Human Metabolome Database: Showing Protein DNA polymerase zeta catalytic subunit (HMDBP00959)

Identification Biological properties Gene properties Protein properties External links References XML Show 6 metabolites

Identification

HMDB Protein ID

HMDBP00959

Secondary Accession Numbers

6247

Name

DNA polymerase zeta catalytic subunit

Synonyms

Protein reversionless 3-like
REV3-like
hREV3

Gene Name

REV3L

Protein Type

Enzyme

Biological Properties

General Function

Involved in nucleotide binding

Specific Function

Interacts with MAD2L2 to form the error prone DNA polymerase zeta involved in translesion DNA synthesis.

Pathways

Fanconi anemia pathway

Reactions

Deoxynucleoside triphosphate + DNA(n) → Pyrophosphate + DNA(n+1)

details

GO Classification

Biological Process
DNA-dependent DNA replication
translesion synthesis
Cellular Component
chromosome
nucleus
zeta DNA polymerase complex
Function
binding
nucleotide binding
catalytic activity
transferase activity
transferase activity, transferring phosphorus-containing groups
nucleotidyltransferase activity
dna polymerase activity
dna-directed dna polymerase activity
nucleic acid binding
dna binding
Molecular Function
metal ion binding
4 iron, 4 sulfur cluster binding
DNA-directed DNA polymerase activity
DNA binding
nucleotide binding
Process
metabolic process
nitrogen compound metabolic process
cellular nitrogen compound metabolic process
nucleobase, nucleoside, nucleotide and nucleic acid metabolic process
macromolecule metabolic process
cellular macromolecule metabolic process
dna metabolic process
dna replication

Cellular Location

Nucleus (Potential)

