6WT9
 
 | | Structure of STING-associated CdnE c-di-GMP synthase from Capnocytophaga granulosa | | 分子名称: | NTP_transf_2 domain-containing protein | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-11-06 | | 実験手法 | X-RAY DIFFRACTION (2.3 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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6WT6
 | | Structure of a metazoan TIR-STING receptor from C. gigas | | 分子名称: | Metazoan TIR-STING fusion | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-03-06 | | 実験手法 | X-RAY DIFFRACTION (2.41 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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6WT4
 | | Structure of a bacterial STING receptor from Flavobacteriaceae sp. in complex with 3',3'-cGAMP | | 分子名称: | 2-amino-9-[(2R,3R,3aS,5R,7aR,9R,10R,10aS,12R,14aR)-9-(6-amino-9H-purin-9-yl)-3,5,10,12-tetrahydroxy-5,12-dioxidooctahydro-2H,7H-difuro[3,2-d:3',2'-j][1,3,7,9,2,8]tetraoxadiphosphacyclododecin-2-yl]-1,9-dihydro-6H-purin-6-one, Bacterial STING, SULFATE ION | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-10-09 | | 実験手法 | X-RAY DIFFRACTION (1.78 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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6WT7
 | | Structure of a metazoan TIR-STING receptor from C. gigas in complex with 2',3'-cGAMP | | 分子名称: | Metazoan TIR-STING fusion, cGAMP | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-03-06 | | 実験手法 | X-RAY DIFFRACTION (2.9 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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6WT8
 | | Structure of a STING-associated CdnE c-di-GMP synthase from Flavobacteriaceae sp. | | 分子名称: | STING-associated CdnE c-di-GMP synthase | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-10-23 | | 実験手法 | X-RAY DIFFRACTION (1.52 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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6WT5
 | | Structure of a bacterial STING receptor from Capnocytophaga granulosa | | 分子名称: | Bacterial STING | | 著者 | Morehouse, B.R, Govande, A.A, Millman, A, Keszei, A.F.A, Lowey, B, Ofir, G, Shao, S, Sorek, R, Kranzusch, P.J. | | 登録日 | 2020-05-01 | | 公開日 | 2020-09-09 | | 最終更新日 | 2024-11-06 | | 実験手法 | X-RAY DIFFRACTION (2.8 Å) | | 主引用文献 | STING cyclic dinucleotide sensing originated in bacteria.
Nature, 586, 2020
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7T26
 | | Structure of phage FBB1 anti-CBASS nuclease Acb1 in apo state | | 分子名称: | Acb1 | | 著者 | Hobbs, S.J, Wein, T, Lu, A, Morehouse, B.R, Schnabel, J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2021-12-03 | | 公開日 | 2022-04-20 | | 最終更新日 | 2024-02-28 | | 実験手法 | X-RAY DIFFRACTION (1.14 Å) | | 主引用文献 | Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity.
Nature, 605, 2022
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7T27
 | | Structure of phage FBB1 anti-CBASS nuclease Acb1-3'3'-cGAMP complex in post reaction state | | 分子名称: | Acb1, SULFATE ION, [(2~{R},3~{S},4~{R},5~{R})-5-(6-aminopurin-9-yl)-2-[[[(2~{R},3~{S},4~{R},5~{R})-5-(2-azanyl-6-oxidanylidene-1~{H}-purin-9-yl)-2-(hydroxymethyl)-4-oxidanyl-oxolan-3-yl]oxy-sulfanyl-phosphoryl]oxymethyl]-4-oxidanyl-oxolan-3-yl]oxy-sulfanyl-phosphinic acid | | 著者 | Hobbs, S.J, Wein, T, Lu, A, Morehouse, B.R, Schnabel, J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2021-12-03 | | 公開日 | 2022-04-20 | | 最終更新日 | 2024-02-28 | | 実験手法 | X-RAY DIFFRACTION (1.2 Å) | | 主引用文献 | Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity.
Nature, 605, 2022
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7T28
 | | Structure of phage Bsp38 anti-Pycsar nuclease Apyc1 in apo state | | 分子名称: | Putative metal-dependent hydrolase, ZINC ION | | 著者 | Hobbs, S.J, Wein, T, Lu, A, Morehouse, B.R, Schnabel, J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2021-12-03 | | 公開日 | 2022-04-20 | | 最終更新日 | 2024-04-03 | | 実験手法 | X-RAY DIFFRACTION (2.68 Å) | | 主引用文献 | Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity.
