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Showing all 39 items for (author: taunton & j)
![](data/emdb/media/40344/emdbimg.jpg)
EMDB-40344:
Terminating ribosome with SRI-41315
Method: single particle / : Yip MCJ, Coelho JPL, Oltion K, Tauton J, Shao S
![](data/emdb/media/40345/emdbimg.jpg)
EMDB-40345:
terminating rabbit ribosome with SRI-41315 (focused on ABCE1)
Method: single particle / : Yip MCJ, Coelho JPL, Oltion K, Tauton J, Shao S
![](data/emdb/media/29757/emdbimg.jpg)
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
![](data/emdb/media/29758/emdbimg.jpg)
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
![](data/emdb/media/29759/emdbimg.jpg)
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
![](data/emdb/media/29760/emdbimg.jpg)
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
![](data/emdb/media/29766/emdbimg.jpg)
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
![](data/emdb/media/29768/emdbimg.jpg)
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
![](data/emdb/media/29771/emdbimg.jpg)
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
![](data/emdb/media/29782/emdbimg.jpg)
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
![](data/emdb/media/40205/emdbimg.jpg)
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
![](data/pdb/img/8g5y.jpg)
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
![](data/pdb/img/8g5z.jpg)
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
![](data/pdb/img/8g60.jpg)
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
![](data/pdb/img/8g61.jpg)
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
![](data/pdb/img/8g6j.jpg)
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
![](data/pdb/img/8glp.jpg)
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
![](data/emdb/media/14776/mapi/surf_x.jpg)
EMDB-14776:
Signal peptide mimicry primes Sec61 for client-selective inhibition
Method: single particle / : Rehan S, Paavilainen O V
![](data/pdb/img/7zl3.jpg)
PDB-7zl3:
Signal peptide mimicry primes Sec61 for client-selective inhibition
Method: single particle / : Rehan S, Paavilainen O V
![](data/emdb/media/27732/emdbimg.jpg)
EMDB-27732:
eEF1A(GDP)aa-tRNA stalled on the rabbit 80S ribosome by ternatin-4
Method: single particle / : Brown A, Shao S, Rundlet EJ, Juette MF, Carelli JD, Taunton J, Blanchard SC
![](data/emdb/media/27691/emdbimg.jpg)
EMDB-27691:
eEF1A(GDP)aa-tRNA stalled on the human 80S ribosome by didemnin B
Method: single particle / : Rundlet EJ, Juette MF, Blanchard SC, Ferguson A, Taunton J, Carelli JD
![](data/emdb/media/27694/emdbimg.jpg)
EMDB-27694:
eEF1A(GDP)aa-tRNA stalled on the human 80S ribosome by ternatin-4
Method: single particle / : Rundlet EJ, Ferguson A, Juette MF, Carelli JD, Taunton J, Blanchard SC
![](data/emdb/media/4129/snaps2.jpg)
EMDB-4129:
Structure of the mammalian ribosome with P- and E-site tRNAs and an unoccupied A site
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/emdb/media/4130/snaps2.jpg)
EMDB-4130:
Structure of the mammalian ribosomal elongation complex with aminoacyl-tRNA, eEF1A, and didemnin B
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/emdb/media/4131/snaps2.jpg)
EMDB-4131:
Structure of the mammalian ribosomal termination complex with eRF1 and eRF3.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/emdb/media/4132/snaps2.jpg)
EMDB-4132:
Structure of the mammalian ribosomal termination complex with accommodated eRF1
Method: single particle / : Shao S, Murray J
![](data/emdb/media/4133/snaps2.jpg)
EMDB-4133:
Structure of the mammalian ribosomal termination complex with accommodated eRF1(AAQ) and ABCE1.
Method: single particle / : Shao S, Murray J
![](data/emdb/media/4134/snaps2.jpg)
EMDB-4134:
Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a truncated mRNA.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/emdb/media/4135/snaps2.jpg)
EMDB-4135:
Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a UGA stop codon.
Method: single particle / : Shao S, Murray J
![](data/emdb/media/4136/snaps2.jpg)
EMDB-4136:
Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a polyadenylated mRNA.
Method: single particle / : Shao S, Murray J
![](data/emdb/media/4137/snaps2.jpg)
EMDB-4137:
Structure of the mammalian rescue complex with Pelota and Hbs1l (combined)
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzs/snapsdep.jpg)
PDB-5lzs:
Structure of the mammalian ribosomal elongation complex with aminoacyl-tRNA, eEF1A, and didemnin B
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzt/snapsdep.jpg)
PDB-5lzt:
Structure of the mammalian ribosomal termination complex with eRF1 and eRF3.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzu/snapsdep.jpg)
PDB-5lzu:
Structure of the mammalian ribosomal termination complex with accommodated eRF1
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzv/snapsdep.jpg)
PDB-5lzv:
Structure of the mammalian ribosomal termination complex with accommodated eRF1(AAQ) and ABCE1.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzw/snapsdep.jpg)
PDB-5lzw:
Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a truncated mRNA.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS
![](data/pdb/media/5lzx/snapsdep.jpg)
PDB-5lzx:
Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a UGA stop codon.
Method: single particle / : Shao S, Murray J, Brown A, Taunton J, Ramakrishnan V, Hegde RS