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Showing 1 - 50 of 74 items for (author: woo & ej)

EMDB-16512:
MiniCoV-ADDomer, a SARS-CoV-2 epitope presenting viral like particle
Method: single particle / : Bufton JC, Capin J, Boruku U, Garzoni F, Schaffitzel C, Berger I

EMDB-16522:
Structure of ADDoCoV-ADAH11
Method: single particle / : Yadav KNS, Buzas D, Berger-Schaffitzel C, Berger I

EMDB-33274:
Human Cx36/GJD2 (N-terminal deletion mutant) gap junction channel in soybean lipids (D6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

PDB-7xl8:
Human Cx36/GJD2 (N-terminal deletion mutant) gap junction channel in soybean lipids (D6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-33275:
Human Cx36/GJD2 (N-terminal deletion mutant) gap junction channel in soybean lipids (C1 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-29283:
Human PTH1R in complex with PTH(1-34) and Gs
Method: single particle / : Cary BP, Belousoff MJ, Piper SJ, Wootten D, Sexton PM

EMDB-29284:
Human PTH1R in complex with PTHrP and Gs
Method: single particle / : Cary BP, Belousoff MJ, Piper SJ, Wootten D, Sexton PM

EMDB-29285:
Human PTH1R in complex with Abaloparatide and Gs
Method: single particle / : Cary BP, Belousoff MJ, Piper SJ, Wootten D, Sexton PM

EMDB-29286:
Human PTH1R in complex with M-PTH(1-14) and Gs
Method: single particle / : Cary BP, Belousoff MJ, Piper SJ, Wootten D, Sexton PM

EMDB-29287:
Human PTH1R in complex with LA-PTH and Gs
Method: single particle / : Cary BP, Belousoff MJ, Piper SJ, Wootten D, Sexton PM

EMDB-33256:
Human Cx36/GJD2 gap junction channel in detergents
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

PDB-7xkk:
Human Cx36/GJD2 gap junction channel in detergents
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-33254:
Human Cx36/GJD2 (N-terminal deletion BRIL-fused mutant) gap junction channel in soybean lipids (D6 symmetry)
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

EMDB-33255:
Human Cx36/GJD2 (N-terminal deletion BRIL-fused mutant) gap junction channel in soybean lipids (C1 symmetry)
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

EMDB-33270:
Human Cx36/GJD2 (BRIL-fused mutant) gap junction channel in detergents at 2.2 Angstroms resolution
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

EMDB-33315:
Human Cx36/GJD2 gap junction channel with pore-lining N-terminal helices in soybean lipids
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-33327:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in soybean lipids (C6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-33328:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in soybean lipids (C1 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-34822:
Human Cx36/GJD2 (BRIL-fused mutant) gap junction channel in soybean lipids
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

EMDB-34856:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in detergents (C6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-34857:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in detergents (C1 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

PDB-7xki:
Human Cx36/GJD2 (N-terminal deletion BRIL-fused mutant) gap junction channel in soybean lipids (D6 symmetry)
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

PDB-7xkt:
Human Cx36/GJD2 (BRIL-fused mutant) gap junction channel in detergents at 2.2 Angstroms resolution
Method: single particle / : Cho HJ, Lee SN, Jeong H, Ryu B, Lee HJ, Woo JS, Lee HH

PDB-7xnh:
Human Cx36/GJD2 gap junction channel with pore-lining N-terminal helices in soybean lipids
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

PDB-7xnv:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in soybean lipids (C6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

PDB-8hkp:
Structurally hetero-junctional human Cx36/GJD2 gap junction channel in detergents (C6 symmetry)
Method: single particle / : Lee SN, Cho HJ, Jeong H, Ryu B, Lee HJ, Lee HH, Woo JS

EMDB-33393:
Structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs (C1 symmetry)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33394:
Structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqd:
Structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs (C1 symmetry)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqf:
Structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33392:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqb:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in POPE/CHS nanodiscs at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33391:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in GDN detergents at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33395:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (GCN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33396:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (GCN-TM1i conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33397:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (FIN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33398:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (PLN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-33399:
Consensus map of connexin43/Cx43/GJA1 gap junction intercellular channel in LMNG/CHS detergents at pH ~6.9
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xq9:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in GDN detergents at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqg:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (GCN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqh:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (GCN-TM1i conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqi:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (FIN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7xqj:
Hemichannel-focused structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel in POPE nanodiscs (PLN conformation)
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-24894:
Ab16 Fab in complex with SARS-CoV-2 Spike (6P)
Method: single particle / : Windsor IW, Hauser BM, Schmidt AG

EMDB-24895:
Ab20 in complex with SARS-CoV-2 spike (6P)
Method: single particle / : Windsor IW, Hauser BM, Schmidt AG

EMDB-32543:
Cryo-EM structure of human somatostatin receptor 2 complex with its agonist somatostatin delineates the ligand binding specificity
Method: single particle / : Heo YS, Yoon EJ, Jeon YE, Yun JH, Ishimoto N, Woo H, Park SY, Song J, Lee WT

EMDB-31495:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in LMNG/CHS detergents at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ

EMDB-31496:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in nanodiscs with soybean lipids at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

EMDB-31497:
Structure of C-terminal truncated connexin43/Cx43/GJA1 gap junction intercellular channel with two conformationally different hemichannels
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

PDB-7f92:
Structure of connexin43/Cx43/GJA1 gap junction intercellular channel in LMNG/CHS detergents at pH ~8.0
Method: single particle / : Lee HJ, Cha HJ, Jeong H, Lee SN, Lee CW, Woo JS

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Nobel Prize for mechanically activated and temperature-gated ion channels

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