Ser281
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Home > Phosphorylation Site Page: > Ser281  -  ataxin-7L3 (human)

Site Information
WDGSsDLsPSDSGSS   SwissProt Entrez-Gene
Blast this site against: NCBI  SwissProt  PDB 
Site Group ID: 3196673

In vivo Characterization
Methods used to characterize site in vivo:
mass spectrometry ( 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 10 , 11 , 12 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 )
Disease tissue studied:
breast cancer ( 4 , 5 , 11 ) , breast ductal carcinoma ( 4 ) , HER2 positive breast cancer ( 1 ) , luminal A breast cancer ( 1 ) , luminal B breast cancer ( 1 ) , breast cancer, triple negative ( 1 , 4 ) , cervical cancer ( 16 ) , cervical adenocarcinoma ( 16 ) , leukemia ( 14 ) , acute myelogenous leukemia ( 14 ) , lung cancer ( 11 ) , non-small cell lung cancer ( 11 ) , ovarian cancer ( 4 ) , melanoma skin cancer ( 2 )
Relevant cell line - cell type - tissue:
A549 (pulmonary) ( 7 ) , breast ( 1 , 4 ) , BT-20 (breast cell) ( 11 ) , Flp-In T-Rex-293 (epithelial) ( 12 ) , Flp-In T-Rex-293 (epithelial) [PRKD1 (human), genetic knockin] ( 12 ) , H2009 (pulmonary) ( 11 ) , H2077 (pulmonary) ( 11 ) , H2887 (pulmonary) ( 11 ) , H322 (pulmonary) ( 11 ) , H322M (pulmonary) ( 11 ) , HCC1359 (pulmonary) ( 11 ) , HCC1937 (breast cell) ( 11 ) , HCC366 (pulmonary) ( 11 ) , HCC4006 (pulmonary) ( 11 ) , HCC78 (pulmonary) ( 11 ) , HCC827 (pulmonary) ( 11 ) , HeLa (cervical) ( 3 , 10 , 20 , 21 ) , HeLa S3 (cervical) ( 16 , 19 ) , HMLER ('stem, breast cancer') ( 5 ) , HMLER ('stem, breast cancer') [CXCR4 (human), knockdown] ( 5 ) , HOP62 (pulmonary) ( 11 ) , HUES-7 ('stem, embryonic') ( 17 ) , HUES-9 ('stem, embryonic') ( 15 ) , Jurkat (T lymphocyte) ( 8 , 18 ) , K562 (erythroid) ( 10 ) , KG-1 (myeloid) ( 14 ) , LCLC-103H (pulmonary) ( 11 ) , liver ( 6 ) , LOU-NH91 (squamous) ( 11 ) , MCF-7 (breast cell) ( 11 ) , MDA-MB-468 (breast cell) ( 11 ) , NCI-H460 (pulmonary) ( 11 ) , ovary ( 4 ) , WM239A (epidermal) ( 2 )

References 

1

Mertins P, et al. (2016) Proteogenomics connects somatic mutations to signalling in breast cancer. Nature 534, 55-62
27251275   Curated Info

2

Stuart SA, et al. (2015) A Phosphoproteomic Comparison of B-RAFV600E and MKK1/2 Inhibitors in Melanoma Cells. Mol Cell Proteomics 14, 1599-615
25850435   Curated Info

3

Sharma K, et al. (2014) Ultradeep human phosphoproteome reveals a distinct regulatory nature of Tyr and Ser/Thr-based signaling. Cell Rep 8, 1583-94
25159151   Curated Info

4

Mertins P, et al. (2014) Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels. Mol Cell Proteomics 13, 1690-704
24719451   Curated Info

5

Yi T, et al. (2014) Quantitative phosphoproteomic analysis reveals system-wide signaling pathways downstream of SDF-1/CXCR4 in breast cancer stem cells. Proc Natl Acad Sci U S A 111, E2182-90
24782546   Curated Info

6

Bian Y, et al. (2014) An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. J Proteomics 96, 253-62
24275569   Curated Info

7

Kim JY, et al. (2013) Dissection of TBK1 signaling via phosphoproteomics in lung cancer cells. Proc Natl Acad Sci U S A 110, 12414-9
23836654   Curated Info

8

Mertins P, et al. (2013) Integrated proteomic analysis of post-translational modifications by serial enrichment. Nat Methods 10, 634-7
23749302   Curated Info

9

Shiromizu T, et al. (2013) Identification of missing proteins in the neXtProt database and unregistered phosphopeptides in the PhosphoSitePlus database as part of the Chromosome-centric Human Proteome Project. J Proteome Res 12, 2414-21
23312004   Curated Info

10

Zhou H, et al. (2013) Toward a comprehensive characterization of a human cancer cell phosphoproteome. J Proteome Res 12, 260-71
23186163   Curated Info

11

Klammer M, et al. (2012) Phosphosignature predicts dasatinib response in non-small cell lung cancer. Mol Cell Proteomics 11, 651-68
22617229   Curated Info

12

Franz-Wachtel M, et al. (2012) Global detection of protein kinase D-dependent phosphorylation events in nocodazole-treated human cells. Mol Cell Proteomics 11, 160-70
22496350   Curated Info

13

Beli P, et al. (2012) Proteomic Investigations Reveal a Role for RNA Processing Factor THRAP3 in the DNA Damage Response. Mol Cell 46, 212-25
22424773   Curated Info

14

Weber C, Schreiber TB, Daub H (2012) Dual phosphoproteomics and chemical proteomics analysis of erlotinib and gefitinib interference in acute myeloid leukemia cells. J Proteomics 75, 1343-56
22115753   Curated Info

15

Rigbolt KT, et al. (2011) System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation. Sci Signal 4, rs3
21406692   Curated Info

16

Olsen JV, et al. (2010) Quantitative phosphoproteomics reveals widespread full phosphorylation site occupancy during mitosis. Sci Signal 3, ra3
20068231   Curated Info

17

Van Hoof D, et al. (2009) Phosphorylation dynamics during early differentiation of human embryonic stem cells. Cell Stem Cell 5, 214-26
19664995   Curated Info

18

Mayya V, et al. (2009) Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions. Sci Signal 2, ra46
19690332   Curated Info

19

Daub H, et al. (2008) Kinase-selective enrichment enables quantitative phosphoproteomics of the kinome across the cell cycle. Mol Cell 31, 438-48
18691976   Curated Info

20

Dephoure N, et al. (2008) A quantitative atlas of mitotic phosphorylation. Proc Natl Acad Sci U S A 105, 10762-7
18669648   Curated Info

21

Ruse CI, et al. (2008) Motif-specific sampling of phosphoproteomes. J Proteome Res 7, 2140-50
18452278   Curated Info