Rapid and accurate peptide identification from tandem mass spectra. - Wikidata - awgldk - TriplyDB

Rapid and accurate peptide identification from tandem mass spectra.

Rapid and accurate peptide identification from tandem mass spectra.

http://www.wikidata.org/entity/Q43147563

about

Mass spectrometry-based protein identification with accurate statistical significance assignment.Comprehensive Annotation of the Parastagonospora nodorum Reference Genome Using Next-Generation Genomics, Transcriptomics and Proteogenomics Open source libraries and frameworks for mass spectrometry based proteomics: a developer's perspective Scientific workflow management in proteomics An Open Data Format for Visualization and Analysis of Cross-Linked Mass Spectrometry Results.Modeling peptide fragmentation with dynamic Bayesian networks for peptide identification The mzIdentML data standard version 1.2, supporting advances in proteome informatics.Estimating relative abundances of proteins from shotgun proteomics data.Searching for a needle in a stack of needles: challenges in metaproteomics data analysis.MS-REDUCE: an ultrafast technique for reduction of big mass spectrometry data for high-throughput processing.MacroSEQUEST: efficient candidate-centric searching and high-resolution correlation analysis for large-scale proteomics data sets.Efficient marginalization to compute protein posterior probabilities from shotgun mass spectrometry data TB-IRIS: Proteomic analysis of in vitro PBMC responses to Mycobacterium tuberculosis and response modulation by dexamethasone RAId_aPS: MS/MS analysis with multiple scoring functions and spectrum-specific statistics.Speeding up tandem mass spectrometry-based database searching by longest common prefix.N-terminal Proteomics Assisted Profiling of the Unexplored Translation Initiation Landscape in Arabidopsis thaliana Automated lipid A structure assignment from hierarchical tandem mass spectrometry data.Computing exact p-values for a cross-correlation shotgun proteomics score function.Faster mass spectrometry-based protein inference: junction trees are more efficient than sampling and marginalization by enumeration.A survey of computational methods and error rate estimation procedures for peptide and protein identification in shotgun proteomics.Role of the tumor suppressor IQGAP2 in metabolic homeostasis: Possible link between diabetes and cancer.Comet: an open-source MS/MS sequence database search tool.A cross-validation scheme for machine learning algorithms in shotgun proteomics.JUMP: a tag-based database search tool for peptide identification with high sensitivity and accuracy.Assigning spectrum-specific P-values to protein identifications by mass spectrometry Metaproteomics: extracting and mining proteome information to characterize metabolic activities in microbial communities.Accurate assignment of significance to neuropeptide identifications using Monte Carlo k-permuted decoy databases.Direct maximization of protein identifications from tandem mass spectra Tempest: GPU-CPU computing for high-throughput database spectral matching.The SEQUEST family tree.Methods to Calculate Spectrum Similarity.Probing structures of large protein complexes using zero-length cross-linking.Using the entrapment sequence method as a standard to evaluate key steps of proteomics data analysis process.Recognizing uncertainty increases robustness and reproducibility of mass spectrometry-based protein inferences Context-sensitive markov models for peptide scoring and identification from tandem mass spectrometry.SweetSEQer, simple de novo filtering and annotation of glycoconjugate mass spectra.LTQ-XL mass spectrometry proteome analysis expands the Pseudomonas aeruginosa AmpR regulon to include cyclic di-GMP phosphodiesterases and phosphoproteins, and identifies novel open reading frames.Mass fingerprinting of complex mixtures: protein inference from high-resolution peptide masses and predicted retention times.Mining gene functional networks to improve mass-spectrometry-based protein identification.Enhanced identification of zero-length chemical cross-links using label-free quantitation and high-resolution fragment ion spectra.

