VIOLIN: Vaccine Investigation and Online Information Network

MUC1
Gene Name	MUC1
Sequence Strain (Species/Organism)	Homo sapiens
NCBI Gene ID	4582
NCBI Protein GI	67189007
Locus Tag	RP11-263K19.2
Genbank Accession	AC234582
Protein Accession	NP_001018016
Taxonomy ID	9606
Chromosome No	1
Gene Starting Position	155185823
Gene Ending Position	155192914
Gene Strand (Orientation)	-
Protein Name	transcript variant 14
Protein pI	6.67
Protein Weight	26222.24
Protein Length	264
DNA Sequence	>NC_000001.11:155185823-155192914 Homo sapiens chromosome 1, GRCh38.p12 Primary Assembly GTTGGCGCAGTGGGAGACCACGTTTTATTCAGTCCAGTTCAGGATCCCCGCTATCTCAGGGCTCTCTGGG CCAGTCCTCCTGGGAGCCCCCACCACAACACTTCCCAGGCATGAGCCCTCAGGGGCCCACATGAGCTTCC ACACACTGAGAAGTGTCCGAGAAATTGGTGGGGCCTCTGAAGGAGGCTGTGAGCAGCCCACCTGAACTCC CAGCTCACCAGCCCAAACAGGGTGCAGGGGCTCTGGCCCTGAAGAACCTGAGTGGAGTGGAATGGCACTG GCTGGCCACTCAGCTCAGCGGGCGACGTGCCCCTACAAGTTGGCAGAAGTGGCTGCCACTGCTGGGTTTG TGTAAGAGAGGCTGCTGCCACCATTACCTGCAGAAACCTGGGTGGAAGGAAAAGAGATCCAGGGTGAGGA GCAAAAGGTACCTCCTAGAGCCCCTGGATGCCACCCCAGGCTGGGGTAATCAGTCCAGAGTCCTGGCCAG CTCTCAAAGGGTTAATTCAGAGAGAGCACCTGCCACCCCACCAGCCAGGTGACTGTAAACAGGGCTGCCC TCCTCCCTCTGCTCTCCTTCACTCCCTCTTCTTGGCTCTAATCAGCCCCCTTGTCCCTCCATTCTCTGCT GTTCCAGCCTAAGGAGGTGTGTGTGTGTGTGTGTGTGTGTTTTGGGGGGCGGGGTGTATCTGTGTCTTTG TAAAGCCGAGAGAGGGAGGTCTCCAGGAGGAGGAAAATAGGAGCAAGAAAACTAAACTCTCTCCTCCCCC ACCTGGAGTGGTTTTCCAGCCTCAGGTGGCTGCAGTAATTATTTACTAGGTCCCATAGAGAAAGACCAGG AGAGGAAGGAGGGAGCGTTCCTTGCTTCCTTGAAGCTCCCAAGAACCCCACTGGCACCCACGCTCACCTG GTCTGCTGACACTTCTTCTTCTACCTGGGAAACCTCCCCCTATGCCAGCCTTTCTCGGTCTACCCTCCAT TCCTAGGAGATGATTAGGGGCACAGAGGCTCACCCCTGGGACTCCTCGGGAAGGGCTCCCCTGGGCATAG TGCTCCACCCATTTTGCCTCTGGGTGCAAAAAAGCAAAACAAAACAAAACTGCCACGGTGGCACCAGTTC AGCCAGCGCCAGCCAGCATGAATGTGGACGGCCAATGATCTTTTAGGAATTCTGGCAGTGGGGCCACTCC CTCTTGAGGGCCCCTTTCTTCCATAGTCTCCTCCCAGGCCTGTCCCCCAAAACTCCTCTGACCTCTGCCC CTCATCCTTGCCAGGCCCTCCCCTGCTCACTTCACGCCACTTCTCACCTCTTCCAAGCTCTTTGGGTTTT CCAAGTACCCCCTTCAGAATCCTTGCCCAGCCAAACCCTCTGCTTCCCCTGGCCTGTGGGGCCCAATCTC ACCTTCTCATAGGGGCTACGATCGGTACTGCTAGGGGGCACATAGCGCCCATGGGTGTGGTAGGTGGGGT ACTCGCTCATAGGATGGTAGGTATCCCGGGCTGGAAAGATGTCCAGCTGCCCGTAGTTCTTTCGGCGGCA CTGACAGACAGCCTGGGGAGATAGGAGGTTATGGCAGGCCATGGAGTGCCTTCTACCGGGGGGCTCTGAT CAGGGCCAGGGACTGCACTCACCAAGGCAATGAGATAGACAATGGCCAGCGCAACCAGAACACAGACCAG CACCAGCAGCGCGATGCCCCAGCCTGGCACCCCAGCCCCAGACTGGGCAGAGAAAGGAAATGGCACATCA CTCACTAAAAGGAAAAGCAGTGGTCAGGGCAGTCTCCCAGAGGAGGCGCCCCTCCCGCTGCCAGCACTAA