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Lipase

February 15, 2024

In biochemistry, lipase (/ˈlps, ˈlpz/ LY-payss, LY-payz) refers to a class of enzymes that catalyzes the hydrolysis of fats. Some lipases display broad substrate scope including esters of cholesterol, phospholipids, and of lipid-soluble vitamins[1][2] and sphingomyelinases;[3] however, these are usually treated separately from "conventional" lipases. Unlike esterases, which function in water, lipases "are activated only when adsorbed to an oil–water interface".[4] Lipases perform essential roles in digestion, transport and processing of dietary lipids in most, if not all, organisms.

A computer-generated image of a type of pancreatic lipase (PLRP2) from the guinea pig. PDB: 1GPL​.

Structure and catalytic mechanism edit

Classically, lipases catalyse the hydrolysis of triglycerides:

 

Lipases are serine hydrolases, i.e. they function by transesterification generating an acyl serine intermediate. Most lipases act at a specific position on the glycerol backbone of a lipid substrate (A1, A2 or A3). For example, human pancreatic lipase (HPL),[5] converts triglyceride substrates found in ingested oils to monoglycerides and two fatty acids.

A diverse array of genetically distinct lipase enzymes are found in nature, and they represent several types of protein folds and catalytic mechanisms. However, most are built on an alpha/beta hydrolase fold[6][7][8][9] and employ a chymotrypsin-like hydrolysis mechanism using a catalytic triad consisting of a serine nucleophile, a histidine base, and an acid residue, usually aspartic acid.[10][11]

Physiological distribution edit

Lipases are involved in diverse biological processes which range from routine metabolism of dietary triglycerides to cell signaling[12] and inflammation.[13] Thus, some lipase activities are confined to specific compartments within cells while others work in extracellular spaces.

  • In the example of lysosomal lipase, the enzyme is confined within an organelle called the lysosome.
  • Other lipase enzymes, such as pancreatic lipases, are secreted into extracellular spaces where they serve to process dietary lipids into more simple forms that can be more easily absorbed and transported throughout the body.
  • Fungi and bacteria may secrete lipases to facilitate nutrient absorption from the external medium (or in examples of pathogenic microbes, to promote invasion of a new host).
  • Certain wasp and bee venoms contain phospholipases that enhance the effects of injury and inflammation delivered by a sting.
  • As biological membranes are integral to living cells and are largely composed of phospholipids, lipases play important roles in cell biology.
  • Malassezia globosa, a fungus thought to be the cause of human dandruff, uses lipase to break down sebum into oleic acid and increase skin cell production, causing dandruff.[14]

Genes encoding lipases are even present in certain viruses.[15][16]

Some lipases are expressed and secreted by pathogenic organisms during an infection. In particular, Candida albicans has many lipases, possibly reflecting broad-lipolytic activity, which may contribute to the persistence and virulence of C. albicans in human tissue.[17]

Human lipases edit

Name Gene Location Description Disorder
bile salt-dependent lipase BSDL pancreas, breast milk aids in the digestion of fats[1]
pancreatic lipase PNLIP digestive juice Human pancreatic lipase (HPL) is the main enzyme that breaks down dietary fats in the human digestive system.[5] To exhibit optimal enzyme activity in the gut lumen, PL requires another protein, colipase, which is also secreted by the pancreas.[18]
lysosomal lipase LIPA interior space of organelle: lysosome Also referred to as lysosomal acid lipase (LAL or LIPA) or acid cholesteryl ester hydrolase Cholesteryl ester storage disease (CESD) and Wolman disease are both caused by mutations in the gene encoding lysosomal lipase.[19]
hepatic lipase LIPC endothelium Hepatic lipase acts on the remaining lipids carried on lipoproteins in the blood to regenerate LDL (low density lipoprotein).
lipoprotein lipase LPL or "LIPD" endothelium Lipoprotein lipase functions in the blood to act on triacylglycerides carried on VLDL (very low density lipoprotein) so that cells can take up the freed fatty acids. Lipoprotein lipase deficiency is caused by mutations in the gene encoding lipoprotein lipase.[20][21]
hormone-sensitive lipase LIPE intracellular
gastric lipase LIPF digestive juice Functions in the infant at a near-neutral pH to aid in the digestion of lipids
endothelial lipase LIPG endothelium
pancreatic lipase related protein 2 PNLIPRP2 or "PLRP2" – digestive juice
pancreatic lipase related protein 1 PNLIPRP1 or "PLRP1" digestive juice Pancreatic lipase related protein 1 is very similar to PLRP2 and PL by amino acid sequence (all three genes probably arose via gene duplication of a single ancestral pancreatic lipase gene). However, PLRP1 is devoid of detectable lipase activity and its function remains unknown, even though it is conserved in other mammals.[22][23] -
lingual lipase ? saliva Active at gastric pH levels. Optimum pH is about 3.5-6. Secreted by several of the salivary glands (Ebner's glands at the back of the tongue (lingua), the sublingual glands, and the parotid glands)