P2860

Q27304527-F3AD3496-76CD-4D0A-8772-A1D64CF3F986 Q28553074-1B41BBBE-5280-497A-B9EA-362DB4684B60 Q28660368-2910889E-201D-4120-9497-A6B7FEA547A6 Q28727232-AFC656B0-1676-4C4A-959B-54013A4A21A1 Q30489626-9A0FDE71-C5B1-4E5E-8B1A-B56B3B4DDC8C Q30490288-41AE277E-77C3-4CF5-AA08-5E1157C5FCCE Q30491708-B68FE1AF-D2AC-4E6C-9D1A-92C0C36B6773 Q30577922-F2A93309-C038-42FA-8A5D-6125CEF42145 Q30581490-FEEE946D-EC63-49FE-B25B-CE3FB101538E Q31039352-59D28BB2-2A7B-4422-A9B4-3AD00D6C1254 Q33649026-360878A3-407C-4DC9-BDD9-8690D4E0F9E0 Q33659299-D133FCF9-6470-401B-BE72-06D11E52AF29 Q33732480-CB17FC9D-0583-49FA-AA14-3D5BAB64AAE6 Q33754694-4E96F7E7-6B27-493C-ABCB-FAACEB3AE27F Q33756082-CADE3586-5BD9-4589-8DF2-4CCF436740B6 Q33771026-804BD6E4-901F-45FF-BA5B-F7862ABEFFA8 Q33864743-B6479CA7-4344-4E7C-AFDE-1DE4F10B5CC7 Q34157708-1C41B3F8-2407-49E2-93F7-7946AC370095 Q34158195-66A71153-E69C-4B86-9BAD-1F34872B12EE Q34207316-92B9D8D8-52F4-48EA-AF58-C8FC954E9CCE Q34218516-0377B0C6-01C6-4A42-A755-00DEF5EFC352 Q34311405-D28ECEF2-BE42-4DC1-9734-A45F898508DE Q34486815-0C379B6D-9AE1-4EF0-AC9B-38FEC77725C3 Q34635037-DFB566AB-96F4-4397-AAA5-FA8B4EA1582B Q34771407-E42B8870-7416-4CEC-AE47-B8F4EBEFB281 Q35189993-20A8EB54-4845-4FAA-85DE-63436E98AE3C Q35348900-309C8A98-C402-47AB-BD61-8753BA5F30F3 Q35751671-B3C52C7F-00F0-4608-B968-4A30C65C90ED Q36095681-67B61614-5D13-45EB-A9B7-8EB3F236F264 Q36167004-968B57B6-FC55-4D2F-BBAE-70D1472BD111 Q36224324-51592283-6E72-42EF-B891-5B182231C0B4 Q36236942-8C48CBF4-7932-4ECE-B782-A051D8203C0F Q36329329-F504DDB6-C960-4C85-BBAC-797B19175221 Q36501384-02013B2C-77B8-401B-8941-DB23BBEC4484 Q36596101-63FABFE0-2002-4403-A4A4-C25DF43BA789 Q36910827-78C1E70B-6E7B-47AD-A05F-422678B112C9 Q37142628-A49B682B-2313-47F7-9644-D76BED89EDE7 Q37386330-70409309-5DD2-4303-99B7-0DB9931D6704 Q37411739-FEC5BB36-828D-43F3-B833-0A099E282AC3 Q37684568-02E4DF7B-6D7B-45C3-82CB-14F33E3B35DC

P2860

Rapid and accurate peptide identification from tandem mass spectra.

http://www.wikidata.org/entity/Q43147563

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年学术文章

@wuu

2008年学术文章

@zh

2008年学术文章

@zh-cn

2008年学术文章

@zh-hans

2008年学术文章

@zh-my

2008年学术文章

@zh-sg

2008年學術文章

@yue

2008年學術文章

@zh-hant

name

Rapid and accurate peptide identification from tandem mass spectra.

@en

Rapid and accurate peptide identification from tandem mass spectra.

@nl

type

label

Rapid and accurate peptide identification from tandem mass spectra.

@en

Rapid and accurate peptide identification from tandem mass spectra.

@nl

prefLabel

Rapid and accurate peptide identification from tandem mass spectra.

