Muc4 (NM_080457) Mouse Tagged ORF Clone
CAT#: MR231986
- TrueORF®
Muc4 (myc-DDK-tagged) - Mouse mucin 4 (Muc4)
"NM_080457" in other vectors (1)
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CNY 34,580.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 4933405I11Rik; Asgp |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>NM_080457 ORF sequence, MR231986 may differ due to SNPs.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGAGAGGGCCTCACTGGAGAGTTCCCTGGCTGTGTCTGAGCTGCCTGTATTCTTGCCTCCTCTTGCTA CCTGATGCTCTAGCAACAACATCAACACAGACACCCATGTCCCTTTCCAGCAGCACCAGAACATCCCAA ATGAGCTCACAAGCATCGACCTCATCAACATCTTCTGACAGAAGGACAAGTAAAACAGAACAAACATCA ACAAGGGATACTCCAAGTTCCATAACAACAGTTTCTCAGAGCCATCATACTACAAGCATGGAGACCAGC AAACCTCAAACCACCACAACCACCGAGGTGACCACATCAACTCCTTCAGCCTCCTCACGTGACCAAATA CAGACAGAGACAAGTTCTCAAAGAACAATCTCTCCTGATGGAACAACCACCTCACATGCTCCCAGTATC AGCAGCTCAGCTCCAAGTACAACACACATGTTAACCACAACATCCTCCACAGAAAGTACCTCAGTAGAC TCAGGACACACAACAGCAATAACAACTCAAGGTTTAACACCTGCCACCGCACAAGTCTCACTGACACCT TCATCCCAGAATATGTCAACAGTGTCAACACCCATCACCTCAACTCTTACTCAGAGACAACACACTGGA AGCAAGCAGACCAGCAGCAAATCTCAAGTCAACATAGTCACATCAACTCTTTCAACCTCTACAAGTGAC TCAACTCCTGCACAGACAATGTCTCAAGTGACATCATCTTCAGATAAAAGAACCAAGCCATCTACTTCT GGTGTCAGCAGTACATCACTAACTACAACAGAAGTGCTCACCCAAACATCCTCTACAGACTCTGCTCCA GGAAACACAACTCTGAGGATTACTCAGAACTCTACAACACATACCACGAAAGTCTCAACAACATCTACA CCACAAAAACTGTCACCAGTGTCAACACTCATCAATTCAAGTCAAAAAATGTCAACCCTTCCTCAGAAC CAACACACTGAAAGCATGGACACCAGCAGACAACCTCAAACCACCACAACCATAGAGGTGACCACATCA ACCCCTTCAGCCTCCTCACTTCACCAAATTCAGACAGAGACAAATTCCCCAAAAACAATCTCTCCTGGT GAGACAACCACCTCACATGCTCCGAACATGAGAAGCTCACCACCAAAGACATCACAGATACTAACCACA ATGCCCTCCACAAAAAGTACCTCAGTAGACACAAAACAAACAAAGGCAATAACTACTAAAGTTTCTACA CCTGACACCACACAGGTCTCGATGACACCTTCATCCCAGAAATTGCCAACACACAGCACGTCTACTCAG GAATTAACATCTTCTTACAGCCAACATATTCAAAGCAAGGGGACCAGCAGCAAATCTCAAACAACCACA AACACCAAGGTGAACACATCAACTCCTTCAGCCTCCTCACGTGACAAAATTCAGACAGAGACAAGTTCC CAAAGAACAAACTCTCCTGGCGAGAAAAGGACATCACATGCTCCCAGCATGAGCAGCTCAGCTCCAAGT ACAACACACATGTTATCCACAACATCCTCCAATCAAAGTACCTCAGTAGACACAGGACAAACAACATCA GTAACAGCTCAAGGTTCTACACCTGCCATCACACAGACCTCATTGACACCTTCATCCCAGAATACGTCA ACAGTGTCAACACCCATCACCTCTACTCACAAATTGTCAACCCTTTCTCAGAGCCAACACACTGGAAGC AAGGGGACCAGCAGCAATCCTCAAACTACCACCACCACAGAGGTGACCACATCAACTCCTTCAGCCACC