File list
From Proteopedia
 Date |
Name | User | Size | Description |
|---|---|---|---|---|
| 19:06, 30 November 2025 | 9OVR_overall_homodimer_structure.png (file) | Mousumi Kandangkel | 214 KB | (Description: This view displays the complete homodimeric architecture of human NBCn1 (PDB: 9OVR) as resolved by cryo-EM. The structure shows two identical protein chains (monomers) arranged side-by-side, with Chain A colored cyan and Chain B colored magen) |
| 18:42, 30 November 2025 | Animated_8yny.gif (file) | Aryan ORCID 0009-0009-3985-5093 | 1.89 MB | |
| 18:32, 30 November 2025 | 9ovr.pdb (file) | Mousumi Kandangkel | 872 KB | (Description: This view displays the complete homodimeric architecture of human NBCn1 (PDB: 9OVR) as resolved by cryo-EM. The structure shows two identical protein chains (monomers) arranged side-by-side, with Chain A colored cyan and Chain B colored magen) |
| 18:21, 30 November 2025 | Calcium_Permeability_(K639_in_S6)_.png (file) | Mari Debbarma | 736 KB | (The positively charged K639 from TRPC1 creates an electropositive environment deep in the pore that repels positively charged $\text{Ca}^{2+}$ ions) |
| 18:19, 30 November 2025 | Selectivity_Filter_Narrowing_(L601)_.png (file) | Mari Debbarma | 553 KB | (L601 (TRPC1) physically projects into the pore, driven by a longer selectivity filter loop, narrowing the ion pathway and altering monovalent ion preference.) |
| 18:10, 30 November 2025 | Asymmetry_(TRPC1_TRPC4_Stoichiometry)_.png (file) | Mari Debbarma | 408 KB | (TRPC1 changing the symmetry when incorporated in TRPC4) |
| 17:56, 30 November 2025 | Calcium_Permeability_(K639_in_S6).pse (file) | Mari Debbarma | 6.39 MB | ($\text{K639}$ on TRPC1 acts as an electrostatic barrier that actively excludes $\text{Ca}^{2+}$ from the central conduction pathway) |
| 17:54, 30 November 2025 | Selectivity_Filter_Narrowing_(L601).pse (file) | Mari Debbarma | 6.38 MB | (The extra length of the TRPC1 loop, anchored by the protruding $\text{L601}$ side chain, creates an asymmetric constriction in the selectivity filter, which is the mechanism behind the channel's shift toward monovalent ion selectivity) |
| 17:52, 30 November 2025 | BSL.jpeg (file) | Ananya Datta | 56 KB | (Branchpoint-interacting Stem-Loop (BSL) formation in human 17S U2 snRNP) |
| 17:52, 30 November 2025 | 1._Asymmetry_(TRPC1_TRPC4_Stoichiometry).pse (file) | Mari Debbarma | 6.3 MB | (The incorporation of the single TRPC1 subunit is the structural determinant that converts a symmetric pore into an asymmetric one, thereby changing its function) |
| 17:50, 30 November 2025 | 4F5W.pse (file) | Disha Sonwani | 518 KB | |
| 17:50, 30 November 2025 | 4F5W_2.pse (file) | Disha Sonwani | 539 KB | |
| 17:44, 30 November 2025 | 8YNYMutant.jpg (file) | Aryan ORCID 0009-0009-3985-5093 | 98 KB | |
| 17:44, 30 November 2025 | 8YNYPI.jpg (file) | Aryan ORCID 0009-0009-3985-5093 | 184 KB | |
| 17:43, 30 November 2025 | Hap40.png (file) | Raghav Pareek | 418 KB | |
| 17:37, 30 November 2025 | 8YNYOverall.jpg (file) | Aryan ORCID 0009-0009-3985-5093 | 78 KB | |
| 17:37, 30 November 2025 | FINAL.PNG (file) | Pujit Vashistha | 531 KB | |
| 17:34, 30 November 2025 | Final.png (file) | Pujit Vashistha | 531 KB | |
| 17:33, 30 November 2025 | 8YNYOverall.png (file) | Aryan ORCID 0009-0009-3985-5093 | 407 KB | |
| 17:30, 30 November 2025 | Figure3_ligand_view.png (file) | Gaurav Deori | 511 KB | |
| 17:26, 30 November 2025 | Figure2_binding_pocket.png (file) | Gaurav Deori | 509 KB | (Binding pocket of hMATE1) |
| 17:19, 30 November 2025 | Figure1_full_structure.png (file) | Gaurav Deori | 369 KB | (Structure of human MATE1) |
| 17:19, 30 November 2025 | Basic_setup_.png (file) | Kanishka N Chaudhari | 164 KB | |