@en

Rapid and accurate peptide identification from tandem mass spectra.

@nl

P1433

Q43147563-0508E9F5-4237-4908-85A6-030BDD9B2CEB

P1476

Q43147563-EE86B59B-550A-43A3-AC0C-6508AF959135

P2093

Q43147563-5ACA30F5-6FCA-4099-ADB3-7533EF2FF452

Q43147563-5BF7AB0E-9BFE-428D-AF76-6EE042EAC963

Q43147563-A990EAB4-335D-456E-9AB8-2494B1FF429E

P2860

Q43147563-0271B4F1-BB60-4D19-9719-63EBC66C1216

Q43147563-07A45FFA-9776-47D1-B413-84C4656C5B01

Q43147563-1B4ECC1C-DECC-4F56-BF3F-E2981A356669

Q43147563-1BD997EE-1C7C-4EA8-944A-6EE7F7B2FB95

Q43147563-2A113644-DF74-4AB6-ABFB-E263FB0A6D73

Q43147563-41583862-D78D-4C7D-9E28-AEE08C6C2039

Q43147563-68CFFFF7-81DD-42E2-8626-512F46761544

Q43147563-72872D08-D773-4FC5-A5CD-592EB1C76D0E

Q43147563-738991C0-9B21-416C-84C5-E692FB13E4BA

Q43147563-74450C3C-9D05-4288-965F-750B58737DAF

P304

Q43147563-AEE08C11-2F03-40FE-AB2D-EAC324F3947A

P31

Q43147563-7E9F3246-467C-4075-8A04-A162B7BE590C

P356

Q43147563-84EB62EB-816F-478A-928B-44D311ADC8A4

P433

Q43147563-F5432F55-951D-4725-8075-0CB595F51FB0

P478

Q43147563-4C939B46-768E-4331-A59C-73B5C1D68101

P50

Q43147563-974692EC-481A-454E-B778-9107EBA31D17

Q43147563-A05E728A-4648-4905-B083-C2A77F571D2E

P577

Q43147563-B898395B-8E86-46A2-BD04-1E69056446B7

P5875

Q43147563-F69B38EE-F10F-4457-BF39-55EB194F9A2F

P698

Q43147563-46CC28FF-B73C-446A-A9E1-5F7936552498

P932

Q43147563-7FC4727E-6EA9-4525-8B94-EE37F951200D

P356

P1433

Journal of Proteome Research

P1476

Rapid and accurate peptide identification from tandem mass spectra.

@en

P2093

Aaron A Klammer

http://www.w3.org/2001/XMLSchema#string

Christopher Y Park

http://www.w3.org/2001/XMLSchema#string

William S Noble

http://www.w3.org/2001/XMLSchema#string

P2860

Statistical significance for genomewide studies

Probability-based protein identification by searching sequence databases using mass spectrometry data

An approach to correlate tandem mass spectral data of peptides with amino acid sequences in a protein database

OLAV: towards high-throughput tandem mass spectrometry data identification

Empirical statistical model to estimate the accuracy of peptide identifications made by MS/MS and database search

Lookup peaks: a hybrid of de novo sequencing and database search for protein identification by tandem mass spectrometry

TANDEM: matching proteins with tandem mass spectra

The standard protein mix database: a diverse data set to assist in the production of improved Peptide and protein identification software tools.

A fast coarse filtering method for peptide identification by mass spectrometry.

What is a support vector machine?

P304

3022-3027

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1021/PR800127Y

http://www.w3.org/2001/XMLSchema#string

P433

7

http://www.w3.org/2001/XMLSchema#string

P478

7

http://www.w3.org/2001/XMLSchema#string

P50

Michael J MacCoss

P577

2008-05-28T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51393863

http://www.w3.org/2001/XMLSchema#string

P698

18505281

http://www.w3.org/2001/XMLSchema#string

P932

2667385

http://www.w3.org/2001/XMLSchema#string