Polyethyleneimine phosphate and citrate systems act like pseudo polyampholytes as a starting method to isolate pepsin
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概要
- 論文の詳細を見る
- 2007-12-01
著者
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Romanini Diana
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Pico Guillermo
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Pico Guillermo
Chemical Physics Department Bioseparation Lab. Conicet And Foncyt Faculty Of Biochemical And Pharmac
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FARRUGGIA Beatriz
Bioseparation Laboratory, Physical Chemistry Department, Faculty of Biochemical and Pharmaceutical S
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Pico Guillermo
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Pico Guillermo
Chemical Physical Department Faculty Of Biochemical And Pharmaceutical Sciences Conicet Foncyt And C
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MANZUR Alejandra
Bioseparation Lab., Physical Chemistry Department, Faculty of Biochemical and Pharmaceutical Science
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SPELZINI Dario
Bioseparation Lab., Physical Chemistry Department, Faculty of Biochemical and Pharmaceutical Science
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Farruggia Beatriz
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Farruggia Beatriz
Bioseparation Lab Chemical - Physics Department Faculty Of Biochemical And Pharmaceutical Sciences C
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Spelzini Dario
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Romanini Diana
Bioseparation Lab Physical-chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences N
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Manzur Alejandra
Bioseparation Lab. Physical Chemistry Department Faculty Of Biochemical And Pharmaceutical Sciences
関連論文
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- Partition features and renaturation enhancement of chymosin in aqueous two-phase systems
- Polyethyleneimine phosphate and citrate systems act like pseudo polyampholytes as a starting method to isolate pepsin
- Porcine pancreatic lipase partition in potassium phosphate-polyethylene glycol aqueous two-phase systems
- Partitioning features of bovine trypsin and α-chymotrypsin in polyethyleneglycol-sodium citrate aqueous two-phase systems
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- Polyethyleneglycol molecular mass and polydispersivity effect on protein partitioning in aqueous two-phase systems
- Features of the acid protease partition in aqueous two-phase systems of polyethylene glycol-phosphate : Chymosin and pepsin
- Partition of whey milk proteins in aqueous two-phase systems of polyethylene glycol-phosphate as a starting point to isolate proteins expressed in transgenic milk
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- Pepsin extraction from bovine stomach using aqueous two-phase systems : Molecular mechanism and influence of homogenate mass and phase volume ratio
- Chitosan-bovine serum albumin complex formation : A model to design an enzyme isolation method by polyelectrolyte precipitation
- Features of partitioning pattern of two pancreatic enzymatic precursors : Trypsinogen and chymotrypsinogen in polyethyleneglycol-sodium citrate aqueous biphasic systems
- Extraction of trypsin from bovine pancreas by applying polyethyleneglycol/sodium citrate aqueous two-phase systems