Gene Properties

Chromosome Location

Locus

6q21

SNPs

REV3L

Gene Sequence

>9393 bp
ATGTTTTCAGTAAGGATAGTGACTGCAGACTACTACATGGCCAGCCCGCTGCAGGGGCTG
GATACCTGCCAATCCCCCCTCACCCAGGCCCCTGTCAAGAAGGTGCCGGTGGTGCGAGTC
TTCGGAGCGACCCCGGCAGGTCAGAAGACATGTCTTCATCTACATGGCATCTTTCCTTAC
CTCTATGTGCCATACGATGGTTATGGACAGCAGCCAGAAAGCTATCTTTCTCAGATGGCA
TTCAGTATCGACAGAGCACTTAATGTGGCTTTAGGCAATCCATCTTCCACTGCTCAGCAT
GTGTTCAAAGTGTCATTAGTATCAGGAATGCCTTTTTATGGTTATCATGAGAAGGAAAGA
CACTTTATGAAGATCTATCTTTACAATCCTACAATGGTGAAAAGGATATGTGAACTTTTG
CAAAGCGGAGCCATAATGAATAAATTTTACCAGCCTCATGAAGCGCATATTCCCTACCTC
CTACAGCTCTTCATTGACTACAATCTTTATGGCATGAATTTAATAAATCTGGCTGCTGTC
AAGTTCCGAAAAGCAAGAAGGAAAAGTAATACATTGCATGCAACTGGATCCTGCAAGAAT
CATTTATCAGGAAATTCTCTTGCTGATACTTTATTTCGGTGGGAACAAGATGAAATACCA
AGCTCTTTAATATTGGAAGGTGTTGAACCACAGAGTACATGTGAATTAGAAGTGGATGCT
GTAGCTGCTGATATCTTAAATCGTCTGGACATTGAAGCTCAAATTGGTGGAAACCCTGGT
CTACAGGCCATATGGGAAGATGAAAAGCAACGGCGAAGAAACAGAAATGAAACTTCTCAA
ATGAGCCAACCTGAGTCACAAGATCACAGGTTTGTGCCAGCAACAGAAAGTGAAAAAAAA
TTTCAGAAGAGACTTCAGGAAATTCTCAAACAGAATGATTTCTCTGTAACATTATCAGGA
TCTGTGGACTACAGCGATGGATCCCAGGAGTTCTCTGCTGAGTTAACATTGCACTCTGAG
GTTCTGTCTCCTGAAATGCTTCAGTGTACACCAGCCAATATGGTAGAAGTTCACAAAGAC
AAAGAGTCAAGCAAAGGTCACACTAGACACAAAGTGGAAGAAGCTCTTATTAATGAAGAA
GCAATTTTGAACCTTATGGAAAATAGTCAGACTTTTCAGCCTTTGACCCAAAGACTGAGT
GAGTCACCTGTTTTCATGGACAGTAGTCCTGATGAGGCTCTGGTACATCTTCTTGCTGGT
TTGGAAAGTGATGGATATCGGGGGGAAAGAAATAGGATGCCATCACCATGTCGCTCCTTT
GGAAATAATAAATATCCACAAAATAGTGATGATGAAGAAAATGAACCACAGATTGAAAAA
GAGGAAATGGAGCTTAGTTTGGTGATGTCCCAGAGATGGGACAGCAATATTGAAGAACAT
TGTGCCAAAAAGAGATCACTGTGCAGAAATACCCACAGAAGTTCAACTGAAGATGATGAC
TCATCTTCAGGAGAAGAAATGGAATGGAGTGATAACAGTTTGCTTCTAGCCAGTCTTTCT
ATACCTCAGTTAGATGGAACTGCAGATGAAAATAGTGACAATCCATTGAACAATGAAAAT
TCTAGAACCCACTCTTCTGTAATTGCAACAAGCAAGCTTTCAGTTAAACCCTCCATCTTT
CACAAAGATGCTGCTACATTAGAACCCTCATCTTCTGCTAAGATTACCTTTCAGTGTAAA
CACACAAGTGCCCTTTCTTCCCATGTTTTGAACAAGGAAGATTTAATTGAAGACCTTTCA