ACCCATGACCAAATTCAGACAGAGACAAGTTCCCAAAACACAATCTCTCCTGGTGAGACAACCACCTCA TATGCTCCCATCATGAGCAGCTCAGCTCCAAGTACAACACATATGTTATCCACAACATCCTCCACTCAA AGTACCTCAGTAGACACAAGACACACTACAACATTAACGAATCAAGGATCTACACCTGCCACCACACAG GTCTCACCTTCATCCCAGAACATGTCAACAGTGTCAGCACCCATCACCTCAACTCAAATTTTGTCAACC TTTCCTCAGAGCCAACACACTGGAAGCAAGGGGACCAGCAGCAATCCTCAAACTACCACCACCCCAGTG GTGACCACATCAAATCCTTCAGCCACCTCACGTGACCAAATTCAGACAGAGACAAGTTCCCAAAGAACA ATCTCTCCTGGTGAGACAACCACCTCATATGCTTCCATCATGAGCAGCTCAGCTCCAAGTACAACACAC ATGTTAACCACAACATCCTCCACTCAAAGTACCTCAGTAGACACAAGACACACAATAGCAGTAAGGACT CAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCCCAGAACATGTCAACAGTGTCAACACCC ATCACCACTACTCACAAATTGTCAACCCTTTCTCAGAGCCAACACACTGGAAGCAAGGGGACCAGCAGC AATCCTCAAACTACCACAACGCCAGTGATGACCACATCAACTCCTTCAGCCACCACCCATGACCAAATT CAGACAGAGACAAGTTCTCAAAGAACAATCTCTCATGGTGAGACAACCACCTCATATGCTCCCATCATG AGCAGCTCAGCTCCAAGTACAACACACATGTTATCAACAGCATCCTCTACTCAAATTACCTCAGTAGAC ACAAGACACACAACAGCAATAACAACTCAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCC CAGAACATGTCAACAGTGTCAGCACCCATCACCTCAATTCAAATTTTGTCAACCCTTCTTCAGAGCCAA CACACTGGAAGCAAGGGGACCAGCACCAAGCCTCAAACTACCACCACCCCAGTGGTGACCACATCAAAT CCTTCAGCCACCTTCCCTGACCAATTTCAGACAGAGACAAGTTCCCAAAGAAAAATCTCTCCTGGTGAG ACAACCACCTCACATGCTCCCATCATGAGCAGCTCAGCTCCAAGTACAACACACATGTTATCCACAACA TCTTCCACTCAAAGTACCTCAGTAGATACAAGACACACTACAACAGTAACGACTCAAGGTTCTACACCT GCCACCACACAGGTCTTACCTTCATCCCAGAACATGTCAACAGTGTCAGCACCCATCACCTCAACTCAA ATTTTGTCAACCCTTCCTCAGAGCCAACACACTGGAAGCAAGGGGACCAGCACCAATCCTCAAACTACC ACCAATGCAGAGGTGACCACATCAACTCCTTCAGCCACCTCACATGACCAAATTGAGACAGAAACAAGT TCCCAAAGAACAATCTCTCCTGGTGAGACAACCACCTCAAATGCTTCCAACTTGAGCAGTTCAGCTCCA AGTACAACACACATGTTAACCACAACATCCTCCACTCAAAGTACCTCAGTAGACACAGGATACACAACA GCAGTAAGGACTCAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCCCAGAACATGTCAACA GTGTCAGCACCCATCACCTCAACTCAAATTTTGTCAACCCTTCCTCAGAGCCAACACACTGGAAGCAAG GGGACCAGCAGCAATCCTCAAACTACCACAAGCCCAGTGGTAACCACATCAACTCCTTCAGGCACCTCA GGTGACCAAATTCAGACAGAGACAAGTTCCCAAAGAACAATCTCTCCCGGCAAGACAACCACTTCACAT GCTCTCAACATAAACAGCTCAGCTCCAAGTACAACACACATGTTATCCACAACATCCTCCACTCAAAGT ACCTCAGGAGACACAAGACACACAACAGCAGGAAGGACTCAAGGTTCTACACCTGCCACCACACAGACC TCATTGACACCTTTGTCCCAGAATATGTCAACAGTGTCAACACCCATCACTGCTACTCACAAATTCTCA