Other lipases include LIPH, LIPI, LIPJ, LIPK, LIPM, LIPN, MGLL, DAGLA, DAGLB, and CEL.

Uses edit

In the commercial sphere, lipases are widely used in laundry detergents. Several thousand tons per year are produced for this role.[4]

Lipases are catalysts for hydrolysis of esters and are useful outside of the cell, a testament to their wide substrate scope and ruggedness. The ester hydrolysis activity of lipases has been well evaluated for the conversion of triglycerides into biofuels or their precursors.[24][25][26][27]

Lipases are chiral, which means that they can be used for the enantioselective hydrolysis prochiral diesters.[28] Several procedures have been reported for applications in the synthesis of fine chemicals.[29][30][31]

Lipases are generally animal sourced, but can also be sourced microbially[citation needed].

Biomedicine edit

Blood tests for lipase may be used to help investigate and diagnose acute pancreatitis and other disorders of the pancreas.[32] Measured serum lipase values may vary depending on the method of analysis.[citation needed]

Lipase assist in the breakdown of fats in those undergoing pancreatic enzyme replacement therapy (PERT). It is a component in Sollpura (Liprotamase).[33][34]

See also edit

References edit

  1. ^ a b Lombardo, Dominique (2001). "Bile salt-dependent lipase: its pathophysiological implications". Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biology of Lipids. 1533 (1): 1–28. doi:10.1016/S1388-1981(01)00130-5. PMID 11514232.
  2. ^ Diaz, B.L.; J. P. Arm. (2003). "Phospholipase A(2)". Prostaglandins Leukot Essent Fatty Acids. 69 (2–3): 87–97. doi:10.1016/S0952-3278(03)00069-3. PMID 12895591.
  3. ^ Goñi F, Alonso A (2002). "Sphingomyelinases: enzymology and membrane activity". FEBS Lett. 531 (1): 38–46. doi:10.1016/S0014-5793(02)03482-8. PMID 12401200.
  4. ^ a b Sharma, Rohit; Chisti, Yusuf; Banerjee, Uttam Chand (2001). "Production, purification, characterization, and applications of lipases". Biotechnology Advances. 19 (8): 627–662. CiteSeerX 10.1.1.319.7729. doi:10.1016/S0734-9750(01)00086-6. PMID 14550014. S2CID 18615547.
  5. ^ a b Winkler FK; D'Arcy A; W Hunziker (1990). "Structure of human pancreatic lipase". Nature. 343 (6260): 771–774. Bibcode:1990Natur.343..771W. doi:10.1038/343771a0. PMID 2106079. S2CID 37423900.
  6. ^ Winkler FK; D'Arcy A; W Hunziker (1990). "Structure of human boob pancreatic lipase". Nature. 343 (6260): 771–774. doi:10.1038/343771a0. PMID 2106079. S2CID 37423900.
  7. ^ Schrag J, Cygler M (1997). "Lipases and alpha/beta hydrolase fold". Methods Enzymol. Methods in Enzymology. 284: 85–107. doi:10.1016/S0076-6879(97)84006-2. ISBN 978-0-12-182185-2. PMID 9379946.
  8. ^ Egmond, M. R.; C. J. van Bemmel (1997). "Impact of Structural Information on Understanding of Lipolytic Function". Methods Enzymol. Methods in Enzymology. 284: 119–129. doi:10.1016/S0076-6879(97)84008-6. ISBN 978-0-12-182185-2. PMID 9379930.
