Detail Information of Post-Translational Modifications

General Information of Drug Transporter (DT)
DT ID	DTD0162 Transporter Info
Gene Name	SLC24A1
Transporter Name	Sodium/potassium/calcium exchanger 1
Gene ID	9187
UniProt ID	O60721

Post-Translational Modification of This DT
Overview of SLC24A1 Modification Sites with Functional and Structural Information
Sequence	M G K L I R M G P Q E R W L L R T K R L H W S R L L F L L G M L I I G S T Y Q H L R R P R G L S S L W A A V S S H Q P I K L A S R D L S S E E M M M M S S S P S K P S S E M G G K M L V P Q A S V G S D E A T L S M T V E N I P S M P K R T A K M I P T T T K N N Y S P T A A G T E R R K E D T P T S S R T L T Y Y T S T S S R Q I V K K Y T P T P R G E M K S Y S P T Q V R E K V K Y T P S P R G R R V G T Y V P S T F M T M E T S H A I T P R T T V K D S D I T A T Y K I L E T N S L K R I M E E T T P T T L K G M F D S T P T F L T H E V E A N V L T S P R S V M E K N N L F P P R R V E S N S S A H P W G L V G K S N P K T P Q G T V L L H T P A T S E G Q V T I S T M T G S S P A E T K A F T A A W S L R N P S P R T S V S A I K T A P A I V W R L A K K P S T A P S T S T T P T V R A K L T M Q V H H C V V V K P T P A M L T T P S P S L T T A L L P E E L S P S P S V L P P S L P D L H P K G E Y P P D L F S V E E R R Q G W V V L H V F G M M Y V F V A L A I V C D E Y F V P A L G V I T D K L Q I S E D V A G A T F M A A G G S A P E L F T S L I G V F I S H S N V G I G T I V G S A V F N I L F V I G T C S L F S R E I L N L T W W P L F R D V S F Y I L D L I M L I L F F L D S L I A W W E S L L L L L A Y A F Y V F T M K W N K H I E V W V K E Q L S R R P V A K V M A L E D L S K P G D G A I A V D E L Q D N K K L K L P S L L T R G S S S T S L H N S T I R S T I Y Q L M L H S L D P L R E V R L A K E K E E E S L N Q G A R A Q P Q A K A E S K P E E E E P A K L P A V T V T P A P V P D I K G D Q K E N P G G Q E D V A E A E S T G E M P G E E G E T A G E G E T E E K S G G E T Q P E G E G E T E T Q G K G E E C E D E N E A E G K G D N E G E D E G E I H A E D G E M K G N E G E T E S Q E L S A E N H G E A K N D E K G V E D G G G S D G G D S E E E E E E E E E Q E E E E E E E E Q E E E E E E E E E E E E K G N E E P L S L D W P E T R Q K Q A I Y L F L L P I V F P L W L T V P D V R R Q E S R K F F V F T F L G S I M W I A M F S Y L M V W W A H Q V G E T I G I S E E I M G L T I L A A G T S I P D L I T S V I V A R K G L G D M A V S S S V G S N I F D I T V G L P V P W L L F S L I N G L Q P V P V S S N G L F C A I V L L F L M L L F V I S S I A S C K W R M N K I L G F T M F L L Y F V F L I I S V M L E D R I I S C P V S V
PTM type	X-Acetylation X-N-glycosylation X-Phosphorylation X: Amino Acid