ACCCTTCCTCAGAGCCAACACACTGGAAGCAAGGGGACCAGCAGCAATTCTCAAACTAACACCACCCCA GATGTGACCATATCAACTCCTTCAGCCACCTCACGTGACCAAATTCAGACAGAGACAAGTTCCCAAAGA ACAATCTCTCCTGGGGAGACAACCACCTCACATGCTTCCAGCTTGAGCAGTTCAGGACCAAGTACAACA AACATGTTAACCACAACATCCTACACTCAAAGTACCTCAGTAGGCACAGGACACACAACAGCAGAAAGA ACTCAAGGTTCTACACCTGCCACCACACAGGTCTTACCTTCATCCCAGAACATGTCAACAGTGTCAACA CCCATCACATCTACTCAAAATTTGTCAACCCTTCTTCAGAGCCAACACACTGGAAGCATGGGGACTAGT AGCAATCCTCAAACTACCACCAAGCCAGTGATGACCACATCAACTCCTTCAGCCACCTCACGTGACCAA ATTCAGACAGAGACAAGTTTCCAAAGAACAATCTCTTCTGGTGAGACAACCACCTCACATGCTCCCAGC ATGAGCAGCTCAGCTCCAAGTTCAACACACATGTTATCAACAGCATCCTCTACTCAAATTACCTCAGTA GACACAAGACACACAACAGCAATAACAACTCAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCA TCACAGAATATGTCAACAGTGTCAGCACCCATCACCTCAATTCAAATTTTGTCAACCCTTCCTCAGAGC CAACACACTGGAAGCAATAGGACCAGCACCAATCCTCAAACTACCACCATCCCAGAGGTGACCACATCA ACTCCTTCAGCCACCTCACATGACCAAATTGAGACAGAAACAAGTTCCCAAAGAACAATCTCTCCTGGT GAGACAACCACCTCACATGCTCCCAACATGAGTAGTTCAGCTCCAAGTACAACACACATGTTATCCTCA ACATCCTCCACTCAAATTACCTCAGTAGACACAGGACACACATCAGCAGGAAGGACTCAAGGTTCTACA CCTGCCACCACACAGGTCTCACCTTCATCCCAGAACATGTCAACAGTGTCAGCACCCATCACCTCAACT CATATTTTGTCAACCCTTCCAAAGAGCCAACACACTGGAAGCAAGGGGACCAGCAGCAATCCTCAAACT ACCATAACCCCAGTGGTAACCACATCAACTCCTTCAGCCTCCTCCCGTGACCAAATTCAGACAGAGACT AGTTTCCAAAGAACAATCTCTCCTGGCGAGACAACCACCTCACATGCTCCCAGCATGAGCAGCTCAGCT CCAAGTTCAACACACATGTTATCAACAGCATCCTCTACTCAAATTACCTCAGTAGACACAAGACACACA ACAGCAATAACAACTCAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCCCAGAACATGTCA ACAGTGTCAGCACCCATCACCTCAATTCAAATGTTGTCAACCCTTCCTCAGAGCCAACACACTGAAAGC AAGAGTACCAGCACCAATCCTCAAACTACCACCACCCCAGAGGTGACCACATCAAATCCTTCAGCCACC TCACATGACCAAATTGAGACAGAAACAAGTTCCCAAAGAACAATCTCTCCTGGTGAGACAACCACCTCA TATGCTCCCATCATGAGCAGCTCAGCTCCAAGTACAACACACATGTTATCCACAACATCCTCCACTCAA AGTACCTCAGTAGACACAAGAAACACTACAACATTAACGACTCAAGGATCTACACCTGCCACCACACAG GTCTCACCTTCATCCAAGAACATGTCAACAGTGTCAACACCAATCACCTCTACTCACAAATTGTCAACC CTTCCTCAGAGCCAACACACTGGAAGCAATGGGACCAGCAGCAATCCTCAAACTACCACCACCCCAGAG GTGACCACATCAACTCCTTCGGCCACCACCCGTGACCAAATTCAGACAGAGTCAAGTTCCCAAAGAACA ATCTATCCTGGTGAGACAACCACCTCACATGCTTCCATCATGAGCAGCTCAGCTCAAAGTTCAACACAC ATGTTATCAACAGCATACTCCACTCAAATTACCTCAGTAGACACAAGACACACAACAGCAATAACAACT CAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCCCAGAACATGTCAACAGTGTCAGCACCC ATCACCTCAACTCAAATTTTGTCAACCTTTCCTCAGAGCCAACACACTGGAAGGAAGGGGACCAGCACC AAGCCTCAAACTACCACAACCCCAGTGGTGACCACATCAAATCCTTCAGCCACCTCCCCTGACCAATTT CAGACAGAGACAAGTTCCCAAAGAACAATCTCTCCTGGTGAGACAACCACCTCACATGCTCCCATCATG AGCAGCTCACCTCCAAGTTCAACACACATGTTATCAACAGCATCCTCCACTGAAATTACCTCAGTAGAC ACAAGACACACAACAGCAATAATGACTCAAGGTTCTACACCTGCCACCACACAGGTCTCACCTTCATCC CAGAACATGTCAACAGTGTCAGCACCCATCACCTCAACTCATATTTTGTCAACCCTTTCTCAGAGCCAA CACACTGGAAGCAAGGGGACCAGCAGCAATCCTCAAACTACCACAACCCCAGTGGTAACCACATCAACT CCTTCAGCCTCCTCACGTGACCAAATTCAGACAGAGACAAGTTCCCAAAGAACAATCTCTCCCGGCAAG ACAACCACCTCACATGTTCCCAACATGAACAGCTCAGCTCCAAGTACAACACACATCTTATCCACAACA TCCTCCATTCAAAGTACCTCAGGAGATACAAGACACACAACAGCAGTAAGGACTCAAGGTTCTACACCT GCCACCACACAGGTCTCACTGGCACCTTCATCCCAGAACATGTCAACACTGTCAGCACCCATCACATCA CCTCAACATTTTTCAACCCTTCCTCAGAACCAACACACTGGAAGCATGGGGACCAGCAGCAATCCTCAA AGTACCACCATCCCAGAGGTGACCACATCAACTCTTTCAGCTTCCTCACGTGACCAAGTTCAGACAGAG ACAAGTTCCCAAAGAACAATCTCTCCTGGTGAGACAACCACCTCACATGCTTCCAGCTTGAGCAGTTCA GGACCAAGTACAACAAACATGTTAACCAGAACATCCTCCACTCAAATTACCTCAGGAGACACAAGACAC ACAACAGCAATAGTGACTCAAGGTTCTACACCTGCCACCACACAGACCACATTGACACCTTCGTCCCAG AATATGTCAACAGTGTCAACACCCATCACTTCTACTCACAAATTGTCACCCCTTCCTCAGAGCCAACAC ACTGAAAACATGGGGACCAGCAGCAATCCTCAAACTACCACCACCCCAGAAGTGACCACATCAACTCCT TCAGCCACCTCCTATGACCAAATTCAGACAGAGACAAGTTTCCAAAGAACAATCTCTCCTGGTGAGACA ACCACTTCACATGCTCCCAGCATGAGCAACTCAGCTCCAAGTTCAACACACAAGTTATCAACAGCATCC TCCACTGAAATTACCTCAGTAGACACAAGACACACAATAGCAATAACGACTCAAGGTTCTACACTTGCC ACCACACAGACCTCACTGACACCTTCATCCCAGAACATGTCAACAGTGTCAGCACCCATCACCTCATCT CAAATTTTGTCAACTCTTCGTCAGAGCCAACACACTGGAAGCAAGGGGACCAGCAGCAATCATCAGACT ACCACTACCCCTGTGGTGACCACATCAACTTCTTCAGCCACCTCACGTGACCAAATTCAGACAGAGACA AGTTCCCTAAGAACAATCTCTCCTGATGGAACGACCACCTCACATGCTTCCAGCATGAGCAGTTCATCT CCAAATACAACACACTTGTTAATCACTACATCCTCCACAGAAAGTACCTCAGTAGACACAGGATACTCA ACAGTAATAACGACTCATGGTTCTACACTTGCCACCACCCAGGTCTCATTGACACCTTCATCCCAGAAT ATGTCAACAGTGTCAATGCCCAGCACTTCTTCACAGGAATTAACATCACTTCCTCAGAGACAACACACT GGAAACATGGAGACCAGCAGCCAACCTCAGAATATCACCCCTACTGTGGTGACCACATCAACTCTTTTA TCATTCTCAAGGGGATCCACTGAATTGCAAACCATGTCTTGGGGAACGTCCTCCTCAGGGACAATAAAT ACCCTATCTACTCCCGTCAGGAATACCTCACCTGCATCCACATCAGGCATCCTCACCAGCACATTGACC