CAGACAAACAAAAATACAGAAAAAGGTCTAGATAACTCAGTCACTTCTTTTACAAACGAA
AGCACTTATTCTATGAAATACCCTGGATCTTTAAGCAGTACTGTTCATTCAGAAAATTCT
CATAAAGAGAATAGTAAGAAAGAGATCCTCCCAGTATCTTCCTGTGAAAGTAGTATTTTT
GATTATGAAGAAGATATTCCATCTGTTACAAGACAAGTACCAAGTAGAAAATATACAAAC
ATTAGAAAAATCGAAAAGGATTCCCCTTTTATACATATGCACCGTCACCCTAACGAGAAT
ACATTGGGCAAAAATTCTTTCAACTTTTCTGACTTAAATCATTCAAAAAATAAAGTATCC
TCTGAAGGAAATGAAAAAGGAAACAGCACAGCTCTGAGTAGTTTATTCCCTTCATCATTT
ACTGAAAATTGTGAATTACTGTCATGCTCAGGGGAGAATAGAACTATGGTGCATTCTCTT
AATAGCACTGCTGATGAAAGTGGACTAAATAAACTTAAAATTAGGTATGAAGAATTTCAA
GAACATAAAACAGAAAAGCCAAGCCTCAGCCAGCAAGCAGCACACTATATGTTTTTTCCC
AGTGTTGTTCTTTCTAACTGTCTTACTAGACCACAGAAACTATCTCCTGTCACATATAAA
TTACAACCTGGCAATAAACCATCCCGGTTAAAATTGAATAAAAGGAAACTTGCAGGTCAT
CAGGAGACTTCTACCAAAAGTAGTGAGACTGGATCCACAAAAGATAATTTTATACAAAAT
AATCCTTGTAATAGTAATCCTGAGAAGGATAATGCATTGGCTAGTGATTTAACTAAAACC
ACTCGTGGAGCTTTTGAAAATAAAACACCCACAGATGGTTTTATAGACTGTCACTTTGGA
GATGGAACGTTAGAAACTGAGCAGTCCTTTGGACTATATGGAAATAAATACACACTTAGA
GCCAAACGCAAGGTAAATTATGAGACTGAAGACAGTGAGTCAAGTTTTGTAACTCACAAC
TCAAAAATTAGTCTACCTCATCCCATGGAAATTGGTGAAAGTTTAGATGGAACTCTCAAA
TCCCGAAAACGAAGAAAAATGTCTAAAAAGCTGCCCCCTGTCATCATAAAGTATATTATT
ATTAATAGATTTAGAGGGAGAAAAAATATGCTTGTGAAGCTAGGAAAAATAGACTCTAAA
GAAAAACAAGTAATATTAACAGAAGAAAAAATGGAACTATATAAAAAGCTTGCACCTTTG
AAGGACTTTTGGCCAAAAGTTCCCGACTCCCCTGCAACCAAATATCCCATTTATCCACTA
ACACCAAAGAAAAGTCACAGAAGAAAGTCAAAACATAAATCTGCTAAGAAAAAAACTGGT
AAACAACAAAGGACAAATAATGAAAATATTAAAAGAACTTTGTCTTTCAGGAAAAAACGG
TCACATGCTATTCTTTCTCCTCCCTCACCATCTTACAATGCTGAAACCGAAGATTGTGAC
CTGAATTATAGTGATGTTATGTCTAAACTAGGTTTTCTTTCTGAGAGAAGCACAAGTCCC
ATAAATTCTTCTCCACCTCGCTGCTGGTCTCCCACAGATCCAAGAGCTGAAGAAATCATG
GCTGCTGCAGAAAAAGAGGCAATGCTTTTTAAGGGTCCTAATGTATATAAGAAGACTGTT
AATTCTCGTATAGGAAAAACTAGTCGCGCAAGAGCACAGATTAAGAAATCAAAAGCAAAG
CTTGCTAATCCCTCTATAGTTACTAAGAAAAGGAACAAACGAAATCAGACAAATAAACTA
GTAGATGATGGAAAAAAGAAACCAAGAGCAAAACAAAAAACAAATGAGAAAGGTACATCG
AGAAAGCATACAACACTTAAGGATGAAAAAATAAAATCTCAGTCTGGTGCTGAGGTTAAG