Nature, 605, 2022
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7U2R
 | | Structure of Paenibacillus sp. J14 Apyc1 | | 分子名称: | Apyc1, ZINC ION | | 著者 | Hobbs, S.J, Wein, T, Lu, A, Morehouse, B.R, Schnabel, J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2022-02-24 | | 公開日 | 2022-04-20 | | 最終更新日 | 2024-10-16 | | 実験手法 | X-RAY DIFFRACTION (1.85 Å) | | 主引用文献 | Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity.
Nature, 605, 2022
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7U2S
 | | Structure of Paenibacillus xerothermodurans Apyc1 in the apo state | | 分子名称: | Apyc1, ZINC ION | | 著者 | Hobbs, S.J, Wein, T, Lu, A, Morehouse, B.R, Schnabel, J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2022-02-24 | | 公開日 | 2022-04-20 | | 最終更新日 | 2023-10-18 | | 実験手法 | X-RAY DIFFRACTION (1.55 Å) | | 主引用文献 | Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity.
Nature, 605, 2022
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7UAV
 | | Structure of Clostridium botulinum prophage Tad1 in apo state | | 分子名称: | ABC transporter ATPase | | 著者 | Lu, A, Leavitt, A, Yirmiya, E, Amitai, G, Garb, J, Morehouse, B.R, Hobbs, S.J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2022-03-14 | | 公開日 | 2022-10-05 | | 最終更新日 | 2024-10-16 | | 実験手法 | X-RAY DIFFRACTION (2.2 Å) | | 主引用文献 | Viruses inhibit TIR gcADPR signalling to overcome bacterial defence.
Nature, 611, 2022
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7UAW
 | | Structure of Clostridium botulinum prophage Tad1 in complex with 1''-2' gcADPR | | 分子名称: | (1S,3R,4R,6R,9S,11R,14R,15S,16R,18R)-4-(6-amino-9H-purin-9-yl)-9,11,15,16,18-pentahydroxy-2,5,8,10,12,17-hexaoxa-9lambda~5~,11lambda~5~-diphosphatricyclo[12.2.1.1~3,6~]octadecane-9,11-dione, ABC transporter ATPase | | 著者 | Lu, A, Leavitt, A, Yirmiya, E, Amitai, G, Garb, J, Morehouse, B.R, Hobbs, S.J, Sorek, R, Kranzusch, P.J. | | 登録日 | 2022-03-14 | | 公開日 | 2022-10-05 | | 最終更新日 | 2024-04-03 | | 実験手法 | X-RAY DIFFRACTION (1.72 Å) | | 主引用文献 | Viruses inhibit TIR gcADPR signalling to overcome bacterial defence.
Nature, 611, 2022
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8SMF
 | | Structure of SPO1 phage Tad2 in complex with 1''-3' gcADPR | | 分子名称: | (2R,3R,3aS,5S,6R,7S,8R,11R,13S,15aR)-2-(6-amino-9H-purin-9-yl)-3,6,7,11,13-pentahydroxyoctahydro-2H,5H,11H,13H-5,8-epoxy-11lambda~5~,13lambda~5~-furo[2,3-g][1,3,5,9,2,4]tetraoxadiphosphacyclotetradecine-11,13-dione, Gp34.65, MAGNESIUM ION | | 著者 | Lu, A, Yirmiya, E, Leavitt, A, Avraham, C, Osterman, I, Garb, J, Antine, S.P, Mooney, S.E, Hobbs, S.J, Amitai, G, Sorek, R, Kranzusch, P.J. | | 登録日 | 2023-04-26 | | 公開日 | 2023-11-22 | | 最終更新日 | 2024-01-24 | | 実験手法 | X-RAY DIFFRACTION (1.75 Å) | | 主引用文献 | Phages overcome bacterial immunity via diverse anti-defence proteins.
Nature, 625, 2024
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8SMG
 | | Structure of SPO1 phage Tad2 in complex with 1''-2' gcADPR | | 分子名称: | (1S,3R,4R,6R,9S,11R,14R,15S,16R,18R)-4-(6-amino-9H-purin-9-yl)-9,11,15,16,18-pentahydroxy-2,5,8,10,12,17-hexaoxa-9lambda~5~,11lambda~5~-diphosphatricyclo[12.2.1.1~3,6~]octadecane-9,11-dione, Gp34.65 | | 著者 | Lu, A, Yirmiya, E, Leavitt, A, Avraham, C, Osterman, I, Garb, J, Antine, S.P, Mooney, S.E, Hobbs, S.J, Amitai, G, Sorek, R, Kranzusch, P.J. | | 登録日 | 2023-04-26 | | 公開日 | 2023-11-22 | | 最終更新日 | 2024-01-24 | | 実験手法 | X-RAY DIFFRACTION (2.1 Å) | | 主引用文献 | Phages overcome bacterial immunity via diverse anti-defence proteins.