ACCTCAGGAAACACAGGGTACACAGGTGTAACTAGAAGCCTCGGTGTGATCACATCAAGAGTCACAAGC ACAAGTCTACCTGGAAAGTCCACAGTAGTGCATAGCACCCCTGCTCAGCCATTGTCTGCACATTCTCAG AGTCACCAGACGTATGGCACGGGGACACCCAGCATGTCTCAAACCAGCATCCTCCCAGACATGACCTCA GAAAAGCGTGTTGCCTCTTCACCTGGACCCACTGTGACAGAGTCCTTTTCTCATGTGTCATCCTCCTCA GGATTGACTACGAAGACAGACAATGACAGAAACACAGCAGTCTCAGCCACCTCCTCGACCCTTACTAGC CCCAGCCCAACCACAGCCTCCAGGTCAACAGTGCCCCTGCCTTCTCTTTTACCAGATCAGGGCATTTCC CTCTTCCCCTACGGGTCTGAAGTCGGAGACCAGAATTTGTTTGCCAGGACTGTGGATTTTAACTCACCA ATCTTCAAGATCCTGATTGGCTTTCCCCTCGGTTCCTCCCTGCGGGATTCCTTCTACGTTACAGATAAT GGTCAGATCATTTTCCCAGAGTCAGACTATGACGTCTTCTCCTACCCCAACCCACCTCAAAGAGGCTTC ACCGGAAGGGAGCGCGTGGCCATGGTGGCCCCGTTCTGGGCTGATGCTGATTTCTCTAGCTCCAGGGGA GCCATATTTTACCAGGAATATGTCACATTTTACAATGAACACCATCAGCTAATCCGGGAAGTGGAGACT TTGATTAATGATTTCACAAGTAGCTGGGGCTACAGAGCCAAGTGGACACTGAAGGTCACCTGGGTCAAT GTTCCTGCCTATACTGCCCAAGAGAGCTTTGGGACCAATACCTACCAAGCCATCCTCTCCACAGATGGG AGCAGGTCCTATGCCCTGTTTCTCTACCAGAACAGTGGCATGAGGTGGGATGTGACCCAGGAACCATAC AACCGGGTGCTCATGGGCTTCTCCAGTGGAGATGGGTATTTTGAAAACAGCCCGCTGACATTCCGGCCA GCAATGGAGAAGTACCGTCCAGATCGATTCCTGAATTCCAAATTAGGCATCCGGGGACTGCAGGTCTAC AGGCTGCACAGGGAGGAGCGGCCCAACTACCGGCTCAAATGTCTGCAGTGGCTGGAGAGTCAGCCTCAG CAGCCCAGCTGGGGCTGGAGCTCAGTTTCCTGCCCTTGCTCCTGGCAGCAGGGACAACGGGACTTTCGG TTCAGGCCCATCAACCCAGGTTGGTGGGACAGGCAGCTGTGCAGCTTCTCCTCCGGGCGAGGGGGTGTG TGCTGCAGCTATGGTGCCTGGGGAGAGTTTCGAGAAGGCTGGAGAATGCACAGTCCTTGGCAGTTTGAT GAGGAGCAGGAGGCACAGAACTGGTGCTGCCAATGGAACGACAAGCCCTCGTTCTGTGTCTGGTACCAG CTTAGGCGGCCCCGTGTCAGCTGTGCTGGGTACAGGCCCCCACGGCCCGCTTGGACATTTGGTGATCCC CACATCACCACTTTGGATAATGCCAACTTCACCTTCAACGGGCTGGGAGACTTTCTGCTGGTCCAGGCC CAGGACAGAAATTCTTCCTTCCTGCTGGAAGGCCGCACTGCCCAGACTGGCACTGCCAAGGCCACTAAC TTCATTGCCTTTGCGGCTCAATACAACACCAGCAGCCTGAAGTCTCCCATCACGGTTCAGTGGTTTCTT GAGCCCAGTGACAAAATCCGAGTCGTATACAATAACCAGACTGTGGCCTTTAACACCAGAGACACTGAA GTCTTACCCATATTCAATACCACCGGTGTTCTGCTGACCCAAAATGGCTCCCAAGTCTCAGCCAACTTT GATGGGACAGTGACTATCTCTGTGATTGCTCGCTCCAACATCCTTCATGCCTCCTCCAGCCTATCAGAG GAATATCGAAACCACACAGAGGGCCTTCTGGGAGTGTGGAATGACAATCCAGAAGATGACTTCAGGATG CCCAATGGCTCCACCATTCCCTCAAACAGCTCTGAGGAGACCCTTTTCTACTATGGAATGACATGGCAC GTCAACGGAACAGGCCTCCTTGGGATAAGGGCAGACCCGCTGCCTACCAAGTTCACCCCCATCTTTCTG TCTCAACTGTTGAATCAGAGTGCCTCAGGTGAAGACTTGGCCTCTGGGTGCAAAGGCGACAGAAAGTGC