Detail Information of Post-Translational Modifications

General Information of Drug Transporter (DT)
DT ID	DTD0041 Transporter Info
Gene Name	ABCA3
Transporter Name	ATP-binding cassette sub-family A member 3
Gene ID	21
UniProt ID	Q99758

Post-Translational Modification of This DT
Overview of ABCA3 Modification Sites with Functional and Structural Information
Sequence	M A V L R Q L A L L L W K N Y T L Q K R K V L V T V L E L F L P L L F S G I L I W L R L K I Q S E N V P N A T I Y P G Q S I Q E L P L F F T F P P P G D T W E L A Y I P S H S D A A K T V T E T V R R A L V I N M R V R G F P S E K D F E D Y I R Y D N C S S S V L A A V V F E H P F N H S K E P L P L A V K Y H L R F S Y T R R N Y M W T Q T G S F F L K E T E G W H T T S L F P L F P N P G P R E P T S P D G G E P G Y I R E G F L A V Q H A V D R A I M E Y H A D A A T R Q L F Q R L T V T I K R F P Y P P F I A D P F L V A I Q Y Q L P L L L L L S F T Y T A L T I A R A V V Q E K E R R L K E Y M R M M G L S S W L H W S A W F L L F F L F L L I A A S F M T L L F C V K V K P N V A V L S R S D P S L V L A F L L C F A I S T I S F S F M V S T F F S K A N M A A A F G G F L Y F F T Y I P Y F F V A P R Y N W M T L S Q K L C S C L L S N V A M A M G A Q L I G K F E A K G M G I Q W R D L L S P V N V D D D F C F G Q V L G M L L L D S V L Y G L V T W Y M E A V F P G Q F G V P Q P W Y F F I M P S Y W C G K P R A V A G K E E E D S D P E K A L R N E Y F E A E P E D L V A G I K I K H L S K V F R V G N K D R A A V R D L N L N L Y E G Q I T V L L G H N G A G K T T T L S M L T G L F P P T S G R A Y I S G Y E I S Q D M V Q I R K S L G L C P Q H D I L F D N L T V A E H L Y F Y A Q L K G L S R Q K C P E E V K Q M L H I I G L E D K W N S R S R F L S G G M R R K L S I G I A L I A G S K V L I L D E P T S G M D A I S R R A I W D L L Q R Q K S D R T I V L T T H F M D E A D L L G D R I A I M A K G E L Q C C G S S L F L K Q K Y G A G Y H M T L V K E P H C N P E D I S Q L V H H H V P N A T L E S S A G A E L S F I L P R E S T H R F E G L F A K L E K K Q K E L G I A S F G A S I T T M E E V F L R V G K L V D S S M D I Q A I Q L P A L Q Y Q H E R R A S D W A V D S N L C G A M D P S D G I G A L I E E E R T A V K L N T G L A L H C Q Q F W A M F L K K A A Y S W R E W K M V A A Q V L V P L T C V T L A L L A I N Y S S E L F D D P M L R L T L G E Y G R T V V P F S V P G T S Q L G Q Q L S E H L K D A L Q A E G Q E P R E V L G D L E E F L I F R A S V E G G G F N E R C L V A A S F R D V G E R T V V N A L F N N Q A Y H S P A T A L A V V D N L L F K L L C G P H A S I V V S N F P Q P R S A L Q A A K D Q F N E G R K G F D I A L N L L F A M A F L A S T F S I L A V S E R A V Q A K H V Q F V S G V H V A S F W L S A L L W D L I S F L I P S L L L L V V F K A F D V R A F T R D G H M A D T L L L L L L Y G W A I I P L M Y L M N F F F L G A A T A Y T R L T I F N I L S G I A T F L M V T I M R I P A V K L E E L S K T L D H V F L V L P N H C L G M A V S S F Y E N Y E T R R Y C T S S E V A A H Y C K K Y N I Q Y Q E N F Y A W S A P G V G R F V A S M A A S G C A Y L I L L F L I E T N L L Q R L R G I L C A L R R R R T L T E L Y T R M P V L P E D Q D V A D E R T R I L A P S P D S L L H T P L I I K E L S K V Y E Q R V P L L A V D R L S L A V Q K G E C F G L L G F N G A G K T T T F K M L T G E E S L T S G D A F V G G H R I S S D V G K V R Q R I G Y C P Q F D A L L D H M T G R E M L V M Y A R L R G I P E R H I G A C V E N T L R G L L L E P H A N K L V R T Y S G G N K R K L S T G I A L I G E P A V I F L D E P S T G M D P V A R R L L W D T V A R A R E S G K A I I I T S H S M E E C E A L C T R L A I M V Q G Q F K C L G S P Q H L K S K F G S G Y S L R A K V Q S E G Q Q E A L E E F K A F V D L T F P G S V L E D E H Q G M V H Y H L P G R D L S W A K V F G I L E K A K E K Y G V D D Y S V S Q I S L E Q V F L S F A H L Q P P T A E E G R
PTM type	X-N-glycosylation X-Oxidation X-Phosphorylation X-Ubiquitination X: Amino Acid

