Tg (NM_009375) Mouse Untagged Clone

CAT#: MC225403

Tg (untagged) - Mouse thyroglobulin (Tg), (10ug)


  "NM_009375" in other vectors (2)

Reconstitution Protocol

USD 4,670.00

11 Weeks*

Size
    • 10 ug

Product Images

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Tg
Synonyms cog; Tgn
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225403 representing NM_009375
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACGGCCCTGGTCTTGTGGGTCTCTACTTTGTTGAGCTCAGTCTGCCTGGTAGCAGCCAACATCTTTG
AGTACCAGGTAGATGCACAGCCACTCCGCCCCTGTGAGCTACAAAGAGAGAAGGCCTTTCTGAAGCAGGC
TGAATATGTTCCCCAGTGCTCTGAAGATGGAAGTTTCCAGACAGTCCAATGCCAAAATGATGGTCAATCT
TGCTGGTGTGTGGATTCTGATGGCAGAGAAGTACCTGGCAGCAGGCAGCTGGGGAGGCCAACAGTTTGTC
TGTCCTTCTGCCAGCTACACAAGCAACGGATCCTGCTGGGCAGCTACATTAACAGCACCGATGCTCTCTA
CCTTCCTCAGTGCCAGGATTCAGGGAACTATGCACCAGTGCAGTGTGACCTGCAGAGAGTGCAATGCTGG
TGTGTAGACACAGAGGGGATGGAAGTGTATGGCACCCGCCAGCAGGGCAGGCCAACTCGGTGTCCAAGGA
GCTGTGAGATAAGAAACCGGCGTCTCCTCCATGGAGTAGGAGACAGGTCACCACCCCAGTGCACTGCAGA
TGGGGAGTTTATGCCTGTCCAGTGCAAGTTTGTCAATACCACAGACATGATGATTTTTGATCTGATCCAC
AACTACAACAGGTTTCCAGATGCATTTGTGACCTTCAGTTCCTTCCGGGGCAGGTTCCCTGAAGTGTCTG
GGTACTGTTACTGTGCTGACAGCCAGGGGCGGGAGCTGGCTGAGACAGGACTGGAATTGTTACTGGATGA
AATTTATGACACCATTTTTGCTGGCTTGGACCAGGCCTCGACCTTCACTCAAAGCACCATGTACCGGATA
TTGCAGAGACGATTCCTGGCCATCCAATTAGTCATCTCTGGCAGATTTCGGTGCCCCACTAAGTGTGAAG
TAGAACAGTTTGCTGCCACCAGATTTGGTCATTCTTACATCCCGAGATGCCACAGAGATGGTCACTACCA
AACAGTACAGTGCCAGACAGAAGGGATGTGCTGGTGTGTGGATGCCCAGGGGAGAGAGGTCCCTGGCACT
CGGCAGCAAGGGCAGCCTCCATCTTGCGCTGCAGATCAGTCATGTGCCTTGGAAAGGCAGCAGGCCTTGT
CTAGGTTCTACTTTGAAACCCCAGACTACTTCAGTCCGCAGGACCTTTTGTCTTCAGAGGACAGGCTCGC
TCCTGTGAGTGGTGTCAGATCGGACACATCCTGCCCACCCAGAATCAAGGAACTCTTTGTTGACTCTGGA
CTCCTGCGTTCGATAGCTGTGGAGCACTACCAACGGCTTTCTGAATCCAGAAGTCTACTAAGAGAAGCCA
TCAGAGCAGTTTTCCCCTCCCGGGAGCTGGCAGGGCTTGCCCTTCAGTTCACCACCAACCCCAAGCGACT