ATGTTTGACATCCTGGCCACGGGAAACAGAACTATTGGACAAAGCACCAATTCCATCCTTAATGAGTTC CAACATATGAATGACACCCTCAATCAGTACCCACCCTCTATCAACTGCAGCAGCAAGATTCAAGCCTAC AAGGGGCAGACAGTGACCACTGAGATCACCAGCAACTCTAAGGATGCCACACTCAGCCTCTCCAAGAAA TGTAGTGGCTTTAAGCTCTTTGAAAACGGGAGTTTGCAGTGGACACCAACATCCCCAGAAGCGTGTACC CTGGAGATTCTAGCGAGGGATGTCAGGACTAACTTGTCATGGGTACTCCAGCCCAAGACCGTGGCTTGC TTCTGCAGTAAGGAGGAGCAGTGTTTGTACAATGAAACCAGCAAAGAGGGCAATTCTTCCCTTGAGGTG ACCAGCTGCAAGTGTGATGGGGACACCTTTGGCCGCTTGTGTGAACGCTCCAAGGACCCGTGTGATGAG CCATGCTTCCCTAACGTGAACTGCATTCCTGGGAAGGGCTGTGAGGCCTGCCCTCCAAACACAACTGGA GATGGACGTCATTGTGCAGCTCTGGAGGACTCCTGCCCAAACCGTTCCTGTCCCATGAATTACTGCTAT AACAATGGCCATTGCGACATCTCTGAGGCTCCAGGCTGCCAGCCCACTTGCACCTGTCCCCCTGCCTTC ACTGATAACCGCTGCTTCCTGGCTGGGAACAGTTTCACTCCCACCATCTCTATGGAGCTTCCCTTAAGG ACCATCGTGCTCTCTCTCAGGGAGGATGAAAATGCCTCCGCCGCTGACGTCAACGCCTCGGTGGCGAAC ATACTAGAGAACCTGGACATGCGGGCTTTTTTCTCCAACAGCTTAGTGGAACTGATACGAACCTCTCCC GGAGCACAGCCCTCGAGCAAGTCCATTCATCACTGGAAGGTCACCTCCCACTTCAAGTACCGTCCCAGG GGCCCGCTCATCCACTATCTGAACAACCAGCTGATAGGCGCCGTGATGGAGGCCTTCCTCCTGCAGGCT CGGCAGGAGAGGCAGAAGAGGAGTGGAGAAGCCAGGAAGGACGTCCACTTCTTCCCCATCTCGAGGGCA GATGTCCAGGACCAGATGGCTCTGAACCTAAGTATGCTGGAGGAGTACTTCACATGTGATGGCTACAAA GGCTACCACCTGGTCTACAGCCCACAGGATGGTGTCACCTGTGTGTCCCCATGTAGTGAGGGCTACTGT CACAATGGAGGCCAATGCAAGCACCTGCCAGATGGGCCCCAATGCAGCTGCGCATCCTTCACCATCTAC TCATCCTCGGGCGAACACTGTGAGCACCTAAGTGTGAAACTTGGGGCATTCTACGGGATCCTCTTCGGA ACCCTGGGCGCCCTCTTGCTACTGGGGATCTTAGCATTTATGATCTTTCACTTCTGCGGCTGCTCCAAG AACAAGTTCTCCTACCCTTTGGACTCAGAATTG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGAT TACAAGGATGACGACGATAAGGTTTAAACGGCCGGC >Peptide sequence encoded by MR231986
Blue=ORF Red=Cloning site Green=Tag(s) MRGPHWRVPWLCLSCLYSCLLLLPDALATTSTQTPMSLSSSTRTSQMSSQASTSSTSSDRRTSKTEQTS TRDTPSSITTVSQSHHTTSMETSKPQTTTTTEVTTSTPSASSRDQIQTETSSQRTISPDGTTTSHAPSI SSSAPSTTHMLTTTSSTESTSVDSGHTTAITTQGLTPATAQVSLTPSSQNMSTVSTPITSTLTQRQHTG SKQTSSKSQVNIVTSTLSTSTSDSTPAQTMSQVTSSSDKRTKPSTSGVSSTSLTTTEVLTQTSSTDSAP GNTTLRITQNSTTHTTKVSTTSTPQKLSPVSTLINSSQKMSTLPQNQHTESMDTSRQPQTTTTIEVTTS TPSASSLHQIQTETNSPKTISPGETTTSHAPNMRSSPPKTSQILTTMPSTKSTSVDTKQTKAITTKVST PDTTQVSMTPSSQKLPTHSTSTQELTSSYSQHIQSKGTSSKSQTTTNTKVNTSTPSASSRDKIQTETSS QRTNSPGEKRTSHAPSMSSSAPSTTHMLSTTSSNQSTSVDTGQTTSVTAQGSTPAITQTSLTPSSQNTS