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Showing 1 - 50 of 72 items for (author: m. & l. & baker)

PDB-8glt:
Backbone model of de novo-designed chlorophyll-binding nanocage O32-15
Method: single particle / : Redler RL, Ennist NM, Wang S, Baker D, Ekiert DC, Bhabha G

PDB-8eaq:
Structure of the full-length IP3R1 channel determined at high Ca2+
Method: single particle / : Fan G, Baker MR, Terry LE, Arige V, Chen M, Seryshev AB, Baker ML, Ludtke SJ, Yule DI, Serysheva II

PDB-8ear:
Structure of the full-length IP3R1 channel determined in the presence of Calcium/IP3/ATP
Method: single particle / : Fan G, Baker MR, Terry LE, Arige V, Chen M, Seryshev AB, Baker ML, Ludtke SJ, Yule DI, Serysheva II

PDB-7spb:
Models for C13 reconstruction of Outer Membrane Core Complex (OMCC) of Type IV Secretion System (T4SS) encoded by F-plasmid (pED208).
Method: single particle / : Liu X, Khara P, Baker ML, Christie PJ, Hu B

PDB-7spc:
Models for C17 reconstruction of Outer Membrane Core Complex (OMCC) of Type IV Secretion System (T4SS) encoded by F-plasmid (pED208).
Method: single particle / : Liu X, Khara P, Baker ML, Christie PJ, Hu B

PDB-7spi:
Models for C13 reconstruction of Outer Membrane Core Complex (OMCC) of Type IV Secretion System (T4SS) encoded by a plasmid overproducing TraV, TraK and TraB of pED208
Method: single particle / : Liu X, Khara P, Baker ML, Christie PJ, Hu B

PDB-7spj:
Models for C17 reconstruction of Outer Membrane Core Complex (OMCC) of Type IV Secretion System (T4SS) encoded by a plasmid overproducing TraV, TraK and TraB of pED208
Method: single particle / : Liu X, Khara P, Baker ML, Christie PJ, Hu B

PDB-7spk:
Models for C16 reconstruction of Outer Membrane Core Complex (OMCC) of Type IV Secretion System (T4SS) encoded by a plasmid overproducing TraV, TraK and TraB of pED208
Method: single particle / : Liu X, Khara P, Baker ML, Christie PJ, Hu B

PDB-7l7t:
BG505 SOSIP reconstructed from a designed nanoparticle, BG505 SOSIP-T33-31 (Component A)
Method: single particle / : Antanasijevic A, Cannac F, Sewall LM, Ward AB

PDB-7l7u:
BG505 SOSIP reconstructed from a designed nanoparticle, BG505 SOSIP-T33-31 (Component B)
Method: single particle / : Antanasijevic A, Froes Rocha R, Sewall LM, Ward AB

PDB-7l85:
Designed tetrahedral nanoparticle T33-31 presenting BG505 SOSIP trimers
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l86:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-1 from animal Rh.32034 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l87:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-2 from animal Rh.32034 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Yang YR, Perrett HR, Ward AB

PDB-7l88:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-3 from animal Rh.32034 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Cannac F, Perrett HR, Ward AB

PDB-7l89:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-4 from animal Rh.32034 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Rantalainen K, Perrett HR, Ward AB

PDB-7l8a:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-1 from animal Rh.33104 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Torrents de la Pena A, Ward AB

PDB-7l8b:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-2 from animal Rh.33104 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Yang YR, Perrett HR, Ward AB

PDB-7l8c:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-3 from animal Rh.33104 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Perrett HR, Ward AB

PDB-7l8d:
BG505 SOSIP MD39 in complex with the polyclonal Fab pAbC-4 from animal Rh.33104 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8e:
BG505 SOSIP.v5.2(7S) in complex with the polyclonal Fab pAbC-1 from animal Rh.33172 (Wk38 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8f:
BG505 SOSIP.v5.2(7S) in complex with the polyclonal Fab pAbC-2 from animal Rh.33172 (Wk38 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8g:
BG505 SOSIP.v5.2(7S) in complex with the polyclonal Fab pAbC-3 from animal Rh.33172 (Wk38 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Rantalainen K, Ward AB

PDB-7l8s:
BG505 SOSIP.v5.2(7S) in complex with the polyclonal Fab pAbC-4 from animal Rh.33172 (Wk38 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8t:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-1 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8u:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-2 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Rantalainen K, Ward AB

PDB-7l8w:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-3 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7l8x:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-4 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Yang YR, Ward AB

PDB-7l8y:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-5 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Cannac F, Ward AB

PDB-7l8z:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-7 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Perrett HR, Ward AB

PDB-7l90:
BG505 SOSIP.v5.2 N241/N289 in complex with the polyclonal Fab pAbC-8 from animal Rh.33311 (Wk26 time point)
Method: single particle / : Antanasijevic A, Sewall LM, Ward AB

PDB-7lhe:
Structure of full-length IP3R1 channel reconstituted into lipid nanodisc in the apo-state
Method: single particle / : Baker MR, Fan G, Baker ML, Serysheva II