CCAGCAGAACCTGTTTGGAGGGACATTTTTGGCGAATGCTGCCCAGTTTAACTTGTCAGGAGCCCTTGGT
ACAAGAAGCACATTTAACTTCAGTCAGTTTTTCCAGCAGTTTGGTCTCCCAGGCTTCCTGAATAGAGACA
GAGTTACTACTCTTGCCAAACTACTCCCTGTGAGATTGGACTCCAGTTCTACCCCAGAAACTCTCCGTGT
GTCTGAGAAGACAGTTGCTATGAATAAACGAGTTGTGGGTAACTTTGGCTTCAAAGTCAACCTACAAGAG
AACCAAGATGCCTTAAAATTTCTCGTTTCTCTCCTGGAACTTCCAGAATTCCTTGTCTTCTTGCAGCGTG
CTGTTTCTGTGCCGGAAGATATAGCGAGAGATTTAGGAGATGTGATGGAAATGGTGTTCAGTGCTCAAGC
CTGTAAACAGATGCCTGGGAAGTTCTTTGTCCCATCATGCACTGCTGGAGGAAGCTATGAGGATATACAG
TGCTATGCTGGAGAATGCTGGTGTGTAGATTCCCGAGGCAAAGAACTTGATGGCTCGAGAGTCAGAGGTG
GACGCCCAAGATGTCCCACCAAGTGTGAAAAGCAGAGAGCTCAGATGCAAAGCCTCGCAAGCGCTCAGCC
CGCCGGCTCCAGCTTTTTTGTTCCTACTTGTACTAGAGAGGGATATTTTCTGCCTGTCCAGTGCTTCAAC
TCAGAATGTTACTGTGTGGATACTGAAGGCCAGGTTATTCCTGGGACTCAAAGTACAGTTGGAGAAGCCA
AGCAGTGTCCCAGTGTCTGCCAATTACAGGCTGAACAAGCTTTCCTTGGGGTAGTAGGGGTTCTGCTCTC
GAACTCCAGCATGGTGCCCTCCATCTCCAATGTCTACATCCCTCAGTGCAGTGCCAGTGGCCAGTGGAGG
CATGTGCAGTGTGATGGGCCCCATGAGCAGGTCTTTGAGTGGTATGAACGATGGAAGACTCAGAACGGTG
ATGGCCAGGAACTGACCCCAGCCGCACTGCTAATGAAGATCGTGAGCTACAGAGAAGTAGCTTCCAGAAA
CTTCAGCCTCTTTCTTCAAAGTCTCTATGATGCTGGCCAGCAAAGAATCTTTCCAGTGCTAGCACAGTAC
CCATCTCTTCAAGATGTTCCACAGGTAGTGTTGGAGGGAGCCACAACTCCGCCTGGGGAGAACATTTTCC
TGGATCCGTACATCTTTTGGCAGATCCTAAATGGTCAGCTCAGCCAATACCCAGGTCCCTACTCAGACTT
TAACATGCCTTTGGAACACTTCAACCTCAGGAGCTGTTGGTGTGTGGATGAGGCTGGCCAGAAACTGGAT
GGTACTCAGACTAAGCCAGGCGAGATCCCAGCATGTCCTGGCCCATGTGAGGAAGTGAAACTTCGTGTCC
TGAAATTTATTAAGGAAACAGAAGAGATTGTCTCAGCCTCCAATGCTTCTTCATTTCCACTGGGAGAGAG
TTTCTTAGTGGCCAAGGGAATCCAGCTGACCAGTGAGGAGCTTGACCTTCCTCCCCAATTCCCATCCCGG
GATGCTTTCTCTGAGAAGTTTCTACGTGGGGGTGAATATGCCATTCGCTTGGCTGCTCAGTCCACCTTGA
CTTTCTATCAGAGTCTCCGTGCTTCCCTGGGAAAGTCCGATGGAGCAGCCAGTCTTCTGTGGTCAGGGCC
CTACATGCCACAATGCAATATGATTGGAGGCTGGGAACCTGTGCAGTGCCATGCTGGGACAGGACAGTGT
TGGTGTGTGGATGGAAGGGGAGAGTTCATTCCAGGCTCGCTGATGTCACGCTCCTCACAGATGCCCCAGT
