Structural Entry Filters:

Search Count: 56

9YPO image
9YPO
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Gtpbp1*Gcp*Phe-Trna*Ribosome In The Open State, Structure Iia
Organism: Homo sapiens, Oryctolagus cuniculus, Saccharomyces cerevisiae
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, GTP, PHE, ATP, MET, GCP, MG, K
9YPS image
9YPS
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Gtpbp1*Gcp*Phe-Trna*Ribosome In The Open State, Structure Iib
Organism: Homo sapiens, Oryctolagus cuniculus, Saccharomyces cerevisiae
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, GTP, PHE, ATP, MET, K, GCP, MG
9YPT image
9YPT
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Gtpbp1*Gcp*Phe-Trna*Ribosome In The Open State, Structure Iic
Organism: Homo sapiens, Oryctolagus cuniculus, Saccharomyces cerevisiae
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, GTP, PHE, ATP, MET, GCP, MG, K
9YPV image
9YPV
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Gtpbp1*Gcp*Phe-Trna*Ribosome In The Open State, Structure Iid
Organism: Homo sapiens, Oryctolagus cuniculus, Saccharomyces cerevisiae
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, GTP, PHE, ATP, MET, K, GCP, MG
9YQ0 image
9YQ0
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Vacant Ribosome With P-Site Trna, Substate 2, Structure Ib
Organism: Homo sapiens, Oryctolagus cuniculus
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, ATP, MET
9YQ1 image
9YQ1
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Vacant Ribosome With P-Site Trna, Substate 3, Structure Ic
Organism: Oryctolagus cuniculus, Homo sapiens
Method: ELECTRON MICROSCOPY
Release Date: 2025-12-17
Classification: RIBOSOME
Ligands: SPD, ZN, ATP, MET
9MM6 image
9MM6
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Roolefa-Octamer-Wild Type
Organism: Enterococcus faecalis jh1
Method: ELECTRON MICROSCOPY
Release Date: 2025-06-04
Classification: RNA
Ligands: K, MG
9MME image
9MME
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Roolfirm-Octamer-Wild Type
Organism: Firmicutes bacterium cag:227
Method: ELECTRON MICROSCOPY
Release Date: 2025-06-04
Classification: RNA
Ligands: MG, K
9MMG image
9MMG
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Roolefa-Monomer-Alone
Organism: Enterococcus faecalis jh1
Method: ELECTRON MICROSCOPY
Release Date: 2025-06-04
Classification: RNA
9BF3 image
9BF3
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Cryo-Em Structure Of Gcn2 Hrsl Domain
Organism: Kluyveromyces marxianus
Method: ELECTRON MICROSCOPY
Release Date: 2024-12-18
Classification: SIGNALING PROTEIN
8DFV image
8DFV
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Iia
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
Ligands: CA
8DG5 image
8DG5
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Iib
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
Ligands: MG, U5P
8DG7 image
8DG7
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Iii
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
Ligands: MG, U5P
8DGA image
8DGA
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Iv
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
Ligands: U5P
8DGI image
8DGI
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Ia
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
8DGJ image
8DGJ
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Structural Basis Of Microrna Biogenesis By Dicer-1 And Its Partner Protein Loqs-Pb - Complex Ib
Organism: Drosophila melanogaster
Method: ELECTRON MICROSCOPY
Release Date: 2022-11-16
Classification: RNA BINDING PROTEIN/RNA
6ZNC image
6ZNC
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Structural Basis Of Reactivation Of Oncogenic P53 Mutants By A Small Molecule: Methylene Quinuclidinone (Mq). Human Wild-Type P53Dbd Bound To Dna And Mq: Wt-Dna-Mq (I)
Organism: Homo sapiens, Synthetic construct
Method: X-RAY DIFFRACTION
Resolution:1.64 Å Release Date: 2021-12-08
Classification: TRANSCRIPTION
Ligands: ZN, QNN, QN8
7B46 image
7B46
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Structural Basis Of Reactivation Of Oncogenic P53 Mutants By A Small Molecule: Methylene Quinuclidinone (Mq). Human Wild-Type P53Dbd Bound To Dna And Mq: Wt-Dna-Mq (P1)
Organism: Homo sapiens, Synthetic construct
Method: X-RAY DIFFRACTION
Resolution:2.02 Å Release Date: 2021-12-08
Classification: TRANSCRIPTION
Ligands: ZN, QN8, ACT, QNN
7B47 image
7B47
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Structural Basis Of Reactivation Of Oncogenic P53 Mutants By A Small Molecule: Methylene Quinuclidinone (Mq). Human P53Dbd-R273H Mutant Bound To Mq: R273H-Mq (I)
Organism: Homo sapiens
Method: X-RAY DIFFRACTION
Resolution:1.80 Å Release Date: 2021-12-08
Classification: TRANSCRIPTION
Ligands: ZN, QN8, QNN
7B48 image
7B48
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Structural Basis Of Reactivation Of Oncogenic P53 Mutants By A Small Molecule: Methylene Quinuclidinone (Mq). Human P53Dbd-R273H Mutant Bound To Mq: R273H-Mq (Ii)
Organism: Homo sapiens
Method: X-RAY DIFFRACTION
Resolution:2.05 Å Release Date: 2021-12-08
Classification: TRANSCRIPTION
Ligands: ZN, QNN, EDO, ACT, PEG
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