PDB-7lhf:
Structure of full-length IP3R1 channel solubilized in LNMG & lipid in the apo-state
Method: single particle / : Baker MR, Fan G, Baker ML, Serysheva II

PDB-6mu1:
Structure of full-length IP3R1 channel bound with Adenophostin A
Method: single particle / : Serysheva II, Fan G, Baker MR, Wang Z, Seryshev A, Ludtke SJ, Baker ML

PDB-6mu2:
Structure of full-length IP3R1 channel in the Apo-state
Method: single particle / : Serysheva II, Fan G, Baker MR, Wang Z, Seryshev A, Ludtke SJ, Baker ML

PDB-6aj0:
The structure of Enterovirus D68 mature virion
Method: single particle / : Zheng QB, Zhu R, Xu LF, He MZ, Yan XD, Cheng T, Li SW

PDB-6aj2:
The structure of ICAM-5 triggered Enterovirus D68 virus A-particle
Method: single particle / : Zheng QB, Zhu R, Xu LF, He MZ, Yan XD, Cheng T, Li SW

PDB-6aj3:
The structure of Enterovirus D68 procapsid
Method: single particle / : Zheng QB, Zhu R, Xu LF, He MZ, Yan XD, Cheng T, Li SW

PDB-6aj7:
The structure of Enterovirus D68 mature virion in complex with Fab 15C5
Method: single particle / : Zheng QB, Zhu R, Xu LF, He MZ, Yan XD, Cheng T, Li SW

PDB-6aj9:
The structure of Enterovirus D68 mature virion in complex with Fab 15C5 and 11G1
Method: single particle / : Zheng QB, Zhu R, Xu LF, He MZ, Yan XD, Cheng T, Li SW

PDB-5xs4:
Structure of Coxsackievirus A6 (CVA6) virus A-particle
Method: single particle / : Zheng QB, He MZ, Xu LF, Yu H, Li SW, Cheng T

PDB-5xs5:
Structure of Coxsackievirus A6 (CVA6) virus procapsid particle
Method: single particle / : Zheng QB, He MZ, Xu LF, Yu H, Cheng T, Li SW

PDB-5xs7:
Structure of Coxsackievirus A6 (CVA6) virus A-particle in complex with the neutralizing antibody fragment 1D5
Method: single particle / : Zheng QB, He MZ, Xu LF, Yu H, Li SW, Cheng T

PDB-5ipi:
Structure of Adeno-associated virus type 2 VLP
Method: single particle / : Drouin LM, Lins B, Janssen ME, Bennet A, Chipman P, McKenna R, Chen W, Muzyczka N, Cardone G, Baker TS, Agbandje-McKenna M

PDB-5ipk:
Structure of the R432A variant of Adeno-associated virus type 2 VLP
Method: single particle / : Drouin LM, Lins B, Janssen ME, Bennet A, Chipman P, McKenna R, Chen W, Muzyczka N, Cardone G, Baker TS, Agbandje-McKenna M

PDB-3jav:
Structure of full-length IP3R1 channel in the apo-state determined by single particle cryo-EM
Method: single particle / : Fan G, Baker ML, Wang Z, Baker MR, Sinyagovskiy PA, Chiu W, Ludtke SJ, Serysheva II

PDB-3jbq:
Domain Organization and Conformational Plasticity of the G Protein Effector, PDE6
Method: single particle / : Zhang Z, He F, Constantine R, Baker ML, Baehr W, Schmid MF, Wensel TG, Agosto MA

PDB-3jab:
Domain organization and conformational plasticity of the G protein effector, PDE6
Method: single particle / : Zhang Z, He F, Constantine R, Baker ML, Baehr W, Schmid MF, Wensel TG, Agosto MA

PDB-3j7l:
Full virus map of brome mosaic virus
Method: single particle / : Wang Z, Hryc C, Bammes B, Afonine PV, Jakana J, Chen DH, Liu X, Baker ML, Kao C, Ludtke SJ, Schmid MF, Adams PD, Chiu W

PDB-3j7m:
Virus model of brome mosaic virus (first half data set)
Method: single particle / : Wang Z, Hryc C, Bammes B, Afonine PV, Jakana J, Chen DH, Liu X, Baker ML, Kao C, Ludtke SJ, Schmid MF, Adams PD, Chiu W

PDB-3j7n:
Virus model of brome mosaic virus (second half data set)
Method: single particle / : Wang Z, Hryc C, Bammes B, Afonine PV, Jakana J, Chen DH, Liu X, Baker ML, Kao C, Ludtke SJ, Schmid MF, Adams PD, Chiu W

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Oct 5, 2021. Nobel Prize for mechanically activated and temperature-gated ion channels

Nobel Prize for mechanically activated and temperature-gated ion channels

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External links:The Nobel Prize in Physiology or Medicine 2021 - NobelPrize.org / Structure data by Ardem Patapoutian / Structure data by David Julius

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