  9. ^ Withers-Martinez C; Carriere F; Verger R; Bourgeois D; C Cambillau (1996). "A pancreatic lipase with a phospholipase A1 activity: crystal structure of a chimeric pancreatic lipase-related protein 2 from guinea pig". Structure. 4 (11): 1363–74. doi:10.1016/S0969-2126(96)00143-8. PMID 8939760.
  10. ^ Brady, L.; A. M. Brzozowski; Z. S. Derewenda; E. Dodson; G. Dodson; S. Tolley; J. P. Turkenburg; L. Christiansen; B. Huge-Jensen; L. Norskov; et al. (1990). "A serine protease triad forms the catalytic centre of a triacylglycerol lipase". Nature. 343 (6260): 767–70. Bibcode:1990Natur.343..767B. doi:10.1038/343767a0. PMID 2304552. S2CID 4308111.
  11. ^ Lowe ME (1992). "The catalytic site residues and interfacial binding of human pancreatic lipase". J Biol Chem. 267 (24): 17069–73. doi:10.1016/S0021-9258(18)41893-5. PMID 1512245.
  12. ^ Spiegel S; Foster D; R Kolesnick (1996). "Signal transduction through lipid second messengers". Current Opinion in Cell Biology. 8 (2): 159–67. doi:10.1016/S0955-0674(96)80061-5. PMID 8791422.
  13. ^ Tjoelker LW; Eberhardt C; Unger J; Trong HL; Zimmerman GA; McIntyre TM; Stafforini DM; Prescott SM; PW Gray (1995). "Plasma platelet-activating factor acetylhydrolase is a secreted phospholipase A2 with a catalytic triad". J Biol Chem. 270 (43): 25481–7. doi:10.1074/jbc.270.43.25481. PMID 7592717.
  14. ^ Genetic Code of Dandruff Cracked – BBC News
  15. ^ Afonso C, Tulman E, Lu Z, Oma E, Kutish G, Rock D (1999). "The Genome of Melanoplus sanguinipes Entomologists". J Virol. 73 (1): 533–52. doi:10.1128/JVI.73.1.533-552.1999. PMC 103860. PMID 9847359.
  16. ^ Girod A, Wobus C, Zádori Z, Ried M, Leike K, Tijssen P, Kleinschmidt J, Hallek M (2002). "The VP1 capsid protein of adeno-associated virus type 2 is carrying a phospholipase A2 domain required for virus infectivity". J Gen Virol. 83 (Pt 5): 973–8. doi:10.1099/0022-1317-83-5-973. PMID 11961250.
  17. ^ Hube B, Stehr F, Bossenz M, Mazur A, Kretschmar M, Schafer W (2000). "Secreted lipases of Candida albicans: cloning, characterisation and expression analysis of a new gene family with at least ten members". Arch. Microbiol. 174 (5): 362–374. doi:10.1007/s002030000218. PMID 11131027. S2CID 2231039.
  18. ^ Lowe ME (2002). "The triglyceride lipases of the pancreas". J Lipid Res. 43 (12): 2007–16. doi:10.1194/jlr.R200012-JLR200. PMID 12454260.
  19. ^ Omim – Wolman Disease
  20. ^ Familial lipoprotein lipase deficiency – Genetics Home Reference
  21. ^ Gilbert B, Rouis M, Griglio S, de Lumley L, Laplaud P (2001). "Lipoprotein lipase (LPL) deficiency: a new patient homozygote for the preponderant mutation Gly188Glu in the human LPL gene and review of reported mutations: 75 % are clustered in exons 5 and 6". Ann Genet. 44 (1): 25–32. doi:10.1016/S0003-3995(01)01037-1. PMID 11334614.
