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11 to 20 of 211 Results
Mar 4, 2024 - Forschungsgruppe AG Nikendei
Rollmann, Ivo; Kindermann, David; Stahl-Toyota, Sophia; Nowak, Jonathan; Orth, Maximilian; Friederich, Hans-Christoph; Nikendei, Christoph, 2024, "Prediction of improvement in Personality Functioning. Utilisation of machine learning to filter relevant variables for prediction [dataset]", https://doi.org/10.11588/data/50WFVL, heiDATA, V1, UNF:6:B4RPojcFDrMxlhi/kXeKpQ== [fileUNF]
Introduction. Since its introduction in the DSM-5 and the ICD-11, the construct of personality functioning has received increased research interest. Recent studies have shown that psychotherapy contributes to an improvement in personality functioning. However, it remains unclear... |
Mar 4, 2024 - 3D Matter Made to Order (3DMM2O)
Catt, Samantha; Hackner, Maximillian; Spatz, Joachim P.; Blasco, Eva, 2024, "Macromolecular Engineering: From Precise Macromolecular Inks to 3D Printed Microstructures [data]", https://doi.org/10.11588/data/T2SJZC, heiDATA, V1
Macromolecules with complex, defined structures exist in nature but rarely is this degree of control afforded in synthetic macromolecules. Sequence-defined approaches provide a solution for precise control of the primary macromolecular structure. Despite a growing interest, very... |
Pham, Truc Lam; Fazliev, Sunnatullo; Baur, Philipp; Comba, Peter; Thomas, Franziska, 2024, "An Engineered β-Hairpin Peptide Forming Thermostable Complexes with ZnII, NiII, and CuII through a His3 Site [Research Data]", https://doi.org/10.11588/data/SIESG0, heiDATA, V1
The three-dimensional structure of a peptide, which determines its function, can denature at elevated temperatures, in the presence of chaotropic reagents, or in organic solvents. These factors limit the applicability of peptides. Herein, we present an engineered β-hairpin peptid... |
Illig, Maja; Jahnke, Kevin; Weise, Lukas P.; Scheffold, Marlene; Mersdorf, Ulrike; Drechsler, Hauke; Zhang, Yixin; Diez, Stefan; Kierfeld, Jan; Göpfrich, Kerstin, 2024, "Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]", https://doi.org/10.11588/data/ADYUNN, heiDATA, V1, UNF:6:AJdXI51lTUqvs4V/XCVPZQ== [fileUNF]
Contractile rings formed from cytoskeletal filaments mediate the division of cells. Ring formation is induced by specific crosslinkers, while contraction is typically associated with motor protein activity. Here, we engineer DNA nanotubes as mimics of cytoskeletal filaments and a... |
Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
JPEG Image - 476.3 KB -
MD5: a56208e558a72303a968a5a660a4c84b
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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
TIFF Image - 33.0 MB -
MD5: 3cbb52face4cfe5b5c467e440baf0aec
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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
JPEG Image - 486.7 KB -
MD5: 6012ae2eec6942b532c26df8b95bb3c1
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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
TIFF Image - 33.0 MB -
MD5: 41276168cf582087ea79ed58501f50de
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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
TIFF Image - 33.0 MB -
MD5: 41276168cf582087ea79ed58501f50de
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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
PNG Image - 27.2 KB -
MD5: 8369d19a3d16117c0f68de8dd2547a18
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