Rosita Carolina Kneiszl
PhD student at Department of Pharmacy; Molecular Pharmaceutics
- E-mail:
- rosita.kneiszl@uu.se
- Visiting address:
- Biomedicinskt Centrum BMC, Husargatan 3
- Postal address:
- Box 580
751 23 UPPSALA
- ORCID:
- 0000-0002-5563-2908
Publications
Recent publications
Mechanistic Studies of Membrane Permeation of Peptides
2025
Part of Nanoscale, p. 19180-19195, 2023
- DOI for Revealing the interaction between peptide drugs and permeation enhancers in the presence of intestinal bile salts
- Download full text (pdf) of Revealing the interaction between peptide drugs and permeation enhancers in the presence of intestinal bile salts
Part of Molecular Pharmaceutics, p. 124-137, 2022
- DOI for In Silico-Based Experiments on Mechanistic Interactions between Several Intestinal Permeation Enhancers with a Lipid Bilayer Model
- Download full text (pdf) of In Silico-Based Experiments on Mechanistic Interactions between Several Intestinal Permeation Enhancers with a Lipid Bilayer Model
Part of Processes, p. 29, 2022
- DOI for Explicit-pH Coarse-Grained Molecular Dynamics Simulations Enable Insights into Restructuring of Intestinal Colloidal Aggregates with Permeation Enhancers
- Download full text (pdf) of Explicit-pH Coarse-Grained Molecular Dynamics Simulations Enable Insights into Restructuring of Intestinal Colloidal Aggregates with Permeation Enhancers
Part of Journal of Computational Chemistry, p. 1564-1569, 2020
All publications
Articles in journal
Part of Nanoscale, p. 19180-19195, 2023
- DOI for Revealing the interaction between peptide drugs and permeation enhancers in the presence of intestinal bile salts
- Download full text (pdf) of Revealing the interaction between peptide drugs and permeation enhancers in the presence of intestinal bile salts
Part of Molecular Pharmaceutics, p. 124-137, 2022
- DOI for In Silico-Based Experiments on Mechanistic Interactions between Several Intestinal Permeation Enhancers with a Lipid Bilayer Model
- Download full text (pdf) of In Silico-Based Experiments on Mechanistic Interactions between Several Intestinal Permeation Enhancers with a Lipid Bilayer Model
Part of Processes, p. 29, 2022
- DOI for Explicit-pH Coarse-Grained Molecular Dynamics Simulations Enable Insights into Restructuring of Intestinal Colloidal Aggregates with Permeation Enhancers
- Download full text (pdf) of Explicit-pH Coarse-Grained Molecular Dynamics Simulations Enable Insights into Restructuring of Intestinal Colloidal Aggregates with Permeation Enhancers
Part of Journal of Computational Chemistry, p. 1564-1569, 2020