  22. ^ Crenon I, Foglizzo E, Kerfelec B, Verine A, Pignol D, Hermoso J, Bonicel J, Chapus C (1998). "Pancreatic lipase-related protein type I: a specialized lipase or an inactive enzyme". Protein Eng. 11 (2): 135–42. doi:10.1093/protein/11.2.135. PMID 9605548.
  23. ^ De Caro J, Carriere F, Barboni P, Giller T, Verger R, De Caro A (1998). "Pancreatic lipase-related protein 1 (PLRP1) is present in the pancreatic juice of several species". Biochim Biophys Acta. 1387 (1–2): 331–41. doi:10.1016/S0167-4838(98)00143-5. PMID 9748646.
  24. ^ Gupta R, Gupta N, Rathi P (2004). "Bacterial lipases: an overview of production, purification and biochemical properties". Appl Microbiol Biotechnol. 64 (6): 763–81. doi:10.1007/s00253-004-1568-8. PMID 14966663. S2CID 206934353.
  25. ^ Ban K, Kaieda M, Matsumoto T, Kondo A, Fukuda H (2001). "Whole cell biocatalyst for biodiesel fuel production utilizing Rhizopus oryzae cells immobilized within biomass support particles". Biochem Eng J. 8 (1): 39–43. doi:10.1016/S1369-703X(00)00133-9. PMID 11356369.
  26. ^ Harding, K.G; Dennis, J.S; von Blottnitz, H; Harrison, S.T.L (2008). "A life-cycle comparison between inorganic and biological catalysis for the production of biodiesel". Journal of Cleaner Production. 16 (13): 1368–78. doi:10.1016/j.jclepro.2007.07.003.
  27. ^ Guo Z, Xu X (2005). "New opportunity for enzymatic modification of fats and oils with industrial potentials". Org Biomol Chem. 3 (14): 2615–9. doi:10.1039/b506763d. PMID 15999195.
  28. ^ Theil, Fritz (1995). "Lipase-Supported Synthesis of Biologically Active Compounds". Chemical Reviews. 95 (6): 2203–2227. doi:10.1021/cr00038a017.
  29. ^ P. Kalaritis, R. W. Regenye (1990). "Enantiomerically Pure Ethyl (R)- And (S)- 2-Fluorohexanoate by Enzyme-Catalyzed Kinetic Resolution". Org. Synth. 69: 10. doi:10.15227/orgsyn.069.0010.
  30. ^ Leo A. Paquette, Martyn J. Earle, Graham F. Smith (1996). "(4R)-(+)-tert-Butyldimethylsiloxy-2-cyclopenten-1-one". Org. Synth. 73: 36. doi:10.15227/orgsyn.073.0036.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  31. ^ "(4R)-(+)-tert-BUTYLDIMETHYLSILOXY-2-CYCLOPENTEN-1-ONE". Organic Syntheses. 73: 36. 1996. doi:10.15227/orgsyn.073.0036.
  32. ^ "Lipase – TheTest". Lab Tests Online. Retrieved 12 May 2014.
  33. ^ "Anthera Pharmaceuticals – Sollpura." Anthera Pharmaceuticals – Sollpura. N.p., n.d. Web. 21 July 2015. <http://www.anthera.com/pipeline/science/sollpura.html 2015-07-18 at the Wayback Machine>.
  34. ^ Bustanji, Yasser; Al-Masri, Ihab M; Mohammad, Mohammad; Hudaib, Mohammad; Tawaha, Khaled; Tarazi, Hamada; Alkhatib, Hatim S (2010). "Pancreatic lipase inhibition activity of trilactone terpenes of Ginkgo biloba". Journal of Enzyme Inhibition and Medicinal Chemistry. 26 (4): 453–9. doi:10.3109/14756366.2010.525509. PMID 21028941. S2CID 23597738.

