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Gene information | Literature | Expression | lncRNA | Mutation | Homolog

Basic Information

Gene ID

5983

Name

RFC3

Synonym

RFC38;replication factor C (activator 1) 3, 38kDa;RFC3;replication factor C (activator 1) 3, 38kDa

Definition

A1 38 kDa subunit|RF-C 38 kDa subunit|RFC, 38 kD subunit|activator 1 38 kDa subunit|activator 1 subunit 3|replication factor C 38 kDa subunit|replication factor C subunit 3

Position

13q13.2

Gene Type

protein-coding

Pathways and Diseases

Pathway

Activation of ATR in response to replication stress;PID Reactome;500319

Pathway

Cell Cycle Checkpoints;Reactome;REACT:1538

Pathway

Mismatch repair;KEGG PATHWAY;hsa03430

Pathway

DNA replication;KEGG PATHWAY;hsa03030

Pathway

DNA Repair;Reactome;REACT:216

Pathway

Chromosome Maintenance;Reactome;REACT:22172

Pathway

DNA Replication;Reactome;REACT:383

Pathway

Nucleotide excision repair;KEGG PATHWAY;hsa03420

Pathway

Cell Cycle, Mitotic;Reactome;REACT:152

Disease

Alzheimer's disease;GAD

Disease

Alzheimer's disease;NHGRI

Disease

NEUROLOGICAL;GAD

External Links

Links to cell senescence gene database

5983

Links to epithelial mesenchymal transition gene database

5983

Links to ovarian cancer gene database

5983

Links to endometrial cancer gene database

5983

Links to iHOP

5983

Sequence Information

Nucleotide Sequence

>5983 : length: 5763
TTTACGCGGCCGCGACCGGTAGTGACGTCACGAGATTTGGAGCTCGCGGGAAAACTTGTC
TCTGCGTTGTGGGGAGGACGCGCGCTCGCGCGGGATTTTCAAGCGTAGGCCCCCGGGAAC
TCGAGCTGCCATGAGCCTCTGGGTGGACAAGTATCGGCCCTGCTCCTTGGGACGGCTGGA
CTATCACAAGGAGCAGGCGGCCCAGCTGCGGAACCTGGTGCAGTGTGGTGACTTTCCTCA
TCTGTTAGTGTACGGACCATCAGGTGCTGGAAAAAAGACAAGAATTATGTGTATTCTACG
TGAACTTTATGGTGTTGGAGTGGAAAAATTGAGAATTGAACATCAGACCATCACAACTCC
ATCTAAAAAAAAAATTGAAATTAGCACCATTGCAAGTAACTACCACCTTGAAGTTAATCC
TAGTGATGCTGGAAATAGTGACCGAGTAGTCATTCAGGAGATGTTGAAAACAGTGGCACA
ATCACAACAACTTGAAACAAACTCTCAAAGGGATTTTAAAGTGGTATTATTGACAGAAGT
TGACAAACTCACCAAAGATGCTCAGCATGCCTTGCGAAGAACCATGGAAAAATATATGTC
TACCTGCAGATTGATCTTGTGCTGCAATTCTACATCTAAAGTGATCCCACCTATTCGTAG
TAGGTGCTTGGCGGTTCGTGTGCCTGCTCCCAGCATTGAAGATATTTGCCACGTGTTATC
TACTGTGTGTAAGAAGGAAGGTCTGAATCTTCCTTCACAACTGGCTCATAGACTTGCAGA
GAAGTCTTGTAGAAATCTCAGAAAAGCCCTGCTTATGTGTGAAGCCTGCAGAGTGCAACA
ATATCCTTTTACTGCAGATCAAGAAATCCCTGAGACAGATTGGGAGGTGTATCTGAGGGA
GACTGCAAATGCTATTGTCAGTCAGCAAACTCCACAAAGGCTCCTTGAAGTTCGTGGAAG
GCTGTATGAGCTTCTAACTCATTGTATTCCTCCTGAGATAATAATGAAGGTTTGGTTATT
ATGAATAAAGTTGCTGTGAATACTTACGTACAAATGGAGTTTCTGTCTCTCCATGCTGAG
TTGCCTGGAGCTAGGGGAGAGGTGATACAAGCATGCCTATGACCACTACCACTGGGACTG
