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Protein Page:
ATG9A (human)
p Phosphorylation
a Acetylation
m Methylation
m1 Mono-methylation
m2 Di-methylation
m3 Tri-methylation
u Ubiquitination
s Sumoylation
n Neddylation
gl O-GlcNAc
ga O-GalNAc
h Palmitoylation
ad Adenylylation
sn S-Nitrosylation
ca Caspase cleavage

Overview
ATG9A Plays a role in autophagy. Cycles between a juxta- nuclear trans-Golgi network compartment and late endosomes. Nutrient starvation induces accumulation on autophagosomes. Starvation-dependent trafficking requires ULK1, ATG13 and FAM48A. Interacts with FAM48A. Belongs to the ATG9 family. 3 isoforms of the human protein are produced by alternative splicing. Note: This description may include information from UniProtKB.
Protein type: Vesicle protein; Membrane protein, integral; Autophagy
Cellular Component: Golgi apparatus; late endosome membrane; integral to membrane; cytoplasmic vesicle
Molecular Function: protein binding
Biological Process: protein transport; autophagic vacuole formation
Reference #:  Q7Z3C6 (UniProtKB)
Alt. Names/Synonyms: APG9 autophagy 9-like 1; APG9-like 1; APG9L1; ATG9 autophagy related 9 homolog A (S. cerevisiae); ATG9A; autophagy 9-like 1 protein; Autophagy-related protein 9A; MGD3208
Gene Symbols: ATG9A
Molecular weight: 94,447 Da
Basal Isoelectric point: 6.19  Predict pI for various phosphorylation states
Protein-Specific Antibodies or siRNAs from Cell Signaling Technology® Total Proteins
Select Structure to View Below

ATG9A
Protein Structure Not Found.


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Modification Sites and Domains Show Modification Legend
Click here to view phosphorylation modifications only

Modification Sites in Parent Protein, Orthologs, and Isoforms Show Modification Legend
 

Show Multiple Sequence Alignment


 SS 

SS: The number of records in which this modification site was determined using site-specific methods. SS methods include amino acid sequencing, site-directed mutagenesis, modification site-specific antibodies, specific MS strategies, etc.


  MS 

MS: The number of records in which this modification site was assigned using ONLY proteomic discovery-mode mass spectrometry.


        human

 
0 16 S14-p EYQRLEAsysDsPPG
0 5 Y15-p YQRLEAsysDsPPGE
0 2 S16-p QRLEAsysDsPPGEE
0 8 S18-p LEAsysDsPPGEEDL
0 4 Y209-p ELTELDIyHRILRFQ
0 1 K225-u YMVALVNkSLLPLRF
0 1 S543-p SAGQTEAsVyQQAED
0 1 Y545-p GQTEAsVyQQAEDGK
0 4 K581-u TAFLGFLkEQVQRDG
0 1 S642-p LPRDLQGsRHRAEVA
0 7 S656-p ASALRSFsPLQPGQA
0 1 S675-p AHSTMTGsGVDARTA
0 16 S735-p HVWHRREsDEsGEsA
0 11 S738-p HRREsDEsGEsAPDE
0 8 S741-p EsDEsGEsAPDEGGE
0 7 S759-p APQSIPRsAsYPCAA
0 12 S761-p QSIPRsAsYPCAAPR
0 1 A766 sAsYPCAAPRPGAPE
0 22 S828-p EPVPEEGsEDELPPQ
  mouse

 
S14-p EYQRLEAsYsDsPPG
Y15 YQRLEAsYsDsPPGE
S16-p QRLEAsYsDsPPGEE
S18-p LEAsYsDsPPGEEDL
Y209 ELTELDIYHRILRFQ
K225 YMVALVNKSLLPLRF
S543 SGGQTEASVYQQAED
Y545 GQTEASVYQQAEDGK
K581-u TAFLGFLkEQVQRDG
S642 LSRDLQGSRHRADVA
S656-p ASALRSFsPLQPGAA
S675-p VPSTMTGsGVDARTA
S735-p HVWHRREsDEsGEsA
S738-p HRREsDEsGEsAPEE
S741-p EsDEsGEsAPEEGGE
S759 APQPIPRSAsYPCAt
S761-p QPIPRSAsYPCAtPR
T766-p SAsYPCAtPRPGAPE
S828-p EPVPEEGsEDELPPQ
  rat

 
S14 EYQRLEASYSDSPPG
Y15 YQRLEASYSDSPPGE
S16 QRLEASYSDSPPGEE
S18 LEASYSDSPPGEEDL
Y209 ELTELDIYHRILRFQ
K225 YMVALVNKSLLPLRF
S543 SGGQTEASVYQQAED
Y545 GQTEASVYQQAEDGK
K581 TAFLGFLKEQVQRDG
S642 LSRDLQGSRHRADVA
S656 ASALRSFSPLQPGQA
S675 VPSTMTGSGVDARTA
S735 HVWHRRESDESGESA
S738 HRRESDESGESAPEE
S741 ESDESGESAPEEGGE
S759 APQPIPRSASYPCAT
S761 QPIPRSASYPCATPR
T766 SASYPCATPRPGAPE
S828 EPVPEEGSEDELPPQ
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