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Showing 1 - 50 of 98 items for (author: dhingra & s)

EMDB-75283: 
SemiClosed Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with a semi-closed active site (closed TL and SI3, open RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75284: 
CBR9379 bound Open1 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75285: 
CBR9379 bound Open2 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75286: 
Closed Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with a closed active site (closed TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75287: 
Open Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with an open active site (open TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75288: 
SemiClosed Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with a semiclosed active site (closed TL, open RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75289: 
AAP-SO2 bound Open Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with an open active site (open TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10me: 
SemiClosed Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with a semi-closed active site (closed TL and SI3, open RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mf: 
CBR9379 bound Open1 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mg: 
CBR9379 bound Open2 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mi: 
Closed Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with a closed active site (closed TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mj: 
Open Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with an open active site (open TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mk: 
SemiClosed Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with a semiclosed active site (closed TL, open RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10ml: 
AAP-SO2 bound Open Mtb-EC: Cryo-EM structure of Mtb RNAP elongation complex (substrate loading mimic) with an open active site (open TL and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75279: 
Closed Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with a closed active site (closed TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75280: 
Open1 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75281: 
Open2 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-75282: 
Open3 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10ma: 
Closed Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with a closed active site (closed TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mb: 
Open1 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10mc: 
Open2 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

PDB-10md: 
Open3 Eco-ePEC: Cryo-EM structure of Eco RNAP his-elemental paused elongation complex with an open active site (open TL, SI3 and RH-FL)
Method: single particle / : Dhingra Y, Darst SA

EMDB-70456: 
The structure of short splice variant (Q9UBL9-2) of human P2X2 receptor channel in lipid nanodiscs with 5mM MgCl2
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70457: 
The structure of short splice variant (Q9UBL9-2) of human P2X2 receptor channel in lipid nanodiscs
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70468: 
Human P2X2 apo structure in lipid nanodiscs
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70496: 
Human P2X2 receptor channel in lipid nanodiscs with 0.5mM Suramin
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70526: 
Human P2X2 receptor channel in detergent with residual ATP after apyrase treatment
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70527: 
Human P2X2 receptor channel in detergent with residual ATP
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70543: 
The open state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70602: 
The pre-desensitized state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70617: 
The desensitized state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

EMDB-70629: 
The pre-open state 1 structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

EMDB-73782: 
The structure of short splice variant (Q9UBL9-2) of human P2X2 receptor channel in lipid nanodiscs with Mg-ATP
Method: single particle / : Dhingra S, Swartz KJ

PDB-9ogh: 
Human P2X2 apo structure in lipid nanodiscs
Method: single particle / : Dhingra S, Swartz KJ

PDB-9ohk: 
Human P2X2 receptor channel in lipid nanodiscs with 0.5mM Suramin
Method: single particle / : Dhingra S, Swartz KJ

PDB-9oir: 
Human P2X2 receptor channel in detergent with residual ATP
Method: single particle / : Dhingra S, Swartz KJ

PDB-9ojk: 
The open state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

PDB-9om0: 
The pre-desensitized state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

PDB-9omr: 
The desensitized state structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

PDB-9on5: 
The pre-open state 1 structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

PDB-9on6: 
The pre-open state 2 structure of human P2X2 receptor channel in lipid nanodiscs with free ATP and sodium
Method: single particle / : Dhingra S, Swartz KJ

PDB-9z32: 
The structure of short splice variant (Q9UBL9-2) of human P2X2 receptor channel in lipid nanodiscs with Mg-ATP
Method: single particle / : Dhingra S, Swartz KJ

EMDB-34197: 
GluK1-1a receptor captured in the desensitized state
Method: single particle / : Dhingra S, Kumar J

PDB-8gpr: 
GluK1-1a receptor captured in the desensitized state
Method: single particle / : Dhingra S, Kumar J

EMDB-34076: 
GluK1-1a in nanodisc captured in SYM2081 bound desensitized state
Method: single particle / : Dhingra S, Kumar J

EMDB-34083: 
GluK1-1a extracellular domain captured in SYM2081 bound desensitized state
Method: single particle / : Dhingra S, Kumar J

PDB-7ysj: 
GluK1-1a in nanodisc captured in SYM2081 bound desensitized state
Method: single particle / : Dhingra S, Kumar J

PDB-7ysv: 
GluK1-1a extracellular domain captured in SYM2081 bound desensitized state
Method: single particle / : Dhingra S, Kumar J

EMDB-27159: 
Type I-C Cas4-Cas1-Cas2 complex bound to a PAM/PAM prespacer
Method: single particle / : Dhingra Y, Suresh SK, Juneja P, Sashital DG

EMDB-27160: 
Type I-C Cas4-Cas1-Cas2 complex bound to a PAM/Processed prespacer
Method: single particle / : Dhingra Y, Suresh SK, Juneja P, Sashital DG
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