SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2076135067> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2076135067 endingPage "1361" @default.
W2076135067 startingPage "1346" @default.
W2076135067 abstract "The mixture of phosphopeptides enriched from proteome samples are very complex. To reduce the complexity it is necessary to fractionate the phosphopeptides. However, conventional enrichment methods typically only enrich phosphopeptides but not fractionate phosphopeptides. In this study, the application of strong anion exchange (SAX) chromatography for enrichment and fractionation of phosphopeptides was presented. It was found that phosphopeptides were highly enriched by SAX and majority of unmodified peptides did not bind onto SAX. Compared with Fe3+ immobilized metal affinity chromatography (Fe3+-IMAC), almost double phosphopeptides were identified from the same sample when only one fraction was generated by SAX. SAX and Fe3+-IMAC showed the complementarity in enrichment and identification of phosphopeptides. It was also demonstrated that SAX have the ability to fractionate phosphopeptides under gradient elution based on their different interaction with SAX adsorbent. SAX was further applied to enrich and fractionate phosphopeptides in tryptic digest of proteins extracted from human liver tissue adjacent to tumorous region for phosphoproteome profiling. This resulted in the highly confident identification of 274 phosphorylation sites from 305 unique phosphopeptides corresponding to 168 proteins at false discovery rate (FDR) of 0.96%." @default.
W2076135067 created "2016-06-24" @default.
W2076135067 creator A5004455043 @default.
W2076135067 creator A5008218058 @default.
W2076135067 creator A5021024210 @default.
W2076135067 creator A5028151758 @default.
W2076135067 creator A5046017987 @default.
W2076135067 creator A5047377750 @default.
W2076135067 creator A5066241536 @default.
W2076135067 creator A5067726302 @default.
W2076135067 creator A5069877503 @default.
W2076135067 creator A5086699090 @default.
W2076135067 date "2008-04-01" @default.
W2076135067 modified "2023-10-07" @default.
W2076135067 title "Large-scale phosphoproteome analysis of human liver tissue by enrichment and fractionation of phosphopeptides with strong anion exchange chromatography" @default.
W2076135067 cites W1575714113 @default.
W2076135067 cites W1597678601 @default.
W2076135067 cites W1968654199 @default.
W2076135067 cites W1970696723 @default.
W2076135067 cites W1971912520 @default.
W2076135067 cites W1977355268 @default.
W2076135067 cites W1983400295 @default.
W2076135067 cites W1984548528 @default.
W2076135067 cites W1984871500 @default.
W2076135067 cites W1985475405 @default.
W2076135067 cites W1989060957 @default.
W2076135067 cites W1993450321 @default.
W2076135067 cites W1995124751 @default.
W2076135067 cites W1996693787 @default.
W2076135067 cites W1996793927 @default.
W2076135067 cites W1998838801 @default.
W2076135067 cites W1999657614 @default.
W2076135067 cites W2004704197 @default.
W2076135067 cites W2005984054 @default.
W2076135067 cites W2008741099 @default.
W2076135067 cites W2011147958 @default.
W2076135067 cites W2017682301 @default.
W2076135067 cites W2020459598 @default.
W2076135067 cites W2026465178 @default.
W2076135067 cites W2026654700 @default.
W2076135067 cites W2028803901 @default.
W2076135067 cites W2032611682 @default.
W2076135067 cites W2036945724 @default.
W2076135067 cites W2044318626 @default.
W2076135067 cites W2046515690 @default.
W2076135067 cites W2048666997 @default.
W2076135067 cites W2052141890 @default.
W2076135067 cites W2062049401 @default.
W2076135067 cites W2064461883 @default.
W2076135067 cites W2068940814 @default.
W2076135067 cites W2083031365 @default.
W2076135067 cites W2085037886 @default.
W2076135067 cites W2088495902 @default.
W2076135067 cites W2089367187 @default.
W2076135067 cites W2090806203 @default.
W2076135067 cites W2099255819 @default.
W2076135067 cites W2100779446 @default.
W2076135067 cites W2104726963 @default.
W2076135067 cites W2108136469 @default.
W2076135067 cites W2109758733 @default.
W2076135067 cites W2110343786 @default.
W2076135067 cites W2110663167 @default.
W2076135067 cites W2118127847 @default.
W2076135067 cites W2118149443 @default.
W2076135067 cites W2128987420 @default.
W2076135067 cites W2129777487 @default.
W2076135067 cites W2155880596 @default.
W2076135067 cites W2159689528 @default.
W2076135067 cites W2162173224 @default.
W2076135067 cites W2165484785 @default.
W2076135067 cites W2165923048 @default.
W2076135067 cites W2167268345 @default.
W2076135067 cites W2167573033 @default.
W2076135067 cites W2167899780 @default.
W2076135067 cites W2169108157 @default.
W2076135067 doi "https://doi.org/10.1002/pmic.200700884" @default.
W2076135067 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18318008" @default.
W2076135067 hasPublicationYear "2008" @default.
W2076135067 type Work @default.
W2076135067 sameAs 2076135067 @default.
W2076135067 citedByCount "183" @default.
W2076135067 countsByYear W20761350672012 @default.
W2076135067 countsByYear W20761350672013 @default.
W2076135067 countsByYear W20761350672014 @default.
W2076135067 countsByYear W20761350672015 @default.
W2076135067 countsByYear W20761350672016 @default.
W2076135067 countsByYear W20761350672017 @default.
W2076135067 countsByYear W20761350672018 @default.
W2076135067 countsByYear W20761350672019 @default.
W2076135067 countsByYear W20761350672020 @default.
W2076135067 countsByYear W20761350672021 @default.
W2076135067 countsByYear W20761350672022 @default.
W2076135067 countsByYear W20761350672023 @default.
W2076135067 crossrefType "journal-article" @default.
W2076135067 hasAuthorship W2076135067A5004455043 @default.
W2076135067 hasAuthorship W2076135067A5008218058 @default.
W2076135067 hasAuthorship W2076135067A5021024210 @default.
W2076135067 hasAuthorship W2076135067A5028151758 @default.