TTTGTACTGAAACACCAGAATGTGTCTGAATTTGCAAGTAGTTCTGGAGGCTCTCAACTA
CTTTTTAAACAGAAAGATATGCCACTAATGGGCTCTGCTGTAGATCATCCCCTTTCTGCT
TCCCTACCCACTGGAATTAATGCACAACAGAAGTTATCTGGCTGCTTTTCTTCTTTCTTA
GAAAGCAAGAAGTCTGTAGATTTGCAGACATTCCCCAGTTCACGAGATGATTTGCATCCA
TCAGTTGTTTGTAATTCTATAGGACCTGGAGTCTCAAAAATTAATGTTCAAAGGCCTCAT
AATCAAAGTGCTATGTTTACTCTAAAGGAATCAACGTTAATTCAAAAAAATATATTTGAC
CTTTCCAATCATTTATCTCAGGTAGCACAGAATACACAGATATCTTCTGGTATGTCCTCA
AAGATAGAAGATAATGCAAATAATATACAAAGAAACTATTTGTCATCAATCGGAAAGTTA
AGTGAATATCGCAATTCCCTAGAATCAAAGCTGGACCAAGCATATACCCCTAATTTTTTG
CATTGCAAAGACAGTCAGCAGCAGATTGTGTGCATAGCGGAACAGTCAAAGCACAGTGAA
ACTTGTTCTCCGGGAAATACAGCTTCAGAGGAAAGCCAAATGCCTAATAATTGCTTTGTA
ACTTCCTTGAGAAGTCCAATCAAACAAATAGCATGGGAGCAAAAGCAAAGGGGCTTTATT
TTAGATATGTCAAATTTTAAACCTGAAAGAGTAAAACCGAGGTCGTTATCAGAAGCAATT
TCACAAACCAAAGCACTTTCTCAGTGTAAAAATCGAAATGTGTCAACACCTTCAGCATTT
GGTGAAGGACAGTCTGGACTGGCAGTTCTAAAAGAATTGTTACAAAAAAGACAGCAGAAA
GCACAAAATGCAAATACTACACAAGACCCATTATCCAATAAACATCAACCAAATAAAAAT
ATTTCTGGTTCCCTTGAGCATAACAAAGCAAATAAACGGACACGATCGGTAACGTCCCCA
AGAAAACCTCGAACTCCCAGAAGTACAAAACAAAAAGAAAAAATCCCCAAACTTCTCAAA
GTAGACTCTTTAAATTTACAAAACTCTAGCCAGTTGGATAACTCTGTATCAGATGATAGT
CCCATCTTTTTTTCAGATCCAGGCTTTGAAAGTTGTTACTCACTTGAAGATAGTTTATCT
CCTGAACATAATTATAATTTTGATATTAACACAATAGGTCAGACTGGATTTTGTAGCTTT
TATTCTGGAAGTCAGTTTGTCCCAGCTGATCAGAATTTGCCTCAGAAGTTCCTAAGTGAT
GCTGTTCAGGATCTTTTTCCAGGACAAGCTATAGAAAAAAATGAGTTTTTAAGTCATGAC
AACCAGAAATGTGATGAAGACAAGCATCATACCACAGACTCAGCCTCATGGATTAGATCT
GGTACTTTAAGTCCTGAAATTTTTGAGAAGTCAACCATAGATAGCAATGAGAATCGTCGC
CACAACCAGTGGAAAAATAGCTTTCATCCTCTAACAACTCGGTCTAACTCAATAATGGAT
TCTTTCTGTGTTCAGCAGGCAGAAGACTGTCTAAGTGAAAAATCTAGATTGAATAGGAGT
TCAGTAAGCAAAGAAGTGTTTCTTAGCCTCCCACAGCCAAACAATTCAGACTGGATTCAA
GGTCACACCAGAAAAGAAATGGGACAGTCTCTTGACTCAGCCAATACCTCTTTTACTGCA
ATACTCTCCTCCCCTGATGGTGAACTTGTAGACGTGGCCTGTGAAGATTTAGAACTGTAT
GTTTCAAGAAACAATGATATGTTGACACCAACTCCTGATAGTTCACCAAGATCTACTAGC
