Cryo-EM structure of the Plasmodium falciparum 80S ribosome bound to the anti-protozoan drug emetine
about
40S ribosomal protein S2640S ribosomal protein S3060S ribosomal protein L4440S ribosomal protein S1960S ribosomal protein L3160S ribosomal protein L440S ribosomal protein S1160S ribosomal protein L240S ribosomal protein S2460S ribosomal protein L3960S ribosomal protein L1960S ribosomal protein L3760S ribosomal protein L3460S ribosomal protein L3240S ribosomal protein S260S ribosomal protein L360S ribosomal protein L3660S ribosomal protein L3860S ribosomal protein L2840S ribosomal protein S2160S ribosomal protein L4140S ribosomal protein S2740S ribosomal protein S1960S ribosomal protein L2340S ribosomal protein S640S ribosomal protein S15ubiquitin-60S ribosomal protein L4040S ribosomal protein S2560S ribosomal protein L2140S ribosomal protein S560S ribosomal protein L29, putative60S ribosomal protein L2740S ribosomal protein S340S ribosomal protein S26, putative40S ribosomal protein S19, putative40S ribosomal protein S11, putative60S ribosomal protein L2, putative60S ribosomal protein L37, putative60S ribosomal protein L34, putative60S ribosomal protein L32, putative
P1343
Structure of Alcohol Oxidase from Pichia pastoris by Cryo-Electron MicroscopyTranslational regulation in blood stages of the malaria parasite Plasmodium spp.: systems-wide studies pave the waySmall molecules targeting viral RNAMolecular mechanisms underlying formation of long-term reward memories and extinction memories in the honeybee (Apis mellifera)The cell biology of malaria infection of mosquito: advances and opportunitiesDynamical features of the Plasmodium falciparum ribosome during translation.Structure of the E. coli ribosome-EF-Tu complex at <3 Å resolution by Cs-corrected cryo-EM2.8-Å Cryo-EM Structure of the Large Ribosomal Subunit from the Eukaryotic Parasite LeishmaniaThe mRNA-bound proteome of the human malaria parasite Plasmodium falciparumReceptor for Activated C-Kinase 1 (PfRACK1) is required for Plasmodium falciparum intra-erythrocytic proliferationRibosome. The structure of the human mitochondrial ribosomeResolution advances in cryo-EM enable application to drug discovery.Near-atomic resolution for one state of F-actin.Structure of the Cellulose Synthase Complex of Gluconacetobacter hansenii at 23.4 Å Resolution.cryoSPARC: algorithms for rapid unsupervised cryo-EM structure determination.Breaking Cryo-EM Resolution Barriers to Facilitate Drug Discovery.Structures and stabilization of kinetoplastid-specific split rRNAs revealed by comparing leishmanial and human ribosomesValidation methods for low-resolution fitting of atomic structures to electron microscopy dataEMDataBank unified data resource for 3DEM.Activation of the Classical Mitogen-Activated Protein Kinases Is Part of the Shiga Toxin-Induced Ribotoxic Stress Response and May Contribute to Shiga Toxin-Induced Inflammation.The impact of recent improvements in cryo-electron microscopy technology on the understanding of bacterial ribosome assembly.Cryo-EM enters a new era2.8 Å resolution reconstruction of the Thermoplasma acidophilum 20S proteasome using cryo-electron microscopy.Generalized single-particle cryo-EM--a historical perspectiveA Fast and Effective Microfluidic Spraying-Plunging Method for High-Resolution Single-Particle Cryo-EM.Near-atomic resolution reconstructions using a mid-range electron microscope operated at 200 kV.Comparison of Anorectic Potencies of the Trichothecenes T-2 Toxin, HT-2 Toxin and Satratoxin G to the Ipecac Alkaloid Emetine.Cryo-EM: A Unique Tool for the Visualization of Macromolecular Complexity.Measuring the optimal exposure for single particle cryo-EM using a 2.6 Å reconstruction of rotavirus VP6Regulation of Plasmodium yoelii oocyst development by strain- and stage-specific small-subunit rRNAMechanistic Insight into the Reactivation of BCAII Enzyme from Denatured and Molten Globule States by Eukaryotic Ribosomes and Domain V rRNAsThe integrative role of cryo electron microscopy in molecular and cellular structural biology.Advances in the field of single-particle cryo-electron microscopy over the last decade.Investigating antimalarial drug interactions of emetine dihydrochloride hydrate using CalcuSyn-based interactivity calculations.Sampling the conformational space of the catalytic subunit of human γ-secretaseAnti-protozoal and anti-bacterial antibiotics that inhibit protein synthesis kill cancer subtypes enriched for stem cell-like properties.Amicoumacin A induces cancer cell death by targeting the eukaryotic ribosomeStructures of the orthosomycin antibiotics avilamycin and evernimicin in complex with the bacterial 70S ribosome.Structure of the 70S ribosome from human pathogen Staphylococcus aureus.Accelerated cryo-EM structure determination with parallelisation using GPUs in RELION-2.