TVSTPITSTHKLSTLSQSQHTGSKGTSSNPQTTTTTEVTTSTPSATTHDQIQTETSSQNTISPGETTTS YAPIMSSSAPSTTHMLSTTSSTQSTSVDTRHTTTLTNQGSTPATTQVSPSSQNMSTVSAPITSTQILST FPQSQHTGSKGTSSNPQTTTTPVVTTSNPSATSRDQIQTETSSQRTISPGETTTSYASIMSSSAPSTTH MLTTTSSTQSTSVDTRHTIAVRTQGSTPATTQVSPSSQNMSTVSTPITTTHKLSTLSQSQHTGSKGTSS NPQTTTTPVMTTSTPSATTHDQIQTETSSQRTISHGETTTSYAPIMSSSAPSTTHMLSTASSTQITSVD TRHTTAITTQGSTPATTQVSPSSQNMSTVSAPITSIQILSTLLQSQHTGSKGTSTKPQTTTTPVVTTSN PSATFPDQFQTETSSQRKISPGETTTSHAPIMSSSAPSTTHMLSTTSSTQSTSVDTRHTTTVTTQGSTP ATTQVLPSSQNMSTVSAPITSTQILSTLPQSQHTGSKGTSTNPQTTTNAEVTTSTPSATSHDQIETETS SQRTISPGETTTSNASNLSSSAPSTTHMLTTTSSTQSTSVDTGYTTAVRTQGSTPATTQVSPSSQNMST VSAPITSTQILSTLPQSQHTGSKGTSSNPQTTTSPVVTTSTPSGTSGDQIQTETSSQRTISPGKTTTSH ALNINSSAPSTTHMLSTTSSTQSTSGDTRHTTAGRTQGSTPATTQTSLTPLSQNMSTVSTPITATHKFS TLPQSQHTGSKGTSSNSQTNTTPDVTISTPSATSRDQIQTETSSQRTISPGETTTSHASSLSSSGPSTT NMLTTTSYTQSTSVGTGHTTAERTQGSTPATTQVLPSSQNMSTVSTPITSTQNLSTLLQSQHTGSMGTS SNPQTTTKPVMTTSTPSATSRDQIQTETSFQRTISSGETTTSHAPSMSSSAPSSTHMLSTASSTQITSV DTRHTTAITTQGSTPATTQVSPSSQNMSTVSAPITSIQILSTLPQSQHTGSNRTSTNPQTTTIPEVTTS TPSATSHDQIETETSSQRTISPGETTTSHAPNMSSSAPSTTHMLSSTSSTQITSVDTGHTSAGRTQGST PATTQVSPSSQNMSTVSAPITSTHILSTLPKSQHTGSKGTSSNPQTTITPVVTTSTPSASSRDQIQTET SFQRTISPGETTTSHAPSMSSSAPSSTHMLSTASSTQITSVDTRHTTAITTQGSTPATTQVSPSSQNMS TVSAPITSIQMLSTLPQSQHTESKSTSTNPQTTTTPEVTTSNPSATSHDQIETETSSQRTISPGETTTS YAPIMSSSAPSTTHMLSTTSSTQSTSVDTRNTTTLTTQGSTPATTQVSPSSKNMSTVSTPITSTHKLST LPQSQHTGSNGTSSNPQTTTTPEVTTSTPSATTRDQIQTESSSQRTIYPGETTTSHASIMSSSAQSSTH MLSTAYSTQITSVDTRHTTAITTQGSTPATTQVSPSSQNMSTVSAPITSTQILSTFPQSQHTGRKGTST KPQTTTTPVVTTSNPSATSPDQFQTETSSQRTISPGETTTSHAPIMSSSPPSSTHMLSTASSTEITSVD TRHTTAIMTQGSTPATTQVSPSSQNMSTVSAPITSTHILSTLSQSQHTGSKGTSSNPQTTTTPVVTTST PSASSRDQIQTETSSQRTISPGKTTTSHVPNMNSSAPSTTHILSTTSSIQSTSGDTRHTTAVRTQGSTP ATTQVSLAPSSQNMSTLSAPITSPQHFSTLPQNQHTGSMGTSSNPQSTTIPEVTTSTLSASSRDQVQTE TSSQRTISPGETTTSHASSLSSSGPSTTNMLTRTSSTQITSGDTRHTTAIVTQGSTPATTQTTLTPSSQ NMSTVSTPITSTHKLSPLPQSQHTENMGTSSNPQTTTTPEVTTSTPSATSYDQIQTETSFQRTISPGET TTSHAPSMSNSAPSSTHKLSTASSTEITSVDTRHTIAITTQGSTLATTQTSLTPSSQNMSTVSAPITSS QILSTLRQSQHTGSKGTSSNHQTTTTPVVTTSTSSATSRDQIQTETSSLRTISPDGTTTSHASSMSSSS PNTTHLLITTSSTESTSVDTGYSTVITTHGSTLATTQVSLTPSSQNMSTVSMPSTSSQELTSLPQRQHT