TCTCCTTCACAATCTAAAAATGGCAGCTTCACCCCTCGAACTGCTAACATTCTGAAACCA
CTTATGTCCCCCCCAAGTAGGGAAGAAATTATGGCAACTTTGTTGGATCATGACCTGTCT
GAGACTATTTACCAGGAACCATTTTGCAGTAATCCTTCTGATGTACCAGAAAAGCCCAGG
GAGATTGGTGGACGGCTCCTCATGGTAGAAACTCGACTTGCAAATGATCTGGCTGAGTTT
GAGGGAGACTTTTCCTTGGAAGGACTTCGTCTTTGGAAAACAGCATTCTCAGCAATGACT
CAGAATCCAAGGCCAGGGTCACCCCTTCGCAGTGGCCAAGGAGTTGTCAATAAAGGGTCA
AGTAATAGCCCTAAGATGGTTGAAGATAAAAAAATTGTGATTATGCCTTGCAAATGTGCC
CCAAGTCGACAACTGGTTCAAGTGTGGCTTCAAGCCAAAGAAGAATACGAACGTTCCAAG
AAACTGCCTAAAACCAAGCCAACTGGAGTTGTAAAATCTGCTGAGAACTTTAGCTCTTCA
GTTAACCCAGATGACAAACCTGTAGTGCCTCCAAAAATGGATGTAAGTCCATGTATACTC
CCCACTACAGCACATACCAAGGAGGATGTTGATAATTCTCAGATTGCTTTACAAGCACCA
ACCACGGGATGTAGTCAAACTGCAAGTGAAAGTCAGATGCTGCCACCAGTTGCCTCTGCA
AGTGATCCCGAAAAAGATGAAGATGATGATGATAACTATTACATTAGTTATAGCTCCCCT
GATTCTCCAGTAATTCCCCCTTGGCAACAACCAATATCCCCAGATTCCAAAGCATTAAAT
GGAGATGATAGACCCTCATCACCAGTAGAGGAGCTGCCTTCATTGGCTTTTGAGAACTTC
TTAAAGCCAATAAAAGATGGTATACAAAAAAGCCCCTGCAGTGAGCCTCAAGAGCCTCTA
GTGATATCTCCAATTAATACTAGGGCAAGAACTGGGAAATGTGAATCACTTTGCTTTCAT
AGTACACCAATCATACAGAGAAAACTTCTGGAAAGGCTTCCTGAAGCACCTGGCCTTAGC
CCATTATCAACAGAACCAAAAACACAGAAGTTGAGTAATAAGAAAGGAAGTAATACTGAC
ACTCTTAGAAGAGTACTGTTAACACAAGCAAAGAATCAATTTGCAGCAGTAAATACCCCA
CAGAAAGAAACTTCTCAGATTGATGGACCATCTTTAAACAATACTTACGGTTTCAAAGTC
AGCATACAAAACTTACAGGAGGCAAAAGCTTTACATGAGATACAAAATCTTACCCTAATC
AGTGTGGAGTTGCATGCTCGAACTAGACGAGACTTAGAACCGGATCCTGAATTTGACCCA
ATCTGTGCTCTGTTCTACTGCATCTCATCTGACACTCCACTGCCAGATACAGAAAAAACA
GAACTCACAGGTGTAATAGTGATTGATAAAGACAAGACAGTTTTCAGTCAAGATATCAGA
TATCAGACTCCATTACTTATTAGATCTGGAATTACAGGACTCGAAGTCACCTATGCTGCT
GATGAGAAGGCACTTTTTCATGAAATTGCAAATATAATAAAGAGGTATGATCCTGATATT
CTGCTAGGATATGAGATTCAGATGCATTCCTGGGGTTACCTCTTACAAAGGGCTGCCGCT
TTAAGTATTGACTTATGTCGGATGATCTCTCGGGTGCCAGATGACAAAATTGAGAACAGA
TTTGCAGCTGAAAGAGATGAGTATGGATCATATACAATGAGTGAGATAAATATTGTTGGC
CGAATTACACTAAATCTTTGGAGAATCATGAGAAATGAGGTGGCTCTAACTAACTACACC
TTTGAAAATGTGAGCTTTCATGTTCTTCATCAGCGTTTTCCCCTCTTTACCTTTCGAGTC
