General Information of Drug Transporter (DT)
DT ID DTD0098 Transporter Info
Gene Name SLC15A3
Transporter Name Peptide/histidine transporter 2
Gene ID
51296
UniProt ID
Q8IY34
Post-Translational Modification of This DT
Overview of SLC15A3 Modification Sites with Functional and Structural Information
Sequence
PTM type
X-N-glycosylation X-Oxidation X-Phosphorylation X: Amino Acid

N-glycosylation

  Asparagine

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

  PTM Phenomenon 1

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

61

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 61 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

66

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 66 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

178

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 178 has the potential to affect its expression or activity.

  PTM Phenomenon 4

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

223

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 223 has the potential to affect its expression or activity.

  PTM Phenomenon 5

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

356

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 356 has the potential to affect its expression or activity.

  PTM Phenomenon 6

Have the potential to influence SLC15A3 [1]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

439

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at SLC15A3 Asparagine 439 has the potential to affect its expression or activity.

Oxidation

  Cystine

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

  PTM Phenomenon 1

Have the potential to influence SLC15A3 [2]

Role of PTM

Potential impacts

Modified Residue

Cystine

Modified Location

536

Experimental Method

Co-Immunoprecipitation

Detailed Description

Oxidation at SLC15A3 Cystine 536 has the potential to affect its expression or activity.

Phosphorylation

  Serine

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

  PTM Phenomenon 1

Have the potential to influence SLC15A3 [3]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

572

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at SLC15A3 Serine 572 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence SLC15A3 [3]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

574

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at SLC15A3 Serine 574 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence SLC15A3 [3]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

577

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at SLC15A3 Serine 577 has the potential to affect its expression or activity.
References
1 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: S15A3_HUMAN)
2 Identifying Functional Cysteine Residues in the Mitochondria. ACS Chem Biol. 2017 Apr 21;12(4):947-957.
3 Proteogenomics connects somatic mutations to signalling in breast cancer. Nature. 2016 Jun 2;534(7605):55-62.

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