Duss M

Title : Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767

Author(s) : Salvati Manni L , Duss M , Assenza S , Boyd BJ , Landau EM , Fong WK

Ref : J Colloid Interface Sci , 588 :767 , 2021

Abstract :

PubMedSearch : Salvati_2021_J.Colloid.Interface.Sci_588_767

PubMedID: 33309146

Title : Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767

Author(s) : Salvati Manni L , Duss M , Assenza S , Boyd BJ , Landau EM , Fong WK

Ref : J Colloid Interface Sci , 588 :767 , 2021

Abstract :

PubMedSearch : Salvati_2021_J.Colloid.Interface.Sci_588_767

PubMedID: 33309146

Title : Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767

Author(s) : Salvati Manni L , Duss M , Assenza S , Boyd BJ , Landau EM , Fong WK

Ref : J Colloid Interface Sci , 588 :767 , 2021

Abstract :

PubMedSearch : Salvati_2021_J.Colloid.Interface.Sci_588_767

PubMedID: 33309146

Duss M

References (3)

1. Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767

2. Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767

3. Enzymatic hydrolysis of monoacylglycerols and their cyclopropanated derivatives: Molecular structure and nanostructure determine the rate of digestion - Salvati_2021_J.Colloid.Interface.Sci_588_767