GTCCCACAAACTGTGAGCTATCCAGAGCAAGTGGGTTGATTTCTGCATGGAAACAGGCTGGACCCCAAAG
AAATCCAGGCCCGGGAGATCTGTTCATACCAGTCTGCCTCCAGACGGGAGAGTATGTCAGGAAGCAGACA
TCAGGGACAGGAACATGGTGTGTGGATCCAGCCTCAGGAGAAGGGATGCCAGTGAACACAAATGGCAGTG
CTCAGTGTCCTGGCCTCTGTGATGTCCTCAAGAGCAGAGCCCTGTCCAGGAAAGTGGGTCTTGGCTACTC
TCCAGTCTGTGAGGCACTGGATGGAGCCTTCTCCCCAGTGCAATGTGACTTGGCCCAGGGCAGTTGTTGG
TGTGTCCTGGGAAGTGGAGAGGAAGTGCCAGGGACCCGTGTGGTAGGCACCCAGCCTGCCTGTGAAAGCC
CACAGTGTCCACTGCCATTCTCTGGGTCAGATGTGGCTGATGGAGTGATCTTCTGCGAGACAGCCTCTAG
CTCAGGAGTGACGACTGTTCAGCAGTGCCAGCTGCTGTGCCGCCAGGGCCTCCGGAGTGCGTTTTCACCA
GGGCCACTGATTTGTAGCCTGGAGAGTCAGCACTGGGTGACACTGCCACCACCCCGAGCCTGTCAAAGGC
CTCAGCTGTGGCAGACCATGCAAACTCAAGCACACTTCCAGCTCCTGCTCCCACCAGGAAAGATGTGCAG
TGTTGACTACTCCGGCTTGCTGCAGGCCTTCCAGGTCTTCATACTGGATGAGCTGATAGCCCGTGGCTTC
TGCCAGATCCAGGTAAAGACATTTGGGACCCTGGTTTCCAGCACTGTCTGTGACAACTCCTCAATACAGG
TGGGGTGTCTGACTGCAGAGCGTTTAGGAGTAAATGTCACGTGGAAGTTACAGCTTGAGGACATCTCAGT
GGGCTCACTTCCAGATTTGTACAGCATTGAAAGGGCGGTAACGGGCCAGGATCTCCTTGGGCGCTTTGCA
GATCTGATCCAAAGTGGCAGGTTCCAGCTTCATCTGGACTCCAAGACATTCTCAGCGGACACCACCTTGT
ATTTTCTCAATGGTGACAGCTTTGTCACCTCTCCCAGGACTCAGCTTGGATGTATGGAAGGGTTCTACAG
AGTCCCAACCACCAGACAGGATGCTCTGGGCTGTGTGAAATGCCCTGAAGGAAGCTTCTCTCAGGATGGG
CGATGCACTCCCTGTCCTGCTGGCACCTACCAAGAACAGGCAGGCAGCTCAGCCTGCATCCCATGCCCAA
GGGGCAGAACAACCATCACCACTGGAGCTTTCAGCAAGACCCATTGTGTCACTGACTGTCAGAAGAATGA
GGCTGGCCTACAGTGTGACCAGAATGGTCAGTACCAAGCCAGCCAGAAGAACAGGGACAGTGGGGAAGTT
TTCTGCGTGGACAGCGAGGGGCGGAAACTACAGTGGTTACAGACAGAGGCTGGACTCTCAGAATCTCAGT
GTCTGATGATACGGAAATTTGACAAAGCTCCAGAATCGAAGGTTATCTTTGATGCTAATTCTCCTGTGAT
AGTCAAGTCCAGTGTCCCCAGTGCTGACTCCCCGCTGGTGCAGTGCTTGACAGATTGTGCAAATGATGAG
GCCTGCAGCTTCCTTACAGTGTCCACAATGGAGTCAGAGGTTTCATGTGACTTTTATTCTTGGACAAGGG
ACAACTTTGCCTGCGTGACTTCTGACCAGGAACAAGATGCTATGGGCAGCCTGAAGGCAACCAGTTTCGG
GAGCCTCAGGTGCCAGGTGAAAGTGAGAAATAGTGGCAAGGATTCTCTGGCTGTGTATGTGAAGAAAGGC