25. Gulzar, Bio-degradation of hydrocarbons using different bacterial and fungal species. Published in international conference on biotechnology and neurosciences. CUSAT (cochin university of science and technology), 2003

External links edit

February 15, 2024
lipase, biochemistry, lipase, payss, payz, refers, class, enzymes, that, catalyzes, hydrolysis, fats, some, lipases, display, broad, substrate, scope, including, esters, cholesterol, phospholipids, lipid, soluble, vitamins, sphingomyelinases, however, these, u. In biochemistry lipase ˈ l aɪ p eɪ s ˈ l aɪ p eɪ z LY payss LY payz refers to a class of enzymes that catalyzes the hydrolysis of fats Some lipases display broad substrate scope including esters of cholesterol phospholipids and of lipid soluble vitamins 1 2 and sphingomyelinases 3 however these are usually treated separately from conventional lipases Unlike esterases which function in water lipases are activated only when adsorbed to an oil water interface 4 Lipases perform essential roles in digestion transport and processing of dietary lipids in most if not all organisms A computer generated image of a type of pancreatic lipase PLRP2 from the guinea pig PDB 1GPL Contents 1 Structure and catalytic mechanism 2 Physiological distribution 2 1 Human lipases 3 Uses 3 1 Biomedicine 4 See also 5 References 6 External linksStructure and catalytic mechanism editClassically lipases catalyse the hydrolysis of triglycerides triglyceride H 2 O fatty acid diacylglycerol diacylglycerol H 2 O fatty acid monacylglycerol monacylglycerol H 2 O fatty acid glycerol displaystyle begin aligned text triglyceride ce H2O amp longrightarrow text fatty acid text diacylglycerol 4pt text diacylglycerol ce H2O amp longrightarrow text fatty acid text monacylglycerol 4pt text monacylglycerol ce H2O amp longrightarrow text fatty acid text glycerol end aligned nbsp Lipases are serine hydrolases i e they function by transesterification generating an acyl serine intermediate Most lipases act at a specific position on the glycerol backbone of a lipid substrate A1 A2 or A3 For example human pancreatic lipase HPL 5 converts triglyceride substrates found in ingested oils to monoglycerides and two fatty acids A diverse array of genetically distinct lipase enzymes are found in nature and they represent several types of protein folds and catalytic mechanisms However most are built on an alpha beta hydrolase fold 6 7 8 9 and employ a chymotrypsin like hydrolysis mechanism using a catalytic triad consisting of a serine nucleophile a histidine base and an acid residue usually aspartic acid 10 11 Physiological distribution editLipases are involved in diverse biological processes which range from routine metabolism of dietary triglycerides to cell signaling 12 and inflammation 13 Thus some lipase activities are confined to specific compartments within cells while others work in extracellular spaces In the example of lysosomal lipase the enzyme is confined within an organelle called the lysosome Other lipase enzymes such as pancreatic lipases are secreted into extracellular spaces where they serve to process dietary lipids into more simple forms that can be more easily absorbed and transported throughout the body Fungi and bacteria may secrete lipases to facilitate nutrient absorption from the external medium or in examples of pathogenic microbes to promote invasion of a new host Certain wasp and bee venoms contain phospholipases that enhance the effects of injury and inflammation delivered by a sting As biological membranes are integral to living cells and are largely composed of phospholipids lipases play important roles in