General Information of Drug Transporter (DT)
DT ID DTD0051 Transporter Info
Gene Name ABCB5
Transporter Name ATP-binding cassette sub-family B member 5
Gene ID
340273
UniProt ID
Q2M3G0
Post-Translational Modification of This DT
Overview of ABCB5 Modification Sites with Functional and Structural Information
Sequence
MENSERAEEM QENYQRNGTA EEQPKLRKEA VGSIEIFRFA DGLDITLMIL GILASLVNGA 
CLPLMPLVLG EMSDNLISGC LVQTNTTNYQ NCTQSQEKLN EDMTLLTLYY VGIGVAALIF 
GYIQISLWII TAARQTKRIR KQFFHSVLAQ DIGWFDSCDI GELNTRMTDD IDKISDGIGD 
KIALLFQNMS TFSIGLAVGL VKGWKLTLVT LSTSPLIMAS AAACSRMVIS LTSKELSAYS 
KAGAVAEEVL SSIRTVIAFR AQEKELQRYT QNLKDAKDFG IKRTIASKVS LGAVYFFMNG 
TYGLAFWYGT SLILNGEPGY TIGTVLAVFF SVIHSSYCIG AAVPHFETFA IARGAAFHIF 
QVIDKKPSID NFSTAGYKPE SIEGTVEFKN VSFNYPSRPS IKILKGLNLR IKSGETVALV 
GLNGSGKSTV VQLLQRLYDP DDGFIMVDEN DIRALNVRHY RDHIGVVSQE PVLFGTTISN 
NIKYGRDDVT DEEMERAARE ANAYDFIMEF PNKFNTLVGE KGAQMSGGQK QRIAIARALV 
RNPKILILDE ATSALDSESK SAVQAALEKA SKGRTTIVVA HRLSTIRSAD LIVTLKDGML 
AEKGAHAELM AKRGLYYSLV MSQDIKKADE QMESMTYSTE RKTNSLPLHS VKSIKSDFID 
KAEESTQSKE ISLPEVSLLK ILKLNKPEWP FVVLGTLASV LNGTVHPVFS IIFAKIITMF 
GNNDKTTLKH DAEIYSMIFV ILGVICFVSY FMQGLFYGRA GEILTMRLRH LAFKAMLYQD 
IAWFDEKENS TGGLTTILAI DIAQIQGATG SRIGVLTQNA TNMGLSVIIS FIYGWEMTFL 
ILSIAPVLAV TGMIETAAMT GFANKDKQEL KHAGKIATEA LENIRTIVSL TREKAFEQMY 
EEMLQTQHRN TSKKAQIIGS CYAFSHAFIY FAYAAGFRFG AYLIQAGRMT PEGMFIVFTA 
IAYGAMAIGE TLVLAPEYSK AKSGAAHLFA LLEKKPNIDS RSQEGKKPDT CEGNLEFREV 
SFFYPCRPDV FILRGLSLSI ERGKTVAFVG SSGCGKSTSV QLLQRLYDPV QGQVLFDGVD 
AKELNVQWLR SQIAIVPQEP VLFNCSIAEN IAYGDNSRVV PLDEIKEAAN AANIHSFIEG 
LPEKYNTQVG LKGAQLSGGQ KQRLAIARAL LQKPKILLLD EATSALDNDS EKVVQHALDK 
ARTGRTCLVV THRLSAIQNA DLIVVLHNGK IKEQGTHQEL LRNRDIYFKL VNAQSVQ
PTM type
X-Acetylation X-N-glycosylation X-Phosphorylation X: Amino Acid

Acetylation

  Lysine

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

  PTM Phenomenon 1

Have the potential to influence ABCB5 [1]

Role of PTM

Potential impacts

Modified Residue

Lysine

Modified Location

982

Experimental Method

Co-Immunoprecipitation

Detailed Description

Acetylation at ABCB5 Lysine 982 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence ABCB5 [2]

Role of PTM

Potential impacts

Modified Residue

Lysine

Modified Location

994

Experimental Method

Co-Immunoprecipitation

Detailed Description

Acetylation at ABCB5 Lysine 994 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence ABCB5 [3]

Role of PTM

Potential impacts

Modified Residue

Lysine

Modified Location

1200

Experimental Method

Co-Immunoprecipitation

Detailed Description

Acetylation at ABCB5 Lysine 1200 has the potential to affect its expression or activity.

N-glycosylation

  Asparagine

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

  PTM Phenomenon 1

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

17

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 17 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

85

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 85 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

91

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 91 has the potential to affect its expression or activity.

  PTM Phenomenon 4

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

371

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 371 has the potential to affect its expression or activity.

  PTM Phenomenon 5

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

390

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 390 has the potential to affect its expression or activity.