P2860
Q56558644-3A5E7A3D-1DA5-4379-A3E2-2D41B65CBC03Q56558681-897D4AB3-9AA4-42C8-8EB8-2B71E7640E5DQ56558927-D9CF0FC8-82B9-4E29-A31E-7225EFC7E8B4Q56560328-F3DBFF81-5F66-46B9-900B-4426FEE79BF1Q56560566-650B3EAE-7E65-4310-8F9E-95031B088D2CQ56560678-51A37A56-B6FE-429B-AD3B-58A69BAFBC5EQ56560961-CA2EB52C-0008-45BF-857C-FC46F5C3AAF1Q56560999-84B615B4-39BA-4C67-9788-1533963DA20AQ56561169-F654515C-9C52-4066-901D-7F07BD3D5511Q56561985-17231DFE-2A89-4103-978E-7ED82740A618Q56562076-206ECBDB-9F92-4F71-BC3E-222AFD0DC329Q56562764-A3FF4722-721D-4249-A3E6-4AE4B990AE10Q56562876-7D6AF2E7-F6F1-42D5-8615-D221C7FE5F05Q56568186-0354C8C1-6267-400A-85E9-036C92571457Q56571627-DCA59355-DD80-4DF3-B139-932380DE83B6Q56571719-8ACD00A7-B826-481E-B97C-B24AAA626571Q56573798-66E3D9AD-6C14-4210-BCE9-FB4BBFB08B97Q56575666-62E437F1-7D03-492E-9596-682213981BBBQ56576850-75796FD2-A75C-47C9-B609-2480CB0EA625Q56576979-F9A31D1D-D06D-4C42-A0E8-4613647AF7BEQ56577010-CE8F4C7F-DFCB-409F-B69D-0A120C7C4F21Q56583726-0C729597-EA60-460D-AC5E-ED6051F6BE95Q56585700-E6700761-34CC-4213-B15D-ED10B068CDA4Q56586393-B80AC5FF-D037-4CCD-9EA3-A7C2331246C1Q56588607-972F0D97-92AD-45BB-939C-DD300FCBBB3FQ56590102-1E85D75E-1322-4B1D-A4B1-BFB5FA7C8CCCQ56590729-3ED7EFEE-5F27-44D4-9982-CA6198A2F927Q56592914-E2EB9B27-4A57-4DC2-AF0C-2D2A6D1CCC61Q56593395-685E48BC-AB24-452A-AC7A-4B8938C57038Q56595863-7E642940-2AE8-4DB7-A230-55B5ACCB59EAQ56596842-47C24E67-F95E-4ABF-88C7-E32406DBA364Q56596867-EA847A8D-27BD-42F0-AB85-2CF4B29B2A47Q56597262-4E12565F-2A5D-45FF-9047-2D4190D8A61AQ56709456-36BAE9BF-4F83-4575-A733-5CD95D7AF947Q56711278-859B8B34-4197-42F3-8B37-B4B810CF27A9Q56712568-F64D6BF9-F07D-4ABA-A3B4-CF933A4C5194Q56712780-EDA4D2E3-92F0-4AB2-BEED-A4C56F496F68Q56719323-3BE6BBA5-E999-4E79-A2DA-4505B65C5F31Q56719953-86A349D9-3044-47FF-A777-964D2E64527AQ56723702-018997D4-0924-4E82-B6DA-7F728D592BB8
P1343
Q26330058-F26AA0D6-42C6-4F6E-BFBB-11E7B9E2F37DQ26745676-0F97648F-957D-4189-AF10-B7554EF03B2FQ26745817-D9222D00-1BDA-4D58-BADA-A052184BA97DQ27013578-5DE62218-3A1C-4378-9812-2B615FB03478Q27024179-77A918AE-6D1E-4170-A000-1D861BDDC300Q27324220-0CEF3483-B62F-44C9-80E9-E054B75B50BCQ27698054-96C90F22-211C-49D7-A8F5-DE93E6D58632Q27715930-5154C41D-A603-4EB7-922C-D3280E34E4F0Q27972581-28D752E5-185B-42C4-98B2-F8B621AD4E58Q27972659-C5946A10-1D7D-4CD5-8D4E-3B111077C1F4Q28115987-929