Tg (NM_009375) Mouse Tagged ORF Clone
CAT#: MG212126
- TrueORF®
Tg (tGFP-tagged) - Mouse thyroglobulin (Tg)
ORF Plasmid: DDK
"NM_009375" in other vectors (2)
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CNY 33,440.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | TurboGFP |
Synonyms | cog; Tgn |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MG212126 representing NM_009375
Red=Cloning site Blue=ORF Green=Tags(s) 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 TTTTCTAAATGTCTCCCAGCTGCAAGGAGGAGAGGTGACCTGTCTGACTTTGAACAGCATGGGGATTCAA 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 CAGGCTCACTGGAGCCTGTCCCCAAGAGCTACAGCAAA ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA >MG212126 representing NM_009375
Red=Cloning site Green=Tags(s) MTALVLWVSTLLSSVCLVAANIFEYQVDAQPLRPCELQREKAFLKQAEYVPQCSEDGSFQTVQCQNDGQS CWCVDSDGREVPGSRQLGRPTVCLSFCQLHKQRILLGSYINSTDALYLPQCQDSGNYAPVQCDLQRVQCW CVDTEGMEVYGTRQQGRPTRCPRSCEIRNRRLLHGVGDRSPPQCTADGEFMPVQCKFVNTTDMMIFDLIH NYNRFPDAFVTFSSFRGRFPEVSGYCYCADSQGRELAETGLELLLDEIYDTIFAGLDQASTFTQSTMYRI LQRRFLAIQLVISGRFRCPTKCEVEQFAATRFGHSYIPRCHRDGHYQTVQCQTEGMCWCVDAQGREVPGT RQQGQPPSCAADQSCALERQQALSRFYFETPDYFSPQDLLSSEDRLAPVSGVRSDTSCPPRIKELFVDSG LLRSIAVEHYQRLSESRSLLREAIRAVFPSRELAGLALQFTTNPKRLQQNLFGGTFLANAAQFNLSGALG TRSTFNFSQFFQQFGLPGFLNRDRVTTLAKLLPVRLDSSSTPETLRVSEKTVAMNKRVVGNFGFKVNLQE NQDALKFLVSLLELPEFLVFLQRAVSVPEDIARDLGDVMEMVFSAQACKQMPGKFFVPSCTAGGSYEDIQ CYAGECWCVDSRGKELDGSRVRGGRPRCPTKCEKQRAQMQSLASAQPAGSSFFVPTCTREGYFLPVQCFN SECYCVDTEGQVIPGTQSTVGEAKQCPSVCQLQAEQAFLGVVGVLLSNSSMVPSISNVYIPQCSASGQWR HVQCDGPHEQVFEWYERWKTQNGDGQELTPAALLMKIVSYREVASRNFSLFLQSLYDAGQQRIFPVLAQY PSLQDVPQVVLEGATTPPGENIFLDPYIFWQILNGQLSQYPGPYSDFNMPLEHFNLRSCWCVDEAGQKLD GTQTKPGEIPACPGPCEEVKLRVLKFIKETEEIVSASNASSFPLGESFLVAKGIQLTSEELDLPPQFPSR DAFSEKFLRGGEYAIRLAAQSTLTFYQSLRASLGKSDGAASLLWSGPYMPQCNMIGGWEPVQCHAGTGQC WCVDGRGEFIPGSLMSRSSQMPQCPTNCELSRASGLISAWKQAGPQRNPGPGDLFIPVCLQTGEYVRKQT SGTGTWCVDPASGEGMPVNTNGSAQCPGLCDVLKSRALSRKVGLGYSPVCEALDGAFSPVQCDLAQGSCW CVLGSGEEVPGTRVVGTQPACESPQCPLPFSGSDVADGVIFCETASSSGVTTVQQCQLLCRQGLRSAFSP