Martin Cramer Pedersen
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Explore the profile of Martin Cramer Pedersen including associated specialties, affiliations and a list of published articles.
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26
Citations
157
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Recent Articles
1.
Ardaseva A, Velez-Ceron I, Pedersen M, Ignes-Mullol J, Sagues F, Doostmohammadi A
Phys Rev Lett
. 2025 Mar;
134(8):088301.
PMID: 40085853
The field of active nematics has traditionally employed descriptions based on dipolar activity. However, it is theoretically predicted that interactions with a substrate, prevalent in most biological systems, lead to...
2.
Pedersen M, Mukherjee S, Doostmohammadi A, Mondal C, Thijssen K
Phys Rev Lett
. 2024 Dec;
133(22):228301.
PMID: 39672116
Colloidal gels are prime examples of functional materials exhibiting disordered, amorphous, yet metastable forms. They maintain stability through short-range attractive forces and their material properties are tunable by external forces....
3.
Galvagnion C, Barclay A, Makasewicz K, Marlet F, Moulin M, Devos J, et al.
Phys Chem Chem Phys
. 2024 Mar;
26(14):10998-11013.
PMID: 38526443
The presence of amyloid fibrils is a hallmark of several neurodegenerative diseases. Some amyloidogenic proteins, such as α-synuclein and amyloid β, interact with lipids, and this interaction can strongly favour...
4.
Larsen A, Brookes E, Pedersen M, Kirkensgaard J
J Appl Crystallogr
. 2023 Aug;
56(Pt 4):1287-1294.
PMID: 37555217
is a web application that allows researchers and students to build intuition about and understanding of small-angle scattering. It is available at https://somo.chem.utk.edu/shape2sas. The user defines a model of arbitrary...
5.
Pedersen M, Hyde S, Ramsden S, Kirkensgaard J
Soft Matter
. 2023 Feb;
19(8):1586-1595.
PMID: 36749349
Nature employs an impressive range of topologically complex ordered nanostructures that occur in various forms in both natural and synthetic materials. A particular class of these exhibits negative curvature and...
6.
Larsen A, Brookes E, Pedersen M, Kirkensgaard J
ArXiv
. 2023 Jan;
PMID: 36713243
Shape2SAS is a web application that allows researchers and students to build intuition and understanding of small-angle scattering. It is available at https://somo.chem.utk.edu/shape2sas. The user defines a model of arbitrary...
7.
Barclay A, Kragelund B, Arleth L, Pedersen M
J Colloid Interface Sci
. 2023 Jan;
635:611-621.
PMID: 36634513
Recent advances in protein expression protocols, sample handling, and experimental set up of small-angle scattering experiments have allowed users of the technique to structurally investigate biomolecules of growing complexity and...
8.
Johansen N, Tidemand F, Pedersen M, Arleth L
Biochimie
. 2022 Aug;
205:3-26.
PMID: 35963461
We review the considerable progress during the recent decade in the endeavours of designing, optimising, and utilising carrier particle systems for structural and functional studies of membrane proteins in near-native...
9.
Barclay A, Johansen N, Tidemand F, Arleth L, Pedersen M
Acta Crystallogr D Struct Biol
. 2022 Apr;
78(Pt 4):483-493.
PMID: 35362471
The combination of online size-exclusion chromatography and small-angle X-ray scattering (SEC-SAXS) is rapidly becoming a key technique for structural investigations of elaborate biophysical samples in solution. Here, a novel model-refinement...
10.
Tidemand F, Blemmer S, Johansen N, Arleth L, Pedersen M
Biochim Biophys Acta Biomembr
. 2022 Feb;
1864(6):183884.
PMID: 35182589
Nanodiscs are used to stabilize membrane proteins in a lipid environment and enable investigations of the function and structure of these. Membrane proteins are often only available in small amounts,...