F7F56-708B-47A9-B215-AB60206CAE65Q30276077-ADDE5FB7-7F53-42FD-9D0C-5D20E07A2CC5Q30301084-D33D5799-8896-444A-8364-3E7F6B9B0C79Q30358357-3C2EEF31-5BF3-4869-BD3D-03079DE69C4FQ30398255-18D57261-4854-44DB-A362-61627C7CFE63Q30780237-2E7D8384-CFEB-44E4-A6F2-2CE05A3E0FEDQ30824903-984CD6DD-2619-4D0C-95FB-3A27D30F0493Q30977052-F9F35AF4-617D-4A45-9F0C-05C53989D63BQ31025251-A7854BFF-C112-4A0B-BCC9-23859E659176Q33426863-20995BBE-A0F2-43A6-AA1F-1E1A6F07C684Q33554148-33B497A2-63BA-4370-A085-1BC28441A5DFQ34433550-B95EE6C9-D288-41DF-81F2-D0D65DE89F77Q34466607-10598892-E5A3-4713-94DC-BC2039977E84Q34501719-0D77BB23-60B5-455B-B51B-B6F4391550C0Q34553129-41B787D4-EE31-4BD9-AC70-6798D19FB887Q35297162-4BA0D077-FF4F-433C-A276-207F507405D4Q35541358-05290158-7F4A-478B-A56E-72721F4EF2FBQ35638563-B314D3CA-0AC7-4E05-9974-526068577543Q35646003-F4F9F302-460D-4FB9-82C2-CE9A64CF273AQ35677570-C1BAEE3F-3E45-4018-BC60-EC1D3E09BC0FQ35995635-03E4F7C2-FB2C-46DB-BF1F-FC7B7B8451FBQ36161216-D970C294-2558-4362-9184-5302E869E073Q36240152-A1E40ED4-9CA3-42A4-97C2-82BE56E3F5C5Q36296803-55F396D4-B69C-4F3A-AB59-737FE3527958Q36479662-800AC4F0-A406-4A34-BB85-26B223F1A3E1Q36781090-BAE96C6C-529A-4C7E-B03A-56DB407640B8Q37000523-6F83B5FC-D8B8-4B6B-8418-82B62F0A28D0Q37086516-2B787BB0-1150-4F7D-B052-88653409B0EAQ37473069-4B7F129E-409E-43D9-8C80-879DE82A82B4Q37643700-5087B657-486D-4FA3-AD7A-6D4862E223E9
P2860
Cryo-EM structure of the Plasmodium falciparum 80S ribosome bound to the anti-protozoan drug emetine
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
name
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@ast
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@en
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@nl
type
label
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@ast
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@en
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@nl
prefLabel
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@ast
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@en
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@nl
P2093
P2860
P50
P921
P3181
P356
P1433
P1476
Cryo-EM structure of the Plasm ...... he anti-protozoan drug emetine
@en
P2093
Israel S Fernandez
Melanie Condron
Wilson Wong
Yan Hong Tan
P2860
P3181
P356
10.7554/ELIFE.03080
P407
P577
2014-06-09T00:00:00Z