Title of article
Biochemical characterization, cloning, and molecular modelling of chicken pancreatic lipase
Author/Authors
Nacim and Fendri، نويسنده , , Ahmed and Frikha، نويسنده , , Fakher and Mosbah، نويسنده , , Habib and Miled، نويسنده , , Nabil and Zouari، نويسنده , , Nacim and Bacha، نويسنده , , Abir Ben and Sayari، نويسنده , , Adel and Mejdoub، نويسنده , , Hafedh and Gargouri، نويسنده , , Youssef، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
11
From page
149
To page
159
Abstract
Chicken pancreatic lipase (CPL) was purified from delipidated pancreas. Pure CPL was obtained after ammonium sulphate fractionation, then DEAE–cellulose, Sephacryl S-200 gel filtration, and FPLC Mono-Q Sepharose columns. The pure lipase is a glycosylated monomer having a molecular mass of about 50 kDa. The 23 N-terminal amino acid residues of CPL were sequenced. The sequence is similar to those of avian and mammalian pancreatic lipases. CPL presents the interfacial activation phenomenon tested with tripropionin or vinyl ester. When CPL was inhibited by synthetic detergent (TX-100) or amphipathic protein (BSA), simultaneous addition of bile salts and colipase was required to restore the full CPL activity. In the absence of colipase and bile salts, CPL was unable to hydrolyse tributyrin emulsion. This enzyme can tolerate, more efficiently than HPL, the accumulation of long-chain free fatty acids at the interface when olive oil emulsion was used as substrate in the absence of bile salts and colipase. The CPL activity, under these conditions, was linear whereas that of HPL decreased rapidly. Anti-TPL polyclonal antibodies cross-reacted specifically with CPL. The gene encoding the mature CPL was cloned and sequenced. The deduced amino acid sequence of the mature lipase shows a high degree of homology with the mammalian pancreatic lipases. A 3D structure model of CPL was built using the HPL structure as template. We have concluded that a slight increase in the exposed hydrophobic residues on the surface of CPL, as compared to HPL, could be responsible for a higher tolerance to the presence of long-chain free fatty acids at the lipid/water interface.
Keywords
Sequence , Inhibition , 3D structure modelling , Hydrophobic surface , Affinity , Chicken pancreatic lipase , Colipase
Journal title
Archives of Biochemistry and Biophysics
Serial Year
2006
Journal title
Archives of Biochemistry and Biophysics
Record number
1628024
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