21 to 30 of 37,871 Results
Jul 22, 2025 -
Data to support Fig.2,Fig.3 ,Fig.4 and Fig.6
Fixed Field Text Data - 73.1 KB -
MD5: 80b010efed4e6dd0cd745a6eb6f5ba4d
2D array for A_right
values are in percent and the in-plane k_x and k_y range is +/-0.3968 inverse Angstrom |
Jul 22, 2025 -
Data to support Fig.2,Fig.3 ,Fig.4 and Fig.6
Fixed Field Text Data - 73.4 KB -
MD5: 88e5ce7def5f6a4d145ba52ac2a4c75b
2D array for A_diff
values are in percent and the in-plane k_x and k_y range is +/-0.3968 inverse Angstrom |
Jul 22, 2025 -
Data to support Fig.2,Fig.3 ,Fig.4 and Fig.6
Fixed Field Text Data - 74.4 KB -
MD5: 20306fe6adea9bc87afa4907a9cff66b
2D array for A_diff
The value is in percent and the in-plane k_x and k_y range is +/-0.3968 inverse Angstrom |
Jul 22, 2025 -
Data to support Fig.2,Fig.3 ,Fig.4 and Fig.6
Fixed Field Text Data - 73.0 KB -
MD5: b406eacb29ca1c5c948a841e756893ec
values are in percent and the in-plane k_x and k_y range is +/-0.3968 inverse Angstrom |
Jul 22, 2025
Borg, Michael, 2025, "The expanded Bostrychia moritziana genome unveils evolution in the most diverse and complex order of red algae", https://doi.org/10.17617/3.RTULYR, Edmond, V2
Red seaweeds form part of an ancient lineage of eukaryotes that were one of the first to evolve multicellularity. Although red seaweeds share a common evolutionary origin with modern-day plants and display complex multicellular development, we still lack comprehensive genome data from the most highly-evolved groups. Here, we present a chromosome-le... |
Jul 22, 2025 -
The expanded Bostrychia moritziana genome unveils evolution in the most diverse and complex order of red algae
audio/audible - 5.2 MB -
MD5: 4c9afd5f0c2341a98dd926d6fd9643e1
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Jul 22, 2025 -
The expanded Bostrychia moritziana genome unveils evolution in the most diverse and complex order of red algae
biosequence/fasta - 1013.1 MB -
MD5: 0339fb477976d131c20f9aeeb8046951
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Jul 22, 2025 -
The expanded Bostrychia moritziana genome unveils evolution in the most diverse and complex order of red algae
Unknown - 10.9 MB -
MD5: 6052a9e2f57b713251decdb524b0649b
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Jul 22, 2025
Lago-Maciel, Ana, 2025, "Methylthio-alkane reductases use nitrogenase metalloclusters for carbon-sulfur bond cleavage", https://doi.org/10.17617/3.OHDUAZ, Edmond, V1
Source data of the manuscript "Methylthio-alkane reductases use nitrogenase metalloclusters for carbon-sulfur bond cleavage", including SDS-PAGE analysis, ICP-OES and mass photometry measurements, gas chromatography and NMR enzyme activity assays and EPR spectroscopy. |
Jul 22, 2025 -
Methylthio-alkane reductases use nitrogenase metalloclusters for carbon-sulfur bond cleavage
application/vnd.chemdraw+xml - 27.7 KB -
MD5: 825fd4f411c2936444d58422f22787d4
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