Acetylation
Lysine	1 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence SLC24A1			[1]
Role of PTM	Potential impacts
Modified Residue	Lysine	Modified Location	120
Experimental Method	Co-Immunoprecipitation
Detailed Description	Acetylation at SLC24A1 Lysine 120 has the potential to affect its expression or activity.
N-glycosylation
Asparagine	1 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence SLC24A1			[2]
Role of PTM	Potential impacts
Modified Residue	Asparagine	Modified Location	290
Experimental Method	Co-Immunoprecipitation
Detailed Description	N-linked Glycosylation at SLC24A1 Asparagine 290 has the potential to affect its expression or activity.
Phosphorylation
Serine	13 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	36
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 36 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence SLC24A1			[4] , [5]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	96
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 96 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence SLC24A1			[4] , [5]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	99
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 99 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence SLC24A1			[6]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	105
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 105 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence SLC24A1			[6]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	113
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 113 has the potential to affect its expression or activity.
PTM Phenomenon 6	Have the potential to influence SLC24A1			[7]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	158
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 158 has the potential to affect its expression or activity.
PTM Phenomenon 7	Have the potential to influence SLC24A1			[8]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	344
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 344 has the potential to affect its expression or activity.
PTM Phenomenon 8	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	372
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 372 has the potential to affect its expression or activity.
PTM Phenomenon 9	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	376
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 376 has the potential to affect its expression or activity.
PTM Phenomenon 10	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	378
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 378 has the potential to affect its expression or activity.
PTM Phenomenon 11	Have the potential to influence SLC24A1			[9]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	563
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 563 has the potential to affect its expression or activity.
PTM Phenomenon 12	Have the potential to influence SLC24A1			[8]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	651
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 651 has the potential to affect its expression or activity.
PTM Phenomenon 13	Have the potential to influence SLC24A1			[10]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	695
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Serine 695 has the potential to affect its expression or activity.
Threonine	16 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	37
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 37 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence SLC24A1			[11]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	125
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 125 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence SLC24A1			[11]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	137
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 137 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence SLC24A1			[12]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	167
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 167 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence SLC24A1			[12]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	169
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 169 has the potential to affect its expression or activity.
PTM Phenomenon 6	Have the potential to influence SLC24A1			[13]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	189
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 189 has the potential to affect its expression or activity.
PTM Phenomenon 7	Have the potential to influence SLC24A1			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	215
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 215 has the potential to affect its expression or activity.
PTM Phenomenon 8	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	373
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 373 has the potential to affect its expression or activity.
PTM Phenomenon 9	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	377
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 377 has the potential to affect its expression or activity.
PTM Phenomenon 10	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	379
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 379 has the potential to affect its expression or activity.
PTM Phenomenon 11	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	380
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 380 has the potential to affect its expression or activity.
PTM Phenomenon 12	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	382
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 382 has the potential to affect its expression or activity.
PTM Phenomenon 13	Have the potential to influence SLC24A1			[14] , [15]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	724
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 724 has the potential to affect its expression or activity.
PTM Phenomenon 14	Have the potential to influence SLC24A1			[14] , [16]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	726
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 726 has the potential to affect its expression or activity.
PTM Phenomenon 15	Have the potential to influence SLC24A1			[17]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	924
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 924 has the potential to affect its expression or activity.
PTM Phenomenon 16	Have the potential to influence SLC24A1			[14]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1073
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Threonine 1073 has the potential to affect its expression or activity.
Tyrosine	5 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence SLC24A1			[3]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	38
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Tyrosine 38 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence SLC24A1			[12]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	166
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Tyrosine 166 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence SLC24A1			[13]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	188
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Tyrosine 188 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence SLC24A1			[9]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	565
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Tyrosine 565 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence SLC24A1			[17]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	911
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at SLC24A1 Tyrosine 911 has the potential to affect its expression or activity.

References
1	Neurochemical findings of hemispherectomized rats (author's transl). No To Shinkei. 1980 Mar;32(3):327-36.
2	dbPTM in 2022: an updated database for exploring regulatory networks and functional associations of protein post-translational modifications. Nucleic Acids Res. 2022 Jan 7;50(D1):D471-D479. (ID: NCKX1_HUMAN)
3	Characterization of native protein complexes and protein isoform variation using size-fractionation-based quantitative proteomics. Mol Cell Proteomics. 2013 Dec;12(12):3851-73.
4	Unique signalling connectivity of FGFR3-TACC3 oncoprotein revealed by quantitative phosphoproteomics and differential network analysis. Oncotarget. 2017 Oct 25;8(61):102898-102911.
5	Quantitative phosphoproteomic analysis reveals system-wide signaling pathways regulated by site-specific phosphorylation of Keratin-8 in skin squamous cell carcinoma derived cell line. Proteomics. 2017 Apr;17(7).
6	Improve the coverage for the analysis of phosphoproteome of HeLa cells by a tandem digestion approach. J Proteome Res. 2012 May 4;11(5):2828-37.
7	Targeting BMK1 Impairs the Drug Resistance to Combined Inhibition of BRAF and MEK1/2 in Melanoma. Sci Rep. 2017 Apr 7;7:46244.
8	Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels. Mol Cell Proteomics. 2014 Jul;13(7):1690-704.
9	An Augmented Multiple-Protease-Based Human Phosphopeptide Atlas. Cell Rep. 2015 Jun 23;11(11):1834-43.
10	An integrated strategy for highly sensitive phosphoproteome analysis from low micrograms of protein samples. Analyst. 2018 Jul 23;143(15):3693-3701.
11	Robust, Reproducible, and Economical Phosphopeptide Enrichment Using Calcium Titanate. J Proteome Res. 2019 Mar 1;18(3):1411-1417.
12	Phosphoproteomics identifies driver tyrosine kinases in sarcoma cell lines and tumors. Cancer Res. 2012 May 15;72(10):2501-11.
13	Integrated analysis of global proteome, phosphoproteome, and glycoproteome enables complementary interpretation of disease-related protein networks. Sci Rep. 2015 Dec 11;5:18189.
14	iTRAQ labeling is superior to mTRAQ for quantitative global proteomics and phosphoproteomics. Mol Cell Proteomics. 2012 Jun;11(6):M111.014423.
15	UniProt: a worldwide hub of protein knowledge. Nucleic Acids Res. 2019 Jan 8;47(D1):D506-D515.
16	Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions. Sci Signal. 2009 Aug 18;2(84):ra46.
17	Phosphoproteomic Analysis Identifies Focal Adhesion Kinase 2 (FAK2) as a Potential Therapeutic Target for Tamoxifen Resistance in Breast Cancer. Mol Cell Proteomics. 2015 Nov;14(11):2887-900.

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Detail Information of Post-Translational Modifications

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