cell biology Malassezia globosa a fungus thought to be the cause of human dandruff uses lipase to break down sebum into oleic acid and increase skin cell production causing dandruff 14 Genes encoding lipases are even present in certain viruses 15 16 Some lipases are expressed and secreted by pathogenic organisms during an infection In particular Candida albicans has many lipases possibly reflecting broad lipolytic activity which may contribute to the persistence and virulence of C albicansin human tissue 17 Human lipases edit Name Gene Location Description Disorderbile salt dependent lipase BSDL pancreas breast milk aids in the digestion of fats 1 pancreatic lipase PNLIP digestive juice Human pancreatic lipase HPL is the main enzyme that breaks down dietary fats in the human digestive system 5 To exhibit optimal enzyme activity in the gut lumen PL requires another protein colipase which is also secreted by the pancreas 18 lysosomal lipase LIPA interior space of organelle lysosome Also referred to as lysosomal acid lipase LAL or LIPA or acid cholesteryl ester hydrolase Cholesteryl ester storage disease CESD and Wolman disease are both caused by mutations in the gene encoding lysosomal lipase 19 hepatic lipase LIPC endothelium Hepatic lipase acts on the remaining lipids carried on lipoproteins in the blood to regenerate LDL low density lipoprotein lipoprotein lipase LPL or LIPD endothelium Lipoprotein lipase functions in the blood to act on triacylglycerides carried on VLDL very low density lipoprotein so that cells can take up the freed fatty acids Lipoprotein lipase deficiency is caused by mutations in the gene encoding lipoprotein lipase 20 21 hormone sensitive lipase LIPE intracellular gastric lipase LIPF digestive juice Functions in the infant at a near neutral pH to aid in the digestion of lipids endothelial lipase LIPG endothelium pancreatic lipase related protein 2 PNLIPRP2 or PLRP2 digestive juice pancreatic lipase related protein 1 PNLIPRP1 or PLRP1 digestive juice Pancreatic lipase related protein 1 is very similar to PLRP2 and PL by amino acid sequence all three genes probably arose via gene duplication of a single ancestral pancreatic lipase gene However PLRP1 is devoid of detectable lipase activity and its function remains unknown even though it is conserved in other mammals 22 23 lingual lipase saliva Active at gastric pH levels Optimum pH is about 3 5 6 Secreted by several of the salivary glands Ebner s glands at the back of the tongue lingua the sublingual glands and the parotid glands Other lipases include LIPH LIPI LIPJ LIPK LIPM LIPN MGLL DAGLA DAGLB and CEL Uses editIn the commercial sphere lipases are widely used in laundry detergents Several thousand tons per year are produced for this role 4 Lipases are catalysts for hydrolysis of esters and are useful outside of the cell a testament to their wide substrate scope and ruggedness The ester hydrolysis activity of lipases has been well evaluated for the conversion of triglycerides into biofuels or their precursors 24 25 26 27 Lipases are chiral which means that they can be used for the enantioselective hydrolysis prochiral diesters 28 Several procedures have been reported for applications in the synthesis of fine chemicals 29 30 31 Lipases are generally animal sourced but can also be sourced microbially citation needed Biomedicine edit Blood tests for lipase may be used to help investigate and diagnose acute pancreatitis and other disorders of the pancreas 32 Measured serum lipase values may vary depending on the method of analysis citation needed Lipase assist in the breakdown of fats in those undergoing pancreatic enzyme