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21 to 30 of 37,871 Results
Fig4_b.dat
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
Fig4_c.dat
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
Fig6.dat
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
Fig2_d.dat
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
The expanded Bostrychia moritziana genome unveils evolution in the most diverse and complex order of red algae
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...
Bm3235_complete_v1.aa
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
Bm3235_complete_v1.fa
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
Bm3235_complete_v1.gtf
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
Methylthio-alkane reductases use nitrogenase metalloclusters for carbon-sulfur bond cleavage
Methylthio-alkane reductases use nitrogenase metalloclusters for carbon-sulfur bond cleavage
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.
Fig1a_DPOR_reaction_nature style.cdxml
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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