TTGTCAGACTGGTTTGATAACAAGACAGATCTATACAGATGGAAAATGGTTGATCATTAT
GTTAGCCGTGTCCGTGGAAATCTCCAAATGTTAGAACAGCTGGACCTGATTGGGAAAACC
AGTGAGATGGCTAGACTTTTTGGCATTCAGTTTTTACATGTACTGACAAGGGGTTCACAG
TACCGTGTGGAATCAATGATGTTGCGTATTGCTAAACCAATGAACTATATTCCTGTGACA
CCTAGTGTTCAGCAAAGATCCCAGATGAGAGCCCCACAGTGTGTTCCTCTAATTATGGAG
CCTGAATCCCGCTTCTATAGCAACTCTGTTCTCGTTTTGGATTTCCAATCACTTTATCCT
TCTATTGTGATTGCATATAACTACTGCTTTTCCACCTGCCTTGGCCATGTGGAGAACTTG
GGAAAGTATGATGAGTTCAAATTTGGCTGTACCTCTCTGAGAGTACCTCCAGATTTACTT
TACCAAGTTAGGCATGATATCACAGTGTCCCCCAATGGAGTAGCTTTTGTCAAGCCTTCA
GTAAGAAAAGGTGTACTACCAAGAATGCTTGAAGAAATTTTGAAGACTAGATTTATGGTG
AAGCAGTCAATGAAGGCTTACAAGCAAGACAGAGCCCTGTCACGAATGCTTGATGCGCGT
CAGTTGGGACTTAAGCTGATAGCAAATGTCACATTTGGCTATACATCTGCTAATTTTTCT
GGGAGAATGCCATGCATTGAGGTTGGCGATAGTATTGTTCACAAAGCCAGAGAGACCTTG
GAACGAGCTATTAAACTGGTGAATGATACCAAGAAATGGGGGGCTAGGGTTGTATATGGC
GATACTGACAGTATGTTTGTGCTACTGAAAGGAGCCACTAAGGAGCAGTCTTTTAAGATT
GGTCAGGAAATTGCCGAAGCTGTAACTGCTACCAATCCTAAACCAGTGAAATTGAAGTTT
GAAAAGGTATATTTGCCCTGTGTTTTACAAACAAAAAAGAGGTATGTGGGTTACATGTAT
GAAACACTGGATCAGAAGGACCCAGTATTTGATGCAAAAGGAATAGAAACAGTCAGAAGA
GATTCCTGCCCTGCTGTTTCTAAGATACTTGAGCGTTCTCTAAAGCTGCTATTTGAAACG
AGAGATATAAGTCTAATTAAACAGTATGTTCAGCGACAATGTATGAAGCTTCTGGAAGGA
AAGGCCAGCATACAAGACTTTATCTTTGCCAAGGAATACAGAGGAAGTTTTTCTTATAAA
CCAGGAGCTTGTGTGCCAGCCCTTGAACTTACAAGGAAAATGCTGACTTATGACCGGCGC
TCTGAGCCTCAGGTTGGGGAGCGAGTGCCATACGTCATCATTTATGGGACCCCCGGAGTA
CCACTTATCCAGCTTGTAAGGCGCCCAGTGGAAGTCCTGCAGGACCCAACTCTGAGACTG
AATGCTACTTACTATATTACCAAGCAAATCCTTCCACCCTTGGCAAGAATCTTCTCACTT
ATTGGTATTGATGTCTTCAGCTGGTATCATGAATTACCAAGGATCCATAAAGCTACCAGC
TCCTCGCGAAGTGAACCTGAAGGGCGGAAAGGCACTATTTCACAATATTTTACTACCTTA
CACTGTCCTGTGTGTGATGACCTAACTCAGCATGGCATCTGTAGTAAATGTCGGAGCCAA
CCTCAGCATGTTGCAGTCATCCTCAACCAAGAAATCCGGGAGTTGGAACGTCAACAGGAG
CAACTTGTAAAGATATGCAAGAACTGTACAGGTTGCTTTGATCGACACATCCCATGTGTT
TCTCTGAACTGCCCAGTACTTTTCAAACTCTCCCGAGTAAATAGAGAATTGTCCAAGGCA
CCATATCTCCGGCAGTTATTAGACCAGTTTTAA