TATGAATCTACTGCAGCTGGTCAGAAGAGCTTCGAACCAACGGGTTTTCAAAATGTGCTCTCTGGGTTAT
ATAGCCCTGTGGTGTTCTCAGCCTCAGGAGCCAATCTGACAGATACACACACCTACTGTCTGCTTGCCTG
TGACAATGATTCCTGCTGTGATGGCTTCATCATCACACAGGTTAAAGGAGGGCCCACCATCTGTGGACTT
CTCAGTTCTCCTGACATTCTGCTTTGCCACATCAATGACTGGAGGGATACCTCTGCTACTCAGGCCAATG
CTACATGTGCTGGGGTGACATATGACCAGGGGAGCCGCCAGATGACCTTGAGTCTGGGAGGCCAAGAGTT
CCTGCAGGGTCTGGCACTCTTGGAAGGAACTCAAGACAGCTTTACCAGCTTCCAGCAGGTCTACCTCTGG
AAAGATTCTGACATGGGGTCTCGGCCGGAGTCTATGGGATGTGAAAGGGGAATGGTGCCAAGGTCAGACT
TTCCAGGAGATATGGCAACAGAACTTTTTTCCCCTGTGGACATTACCCAGGTCATTGTCAACACAAGCCA
TTCATTGCCCAGCCAGCAGTACTGGCTCTTCACACACCTGTTTTCAGCAGAGCAGGCAAACCTGTGGTGC
CTTTCTCGGTGTGCCCAGGAGCCCATTTTCTGTCAACTTGCAGACATAACAAAAAGTTCATCTTTGTATT
TCACCTGCTTCCTATACCCAGAAGCTCAGGTCTGTGACAATGTCATGGAATCTAATGCCAAGAACTGCAG
TCAGATTCTGCCCCACCAACCAACGGCCCTCTTCCGGAGGAAAGTTGTGCTGAATGATAGAGTGAAGAAC
TTTTATACTCGCCTGCCATTCCAAAAGCTCACAGGGATTTCCATCAGAGACAAAGTCCCCATGTCTGGAA
AACTCATTTCCAATGGGTTCTTTGAGTGTGAGCGGCTCTGTGACAGGGACCCTTGCTGCACTGGCTTTGG
TTTTCTAAATGTCTCCCAGCTGCAAGGAGGAGAGGTGACCTGTCTGACTCTGAACAGCATGGGGATTCAA
ACATGCAATGAGGAGAGTGGAGCAACCTGGCGCATTTTGGACTGTGGCTCTGAGGACACAGAAGTCCACA
CCTATCCCTTTGGGTGGTACCAGAAGCCTGCTGTATGGAGTGACACTCCTAGCTTCTGCCCTTCTGCTGC
CCTGCAATCCCTCACTGAGGAGAAGGTTACTTCGGACTCTTGGCAGACCCTGGCCCTGTCTTCAGTGATT
GTAGATCCATCCATCAAGCACTTTGATGTTGCCCACATCAGCACTGCAGCCACCAGTAACTTCTCCATGG
CCCAAGACTTCTGCTTACAGCAATGTTCCCGTCACCAGGACTGCCTTGTCACTACCCTGCAGATCCAGCC
TGGGGTTGTGAGATGTGTGTTCTACCCTGATATACAGAACTGCATACACAGTCTACGGAGCCACACGTGC
TGGCTTCTGCTCCATGAAGAGGCTACCTACATCTACCGGAAGTCTGGAATCCCTTTGGTCCAATCTGATG
TAACATCCACACCTTCTGTACGCATTGATTCCTTTGGCCAGCTTCAGGGTGGGTCCCAGGTCATCAAGGT
GGGCACTGCCTGGAAGCAAGTATACCGGTTCCTTGGAGTTCCATATGCTGCCCCACCCTTGGCAGACAAC
CGCTTCCGGGCACCAGAGGTCTTGAATTGGACAGGTTCATGGGATGCTACCAAGCCAAGGGCCAGCTGCT
GGCAGCCAGGTACCCGTACCCCCACACCTCCACAAATCAATGAAGACTGCTTATATCTCAATGTGTTTGT
CCCTGAGAACCTGGTCTCCAATGCATCAGTTCTGGTGTTTTTCCACAATACCATGGAGATGGAAGGCAGT