TGCTATGTCAGGACTGAAGCCAGAACATCTCTGAGTCTCACCCAAGACATACAGCAAATA
CTGCCTGGGTACAACTGATGTTTTTCAAGGCCCAAGGGCTCTTTAGTCAGCATATTATGA
ATTCTGCCAGAGCTGGGTTCTTCCCTTCAAGGCAGCGGGTTCCCTTCTGGCCCAGGGTGT
GTCTACAAAGGTCATCCGGGAGCTAGGTCCTGGAATGAGGCCCTCAGGACTCTACCAAGT
GTGCTGTCCTACTGTGGCTGAGCAGGTCTCCAAGTTGCAAGACAAAGTCCTCTTTACTCT
TCCCTCCCCTCTCCTCAAGTGGAGGGAAGGAATCTCTTCTGCAGCTGCAATTTGTACTGC
CTGGGATTGGAGGAGGGGTGATGCAGGCACTCCCTTGGCTGCCCTGGCTGGTGTCTCACT
GGGTCTTGTGTATCCCAAGTTGGCTGACTCAAGCACGGTACAGCACCAGAGCTTGCCCAG
GAATTGCAGTCTTGTGGCGTAGACTGCTATTCAAGTTTATTTAGGACCCCAGAGTGCTTT
AGCCCATGATGATGGTGCTAGCTGGAACTCAGTTTCTGCCCACTGGGATAGACAATTCCC
CTGTGGTTAGGGCTGGTCTAAATACTCTCTCTGTGGGTTCTGTCATGTGTTGCTCTCCAC
TGTGACGGGGAAGCACTGTCCAGTGCACACAGATTCTCTCTTTTTCTTTTTTTTTGGTGG
AGTCTCACCCTGTTGACCAGGCACTGAAGTGCAGTGGTGCGATCTTCGCTCACTGCAGCC
TCCGCCTCCTAGGTTCAAGCGATTCTCCTACCTCCCTCTCCCGAGTAGCTGGGATTACAG
ACACCTGCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATG
TTGGCCAGGCTTCTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCAGCCTCCCAAA
GTGCTGGGATTACAGGCGTGAGCCACCATGCCTGGCCTACACAGATTCTCTCTGCACCAT
GCTGCAGCTGATGGGGGATGAGAGAGGGGTGTGTAGGCAATTCAATACTGTCTTTCCTAC
CTTCTACAGTGCCTTTTTCTTTAATACAGTGTTAAAATCAGGTACTGTGATCACTCATCT
GATTTCTTGTTCTTACAAAGGTGCTTTCTTGTGTGGGTACTAATTTGGTGTTCCTGCGGT
GGGGGAGGGGGATAATCTCTAGGAGGTGCTATCTGGCCATCTTGCTTCACCTCCTCCTCC
AGCAGTTGCTTTTTATAAGTTTGTTCAAAGCTTATAGTTGTTATCTACTGTAAGATTGTC
AGCCATACCAGAAGCAGAAATTCCATCTCATTGTTTTATAAATATGGTCAAGTATCTCTT
AAAAAAAAAAAATCATTCATATACCTCACATCCTCATCTTGCACCCTCTCTTTCTACTCT
TTACACATTTTTTAAGTGTTTTCTGTTCATATTGCCTACATTTTCTTAGTTTGCAATCCA
TTTTAATCTGGTTTTCCTTCTTATAACTTCAAAAATACAGTTTAGTCTAAAAGGGATGTA
TGTATGTGTGCATCTCCATCCAGTGAATTCTTGCTCTGTATCCAGTGAACTTTTAATTGA
CCTCAGCAATATGTGTTGCCCTTTCTTGAATCTCCTTTTTCCATGGTTTCCCTGAGACAA
ATATTCTCTTGTATTTTTTCGCCTACATCTTTGGCTGCTCACTTTACAGGCTTTTTCTTA
CCAAGCCATCAAATGTGGAATATAGCTTTATTCTCGACTCTCTGCTGCTCATAAGATTCT
CTCCCTGGGTGACCTTATACATGCCCAAGGCTTTATATACCATCTATTAGCTGTTAACTC
CATTTATATGAGCTCAAACTTTAGCTGAATTTCACACTTATGCATCTAAACACCTATCTG
ACGTTCGTTCACAGATACTTCAGAGACATCTCAAACTGAACATGTTCCACACTGAGCTTT
TGATCTCTTCCAGCCCAAAGTAGACCTTTCCCATTGTTCCTTTCTCGATGTCATCTTTTC
TGATTCTTTTCCATGTTCTACAGCAGTGGGGATTATCTGGGGTTCTACCTAATTTTCTTT
ATTCAATGATCAGCTTAATATCTGTCTTTTCCATGCTCCTTCCCCCTTTCTACTTCTGTT
CATGAGACAACTCAGTTTTGAGTTCAAAAAGAGTACATGTGTTGATGATTCCCACATCCA
GACATGAGGTGCTTTTCCTAATACAACCATCAGCCATTTCAATTTTGGTTTATCTAAAAC
AAATTCACCAGCATCTGTTAAACCAGCTACTTCTCTTAGCTTATTGCTTGTGTCAGGGTA
CTACTTTTCTTCTAGATACCGGGTGTAAACCTTTAGCATGTAAGTTGACCCCTCTCTCCA
TTTTGACAGTCATTTGTCAAGCTCTGGCCTTTATCCCTTGTAGATGGATGTTGCTTTCAT
CTCTCCCTGTATTTGTCATCAAATGAACCATAACAGGCAGACTAGATGGACTCATGGCTA
