Detail Information of Post-Translational Modifications

General Information of Drug Transporter (DT)
DT ID DTD0023 Transporter Info
Gene Name SLC22A5
Transporter Name Organic cation/carnitine transporter 2
Gene ID
6584
UniProt ID
O76082
Post-Translational Modification of This DT
Overview of SLC22A5 Modification Sites with Functional and Structural Information
Sequence
PTM type
X-N-glycosylation X-Phosphorylation X-Ubiquitination X: Amino Acid

N-glycosylation

  Asparagine

           3 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [1]

Role of PTM

 Potential impacts

Modified Residue

 Asparagine

Modified Location

 57

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 N-linked Glycosylation at SLC22A5 Asparagine 57 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [1]

Role of PTM

 Potential impacts

Modified Residue

 Asparagine

Modified Location

 64

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 N-linked Glycosylation at SLC22A5 Asparagine 64 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [1]

Role of PTM

 Potential impacts

Modified Residue

 Asparagine

Modified Location

 91

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 N-linked Glycosylation at SLC22A5 Asparagine 91 has the potential to affect its expression or activity.

Phosphorylation

  Serine

           5 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 184

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Serine 184 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [2] , [3]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 190

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Serine 190 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 209

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Serine 209 has the potential to affect its expression or activity.

  PTM Phenomenon 4

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 225

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Serine 225 has the potential to affect its expression or activity.

  PTM Phenomenon 5

 Have the potential to influence SLC22A5 [4] , [5]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 554

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Serine 554 has the potential to affect its expression or activity.

  Threonine

           4 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Threonine

Modified Location

 176

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Threonine 176 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Threonine

Modified Location

 181

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Threonine 181 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Threonine

Modified Location

 219

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Threonine 219 has the potential to affect its expression or activity.

  PTM Phenomenon 4

 Have the potential to influence SLC22A5 [6] , [7]

Role of PTM

 Potential impacts

Modified Residue

 Threonine

Modified Location

 550

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Threonine 550 has the potential to affect its expression or activity.

  Tyrosine

           2 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [2]

Role of PTM

 Potential impacts

Modified Residue

 Tyrosine

Modified Location

 211

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Tyrosine 211 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [6] , [8]

Role of PTM

 Potential impacts

Modified Residue

 Tyrosine

Modified Location

 486

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Phosphorylation at SLC22A5 Tyrosine 486 has the potential to affect its expression or activity.

Ubiquitination

  Asparagine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Asparagine

Modified Location

 367

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Asparagine 367 has the potential to affect its expression or activity.

  Glutamicacid

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Glutamicacid

Modified Location

 118

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Glutamicacid 118 has the potential to affect its expression or activity.

  Glutamine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [11]

Role of PTM

 Potential impacts

Modified Residue

 Glutamine

Modified Location

 326

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Glutamine 326 has the potential to affect its expression or activity.

  Glycine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Glycine

Modified Location

 96

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Glycine 96 has the potential to affect its expression or activity.

  Isoleucine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [11] , [12]

Role of PTM

 Potential impacts

Modified Residue

 Isoleucine

Modified Location

 348

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Isoleucine 348 has the potential to affect its expression or activity.

  Leucine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Leucine

Modified Location

 148

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Leucine 148 has the potential to affect its expression or activity.

  Lysine

           6 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 299

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 299 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [9] , [11]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 302

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 302 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [13]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 324

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 324 has the potential to affect its expression or activity.

  PTM Phenomenon 4

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 325

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 325 has the potential to affect its expression or activity.

  PTM Phenomenon 5

 Have the potential to influence SLC22A5 [9] , [11]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 543

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 543 has the potential to affect its expression or activity.

  PTM Phenomenon 6

 Have the potential to influence SLC22A5 [13]

Role of PTM

 Potential impacts

Modified Residue

 Lysine

Modified Location

 553

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Lysine 553 has the potential to affect its expression or activity.

  Methionine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Methionine

Modified Location

 349

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Methionine 349 has the potential to affect its expression or activity.

