Mortierellasp. 132
Mucor mieheilipasesee Rhizomucor mieheilipase
multilamellar vesicles 233
mutagenesis, site-directed –
lipase fromRhizopus delemar 70–84
lipoxygenase 313f
monooxygenase 401f
phospholipase 226
N
naringinase 384
Nernst layer 272
nervonic acid 35
nitrophenoxy dodecanoic acid 401
nonheme iron dioxygenaseseelipoxygenase
Novozymesee Candida antarcticalipase B
nutraceuticals 32, 40, 149
O
oat lipase 27
octyl Sepharose CL-4B 278, 284
oilssee alsoindividual types, fats
recovery 46
olefin epoxidation 118
oleoyl-palmitoyl-oleoylglycerolseeBetapol
on-column injection, triglycerides 158
OPOseeBetapol
optically transparent medium 48
organic phosphates 266, 287
oxyanion holes 81, 86
oxygen, lipoxygenase
bubbling 342
pressure 340
oxygenated lipidsseelipoxygenase
oxylipins 331f
P
P450seemonooxygenase
PAseephosphatic acid
packed-bed reactors 200, 205ff
pancreatic enzymes 150f, 300
partial glycerides 101
partitioning effects, phospholipase
271, 275f
patatin 17
PCseephosphatidylcholine
PEseephosphatidylethanolamine
PEGseepolyethylene glycol
Penicillium abeanumlipase 130
Penicillium camembertilipase 11, 17
cloning 78
fatty acids 25
specificity 4f
structure 86
Penicillium cyclopiumlipase 4, 11, 18, 25
Penicillium expansumlipase 4, 11
Penicillium roquefortiilipase 4, 11, 106, 113
Penicillium simplicissimumlipase 51, 85
pentadienyl system 344f
pentapeptides 77
perhydrolysis
glycerides 121
peroxy fatty acids 117
peroxy acrylic acid 123
peroxy fatty acids 117ff
peroxygenase pathway (POX) 332
pervaporation 368
petroselinic acids 25, 31
epoxidation 120
PGseephosphatidylglycerol
pH effect
lipase 82
w/o ME 50
phenol red 49
phenylboronic acid 107
phosphatic acid (PA) 264, 284
phosphatides 219f
phosphatidylcholine (PC) 181, 264ff, 277ff, 285,
295
phosphatidylethanolamine (PE) 181, 220, 228f,
264f, 280
phosphatidylglycerol (PG) 229, 264f, 284, 287
phosphatidylinositides (PI) 229
phosphatidylinositol 264
phosphatidylserine (PS) 220, 228f, 264, 274,
287
phospholipase 217 – 306
applications 232, 238ff, 265f, 293f, 297ff
classification 219ff, 236f, 292
encapsulation in w/o MEs 62
immobilization 263–291
interfacial activation 235
mechanism 224
occurrence 219, 223, 264
PLA 1 222, 239, 264
PLA 2 222, 225f, 239f, 264, 274, 300ff
PLC 224, 241f, 264, 303
PLD 224, 228ff, 246ff, 264, 281, 303
selectivities 221, 264
structures 224f
phospholipids 11f, 34, 220ff
compositions 220
enrichment 171ff, 180, 219ff, 263ff, 278f,
284ff
structures 233f
physical properties
w/o MEs 46
physiological function, PUFA 129ff
PIseephosphatidylinositides
ping pong bi-bi mechanism
interesterification 198
w/o ME 51, 61
plant lipase 9f
plant lipoxygenase 316ff, 321, 338