GGTATACTCAGATGAGCATAAGAGATTTAAACCAAAAGCATGGGTGTCATTCAAAACAGC
TATTTGTGCATTTAAAAATCAATAATTCTTCATACTCAACATGGCAAGTAATTTCTATTA
AAAAGAGATAGAAATGTAAATATTTAGATTTAGACCACTAAGGGCAACTTCTATCCATTC
ATTTGTTCAGAAAAATATTTATTGAGCACCTGCTGTTTGCCATGGCTTTTTTAAGGTACT
GGGGATACAGCAGGACAAAATTGACATCAGTTTCCTTTGTGGAGTTTACAGCCTATCACG
AAGAGATGAATGCAGGATGATAGATAGATAGATAGACAGGCAGACAGACAGGCAGACAGA
CAGATAGATAAACTGATAAAATATTCTATGTCATGTGTGCTGTGGAGGTGGAGAATTTTG
GTTTGTTGTTTTAGGTAGACTGTGTTACACAGTAATTTACATAGTCCAGGCAAACTAAAC
AGTATATGCAAGACCTGAAGCAGGAAGGAATATGCCAGTGGAGTAGGTTGGGCAAATGGG
AAAGTGGCAAAAGATGAGGTGAGAACATTGAGCTAACATGGAGGTGAGGTGGGATAGATC
ATATAGGGTACTGGTATTCTGGTAAATGTTTAGCAGCTGGCTCTCTAGGGAAAAAAATCA
ATAATAAAAGGTCCTGATCTGTAGTGTTTGCAGTTTTTCTGGTGTAAACACTCTCACCAT
GGCCAATTTCAAGCTAGCAATGGAAAATATAACAGTCAGCTCTTGTGAGCTAGTATAACC
CTTCTCCAGGCCATCACTGATATAGAGCCTTGTAGGACAATTGCAGTGATTTTTTTTTTT
AAGTGAGAAAGGATGCCACTAAAGAATATTAGAGTAGGCCAGGCTCAGTGGCTCATGCCT
GTAATCCCAAAGGAGGCCGAGGCTGGCAGATCAGTTGAGGTAAGGAGTTTGAGACCAGCC
TGGCCAACGTGGTGAAGCCCTGTTTCTAATAAAAATACAAAAAATTAGCTGGGAGTAGTG
GTGCGTGTCTGTCATCCCAGCTACTCAGGAGGCTGAGGCAAGAGAATCACTTGAACCGAG
AGGCAGAGGTTTTAGTGAGCCGAGATTGCACCACCACACTCCAGCCTGGACTACAGAGTA
AGACTCTGTCTCAAAAAAAAACAAACCAACAAACAAAAAAGTATTAGAGTTATGATGTGT
TCAGGTTTCTGTTTCAACAATCAACTGTCTCCTGGGTTGAGAATATTAATTACATGTTAA
CATTTGTCTGTTTTCTTTGATTTACATAGTGCTAGCTTACACATTGTTTTCAATTATTAA
TTGTCAATATTTAAAAATATAGAAATACTTCAAAAACATTAACTTCTTGATTTTCTTAAA
AAATCAAATTTGATCTTTATGTTACTAATTTGAATTGTGGAGTGGCTATCTTTTTTACAT
AGGTATGCATTTTCCATTTCTCACCAGTTTTAGCTATTATTTTACACAGTTTTTTCTTTG
TTTTTAAATTGTGGAGATGAGAAAAATAAACTTTCTAATAACCAAACCTTTTATCAAAAT
TGGTGTAAAATGAGAGGTAAGAGAGGGTTATATGGTTCAAGAAAAATTGAGCATGCGTAT
TTCTTTATAGATGTAAAGGATATTTTTAATTTATAATAAAATGTATCTATTTTGAAGGAA
TACAGCTTAATATATCATTATGAAACATCATACAACAGGTTATGATTAGGTATGAAGATG
ATTTTTAAATTGATACACTGAGAAAACATCAAAATTTAATCAGGCTTTGATTTTAAATTA
ATTGAAATAAATTATGTTCTTGTAAAATTAATATTTACTGTATGAAAAATTGTCAGAATA
GCAAAACAATTTGCAAATGTCAGTTTCATAAATGAGTGAGTACAATATATATTGACTTAG
AAAAACAAACATTAGCAAAAGTATATCTAAACATAAGTATTGTTTTGAAAATACAGTTAA
CTTACAGGACAAACTCATTTTATGCTGTTTTTAATAGTGATCAAAGTGCAGATATTTAAA
ATACATCACTGAATTAAGTTAGTTTTGTACATGATAATTTTAATAAAGGATTTGAAAACT
TGG

Protein Sequence

>5983 : length: 356
MSLWVDKYRPCSLGRLDYHKEQAAQLRNLVQCGDFPHLLVYGPSGAGKKTRIMCILRELY
GVGVEKLRIEHQTITTPSKKKIEISTIASNYHLEVNPSDAGNSDRVVIQEMLKTVAQSQQ
LETNSQRDFKVVLLTEVDKLTKDAQHALRRTMEKYMSTCRLILCCNSTSKVIPPIRSRCL
AVRVPAPSIEDICHVLSTVCKKEGLNLPSQLAHRLAEKSCRNLRKALLMCEACRVQQYPF
TADQEIPETDWEVYLRETANAIVSQQTPQRLLEVRGRLYELLTHCIPPEIIMKGLLSELL
HNCDGQLKGEVAQMAAYYEHRLQLGSKAIYHLEAFVAKFMALYKKFMEDGLEGMMF