replacement therapy PERT It is a component in Sollpura Liprotamase 33 34 See also editAlpha toxin Pathology Lysosomal acid lipase deficiency Peripheral membrane proteins Phospholipase A Phospholipase C Triglyceride lipase Phospholipase A2 Outer membrane phospholipase A1 Patatin like phospholipaseReferences edit a b Lombardo Dominique 2001 Bile salt dependent lipase its pathophysiological implications Biochimica et Biophysica Acta BBA Molecular and Cell Biology of Lipids 1533 1 1 28 doi 10 1016 S1388 1981 01 00130 5 PMID 11514232 Diaz B L J P Arm 2003 Phospholipase A 2 Prostaglandins Leukot Essent Fatty Acids 69 2 3 87 97 doi 10 1016 S0952 3278 03 00069 3 PMID 12895591 Goni F Alonso A 2002 Sphingomyelinases enzymology and membrane activity FEBS Lett 531 1 38 46 doi 10 1016 S0014 5793 02 03482 8 PMID 12401200 a b Sharma Rohit Chisti Yusuf Banerjee Uttam Chand 2001 Production purification characterization and applications of lipases Biotechnology Advances 19 8 627 662 CiteSeerX 10 1 1 319 7729 doi 10 1016 S0734 9750 01 00086 6 PMID 14550014 S2CID 18615547 a b Winkler FK D Arcy A W Hunziker 1990 Structure of human pancreatic lipase Nature 343 6260 771 774 Bibcode 1990Natur 343 771W doi 10 1038 343771a0 PMID 2106079 S2CID 37423900 Winkler FK D Arcy A W Hunziker 1990 Structure of human boob pancreatic lipase Nature 343 6260 771 774 doi 10 1038 343771a0 PMID 2106079 S2CID 37423900 Schrag J Cygler M 1997 Lipases and alpha beta hydrolase fold Methods Enzymol Methods in Enzymology 284 85 107 doi 10 1016 S0076 6879 97 84006 2 ISBN 978 0 12 182185 2 PMID 9379946 Egmond M R C J van Bemmel 1997 Impact of Structural Information on Understanding of Lipolytic Function Methods Enzymol Methods in Enzymology 284 119 129 doi 10 1016 S0076 6879 97 84008 6 ISBN 978 0 12 182185 2 PMID 9379930 Withers Martinez C Carriere F Verger R Bourgeois D C Cambillau 1996 A pancreatic lipase with a phospholipase A1 activity crystal structure of a chimeric pancreatic lipase related protein 2 from guinea pig Structure 4 11 1363 74 doi 10 1016 S0969 2126 96 00143 8 PMID 8939760 Brady L A M Brzozowski Z S Derewenda E Dodson G Dodson S Tolley J P Turkenburg L Christiansen B Huge Jensen L Norskov et al 1990 A serine protease triad forms the catalytic centre of a triacylglycerol lipase Nature 343 6260 767 70 Bibcode 1990Natur 343 767B doi 10 1038 343767a0 PMID 2304552 S2CID 4308111 Lowe ME 1992 The catalytic site residues and interfacial binding of human pancreatic lipase J Biol Chem 267 24 17069 73 doi 10 1016 S0021 9258 18 41893 5 PMID 1512245 Spiegel S Foster D R Kolesnick 1996 Signal transduction through lipid second messengers Current Opinion in Cell Biology 8 2 159 67 doi 10 1016 S0955 0674 96 80061 5 PMID 8791422 Tjoelker LW Eberhardt C Unger J Trong HL Zimmerman GA McIntyre TM Stafforini DM Prescott SM PW Gray 1995 Plasma platelet activating factor acetylhydrolase is a secreted phospholipase A2 with a catalytic triad J Biol Chem 270 43 25481 7 doi 10 1074 jbc 270 43 25481 PMID 7592717 Genetic Code of Dandruff Cracked BBC News Afonso C Tulman E Lu Z Oma E Kutish G Rock D 1999 The Genome of Melanoplus sanguinipes Entomologists J Virol 73 1 533 52 doi 10 1128 JVI 73 1 533 552 1999 PMC 103860 PMID 9847359 Girod A Wobus C Zadori Z Ried M Leike K Tijssen P Kleinschmidt J Hallek M 2002 The VP1 capsid protein of adeno associated virus type 2 is carrying a phospholipase A2 domain required for virus infectivity J Gen Virol 83 Pt 5 973 8 doi 10 1099 0022 1317 83 5 973 PMID 11961250 Hube B Stehr F Bossenz M Mazur A Kretschmar M Schafer W 2000 Secreted lipases of Candida albicans cloning characterisation and expression analysis of a new gene