| 17:14, 30 November 2025 | S2_fusion_machinery_(heptad_repeats etc.).png (file) | Kanishka N Chaudhari | 104 KB | |
| 17:00, 30 November 2025 | XPR1_final.png (file) | Aritra Paul | 191 KB | |
| 16:52, 30 November 2025 | XPR1_im222.png (file) | Aritra Paul | 316 KB | |
| 16:45, 30 November 2025 | XPR1_im1.png (file) | Aritra Paul | 309 KB | (This is an image to be used in my assignment) |
| 15:51, 30 November 2025 | Fig1234.png (file) | Saachi Sirola | 45 KB | |
| 15:48, 30 November 2025 | Overall_VA-ATPase.jpg (file) | Student | 63 KB | (Overall spacefill view of Thermus thermophilus V/A-type H+-ATPase (PDB 5Y5Y) rendered in PyMOL.) |
| 15:20, 30 November 2025 | Fig123.png (file) | Saachi Sirola | 554 KB | |
| 14:19, 30 November 2025 | HSA_Overall_Structure.png (file) | Jhanvi Kath | 202 KB | |
| 14:12, 30 November 2025 | HSA_+_Salicyclic.png (file) | Jhanvi Kath | 234 KB | |
| 13:31, 30 November 2025 | PLD3_active.png (file) | Mriganki Sarma | 173 KB | |
| 13:29, 30 November 2025 | IMG_0245.png (file) | Sarang Arunrao Harne | 871 KB | |
| 13:29, 30 November 2025 | IMG_0242.png (file) | Sarang Arunrao Harne | 1.16 MB | |
| 13:29, 30 November 2025 | IMG_0244.png (file) | Sarang Arunrao Harne | 996 KB | |
| 13:29, 30 November 2025 | IMG_0243.png (file) | Sarang Arunrao Harne | 1.79 MB | |
| 13:05, 30 November 2025 | IMG_0243.jpeg (file) | Sarang Arunrao Harne | 279 KB | |
| 12:37, 30 November 2025 | IMG_0245.jpeg (file) | Sarang Arunrao Harne | 130 KB | |
| 12:37, 30 November 2025 | IMG_0242.jpeg (file) | Sarang Arunrao Harne | 168 KB | |
| 12:36, 30 November 2025 | IMG_0244.jpeg (file) | Sarang Arunrao Harne | 165 KB | |
| 12:13, 30 November 2025 | 1HY9_positively_charged_cluster.png (file) | Vini Maheshwar | 74 KB | |
| 12:06, 30 November 2025 | Disulfide_architecture_of_CART(48–89).png (file) | Vini Maheshwar | 231 KB | (Reverted to version as of 11:37, 30 November 2025) |
| 12:05, 30 November 2025 | PIN2.png (file) | Aabha Humnabadkar | 482 KB | (Figure 4:The local confirmation change observed between the structures of PIN3apo and PIN3IAA showing the change of state due to binding of IAA. Figure obtained from: Su, N., Zhu, A., Tao, X. et al. Structures and mechanisms of the Arabidopsis auxin trans) |
| 11:51, 30 November 2025 | 1HY9_hydrophobic_patch_(2).png (file) | Vini Maheshwar | 211 KB | (Hydrophobic patches such as this are common recognition elements in peptide–protein interactions and represent a plausible primary receptor-binding interface.) |
| 11:50, 30 November 2025 | 1HY9_hydrophobic_patch_(1).png (file) | Vini Maheshwar | 205 KB | (1HY9 hydrophobic patch - Hydrophobic patches such as this are common recognition elements in peptide–protein interactions and represent a plausible primary receptor-binding interface.) |
| 11:45, 30 November 2025 | PIN4.gif (file) | Aabha Humnabadkar | 2.06 MB | (A clip taken from the YouTube video entitled: Structure and mechanism of the plant PIN-FORMED auxin transporter Posted by Nanion Technologies Link: https://www.youtube.com/watch?v=NPQK7T_UhrI Time stamp: 29:57 - 30:31 Speakers: Asc prof. Bjørn Panyella ) |
| 11:31, 30 November 2025 | Hoat1domain.png (file) | Kaushki Sharma | 212 KB | |
| 10:43, 30 November 2025 | PIN4.mp4 (file) | Aabha Humnabadkar | 745 KB | |
| 10:06, 30 November 2025 | PIN3.png (file) | Aabha Humnabadkar | 160 KB | (Auxin (IAAH) enters the cell through influx transporter passes directly through the plasma membrane (not shown). Auxin dissociates to release a proton (H+) and anion (IAA-) in the cytoplasm due to higher pH. Due to its charge, it requires PIN proteins to ) |
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