GNMETSSQPQNITPTVVTTSTLLSFSRGSTELQTMSWGTSSSGTINTLSTPVRNTSPASTSGILTSTLT TSGNTGYTGVTRSLGVITSRVTSTSLPGKSTVVHSTPAQPLSAHSQSHQTYGTGTPSMSQTSILPDMTS EKRVASSPGPTVTESFSHVSSSSGLTTKTDNDRNTAVSATSSTLTSPSPTTASRSTVPLPSLLPDQGIS LFPYGSEVGDQNLFARTVDFNSPIFKILIGFPLGSSLRDSFYVTDNGQIIFPESDYDVFSYPNPPQRGF TGRERVAMVAPFWADADFSSSRGAIFYQEYVTFYNEHHQLIREVETLINDFTSSWGYRAKWTLKVTWVN VPAYTAQESFGTNTYQAILSTDGSRSYALFLYQNSGMRWDVTQEPYNRVLMGFSSGDGYFENSPLTFRP AMEKYRPDRFLNSKLGIRGLQVYRLHREERPNYRLKCLQWLESQPQQPSWGWSSVSCPCSWQQGQRDFR FRPINPGWWDRQLCSFSSGRGGVCCSYGAWGEFREGWRMHSPWQFDEEQEAQNWCCQWNDKPSFCVWYQ LRRPRVSCAGYRPPRPAWTFGDPHITTLDNANFTFNGLGDFLLVQAQDRNSSFLLEGRTAQTGTAKATN FIAFAAQYNTSSLKSPITVQWFLEPSDKIRVVYNNQTVAFNTRDTEVLPIFNTTGVLLTQNGSQVSANF DGTVTISVIARSNILHASSSLSEEYRNHTEGLLGVWNDNPEDDFRMPNGSTIPSNSSEETLFYYGMTWH VNGTGLLGIRADPLPTKFTPIFLSQLLNQSASGEDLASGCKGDRKCMFDILATGNRTIGQSTNSILNEF QHMNDTLNQYPPSINCSSKIQAYKGQTVTTEITSNSKDATLSLSKKCSGFKLFENGSLQWTPTSPEACT LEILARDVRTNLSWVLQPKTVACFCSKEEQCLYNETSKEGNSSLEVTSCKCDGDTFGRLCERSKDPCDE PCFPNVNCIPGKGCEACPPNTTGDGRHCAALEDSCPNRSCPMNYCYNNGHCDISEAPGCQPTCTCPPAF TDNRCFLAGNSFTPTISMELPLRTIVLSLREDENASAADVNASVANILENLDMRAFFSNSLVELIRTSP GAQPSSKSIHHWKVTSHFKYRPRGPLIHYLNNQLIGAVMEAFLLQARQERQKRSGEARKDVHFFPISRA DVQDQMALNLSMLEEYFTCDGYKGYHLVYSPQDGVTCVSPCSEGYCHNGGQCKHLPDGPQCSCASFTIY SSSGEHCEHLSVKLGAFYGILFGTLGALLLLGILAFMIFHFCGCSKNKFSYPLDSEL TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_080457 |
ORF Size | 11970 bp |
OTI Disclaimer | Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
Reference Data | |
RefSeq Size | 12452 bp |
RefSeq ORF | 11973 bp |
Locus ID | 140474 |
UniProt ID | E9Q7Q0 |
MW | 422.1 kDa |
Gene Summary | The major constituents of mucus, the viscous secretion that covers epithelial surfaces such as those in the trachea, colon, and cervix, are highly glycosylated proteins called mucins. These glycoproteins play important roles in the protection of the epithelial cells and have been implicated in epithelial renewal and differentiation. This gene encodes an integral membrane glycoprotein found on the cell surface. A large 5' exon encodes at least 15 tandem repeats of 124-126 amino acids. [provided by RefSeq, Jul 2008] |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
MC229775 | Muc4 (untagged) - Mouse mucin 4 (Muc4) |
CNY 33,350.00 |