Protein Properties

Number of Residues

3130

Molecular Weight

352772.565

Theoretical pI

8.464

Pfam Domain Function

DNA_pol_B (PF00136 )
DNA_pol_B_exo (PF03104 )

Signals

Not Available

Transmembrane Regions

Not Available

Protein Sequence

>DNA polymerase zeta catalytic subunit
MFSVRIVTADYYMASPLQGLDTCQSPLTQAPVKKVPVVRVFGATPAGQKTCLHLHGIFPY
LYVPYDGYGQQPESYLSQMAFSIDRALNVALGNPSSTAQHVFKVSLVSGMPFYGYHEKER
HFMKIYLYNPTMVKRICELLQSGAIMNKFYQPHEAHIPYLLQLFIDYNLYGMNLINLAAV
KFRKARRKSNTLHATGSCKNHLSGNSLADTLFRWEQDEIPSSLILEGVEPQSTCELEVDA
VAADILNRLDIEAQIGGNPGLQAIWEDEKQRRRNRNETSQMSQPESQDHRFVPATESEKK
FQKRLQEILKQNDFSVTLSGSVDYSDGSQEFSAELTLHSEVLSPEMLQCTPANMVEVHKD
KESSKGHTRHKVEEALINEEAILNLMENSQTFQPLTQRLSESPVFMDSSPDEALVHLLAG
LESDGYRGERNRMPSPCRSFGNNKYPQNSDDEENEPQIEKEEMELSLVMSQRWDSNIEEH
CAKKRSLCRNTHRSSTEDDDSSSGEEMEWSDNSLLLASLSIPQLDGTADENSDNPLNNEN
SRTHSSVIATSKLSVKPSIFHKDAATLEPSSSAKITFQCKHTSALSSHVLNKEDLIEDLS
QTNKNTEKGLDNSVTSFTNESTYSMKYPGSLSSTVHSENSHKENSKKEILPVSSCESSIF
DYEEDIPSVTRQVPSRKYTNIRKIEKDSPFIHMHRHPNENTLGKNSFNFSDLNHSKNKVS
SEGNEKGNSTALSSLFPSSFTENCELLSCSGENRTMVHSLNSTADESGLNKLKIRYEEFQ
EHKTEKPSLSQQAAHYMFFPSVVLSNCLTRPQKLSPVTYKLQPGNKPSRLKLNKRKLAGH
QETSTKSSETGSTKDNFIQNNPCNSNPEKDNALASDLTKTTRGAFENKTPTDGFIDCHFG
DGTLETEQSFGLYGNKYTLRAKRKVNYETEDSESSFVTHNSKISLPHPMEIGESLDGTLK
SRKRRKMSKKLPPVIIKYIIINRFRGRKNMLVKLGKIDSKEKQVILTEEKMELYKKLAPL
KDFWPKVPDSPATKYPIYPLTPKKSHRRKSKHKSAKKKTGKQQRTNNENIKRTLSFRKKR
SHAILSPPSPSYNAETEDCDLNYSDVMSKLGFLSERSTSPINSSPPRCWSPTDPRAEEIM
AAAEKEAMLFKGPNVYKKTVNSRIGKTSRARAQIKKSKAKLANPSIVTKKRNKRNQTNKL
VDDGKKKPRAKQKTNEKGTSRKHTTLKDEKIKSQSGAEVKFVLKHQNVSEFASSSGGSQL
LFKQKDMPLMGSAVDHPLSASLPTGINAQQKLSGCFSSFLESKKSVDLQTFPSSRDDLHP
SVVCNSIGPGVSKINVQRPHNQSAMFTLKESTLIQKNIFDLSNHLSQVAQNTQISSGMSS
KIEDNANNIQRNYLSSIGKLSEYRNSLESKLDQAYTPNFLHCKDSQQQIVCIAEQSKHSE
TCSPGNTASEESQMPNNCFVTSLRSPIKQIAWEQKQRGFILDMSNFKPERVKPRSLSEAI
SQTKALSQCKNRNVSTPSAFGEGQSGLAVLKELLQKRQQKAQNANTTQDPLSNKHQPNKN
ISGSLEHNKANKRTRSVTSPRKPRTPRSTKQKEKIPKLLKVDSLNLQNSSQLDNSVSDDS
PIFFSDPGFESCYSLEDSLSPEHNYNFDINTIGQTGFCSFYSGSQFVPADQNLPQKFLSD
AVQDLFPGQAIEKNEFLSHDNQKCDEDKHHTTDSASWIRSGTLSPEIFEKSTIDSNENRR
HNQWKNSFHPLTTRSNSIMDSFCVQQAEDCLSEKSRLNRSSVSKEVFLSLPQPNNSDWIQ
GHTRKEMGQSLDSANTSFTAILSSPDGELVDVACEDLELYVSRNNDMLTPTPDSSPRSTS
SPSQSKNGSFTPRTANILKPLMSPPSREEIMATLLDHDLSETIYQEPFCSNPSDVPEKPR
EIGGRLLMVETRLANDLAEFEGDFSLEGLRLWKTAFSAMTQNPRPGSPLRSGQGVVNKGS
SNSPKMVEDKKIVIMPCKCAPSRQLVQVWLQAKEEYERSKKLPKTKPTGVVKSAENFSSS
VNPDDKPVVPPKMDVSPCILPTTAHTKEDVDNSQIALQAPTTGCSQTASESQMLPPVASA
SDPEKDEDDDDNYYISYSSPDSPVIPPWQQPISPDSKALNGDDRPSSPVEELPSLAFENF
LKPIKDGIQKSPCSEPQEPLVISPINTRARTGKCESLCFHSTPIIQRKLLERLPEAPGLS
PLSTEPKTQKLSNKKGSNTDTLRRVLLTQAKNQFAAVNTPQKETSQIDGPSLNNTYGFKV
SIQNLQEAKALHEIQNLTLISVELHARTRRDLEPDPEFDPICALFYCISSDTPLPDTEKT
ELTGVIVIDKDKTVFSQDIRYQTPLLIRSGITGLEVTYAADEKALFHEIANIIKRYDPDI
LLGYEIQMHSWGYLLQRAAALSIDLCRMISRVPDDKIENRFAAERDEYGSYTMSEINIVG
RITLNLWRIMRNEVALTNYTFENVSFHVLHQRFPLFTFRVLSDWFDNKTDLYRWKMVDHY
VSRVRGNLQMLEQLDLIGKTSEMARLFGIQFLHVLTRGSQYRVESMMLRIAKPMNYIPVT
PSVQQRSQMRAPQCVPLIMEPESRFYSNSVLVLDFQSLYPSIVIAYNYCFSTCLGHVENL
GKYDEFKFGCTSLRVPPDLLYQVRHDITVSPNGVAFVKPSVRKGVLPRMLEEILKTRFMV
KQSMKAYKQDRALSRMLDARQLGLKLIANVTFGYTSANFSGRMPCIEVGDSIVHKARETL
ERAIKLVNDTKKWGARVVYGDTDSMFVLLKGATKEQSFKIGQEIAEAVTATNPKPVKLKF
EKVYLPCVLQTKKRYVGYMYETLDQKDPVFDAKGIETVRRDSCPAVSKILERSLKLLFET
RDISLIKQYVQRQCMKLLEGKASIQDFIFAKEYRGSFSYKPGACVPALELTRKMLTYDRR
SEPQVGERVPYVIIYGTPGVPLIQLVRRPVEVLQDPTLRLNATYYITKQILPPLARIFSL
IGIDVFSWYHELPRIHKATSSSRSEPEGRKGTISQYFTTLHCPVCDDLTQHGICSKCRSQ
PQHVAVILNQEIRELERQQEQLVKICKNCTGCFDRHIPCVSLNCPVLFKLSRVNRELSKA
PYLRQLLDQF

