Suzanne B P E Timmermans
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Explore the profile of Suzanne B P E Timmermans including associated specialties, affiliations and a list of published articles.
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9
Citations
118
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Recent Articles
1.
Timmermans S, Mesman R, Blezer K, van Niftrik L, van Hest J
Virology
. 2022 Nov;
577:99-104.
PMID: 36335770
Capsids of the cowpea chlorotic mottle virus (CCMV) are great candidates for the development into in vivo catalytic or therapeutic nanocarriers. However, due to their limited intrinsic stability at physiological...
2.
Timmermans S, Ramezani A, Montalvo T, Nguyen M, van der Schoot P, van Hest J, et al.
J Am Chem Soc
. 2022 Jul;
144(28):12608-12612.
PMID: 35792573
Cowpea chlorotic mottle virus (CCMV) is a widely used model for virus replication studies. A major challenge lies in distinguishing between the roles of the interaction between coat proteins and...
3.
Visser E, Moons S, Timmermans S, de Jong H, Boltje T, Bull C
J Biol Chem
. 2021 Jun;
297(2):100906.
PMID: 34157283
Sialic acids are nine-carbon sugars that frequently cap glycans at the cell surface in cells of vertebrates as well as cells of certain types of invertebrates and bacteria. The nine-carbon...
4.
Vervoort D, Heiringhoff R, Timmermans S, van Stevendaal M, van Hest J
Bioconjug Chem
. 2021 Apr;
32(5):958-963.
PMID: 33861931
Protein cages hold much promise as carrier systems in nanomedicine, due to their well-defined size, cargo-loading capacity, and inherent biodegradability. In order to make them suitable for drug delivery, they...
5.
Oerlemans R, Timmermans S, van Hest J
Chembiochem
. 2021 Jan;
22(12):2051-2078.
PMID: 33450141
Compartmentalization is one of the main characteristics that define living systems. Creating a physically separated microenvironment allows nature a better control over biological processes, as is clearly specified by the...
6.
Choi J, Wagner L, Timmermans S, Malaker S, Schumann B, Gray M, et al.
J Am Chem Soc
. 2019 Aug;
141(34):13442-13453.
PMID: 31373799
O-Linked α--acetylgalactosamine (O-GalNAc) glycans constitute a major part of the human glycome. They are difficult to study because of the complex interplay of 20 distinct glycosyltransferase isoenzymes that initiate this...
7.
Yewdall N, Buddingh B, Altenburg W, Timmermans S, Vervoort D, Abdelmohsen L, et al.
Chembiochem
. 2019 Apr;
20(20):2643-2652.
PMID: 31012235
The bottom-up construction of cell mimics has produced a range of membrane-bound protocells that have been endowed with functionality and biochemical processes reminiscent of living systems. The contents of these...
8.
Bode S, Timmermans S, Eising S, van Gemert S, Bonger K, Lowik D
Chem Sci
. 2019 Feb;
10(3):701-705.
PMID: 30746105
Cell-penetrating peptides are able to transport a wide variety of cargo across cell membranes. Although promising, they are not often considered for therapeutic purposes as they lack controllable activity and...
9.
Timmermans S, Vervoort D, Schoonen L, Nolte R, van Hest J
Chem Asian J
. 2018 Jul;
13(22):3518-3525.
PMID: 29975459
Capsids of the cowpea chlorotic mottle virus (CCMV) hold great promise for use as nanocarriers in vivo. A major drawback, however, is the lack of stability of the empty wild-type...