Nature, 625, 2024
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8SMD
 | | Structure of Clostridium botulinum prophage Tad1 in complex with 1''-3' gcADPR | | 分子名称: | (2R,3R,3aS,5S,6R,7S,8R,11R,13S,15aR)-2-(6-amino-9H-purin-9-yl)-3,6,7,11,13-pentahydroxyoctahydro-2H,5H,11H,13H-5,8-epoxy-11lambda~5~,13lambda~5~-furo[2,3-g][1,3,5,9,2,4]tetraoxadiphosphacyclotetradecine-11,13-dione, ABC transporter ATPase | | 著者 | Lu, A, Yirmiya, E, Leavitt, A, Avraham, C, Osterman, I, Garb, J, Antine, S.P, Mooney, S.E, Hobbs, S.J, Amitai, G, Sorek, R, Kranzusch, P.J. | | 登録日 | 2023-04-26 | | 公開日 | 2023-11-22 | | 最終更新日 | 2024-01-24 | | 実験手法 | X-RAY DIFFRACTION (2.1 Å) | | 主引用文献 | Phages overcome bacterial immunity via diverse anti-defence proteins.
Nature, 625, 2024
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8SME
 | | Structure of SPO1 phage Tad2 in apo state | | 分子名称: | Gp34.65 | | 著者 | Lu, A, Yirmiya, E, Leavitt, A, Avraham, C, Osterman, I, Garb, J, Antine, S.P, Mooney, S.E, Hobbs, S.J, Amitai, G, Sorek, R, Kranzusch, P.J. | | 登録日 | 2023-04-26 | | 公開日 | 2023-11-22 | | 最終更新日 | 2024-01-24 | | 実験手法 | X-RAY DIFFRACTION (2.36 Å) | | 主引用文献 | Phages overcome bacterial immunity via diverse anti-defence proteins.
Nature, 625, 2024
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7N51
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7N50
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7N52
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8U7I
 | | Structure of the phage immune evasion protein Gad1 bound to the Gabija GajAB complex | | 分子名称: | Endonuclease GajA, Gabija Anti-Defense 1, Gabija protein GajB | | 著者 | Antine, S.P, Johnson, A.G, Mooney, S.E, Mayer, M.L, Kranzusch, P.J. | | 登録日 | 2023-09-15 | | 公開日 | 2023-11-22 | | 最終更新日 | 2024-10-30 | | 実験手法 | ELECTRON MICROSCOPY (2.57 Å) | | 主引用文献 | Structural basis of Gabija anti-phage defence and viral immune evasion.
Nature, 625, 2024
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8BTN
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8BTP
 | | Helical structure of BcThsA in complex with 1''-3'gc(etheno)ADPR | | 分子名称: | (1S,3S,4R,5R,7R,15R,16S,17R)-5-imidazo[2,1-f]purin-3-yl-10,12-bis(oxidanyl)-10,12-bis(oxidanylidene)-2,6,9,11,13,18-hexaoxa-10$l^{5},12$l^{5}-diphosphatricyclo[13.2.1.0^{3,7}]octadecane-4,16,17-triol, ETHENO-NAD, NAD(+) hydrolase ThsA | | 著者 | Tamulaitiene, G, Sasnauskas, G, Sabonis, D. | | 登録日 | 2022-11-29 | | 公開日 | 2024-02-21 | | 最終更新日 | 2024-04-03 | | 実験手法 | ELECTRON MICROSCOPY (2.75 Å) | | 主引用文献 | Activation of Thoeris antiviral system via SIR2 effector filament assembly.
Nature, 627, 2024
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7R65
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8BTO
 | | Helical structure of BcThsA in complex with 1''-3'gcADPR | | 分子名称: | (2R,3R,3aS,5S,6R,7S,8R,11R,13S,15aR)-2-(6-amino-9H-purin-9-yl)-3,6,7,11,13-pentahydroxyoctahydro-2H,5H,11H,13H-5,8-epoxy-11lambda~5~,13lambda~5~-furo[2,3-g][1,3,5,9,2,4]tetraoxadiphosphacyclotetradecine-11,13-dione, NAD(+) hydrolase ThsA, NICOTINAMIDE-ADENINE-DINUCLEOTIDE | | 著者 | Tamulaitiene, G, Sasnauskas, G, Sabonis, D. | | 登録日 | 2022-11-29 | | 公開日 | 2024-02-21 | | 最終更新日 | 2024-04-03 | | 実験手法 | ELECTRON MICROSCOPY (2.96 Å) | | 主引用文献 | Activation of Thoeris antiviral system via SIR2 effector filament assembly.
Nature, 627, 2024
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