External Links

GenBank ID Protein

153792012

UniProtKB/Swiss-Prot ID

O60673

UniProtKB/Swiss-Prot Entry Name

DPOLZ_HUMAN

PDB IDs

GenBank Gene ID

GeneCard ID

GenAtlas ID

HGNC ID

References

General References

Mungall AJ, Palmer SA, Sims SK, Edwards CA, Ashurst JL, Wilming L, Jones MC, Horton R, Hunt SE, Scott CE, Gilbert JG, Clamp ME, Bethel G, Milne S, Ainscough R, Almeida JP, Ambrose KD, Andrews TD, Ashwell RI, Babbage AK, Bagguley CL, Bailey J, Banerjee R, Barker DJ, Barlow KF, Bates K, Beare DM, Beasley H, Beasley O, Bird CP, Blakey S, Bray-Allen S, Brook J, Brown AJ, Brown JY, Burford DC, Burrill W, Burton J, Carder C, Carter NP, Chapman JC, Clark SY, Clark G, Clee CM, Clegg S, Cobley V, Collier RE, Collins JE, Colman LK, Corby NR, Coville GJ, Culley KM, Dhami P, Davies J, Dunn M, Earthrowl ME, Ellington AE, Evans KA, Faulkner L, Francis MD, Frankish A, Frankland J, French L, Garner P, Garnett J, Ghori MJ, Gilby LM, Gillson CJ, Glithero RJ, Grafham DV, Grant M, Gribble S, Griffiths C, Griffiths M, Hall R, Halls KS, Hammond S, Harley JL, Hart EA, Heath PD, Heathcott R, Holmes SJ, Howden PJ, Howe KL, Howell GR, Huckle E, Humphray SJ, Humphries MD, Hunt AR, Johnson CM, Joy AA, Kay M, Keenan SJ, Kimberley AM, King A, Laird GK, Langford C, Lawlor S, Leongamornlert DA, Leversha M, Lloyd CR, Lloyd DM, Loveland JE, Lovell J, Martin S, Mashreghi-Mohammadi M, Maslen GL, Matthews L, McCann OT, McLaren SJ, McLay K, McMurray A, Moore MJ, Mullikin JC, Niblett D, Nickerson T, Novik KL, Oliver K, Overton-Larty EK, Parker A, Patel R, Pearce AV, Peck AI, Phillimore B, Phillips S, Plumb RW, Porter KM, Ramsey Y, Ranby SA, Rice CM, Ross MT, Searle SM, Sehra HK, Sheridan E, Skuce CD, Smith S, Smith M, Spraggon L, Squares SL, Steward CA, Sycamore N, Tamlyn-Hall G, Tester J, Theaker AJ, Thomas DW, Thorpe A, Tracey A, Tromans A, Tubby B, Wall M, Wallis JM, West AP, White SS, Whitehead SL, Whittaker H, Wild A, Willey DJ, Wilmer TE, Wood JM, Wray PW, Wyatt JC, Young L, Younger RM, Bentley DR, Coulson A, Durbin R, Hubbard T, Sulston JE, Dunham I, Rogers J, Beck S: The DNA sequence and analysis of human chromosome 6. Nature. 2003 Oct 23;425(6960):805-11. [PubMed:14574404 ]
Mayya V, Lundgren DH, Hwang SI, Rezaul K, Wu L, Eng JK, Rodionov V, Han DK: Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions. Sci Signal. 2009 Aug 18;2(84):ra46. doi: 10.1126/scisignal.2000007. [PubMed:19690332 ]
Olsen JV, Blagoev B, Gnad F, Macek B, Kumar C, Mortensen P, Mann M: Global, in vivo, and site-specific phosphorylation dynamics in signaling networks. Cell. 2006 Nov 3;127(3):635-48. [PubMed:17081983 ]
Tao WA, Wollscheid B, O'Brien R, Eng JK, Li XJ, Bodenmiller B, Watts JD, Hood L, Aebersold R: Quantitative phosphoproteome analysis using a dendrimer conjugation chemistry and tandem mass spectrometry. Nat Methods. 2005 Aug;2(8):591-8. [PubMed:16094384 ]
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