GPLICSLESQHWVTLPPPRACQRPQLWQTMQTQAHFQLLLPPGKMCSVDYSGLLQAFQVFILDELIARGF CQIQVKTFGTLVSSTVCDNSSIQVGCLTAERLGVNVTWKLQLEDISVGSLPDLYSIERAVTGQDLLGRFA DLIQSGRFQLHLDSKTFSADTTLYFLNGDSFVTSPRTQLGCMEGFYRVPTTRQDALGCVKCPEGSFSQDG RCTPCPAGTYQEQAGSSACIPCPRGRTTITTGAFSKTHCVTDCQKNEAGLQCDQNGQYQASQKNRDSGEV FCVDSEGRKLQWLQTEAGLSESQCLMIRKFDKAPESKVIFDANSPVIVKSSVPSADSPLVQCLTDCANDE ACSFLTVSTMESEVSCDFYSWTRDNFACVTSDQEQDAMGSLKATSFGSLRCQVKVRNSGKDSLAVYVKKG YESTAAGQKSFEPTGFQNVLSGLYSPVVFSASGANLTDTHTYCLLACDNDSCCDGFIITQVKGGPTICGL LSSPDILLCHINDWRDTSATQANATCAGVTYDQGSRQMTLSLGGQEFLQGLALLEGTQDSFTSFQQVYLW KDSDMGSRPESMGCERGMVPRSDFPGDMATELFSPVDITQVIVNTSHSLPSQQYWLFTHLFSAEQANLWC LSRCAQEPIFCQLADITKSSSLYFTCFLYPEAQVCDNVMESNAKNCSQILPHQPTALFRRKVVLNDRVKN FYTRLPFQKLTGISIRDKVPMSGKLISNGFFECERLCDRDPCCTGFGFLNVSQLQGGEVTCLTLNSMGIQ TCNEESGATWRILDCGSEDTEVHTYPFGWYQKPAVWSDTPSFCPSAALQSLTEEKVTSDSWQTLALSSVI VDPSIKHFDVAHISTAATSNFSMAQDFCLQQCSRHQDCLVTTLQIQPGVVRCVFYPDIQNCIHSLRSHTC WLLLHEEATYIYRKSGIPLVQSDVTSTPSVRIDSFGQLQGGSQVIKVGTAWKQVYRFLGVPYAAPPLADN RFRAPEVLNWTGSWDATKPRASCWQPGTRTPTPPQINEDCLYLNVFVPENLVSNASVLVFFHNTMEMEGS GGQLTIDGSILAAVGNFIVVTANYRLGVFGFLSSGSDEVAGNWGLLDQVAALTWVQSHIGAFGGDPQRVT LAADRSGADVASIHLLISRPTRLQLFRKALLMGGSALSPAAIISPERAQQQAAALAKEVGCPTSSIQEVV SCLRQKPANILNDAQTKLLAVSGPFHYWGPVVDGQYLRELPSRRLKRPLPVKVDLLIGGSQDDGLINRAK AVKQFEESQGRTNSKTAFYQALQNSLGGEDSDARILAAAVWYYSLEHSTDDYASFSRALENATRDYFIIC PMVNMASLWARRTRGNVFMYHVPESYGHGSLELLADVQYAFGLPFYSAYQGQFSTEEQSLSLKVMQYFSN FIRSGNPNYPHEFSRKAAEFATPWPDFIPGAGGESYKELSAQLPNRQGLKQADCSFWSKYIQTLKDADGA KDAQLTKSEEEDLEVGPGLEEDLSGSLEPVPKSYSK TRTRPLE - GFP Tag - V |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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ACCN | NM_009375 |
ORF Size | 8298 bp |
OTI Disclaimer | 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. |
Reference Data | |
RefSeq | NM_009375.2, NP_033401.2 |
RefSeq Size | 8462 bp |
RefSeq ORF | 8301 bp |
Locus ID | 21819 |
UniProt ID | O08710 |
Gene Summary | Precursor of the iodinated thyroid hormones thyroxine (T4) and triiodothyronine (T3).[UniProtKB/Swiss-Prot Function] |
Documents
Product Manuals |
FAQs |
SDS |