  Phenylalanine

           3 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Phenylalanine

Modified Location

 119

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Phenylalanine 119 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [9] , [10]

Role of PTM

 Potential impacts

Modified Residue

 Phenylalanine

Modified Location

 149

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Phenylalanine 149 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [14]

Role of PTM

 Potential impacts

Modified Residue

 Phenylalanine

Modified Location

 377

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Phenylalanine 377 has the potential to affect its expression or activity.

  Serine

           4 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 93

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Serine 93 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 126

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Serine 126 has the potential to affect its expression or activity.

  PTM Phenomenon 3

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 323

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Serine 323 has the potential to affect its expression or activity.

  PTM Phenomenon 4

 Have the potential to influence SLC22A5 [14]

Role of PTM

 Potential impacts

Modified Residue

 Serine

Modified Location

 347

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Serine 347 has the potential to affect its expression or activity.

  Threonine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Threonine

Modified Location

 337

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Threonine 337 has the potential to affect its expression or activity.

  Valine

           1 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9]

Role of PTM

 Potential impacts

Modified Residue

 Valine

Modified Location

 123

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 Valine 123 has the potential to affect its expression or activity.

  Unclear Residue

           2 PTM Phenomena Related to This Residue Click to Show/Hide the Full List

  PTM Phenomenon 1

 Have the potential to influence SLC22A5 [9] , [11]

Role of PTM

 Potential impacts

Modified Location

 567

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 567 has the potential to affect its expression or activity.

  PTM Phenomenon 2

 Have the potential to influence SLC22A5 [11] , [15]

Role of PTM

 Potential impacts

Modified Location

 577

Experimental Method

 Co-Immunoprecipitation

Detailed Description

 Ubiquitination at SLC22A5 577 has the potential to affect its expression or activity.
References
1 Mass-spectrometric identification and relative quantification of N-linked cell surface glycoproteins. Nat Biotechnol. 2009 Apr;27(4):378-86.
2 Global phosphoproteomic effects of natural tyrosine kinase inhibitor, genistein, on signaling pathways. Proteomics. 2010 Mar;10(5):976-86.
3 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.
4 Dataset from the global phosphoproteomic mapping of early mitotic exit in human cells. Data Brief. 2015 Aug 24;5:45-52.
5 Global Phosphoproteomic Mapping of Early Mitotic Exit in Human Cells Identifies Novel Substrate Dephosphorylation Motifs. Mol Cell Proteomics. 2015 Aug;14(8):2194-212.
6 UniProt: a worldwide hub of protein knowledge. Nucleic Acids Res. 2019 Jan 8;47(D1):D506-D515.
7 Identification of Missing Proteins in the Phosphoproteome of Kidney Cancer. J Proteome Res. 2017 Dec 1;16(12):4364-4373.
8 Comparative N-glycoproteomic and phosphoproteomic profiling of human placental plasma membrane between normal and preeclampsia pregnancies with high-resolution mass spectrometry. PLoS One. 2013 Nov 15;8(11):e80480.
9 Landscape of the PARKIN-dependent ubiquitylome in response to mitochondrial depolarization. Nature. 2013 Apr 18;496(7445):372-6.
10 Systematic functional prioritization of protein posttranslational modifications. Cell. 2012 Jul 20;150(2):413-25.
11 UbiSite approach for comprehensive mapping of lysine and N-terminal ubiquitination sites. Nat Struct Mol Biol. 2018 Jul;25(7):631-640.
12 Global site-specific neddylation profiling reveals that NEDDylated cofilin regulates actin dynamics. Nat Struct Mol Biol. 2020 Feb;27(2):210-220.
13 Systematic and quantitative assessment of the ubiquitin-modified proteome. Mol Cell. 2011 Oct 21;44(2):325-40.
14 Global identification of modular cullin-RING ligase substrates. Cell. 2011 Oct 14;147(2):459-74.
15 Multilevel proteomics reveals host perturbations by SARS-CoV-2 and SARS-CoV. Nature. 2021 Jun;594(7862):246-252.

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