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11 to 15 of 15 Results
Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
JPEG Image - 462.3 KB -
MD5: d0b2b524e8608963df470cb8faea45f3
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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: 64dad7cd7bd45e82e4aba7d41a2edb99
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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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Feb 16, 2024 -
Triggered contraction of self-assembled micron-scale DNA nanotube rings [Research Data]
PNG Image - 25.0 KB -
MD5: 18b0d6cc3185cc2151cfa3038628bb9b
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Jan 26, 2024 - Siemens Lab
Marty-Lombardi, Sebastián; Lu, Shiying; Ambroziak, Wojciech; Schrenk-Siemens, Katrin; Wang, Jialin; DePaoli-Roach, Anna A.; Hagenston, Anna M.; Wende, Hagen; Tappe-Theodor, Anke; Simonetti, Manuela; Bading, Hilmar; Okun, Jürgen G.; Kuner, Rohini; Fleming, Thomas; Siemens, Jan, 2024, "Neuron-astrocyte metabolic coupling facilitates spinal plasticity and maintenance of inflammatory pain [data]", https://doi.org/10.11588/data/AMDH7G, heiDATA, V1
Long-lasting pain stimuli can trigger maladaptive changes in the spinal cord, reminiscent of plasticity associated with memory formation. Metabolic coupling between astrocytes and neurons has been implicated in neuronal plasticity and memory formation in the CNS, but neither its... |