Image:GLUT1 Hydrophobic Pocket.png
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Summary
Proposed glucose-binding mechanism in the crystal structure 4pyp rendered in PyMol. The proposed hydrophobic pocket residues of Gly27, Thr30, Ile164, Val165, Ile168, and Phe291 are colored magenta. Both Asn288 and Asn317 show that there may also be transient hydrogen bonding in glucose binding to GLUT1.
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File history
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Date/Time | User | Dimensions | File size | Comment | |
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(current) | 22:48, 2 May 2022 | Adam Kingsley (Talk | contribs) | 1553×776 | 711 KB | Proposed glucose-binding mechanism in the crystal structure 4pyp rendered in PyMol. The proposed hydrophobic pocket residues of Gly27, Thr30, Ile164, Val165, Ile168, and Phe291 are colored magenta. Both Asn288 and Asn317 show that there may also be transi |
22:05, 2 May 2022 | Adam Kingsley (Talk | contribs) | 1553×776 | 711 KB | Proposed glucose-binding mechanism in the crystal structure 4pyp rendered in PyMol. The proposed hydrophobic pocket residues of Gly27, Thr30, Ile164, Val165, Ile168, and Phe291 are colored magenta. Both Asn288 and Asn317 show that there may also be tr |
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