  PTM Phenomenon 6

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

423

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 423 has the potential to affect its expression or activity.

  PTM Phenomenon 7

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

789

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 789 has the potential to affect its expression or activity.

  PTM Phenomenon 8

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

819

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 819 has the potential to affect its expression or activity.

  PTM Phenomenon 9

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

910

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 910 has the potential to affect its expression or activity.

  PTM Phenomenon 10

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

1104

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 1104 has the potential to affect its expression or activity.

  PTM Phenomenon 11

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Asparagine

Modified Location

1188

Experimental Method

Co-Immunoprecipitation

Detailed Description

N-linked Glycosylation at ABCB5 Asparagine 1188 has the potential to affect its expression or activity.

Phosphorylation

  Serine

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

  PTM Phenomenon 1

Have the potential to influence ABCB5 [5] , [6]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

251

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 251 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence ABCB5 [6] , [7]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

252

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 252 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

479

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 479 has the potential to affect its expression or activity.

  PTM Phenomenon 4

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

561

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 561 has the potential to affect its expression or activity.

  PTM Phenomenon 5

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

668

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 668 has the potential to affect its expression or activity.

  PTM Phenomenon 6

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

672

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 672 has the potential to affect its expression or activity.

  PTM Phenomenon 7

Have the potential to influence ABCB5 [5]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

677

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 677 has the potential to affect its expression or activity.

  PTM Phenomenon 8

Have the potential to influence ABCB5 [8]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

1051

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 1051 has the potential to affect its expression or activity.

  PTM Phenomenon 9

Have the potential to influence ABCB5 [8]

Role of PTM

Potential impacts

Modified Residue

Serine

Modified Location

1052

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Serine 1052 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 ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Threonine

Modified Location

477

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Threonine 477 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence ABCB5 [9]

Role of PTM

Potential impacts

Modified Residue

Threonine

Modified Location

765

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Threonine 765 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence ABCB5 [10]

Role of PTM

Potential impacts

Modified Residue

Threonine

Modified Location

1147

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Threonine 1147 has the potential to affect its expression or activity.

  PTM Phenomenon 4

Have the potential to influence ABCB5 [5]

Role of PTM

Potential impacts

Modified Residue

Threonine

Modified Location

1236

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Threonine 1236 has the potential to affect its expression or activity.

  Tyrosine

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

  PTM Phenomenon 1

Have the potential to influence ABCB5 [11]

Role of PTM

Potential impacts

Modified Residue

Tyrosine

Modified Location

14

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Tyrosine 14 has the potential to affect its expression or activity.

  PTM Phenomenon 2

Have the potential to influence ABCB5 [4]

Role of PTM

Potential impacts

Modified Residue

Tyrosine

Modified Location

460

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Tyrosine 460 has the potential to affect its expression or activity.

  PTM Phenomenon 3

Have the potential to influence ABCB5 [9]

Role of PTM

Potential impacts

Modified Residue

Tyrosine

Modified Location

778

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Tyrosine 778 has the potential to affect its expression or activity.

  PTM Phenomenon 4

Have the potential to influence ABCB5 [10]

Role of PTM

Potential impacts

Modified Residue

Tyrosine

Modified Location

1145

Experimental Method

Co-Immunoprecipitation

Detailed Description

Phosphorylation at ABCB5 Tyrosine 1145 has the potential to affect its expression or activity.
References
1 Paddy field dermatitis in Assam: a cercarial dermatitis. J Commun Dis. 1994 Mar;26(1):26-30.
2 Interpleural block for patients with multiple rib fractures: comparison with epidural block. J Emerg Med. 1994 Jul-Aug;12(4):441-6.
3 The developmental etiology of borderline and narcissistic disorders. Bull Menninger Clin. 1980 Mar;44(2):127-34.
4 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: ABCB5_HUMAN)
5 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.
6 Combined inhibition of receptor tyrosine and p21-activated kinases as a therapeutic strategy in childhood ALL. Blood Adv. 2018 Oct 9;2(19):2554-2567.
7 In-Depth Analyses of B Cell Signaling Through Tandem Mass Spectrometry of Phosphopeptides Enriched by PolyMAC. Int J Mass Spectrom. 2015 Feb 1;377:744-753.
8 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.
9 An Augmented Multiple-Protease-Based Human Phosphopeptide Atlas. Cell Rep. 2015 Jun 23;11(11):1834-43.
10 Comparative phosphoproteomic analysis reveals signaling networks regulating monopolar and bipolar cytokinesis. Sci Rep. 2018 Feb 2;8(1):2269.
11 An integrated strategy for highly sensitive phosphoproteome analysis from low micrograms of protein samples. Analyst. 2018 Jul 23;143(15):3693-3701.

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