family with at least ten members Arch Microbiol 174 5 362 374 doi 10 1007 s002030000218 PMID 11131027 S2CID 2231039 Lowe ME 2002 The triglyceride lipases of the pancreas J Lipid Res 43 12 2007 16 doi 10 1194 jlr R200012 JLR200 PMID 12454260 Omim Wolman Disease Familial lipoprotein lipase deficiency Genetics Home Reference Gilbert B Rouis M Griglio S de Lumley L Laplaud P 2001 Lipoprotein lipase LPL deficiency a new patient homozygote for the preponderant mutation Gly188Glu in the human LPL gene and review of reported mutations 75 are clustered in exons 5 and 6 Ann Genet 44 1 25 32 doi 10 1016 S0003 3995 01 01037 1 PMID 11334614 Crenon I Foglizzo E Kerfelec B Verine A Pignol D Hermoso J Bonicel J Chapus C 1998 Pancreatic lipase related protein type I a specialized lipase or an inactive enzyme Protein Eng 11 2 135 42 doi 10 1093 protein 11 2 135 PMID 9605548 De Caro J Carriere F Barboni P Giller T Verger R De Caro A 1998 Pancreatic lipase related protein 1 PLRP1 is present in the pancreatic juice of several species Biochim Biophys Acta 1387 1 2 331 41 doi 10 1016 S0167 4838 98 00143 5 PMID 9748646 Gupta R Gupta N Rathi P 2004 Bacterial lipases an overview of production purification and biochemical properties Appl Microbiol Biotechnol 64 6 763 81 doi 10 1007 s00253 004 1568 8 PMID 14966663 S2CID 206934353 Ban K Kaieda M Matsumoto T Kondo A Fukuda H 2001 Whole cell biocatalyst for biodiesel fuel production utilizing Rhizopus oryzae cells immobilized within biomass support particles Biochem Eng J 8 1 39 43 doi 10 1016 S1369 703X 00 00133 9 PMID 11356369 Harding K G Dennis J S von Blottnitz H Harrison S T L 2008 A life cycle comparison between inorganic and biological catalysis for the production of biodiesel Journal of Cleaner Production 16 13 1368 78 doi 10 1016 j jclepro 2007 07 003 Guo Z Xu X 2005 New opportunity for enzymatic modification of fats and oils with industrial potentials Org Biomol Chem 3 14 2615 9 doi 10 1039 b506763d PMID 15999195 Theil Fritz 1995 Lipase Supported Synthesis of Biologically Active Compounds Chemical Reviews 95 6 2203 2227 doi 10 1021 cr00038a017 P Kalaritis R W Regenye 1990 Enantiomerically Pure Ethyl R And S 2 Fluorohexanoate by Enzyme Catalyzed Kinetic Resolution Org Synth 69 10 doi 10 15227 orgsyn 069 0010 Leo A Paquette Martyn J Earle Graham F Smith 1996 4R tert Butyldimethylsiloxy 2 cyclopenten 1 one Org Synth 73 36 doi 10 15227 orgsyn 073 0036 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link 4R tert BUTYLDIMETHYLSILOXY 2 CYCLOPENTEN 1 ONE Organic Syntheses 73 36 1996 doi 10 15227 orgsyn 073 0036 Lipase TheTest Lab Tests Online Retrieved 12 May 2014 Anthera Pharmaceuticals Sollpura Anthera Pharmaceuticals Sollpura N p n d Web 21 July 2015 lt http www anthera com pipeline science sollpura html Archived 2015 07 18 at the Wayback Machine gt Bustanji Yasser Al Masri Ihab M Mohammad Mohammad Hudaib Mohammad Tawaha Khaled Tarazi Hamada Alkhatib Hatim S 2010 Pancreatic lipase inhibition activity of trilactone terpenes of Ginkgo biloba Journal of Enzyme Inhibition and Medicinal Chemistry 26 4 453 9 doi 10 3109 14756366 2010 525509 PMID 21028941 S2CID 23597738 25 Gulzar Bio degradation of hydrocarbons using different bacterial and fungal species Published in international conference on biotechnology and neurosciences CUSAT cochin university of science and technology 2003External links editLipase at the U S National Library of Medicine Medical Subject Headings MeSH Portal nbsp Biology Retrieved from https en wikipedia org w index php title Lipase amp oldid 1191714690, wikipedia, wiki, book, books, library,

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