GGAAAGAGCGGGGACCCAGACACTGGAAGGAGAGGGGCCCCGGCATGGTGCTGGGCTGCAGCCAGGGAAG TAGCCTCACCGCTGACGTCTGAGATCGTCAGGTTATATCGAGAGGCTGCTTCCGTTTTATACTGATTGAA CTGTGTCTCCACGTCGTGGACATTGATGGTACCTTCTCGGAAGGCCAGAGTCAATTGTACCACCACAGAT CCTGGCCTGGTCACAGGGAAATGGGCACTTCAGCCACGGGTCCCAGCTCTGGCTCAGCACTCTTCCCCCA ACCTTAAGTGCACCAGTCCCTCCCTACGGTCATGACCACCACCCACCCTCCAACCACCACACTGGGTCCA CACCCAGAACTGTACCTGAACTTAATATTGGAGAGGCCCAGAAAACCCCCTTGTTTATAAATCTGCAAAA ACTGGGGTGAGAGGGAAAGGACTCAGGCTTGATGCAAAGGGTGTGGACAGTTCTGATGGCTGCTTCAGGG GAGCATGGGGAAGGAAAGGCCGATACTCACCATTTCAGAAATGTCTCTCTGCAGCTCTTGGTAGTAGTCG GTGCTGGGATCTTCCAGAGAGGAATTAAACTGGAGGTTTGAAATGTGAAAAGACAGGAAAAAGAAAGAGA CCCCAGTAGACAACTGGGGAGAAGTGCTGTGATTGGAGGAGGTGAGAGGAGGTACCGTGCTATGGTGAGT GCTACTGGCATCAGTCTTGGTGCTATGGCTGGCAAGGGTGGTAGGAGTATCAGAGTGGTGGCTGGGAATT GAGAATGGAGTGCTCTTGCTGGCTGGGGTTGTGGTAGCCCTGGCAGAGGTGCCGTTGTGCACCAGAGTAG AAGCTGAGCCTGATGCAGAGCCTGAGGCCGAGGTGACATTGTGGACTGGAGGGGCGGTGGAGCCCAAGGC GGGCCTGTTGTCCGGGGCCGAGGTGACACCATGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTG TCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGGGTGGAGCCCGGGGCCC GCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGTGCGGTGGAGCCCGGGGCCGGCCTGGTGTC CGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAG GTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGTGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGT GGACTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGG GGCGGTGGAGCCCGGGGGCCGGCCTGGTGTCCGGTGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGA GCCCGGAGCCGGTCTGTTGTCCGGGGCCGAGGTGACACCGTGTGCTGGAGTGTCGGTGGAGCCCGAGGCC GGCCTGGTGTCCGGGGCCGAGGTGACACTGTGAGCTGGGCTGCGGGCGCGGTGGAGCCCGGGGCCGGCCT GCTCTCTGTTTTAAATATACACCGTGGGCTGCGGGCGCGGTGGAGCCCGGGGACGGCCTGGTGTCCGGGG CCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGAC ACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCT GGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGG TGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGG GGCCGGCCTGCTCTCCGGGGCCGAGGTGACACCGTGGGCTGCTCTCGCGGTGGAGCCCGGGGCCGGCCTG CTCTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGG CCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGAC ACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCT TGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGCGGGCGCGG TGTAGCCCGGGGCGGGCCTTGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGG GGCGGGACTGGTGTCCGGGGCCGAGGTGACACCGTGGGTTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTG GTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGCTCTCCGGGG CCGAGGTGACACCGTGGGCTGCGGGCGCGGTGGAGCCCGGGGCCGGCCTGCTCTCCGGGGCCGAGGTGAC ACCGTGGGCTGCGGGCGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCT GGGGGCGCGGTGGAGCCCGGGCCAGAACTGCTTTCCGGGGCCGTGGTGACTCCGTGGGCTGCGGGCGCGG TGGAGCCCGGGGCCGGCCTGCTCTCTGGGGCCGAGGTGACACCGTGGGCTGCGGGCGCGGTGGAGCCCGG GGCGGAACTCTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGGGGGGGAGCCCGGGGCCGGCCTGGTG TCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCTGGGGCCGGCCTGGTGTCCGGGGCC GAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACAC CGTGGGCTTGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGC GGGCGCGGTGGAGCCCGGGGCGGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTG GAGCCCGGGGCGGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGG CCGGCCTGGTGTCCGGGGTCGAGGTGACACCGTGGGCTTGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGT GTCTGGGGGGGCGGTGGAGCCGGGGCCGGCCTGGTGTCCGGGGTTGGAAAACTGGGCTGGGGGGGCGGTG GAGCCCGGGGCCGGCAGGGGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGC CGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTTGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTG TCCGGGGCCGAGGTGACACCGTGGGCTGCGGGCGCGGTGGAGCCCGGGGCGGGCCTGGTGTCCGGGGCCG AGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCGGGCCTGGTGTCCGGGGCCGAGGTGACACC GTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTTGG GGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGCGGGCGCGGTGG AGCCCGGGTCCGTCCTTCTCTCCGAGGGCCGAGGTGACATCGTAGACTGCGGGCGCGGTGGAGCCCGGGT CCGGCCTGCTCTCCGAGGCCGAGGTGACACCGTAGACTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGT GTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGAACCGGCCTGGTGTCCGGGGCC GAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGTGTCCGGGGCCGAGGTGACAC CGTGGGCTTGGGGGGCGGTGGAGCCCGGGACCGACCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGC GGGCGCGGTGGAGCCCGGGGCGGACCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTG GAGCCCGGGGCGGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGG CCGGCCTGGTGTCCGGGGCCGAGGTGACACCGTGGGCTTGGGGGGCGGTGGAGCCCGGGGCCGGCCTGGT GTCCGGGGCCGAGGTGACACCGTGGGCTGGGGGGGCGGTGGAGCCCGGGGCTGGCTTGTTGTCCGGGGCT GAGGTGACATCGTGGGCTGGCGGGGTGGTGGAGCCCAGGGCTGGCCTGGTGACTGGGACCGAGGTGACAT CCTGTCCCCAGGTGGCAGCTGAACCTGAAGCTGGTTCCGTGGCCGGGGCCAGAGTGACATCCTGTCCCTG AGTGGTGGAGGAGCCTGAACCGGGGCTGTGGCTGGAGAGTACGCTGCTGGTCATACTCACAGCATTCTTC TCAGTAGAGCTGGGCACTGAACTTCTCTGGGTAGCCGAAGTCTCCTTTTCTCCACCTGGGGTAGAGCTTG CATGACCAGAACCCGTAACAACTGTTGCGGGTTTAGGGGCTGTGGTAGCTGTAAGAAGTTAAAGTCATAG