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8AM4
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BU of 8am4 by Molmil
Cl-rsEGFP2 Long Wavelength Structure
Descriptor: Green fluorescent protein
Authors:Orr, C.M, Fadini, A, van Thor, J.
Deposit date:2022-08-02
Release date:2023-08-02
Last modified:2024-01-31
Method:X-RAY DIFFRACTION (2.02 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 2023
8A6O
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BU of 8a6o by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 600 fs after Photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-18
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6S
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BU of 8a6s by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 1 microsecond after Photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-19
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6N
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BU of 8a6n by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 300 fs after Photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-18
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A83
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BU of 8a83 by Molmil
rsEGFP2 with a chlorinated chromophore in the fluorescent ON-state in a crystal dehydrated after illumination
Descriptor: Green fluorescent protein, SULFATE ION
Authors:Fadini, A, van Thor, J, Chang, J.
Deposit date:2022-06-21
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.81 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6G
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BU of 8a6g by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore in the non-fluorescent OFF-state
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-17
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6P
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BU of 8a6p by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 900 fs after photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-18
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6R
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BU of 8a6r by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 100 ps after Photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-18
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A6Q
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BU of 8a6q by Molmil
Room temperature rsEGFP2 with a chlorinated chromophore 5 ps after photoexcitation
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-18
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.63 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
8A7V
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BU of 8a7v by Molmil
Room temperature rsEGFP2 in its OFF-state obtained with SFX
Descriptor: Green fluorescent protein
Authors:Fadini, A, van Thor, J.
Deposit date:2022-06-21
Release date:2023-07-19
Last modified:2024-02-07
Method:X-RAY DIFFRACTION (1.46 Å)
Cite:Serial Femtosecond Crystallography Reveals that Photoactivation in a Fluorescent Protein Proceeds via the Hula Twist Mechanism.
J.Am.Chem.Soc., 145, 2023
4WLA
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BU of 4wla by Molmil
Time Resolved Serial Femtosecond Crystallography Captures High Resolution Intermediates of PYP
Descriptor: 4'-HYDROXYCINNAMIC ACID, Photoactive yellow protein
Authors:Tenboer, J, Schmidt, M.
Deposit date:2014-10-06
Release date:2014-12-17
Last modified:2023-09-27
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Time-resolved serial crystallography captures high-resolution intermediates of photoactive yellow protein.
Science, 346, 2014
4WL9
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BU of 4wl9 by Molmil
Time Resolved Serial Femtosecond Crystallography Captures High Resolution Intermediates of PYP
Descriptor: 4'-HYDROXYCINNAMIC ACID, Photoactive yellow protein
Authors:Tenboer, J, Schmidt, M.
Deposit date:2014-10-06
Release date:2014-12-17
Last modified:2023-09-27
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Time-resolved serial crystallography captures high-resolution intermediates of photoactive yellow protein.
Science, 346, 2014
5HD5
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BU of 5hd5 by Molmil
Femtosecond Structural Dynamics Drives the Trans/Cis Isomerization in Photoactive Yellow Protein: 200 ns time delay photo-activated (light) structure
Descriptor: Photoactive yellow protein
Authors:Pande, K, Tenboer, J, Schmidt, M.
Deposit date:2016-01-04
Release date:2016-05-25
Last modified:2023-11-15
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein.
Science, 352, 2016
5HD3
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BU of 5hd3 by Molmil
Femtosecond Structural Dynamics Drives the Trans/Cis Isomerization in Photoactive Yellow Protein: Dark structure of photoactive yellow protein
Descriptor: Photoactive yellow protein
Authors:Pande, K, Tenboer, J, Schmidt, M.
Deposit date:2016-01-04
Release date:2016-05-18
Last modified:2023-11-15
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein.
Science, 352, 2016
5HDS
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BU of 5hds by Molmil
Femtosecond Structural Dynamics Drives the Trans/Cis Isomerization in Photoactive Yellow Protein: 3 ps Structure
Descriptor: Photoactive yellow protein
Authors:Pande, K, Tenboer, J, Schmidt, M.
Deposit date:2016-01-05
Release date:2016-05-25
Last modified:2023-11-15
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein.
Science, 352, 2016
5HDC
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BU of 5hdc by Molmil
Femtosecond Structural Dynamics Drives the Trans/Cis Isomerization in Photoactive Yellow Protein: 100 fs to 400 fs Structure
Descriptor: Photoactive yellow protein
Authors:Pande, K, Tenboer, J, Schmidt, M.
Deposit date:2016-01-05
Release date:2016-05-25
Last modified:2023-11-15
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein.
Science, 352, 2016
5HDD
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BU of 5hdd by Molmil
Femtosecond Structural Dynamics Drives the Trans/Cis Isomerization in Photoactive Yellow Protein: 800 fs to 1200 fs Structure
Descriptor: Photoactive yellow protein
Authors:Pande, K, Tenboer, J, Schmidt, M.
Deposit date:2016-01-05
Release date:2016-05-25
Last modified:2023-11-15
Method:X-RAY DIFFRACTION (1.6 Å)
Cite:Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein.
Science, 352, 2016
2KX6
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BU of 2kx6 by Molmil
Signaling state of Photoactive Yellow Protein
Descriptor: 4'-HYDROXYCINNAMIC ACID, Photoactive yellow protein
Authors:Ramachandran, P.L, Lovett, J.E, Carl, P.J, Cammarata, M, Lee, J.H, Yang, J.O, Ihee, H, Timmel, C.R, van Thor, J.
Deposit date:2010-04-27
Release date:2011-06-15
Last modified:2012-07-18
Method:SOLUTION NMR, SOLUTION SCATTERING
Cite:The short-lived signaling state of the photoactive yellow protein photoreceptor revealed by combined structural probes.
J.Am.Chem.Soc., 133, 2011
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