasis on the content and detailed profile oftrans fatty acids Jean-Michel ChardignyRobert L. WolffW. M. N. Ratnayake Article Pages: 1595 - 1601
Direct measurement of thermal fat crystal properties for milk-fat fractionation Birgit BreitschuhErich J. Windhab Article Pages: 1603 - 1610
Conifer seed oils: Distribution of Δ5 acids between α and β chains by13C nuclear magnetic resonance spectroscopy Frank D. GunstoneRobert L. Wolff Short Communication Pages: 1611 - 1613
Crystallization kinetics of the pure triacylglycerols glycerol-1,3-dipalmitate-2-oleate, glycerol-1-palmitate-2-oleate-3-stearate, and glycerol-1,3-distearate-2-oleate Ph. RousserM. Rappaz Erratum Pages: 1615 - 1615