GGTGGTCAGCTGACCATTGATGGCTCCATCCTGGCTGCAGTTGGCAACTTCATCGTAGTCACTGCTAACT
ACAGACTGGGGGTCTTCGGCTTCCTGAGTTCAGGCTCTGATGAAGTAGCTGGCAACTGGGGGCTGCTGGA
CCAAGTGGCAGCTCTAACGTGGGTGCAGTCCCACATTGGAGCATTTGGTGGGGACCCTCAGCGTGTGACA
CTGGCAGCAGACCGTAGTGGGGCTGATGTGGCCAGCATACACCTTCTCATCAGCAGGCCTACAAGGCTCC
AGCTCTTCAGGAAGGCACTGCTTATGGGAGGCTCTGCACTGTCCCCGGCTGCAATTATCAGCCCAGAGAG
GGCCCAACAGCAAGCTGCAGCCTTGGCAAAGGAGGTTGGATGCCCTACTTCATCCATCCAGGAAGTGGTA
TCATGTCTCCGCCAGAAGCCTGCCAACATTCTCAATGATGCTCAGACCAAGCTCCTGGCTGTGAGTGGCC
CTTTCCACTACTGGGGCCCTGTGGTCGATGGCCAGTACCTCCGTGAACTTCCATCCAGACGGTTGAAGAG
GCCTCTGCCAGTGAAGGTGGATCTACTCATAGGAGGGTCCCAGGATGATGGGCTTATCAATAGGGCAAAG
GCTGTGAAGCAATTTGAAGAGAGCCAAGGCCGAACCAACAGCAAAACAGCCTTTTACCAGGCACTGCAGA
ATTCACTCGGTGGTGAGGACTCAGATGCCCGCATCCTTGCTGCTGCTGTATGGTATTACTCCTTGGAGCA
CTCCACAGACGACTATGCCTCCTTCTCTCGGGCACTGGAGAATGCCACCCGGGACTACTTTATCATCTGT
CCCATGGTCAACATGGCCAGCCTCTGGGCAAGGAGAACCCGTGGAAATGTCTTCATGTACCATGTCCCCG
AAAGCTATGGCCATGGCAGCCTAGAATTGCTGGCAGATGTTCAATATGCTTTTGGACTGCCCTTCTACTC
TGCCTACCAGGGCCAGTTTTCAACGGAGGAGCAGAGCCTGTCCCTGAAAGTCATGCAGTATTTCTCCAAC
TTCATCAGATCAGGAAATCCTAACTACCCACATGAGTTCTCAAGGAAGGCAGCTGAGTTTGCCACACCTT
GGCCAGACTTTATTCCTGGAGCTGGAGGAGAGAGCTACAAGGAGCTCAGCGCCCAGCTTCCCAATCGGCA
GGGCCTCAAACAAGCTGACTGCTCCTTCTGGTCCAAGTACATCCAGACTCTGAAGGATGCAGATGGAGCC
AAGGATGCACAGTTAACCAAGAGTGAAGAGGAAGACTTGGAAGTTGGACCTGGATTAGAAGAAGACCTCT
CAGGCTCACTGGAGCCTGTCCCCAAGAGCTACAGCAAATGA


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_009375
ORF Size 8301 bp
Insert Size 8301
OTI Disclaimer Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Reference Data
RefSeq NM_009375.2, NP_033401.2
RefSeq Size 8462
RefSeq ORF 8301
Locus ID 21819
Gene Summary Precursor of the iodinated thyroid hormones thyroxine (T4) and triiodothyronine (T3). [UniProtKB/Swiss-Prot Function]

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