SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4312050262> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4312050262 abstract "Global high-throughput phosphoproteomic profiling is increasingly being applied to cancer specimens to identify the oncogenic signaling cascades responsible for promoting disease initiation and disease progression; pathways that are often invisible to genomics analysis. Hence, phosphoproteomic profiling has enormous potential to inform and improve individualized anti-cancer treatment strategies. However, to achieve the adequate phosphoproteomic depth and coverage necessary to identify the activated, and hence, targetable kinases responsible for driving oncogenic signaling pathways, affinity phosphopeptide enrichment techniques are required and often coupled with offline high-pressure liquid chromatographic (HPLC) separation prior to nanoflow liquid chromatography-tandem mass spectrometry (nLC-MS/MS). These complex and time-consuming procedures, limit the utility of phosphoproteomics for the analysis of individual cancer patient specimens in real-time, and restrict phosphoproteomics to specialized laboratories often outside of the clinical setting. To address these limitations, here we have optimized a new protocol, phospho-heavy-labeled-spiketide FAIMS Stepped-CV DDA (pHASED), that employs online phosphoproteome deconvolution using high-field asymmetric waveform ion mobility spectrometry (FAIMS) and internal phosphopeptide standards to provide accurate label-free quantitation (LFQ) data in real-time. Compared with traditional single-shot LFQ phosphoproteomics workflows, pHASED provided increased phosphoproteomic depth and coverage (phosphopeptides = 4617 pHASED, 2789 LFQ), whilst eliminating the variability associated with offline prefractionation. pHASED was optimized using tyrosine kinase inhibitor (sorafenib) resistant isogenic FLT3-mutant acute myeloid leukemia (AML) cell line models. Bioinformatic analysis identified differential activation of the serine/threonine protein kinase ataxia-telangiectasia mutated (ATM) pathway, responsible for sensing and repairing DNA damage in sorafenib-resistant AML cell line models, thereby uncovering a potential therapeutic opportunity. Herein, we have optimized a rapid, reproducible, and flexible protocol for the characterization of complex cancer phosphoproteomes in real-time, a step towards the implementation of phosphoproteomics in the clinic to aid in the selection of anti-cancer therapies for patients." @default.
W4312050262 created "2023-01-04" @default.
W4312050262 creator A5000958028 @default.
W4312050262 creator A5002062212 @default.
W4312050262 creator A5013078515 @default.
W4312050262 creator A5025787557 @default.
W4312050262 creator A5027481087 @default.
W4312050262 creator A5034466746 @default.
W4312050262 creator A5047279711 @default.
W4312050262 creator A5062387146 @default.
W4312050262 creator A5062436617 @default.
W4312050262 creator A5063271338 @default.
W4312050262 creator A5066498990 @default.
W4312050262 creator A5068455167 @default.
W4312050262 creator A5070558304 @default.
W4312050262 creator A5071204853 @default.
W4312050262 creator A5071718921 @default.
W4312050262 creator A5081085768 @default.
W4312050262 creator A5082031383 @default.
W4312050262 creator A5083568102 @default.
W4312050262 date "2022-12-01" @default.
W4312050262 modified "2023-09-26" @default.
W4312050262 title "Phospho-heavy-labeled-spiketide FAIMS stepped-CV DDA (pHASED) provides real-time phosphoproteomics data to aid in cancer drug selection" @default.
W4312050262 cites W1255676896 @default.
W4312050262 cites W1503281372 @default.
W4312050262 cites W1504864970 @default.
W4312050262 cites W1560020441 @default.
W4312050262 cites W1971349838 @default.
W4312050262 cites W1975558168 @default.
W4312050262 cites W1979989319 @default.
W4312050262 cites W1980904297 @default.
W4312050262 cites W1987322786 @default.
W4312050262 cites W1993246806 @default.
W4312050262 cites W1996768724 @default.
W4312050262 cites W2004558827 @default.
W4312050262 cites W2007773961 @default.
W4312050262 cites W2009930854 @default.
W4312050262 cites W2018872127 @default.
W4312050262 cites W2029304297 @default.
W4312050262 cites W2037837681 @default.
W4312050262 cites W2043274355 @default.
W4312050262 cites W2043896568 @default.
W4312050262 cites W2046024621 @default.
W4312050262 cites W2055148721 @default.
W4312050262 cites W2060737851 @default.
W4312050262 cites W2061345986 @default.
W4312050262 cites W2063546126 @default.
W4312050262 cites W2072455635 @default.
W4312050262 cites W2074429674 @default.
W4312050262 cites W2075124520 @default.
W4312050262 cites W2081674688 @default.
W4312050262 cites W2087527433 @default.
W4312050262 cites W2111420919 @default.
W4312050262 cites W2139777089 @default.
W4312050262 cites W2140946052 @default.
W4312050262 cites W2153466677 @default.
W4312050262 cites W2196745290 @default.
W4312050262 cites W2341686214 @default.
W4312050262 cites W2419140434 @default.
W4312050262 cites W2430824944 @default.
W4312050262 cites W2595970571 @default.
W4312050262 cites W2683363718 @default.
W4312050262 cites W2751598965 @default.
W4312050262 cites W2789652360 @default.
W4312050262 cites W2790131695 @default.
W4312050262 cites W2794930605 @default.
W4312050262 cites W2809388751 @default.
W4312050262 cites W2811273839 @default.
W4312050262 cites W2886372704 @default.
W4312050262 cites W2889731832 @default.
W4312050262 cites W2891169131 @default.
W4312050262 cites W2899760200 @default.
W4312050262 cites W2963077615 @default.
W4312050262 cites W2991199300 @default.
W4312050262 cites W3003119869 @default.
W4312050262 cites W3010560555 @default.
W4312050262 cites W3015317152 @default.
W4312050262 cites W3087121815 @default.
W4312050262 cites W3090838011 @default.
W4312050262 cites W3093226738 @default.
W4312050262 cites W3109011508 @default.
W4312050262 cites W3157592742 @default.
W4312050262 cites W3161074857 @default.
W4312050262 cites W3196242974 @default.
W4312050262 cites W3207821780 @default.
W4312050262 cites W3211932955 @default.
W4312050262 cites W4212976300 @default.
W4312050262 cites W4225081365 @default.
W4312050262 cites W4297256266 @default.
W4312050262 doi "https://doi.org/10.1186/s12014-022-09385-7" @default.
W4312050262 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36536316" @default.
W4312050262 hasPublicationYear "2022" @default.
W4312050262 type Work @default.
W4312050262 citedByCount "1" @default.
W4312050262 countsByYear W43120502622023 @default.
W4312050262 crossrefType "journal-article" @default.
W4312050262 hasAuthorship W4312050262A5000958028 @default.
W4312050262 hasAuthorship W4312050262A5002062212 @default.
W4312050262 hasAuthorship W4312050262A5013078515 @default.
W4312050262 hasAuthorship W4312050262A5025787557 @default.