N-glycosylation
Asparagine	2 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Critically important for the protein stability of ABCA3			[1]
Role of PTM	Protein Stability
Modified Residue	Asparagine	Modified Location	124
Studied Phenotype	Lung adenocarcinoma [ICD11: 2C25.0]
Experimental Material(s)	Hypotriploid alveolar basal epithelial (A549) cells
Experimental Method	Co-Immunoprecipitation
Detailed Description	Glycosylation at ABCA3 Asparagine 124 have been reported to be critically important for its protein stability.
PTM Phenomenon 2	Critically important for the protein stability of ABCA3			[1]
Role of PTM	Protein Stability
Modified Residue	Asparagine	Modified Location	140
Studied Phenotype	Lung adenocarcinoma [ICD11: 2C25.0]
Experimental Material(s)	Hypotriploid alveolar basal epithelial (A549) cells
Experimental Method	Co-Immunoprecipitation
Detailed Description	Glycosylation at ABCA3 Asparagine 140 have been reported to be critically important for its protein stability.
Oxidation
Cystine	1 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence ABCA3			[2]
Role of PTM	Potential impacts
Modified Residue	Cystine	Modified Location	1411
Experimental Method	Co-Immunoprecipitation
Detailed Description	Oxidation at ABCA3 Cystine 1411 has the potential to affect its expression or activity.
Phosphorylation
Serine	12 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence ABCA3			[3]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	508
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 508 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence ABCA3			[4]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	845
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 845 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence ABCA3			[4]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	846
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 846 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence ABCA3			[5]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	866
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 866 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence ABCA3			[3] , [6]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	872
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 872 has the potential to affect its expression or activity.
PTM Phenomenon 6	Have the potential to influence ABCA3			[7]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1082
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1082 has the potential to affect its expression or activity.
PTM Phenomenon 7	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1220
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1220 has the potential to affect its expression or activity.
PTM Phenomenon 8	Have the potential to influence ABCA3			[5] , [9]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1372
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1372 has the potential to affect its expression or activity.
PTM Phenomenon 9	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1387
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1387 has the potential to affect its expression or activity.
PTM Phenomenon 10	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1516
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1516 has the potential to affect its expression or activity.
PTM Phenomenon 11	Have the potential to influence ABCA3			[4]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1607
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1607 has the potential to affect its expression or activity.
PTM Phenomenon 12	Have the potential to influence ABCA3			[4] , [10]
Role of PTM	Potential impacts
Modified Residue	Serine	Modified Location	1610
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Serine 1610 has the potential to affect its expression or activity.
Threonine	12 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	197
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 197 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	239
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 239 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	241
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 241 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	385
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 385 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	575
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 575 has the potential to affect its expression or activity.
PTM Phenomenon 6	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	586
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 586 has the potential to affect its expression or activity.
PTM Phenomenon 7	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1214
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1214 has the potential to affect its expression or activity.
PTM Phenomenon 8	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1229
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1229 has the potential to affect its expression or activity.
PTM Phenomenon 9	Have the potential to influence ABCA3			[11]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1344
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1344 has the potential to affect its expression or activity.
PTM Phenomenon 10	Have the potential to influence ABCA3			[11]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1346
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1346 has the potential to affect its expression or activity.
PTM Phenomenon 11	Have the potential to influence ABCA3			[11] , [12]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1350
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1350 has the potential to affect its expression or activity.
PTM Phenomenon 12	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Threonine	Modified Location	1514
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Threonine 1514 has the potential to affect its expression or activity.
Tyrosine	7 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	152
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 152 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	518
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 518 has the potential to affect its expression or activity.
PTM Phenomenon 3	Have the potential to influence ABCA3			[13]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	1265
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 1265 has the potential to affect its expression or activity.
PTM Phenomenon 4	Have the potential to influence ABCA3			[13]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	1268
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 1268 has the potential to affect its expression or activity.
PTM Phenomenon 5	Have the potential to influence ABCA3			[11] , [13]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	1349
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 1349 has the potential to affect its expression or activity.
PTM Phenomenon 6	Have the potential to influence ABCA3			[8]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	1515
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 1515 has the potential to affect its expression or activity.
PTM Phenomenon 7	Have the potential to influence ABCA3			[4]
Role of PTM	Potential impacts
Modified Residue	Tyrosine	Modified Location	1609
Experimental Method	Co-Immunoprecipitation
Detailed Description	Phosphorylation at ABCA3 Tyrosine 1609 has the potential to affect its expression or activity.
Ubiquitination
Lysine	2 PTM Phenomena Related to This Residue		Click to Show/Hide the Full List
PTM Phenomenon 1	Have the potential to influence ABCA3			[14]
Role of PTM	Potential impacts
Modified Residue	Lysine	Modified Location	1384
Experimental Method	Co-Immunoprecipitation
Detailed Description	Ubiquitination at ABCA3 Lysine 1384 has the potential to affect its expression or activity.
PTM Phenomenon 2	Have the potential to influence ABCA3			[14]
Role of PTM	Potential impacts
Modified Residue	Lysine	Modified Location	1668
Experimental Method	Co-Immunoprecipitation
Detailed Description	Ubiquitination at ABCA3 Lysine 1668 has the potential to affect its expression or activity.

