Optimal selection of 2D reversed-phase-reversed-phase HPLC separation techniques in bottom-up proteomics. - Wikidata - wikimedia - TriplyDB

Optimal selection of 2D reversed-phase-reversed-phase HPLC separation techniques in bottom-up proteomics.

Optimal selection of 2D reversed-phase-reversed-phase HPLC separation techniques in bottom-up proteomics.

http://www.wikidata.org/entity/Q37998529

about

Proteome analysis of subsarcolemmal cardiomyocyte mitochondria: a comparison of different analytical platforms Proteomics-based metabolic modeling and characterization of the cellulolytic bacterium Thermobifida fusca.The identification and characterization of non-coding and coding RNAs and their modified nucleosides by mass spectrometry.Development of selective comprehensive two-dimensional liquid chromatography with parallel first-dimension sampling and second-dimension separation--application to the quantitative analysis of furanocoumarins in apiaceous vegetables.Comparison of sample preparation techniques for large-scale proteomics.

P2860

Q33907449-65E5330A-BA58-4067-B78D-C9B11753D547 Q35223325-0C8D4832-8A73-478D-A23E-D5BF4A1904FE Q36191416-9A40D0B6-3076-4C48-99DC-CD0BBCAFF4EC Q51255632-AC3453A0-4796-4263-A099-BF5D1AF140EF Q51319806-F4581CC5-0774-4637-B4BC-0B5699FB51DE

P2860

Optimal selection of 2D reversed-phase-reversed-phase HPLC separation techniques in bottom-up proteomics.

http://www.wikidata.org/entity/Q37998529

description

article científic

@ca

article scientifique

@fr

articol științific

@ro

articolo scientifico

@it

artigo científico

@gl

artigo científico

@pt

artigo científico

@pt-br

artikel ilmiah

@id

artikull shkencor

@sq

artículo científico

@es

name

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@en

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@nl

type

label

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@en

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@nl

prefLabel

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@en

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@nl

P1433

Q37998529-07B6336F-F049-4AA9-A120-6462D615C4F6

P1476

Q37998529-59D26589-561F-4B1E-B804-87E215EBB3FC

P2093

Q37998529-41089E78-6672-491C-AE0E-DA1EDE55A60A

Q37998529-FB5BB0C0-03A7-486C-96D9-4C0DBCDDBD92

P2860

Q37998529-10B5C7C6-02B4-41DA-92DE-2DAFE3133188

Q37998529-2A2CE1BF-C6DE-4BDF-83EF-9E5BD8BDF4C7

Q37998529-2A50165B-F62A-4B73-B0E2-8C4D08AB7575

Q37998529-396E1DB7-2BCC-4C39-BCBC-B733F6C8556A

Q37998529-3EC2920F-56BF-4228-B1E5-86D8B283776C

Q37998529-67F98FBD-9386-45BD-AB65-F9C0018CC61D

Q37998529-6A1F4833-45E0-4E97-AA60-9D6FC6E1C9ED

Q37998529-6DFFC6AF-0B7A-4AD4-BD54-8FFAF67FDACC

Q37998529-71ABB265-F124-4841-83E8-B8788D42ED89

Q37998529-866A7F91-BC09-43C6-B250-AC85DB79FE74

P304

Q37998529-43EA1E9B-621D-4FAE-BC6B-3C27539B11FA

P31

Q37998529-FBF3E76C-A6F9-4A67-9E9D-EAF5A6FCCDCB

P356

Q37998529-77018A66-C41E-4E2B-92CA-72EC5E9D6E80

P433

Q37998529-EB9BB29F-0105-4381-8B0D-49847A37A724

P478

Q37998529-24A1C3B0-E079-4A36-B9BF-E054F2FEC405

P577

Q37998529-2B6B7CDF-73E4-40A7-9691-C7FA140E3938

P698

Q37998529-E4765989-5965-4C19-94F3-5EC02633CD04

P356

P1433

Expert Review of Proteomics

P1476

Optimal selection of 2D revers ...... iques in bottom-up proteomics.

@en

P2093

Oleg Krokhin

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

Peter McQueen

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

P2860

Improved two-dimensional reversed phase-reversed phase LC-MS/MS approach for identification of peptide-protein interactions

Large-scale analysis of the yeast proteome by multidimensional protein identification technology

An improved model for prediction of retention times of tryptic peptides in ion pair reversed-phase HPLC: its application to protein peptide mapping by off-line HPLC-MALDI MS.

Proteomics: from gel based to gel free.

Sequence-specific retention calculator. Algorithm for peptide retention prediction in ion-pair RP-HPLC: application to 300- and 100-A pore size C18 sorbents.

Assessment of the reproducibility of random hexapeptide peptide library-based protein normalization.

Quantitative proteomic analyses of influenza virus-infected cultured human lung cells.

Reversed-phase chromatography with multiple fraction concatenation strategy for proteome profiling of human MCF10A cells

Improved peptide elution time prediction for reversed-phase liquid chromatography-MS by incorporating peptide sequence information.

The effects of infliximab therapy on the serum proteome of rheumatoid arthritis patients

P304

125-128

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

P31

scholarly article

P356

10.1586/EPR.12.8

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

P433

2

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

P478

9

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

P577

2012-04-01T00:00:00Z

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

P698

22462784

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