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Showing 1 - 50 of 64 items for (author: altman & r)

EMDB-29757:
mRNA decoding in human is kinetically and structurally distinct from bacteria (IC state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29758:
mRNA decoding in human is kinetically and structurally distinct from bacteria (GA state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29759:
mRNA decoding in human is kinetically and structurally distinct from bacteria (CR state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29760:
mRNA decoding in human is kinetically and structurally distinct from bacteria (AC state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29766:
mRNA decoding in human is kinetically and structurally distinct from bacteria (60S Focus refined map)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29768:
mRNA decoding in human is kinetically and structurally distinct from bacteria (40S Focus refined map)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29771:
mRNA decoding in human is kinetically and structurally distinct from bacteria (GA state 2)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-29782:
mRNA decoding in human is kinetically and structurally distinct from bacteria (80S consensus refined structure)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

EMDB-40205:
mRNA decoding in human is kinetically and structurally distinct from bacteria (Consensus LSU focused refined structure)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Watson ZL, Altman RB, Blanchard SC

PDB-8g5y:
mRNA decoding in human is kinetically and structurally distinct from bacteria (IC state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

PDB-8g5z:
mRNA decoding in human is kinetically and structurally distinct from bacteria (GA state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

PDB-8g60:
mRNA decoding in human is kinetically and structurally distinct from bacteria (CR state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

PDB-8g61:
mRNA decoding in human is kinetically and structurally distinct from bacteria (AC state)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

PDB-8g6j:
mRNA decoding in human is kinetically and structurally distinct from bacteria (GA state 2)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Altman RB, Blanchard SC

PDB-8glp:
mRNA decoding in human is kinetically and structurally distinct from bacteria (Consensus LSU focused refined structure)
Method: single particle / : Holm M, Natchiar KS, Rundlet EJ, Myasnikov AG, Watson ZL, Altman RB, Blanchard SC

EMDB-24120:
Elongating 70S ribosome complex in a classical pre-translocation (PRE-C) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar SK, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-24132:
Elongating 70S ribosome complex in a fusidic acid-stalled intermediate state of translocation bound to EF-G(GDP) (INT2)
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-24133:
Elongating 70S ribosome complex in a hybrid-H1 pre-translocation (PRE-H1) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-24134:
Elongating 70S ribosome complex in a spectinomycin-stalled intermediate state of translocation bound to EF-G in an active, GTP conformation (INT1)
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-24135:
Elongating 70S ribosome complex in a hybrid-H2* pre-translocation (PRE-H2*) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-24136:
Elongating 70S ribosome complex in a post-translocation (POST) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n1p:
Elongating 70S ribosome complex in a classical pre-translocation (PRE-C) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar SK, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n2c:
Elongating 70S ribosome complex in a fusidic acid-stalled intermediate state of translocation bound to EF-G(GDP) (INT2)
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n2u:
Elongating 70S ribosome complex in a hybrid-H1 pre-translocation (PRE-H1) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n2v:
Elongating 70S ribosome complex in a spectinomycin-stalled intermediate state of translocation bound to EF-G in an active, GTP conformation (INT1)
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n30:
Elongating 70S ribosome complex in a hybrid-H2* pre-translocation (PRE-H2*) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

PDB-7n31:
Elongating 70S ribosome complex in a post-translocation (POST) conformation
Method: single particle / : Rundlet EJ, Holm M, Schacherl M, Natchiar KS, Altman RB, Spahn CMT, Myasnikov AG, Blanchard SC

EMDB-30835:
cryo EM map of the LAT1-4F2hc bound with JX-075
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30836:
cryo EM map of the LAT1-4F2hc bound with JX-075, focused refined on transmembrane region
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30837:
cryo EM map of the LAT1-4F2hc bound with JX-078
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30838:
cryo EM map of the LAT1-4F2hc bound with JX-078, focused refined on transmembrane region
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30839:
cryo EM map of the LAT1-4F2hc bound with JX-119
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30840:
cryo EM map of the LAT1-4F2hc bound with JX-119, focused refined on transmembrane region
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30841:
cryo EM map of the LAT1-4F2hc bound with 3,5-diiodo-L-tyrosine
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-30842:
cryo EM map of the LAT1-4F2hc bound with 3,5-diiodo-L-tyrosine, focused refined on transmembrane region
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

PDB-7dsk:
Overall structure of the LAT1-4F2hc bound with JX-075
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

PDB-7dsl:
Overall structure of the LAT1-4F2hc bound with JX-078
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

PDB-7dsn:
Overall structure of the LAT1-4F2hc bound with JX-119
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

PDB-7dsq:
Overall structure of the LAT1-4F2hc bound with 3,5-diiodo-L-tyrosine
Method: single particle / : Yan RH, Li YN, Zhang YY, Zhong XY, Zhou Q

EMDB-20293:
EBOV GPdTM (Mayinga) in complex with rEBOV-548 Fab
Method: single particle / : Ward AB, Turner HL, Murin CD

EMDB-20301:
EBOV GPdMuc (Makona) in complex with rEBOV-520 and rEBOV-548 Fabs
Method: single particle / : Ward AB, Murin CD, Alkutkar T

EMDB-20947:
EBOV GPdMuc Makona bound to rEBOV-548 Fab
Method: single particle / : Murin CD, Ward AB

PDB-6pci:
EBOV GPdMuc (Makona) in complex with rEBOV-520 and rEBOV-548 Fabs
Method: single particle / : Ward AB, Murin CD, Alkutkar T

PDB-6uye:
EBOV GPdMuc Makona bound to rEBOV-548 Fab
Method: single particle / : Murin CD, Ward AB

PDB-6hij:
Cryo-EM structure of the human ABCG2-MZ29-Fab complex with cholesterol and PE lipids docked
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Taylor NMI, Bause M, Bauer S, Bartholomaeus R, Stahlberg H, Bernhardt G, Koenig B, Buschauer A, Altmann KH, Locher KP

EMDB-3953:
Structure of inhibitor-bound ABCG2
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Altmann KH, Locher KP

EMDB-4246:
Structure of inhibitor-bound ABCG2
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Altmann KH, Locher KP

EMDB-4256:
Structure of an inhibitor-bound ABC transporter
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Taylor NMI, Bause M, Bauer S, Bartholomaeus R, Stahlberg H, Bernhardt G, Koenig B, Buschauer A, Altmann KH, Locher KP

PDB-6eti:
Structure of inhibitor-bound ABCG2
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Altmann KH, Locher KP

PDB-6feq:
Structure of inhibitor-bound ABCG2
Method: single particle / : Jackson SM, Manolaridis I, Kowal J, Zechner M, Altmann KH, Locher KP

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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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