References
1	Disruption of N-linked glycosylation promotes proteasomal degradation of the human ATP-binding cassette transporter ABCA3. Am J Physiol Lung Cell Mol Physiol. 2013 Dec;305(12):L970-80.
2	A Quantitative Tissue-Specific Landscape of Protein Redox Regulation during Aging. Cell. 2020 Mar 5;180(5):968-983.e24.
3	Proteogenomics connects somatic mutations to signalling in breast cancer. Nature. 2016 Jun 2;534(7605):55-62.
4	Phosphoproteomics reveals ALK promote cell progress via RAS/ JNK pathway in neuroblastoma. Oncotarget. 2016 Nov 15;7(46):75968-75980.
5	Proteogenomic integration reveals therapeutic targets in breast cancer xenografts. Nat Commun. 2017 Mar 28;8:14864.
6	Deep Coverage of Global Protein Expression and Phosphorylation in Breast Tumor Cell Lines Using TMT 10-plex Isobaric Labeling. J Proteome Res. 2017 Mar 3;16(3):1121-1132.
7	Defeating Major Contaminants in Fe3+- Immobilized Metal Ion Affinity Chromatography (IMAC) Phosphopeptide Enrichment. Mol Cell Proteomics. 2018 May;17(5):1028-1034.
8	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: ABCA3_HUMAN)
9	Defective sphingosine 1-phosphate receptor 1 (S1P1) phosphorylation exacerbates TH17-mediated autoimmune neuroinflammation. Nat Immunol. 2013 Nov;14(11):1166-72.
10	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.
11	Feasibility of large-scale phosphoproteomics with higher energy collisional dissociation fragmentation. J Proteome Res. 2010 Dec 3;9(12):6786-94.
12	1-(2,6-Dichloro-benzo-yl)-3-(3,5-dichloro-phen-yl)thio-urea. Acta Crystallogr Sect E Struct Rep Online. 2008 Dec 20;65(Pt 1):o177.
13	Global survey of phosphotyrosine signaling identifies oncogenic kinases in lung cancer. Cell. 2007 Dec 14;131(6):1190-203.
14	A proteome-wide, quantitative survey of in vivo ubiquitylation sites reveals widespread regulatory roles. Mol Cell Proteomics. 2011 Oct;10(10):M111.013284.

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Detail Information of Post-Translational Modifications

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