GGTTGGGTCTTTATGAAGGAAAAATAAGAGCAAGAAGAAAATATAAGCTCTGGCCACCAGAGAAATAATA CCAGGAGGACTGGGGAGTGGGCAGCCTCAGTAACCCCTGGGTTGGCCGCCTCCTTCCCTGCAGCAGCCTC CTTCTCTCTGCCCATAGGCCTTGGCTCATGGCCCCTGCATTTCTTCCCCTCTTAAGCCTTCCCTCTCCCT ACTCTCTTCCCCCTAGACTTCTCTACAGGACATTTGCTTGCCCCTGGTACCCACTCTCAGGGTTGGGGGC AACTCTTCTCAGCCTGTCCTTAGCCTCTCCCTCCTTCTGGCACAGACAGGGCAGCCTCTGTCTGCAATTC TTACCTTAACTTCATGGTGCCATCTGCCAGGGAGCAAAACCCACAGAAAGACCACGAAGACCACCTAAGC AGGGCAGCCCACTCCCCACCTCGTGCCCCTCACCTGTAAGCACTGTGAGGAGCAGCAGCAGGAAGAAAGG AGACTGGGTGCCCGGTGTCATGGTGGTGGTGAAATGGGTGGGGAGGGGGCAGAACAGATTCAGGCAGGCG CTGGCTGCTTGAGAGGTGGAGC
Protein Sequence	>NP_001018016.1 mucin-1 isoform 2 precursor [Homo sapiens] MTPGTQSPFFLLLLLTVLTATTAPKPATVVTGSGHASSTPGGEKETSATQRSSVPSSTEKNAFNSSLEDP STDYYQELQRDISEMFLQIYKQGGFLGLSNIKFRPGSVVVQLTLAFREGTINVHDVETQFNQYKTEAASR YNLTISDVSVSDVPFPFSAQSGAGVPGWGIALLVLVCVLVALAIVYLIALAVCQCRRKNYGQLDIFPARD TYHPMSEYPTYHTHGRYVPPSSTDRSPYEKVSAGNGGSSLSYTNPAVAATSANL
Molecule Role	Protective antigen
Molecule Role Annotation	Vaccination of wild-type mice with MUC1 RNA-transfected DC induced anti-MUC1 immune responses against MUC1-positive MC38/MUC1, but not MUC1-negative, tumor cells. Mice immunized with the transfected DC were protected against challenge with MC38/MUC1 tumor cells. Furthermore, mice with established MC38/MUC1 tumors were eliminated after receiving the vaccination (Koido et al., 2000).
Related Vaccines(s)	Ad-sig-hMUC-1/ecdCD40L Vaccine , adenovirus-transfected autologous DC vaccine plus CIK cells , Anti-idiotype MUC-1 Monoclonal Antibody Vaccine , Autologous Dendritic Cell-Tumor Fusion Vaccine , Emepepimut-S Vaccine , Falimarev Vaccine , Fowlpox Virus Vaccine Vector , Globo H-GM2-Lewis-y-MUC1-32-mer-TF(c)-Tn(c)-KLH Conjugate Vaccine , Globo-H-GM2-Lewis-y-MUC1-32(aa)-sTn(c)-TF(c)-Tn(c)-KLH Conjugate Vaccine , Inalimarev Vaccine , Liposomal MUC1/PET-lipid A Vaccine , Lung metastasis DNA vaccine pCEP4-MUC1 encoding MUC1 , Mammaglobin-A DNA Vaccine , MUC-1 Peptide Vaccine , MUC1 Antigen/SB AS-2 Vaccine , MUC1 Peptide-Poly-ICLC Vaccine , MUC1-KLH Conjugate Vaccine , MUC1-KLH Vaccine/QS21 , MUC1-targeted Peptide GO-203-2C Vaccine , MVA-MUC1-IL2 Vaccine , PSA:154-163 Peptide Vaccine , Recombinant Human MUC1-Oxidized Polymannose-pulsed Autologous Dendritic Cell Vaccine , Recombinant Vaccinia DF3/MUC1 Vaccine , Recombinant Vaccinia-MUC-1 Vaccine , Recombinant Vaccinia-MUC1-B7 Vaccine , rF-MUC1(DF3)/TRICOM Vaccine , Synthetic MUC1 Peptide Vaccine
References

MUC1