Alms1 (NM_001106604) Rat Tagged ORF Clone
CAT#: RR209052
- TrueORF®
Alms1 (Myc-DDK-tagged ORF) - Rat Alstrom syndrome 1 homolog (human) (Alms1), (10 ug)
"NM_001106604" in other vectors (1)
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CNY 49,400.00
CNY 300.00
Specifications
Product Data | |
Type | Rat Tagged ORF Clone |
Tag | Myc-DDK |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RR209052 representing NM_001106604
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGAGCCGGAGGACCTGCCATGGCCTGACGAGCTGGAAGAGGAGGAAGAGGAGGAGGAAGAGGAAGGGA AGGAGGAGGCGGAGAATGCATCAGCGGCAGCGACCGAGGAGGCCCGGACCTCTGAGGAGACTGGGAGACT GGAAGAGGAAGAGTTGGAAGGGGCGGGTCCGGAGGTGGACTTGGATTTTAACAGCGAGTCCCAGCTGCAA GAGAGCACGGACGAAGAGGAGGACGAGCTGGCTAAAGCCTGGCTGCAGGCTCACCCTGACCGTCCTGGCC AAGGTTTCTCTCTGACCCCGCCTCCGACTCCGCCTCCGTCCTCCCGGCACCAGTACAGGCCGGTAGAGCA CTGGGGCAAGAGGGAGGTTATTCCACTGACTTACCGTGCATGGCAGCAGACATCATACCAAGATAATGCT AGAGCCCAGTTTTCCAACTCCAGTACATTGTTATTGGAGCCAGAATTTCAGTGGGACCCTGAGGAGGTTC AGAGAACAGAGTCTTGGCATCATCTTCCTCAAGAAAGGGATTCTTTCCAAACCTTGAATATATCCCAGAC TGGGATCGACAGAGTAGAAGGAGCAGAAGTAAAAGACTTGCCCTCTCAGGAGGGAGGTGAATCGGTTCAG GCACAGTGTCCAGTAAAGGAACCAAAGCTGGATCTCTTGTGTTCTCCATTGCTAGTGATACAGGATGACT TTGCTGCTCCTGATTTGCCCTTGCTGACATGTATGACCCAAGACCAGGAGTTTGAACCTGATTCCTTGTT TCAACAAAGTGAACTGGAATTTGCACCTTTGAGAGGGATTCCTGATAAGTCTGAAGATATTGAATGGCTT GCTCGACCGTCAGAAGTTAGTGAAGCTTTAATCCAGGCCACCTCAGAATCATCTTCAGACTTAGTTAACA GTTGCTTTAGTATATCTCAGCATCCACTCACAGAGGGCCTGCAGGGGAAGGCTAAATCTGATGTCCTTAT TCTGTTTGGTGATGCTAAATACGCCAGCATATATGAAAATGCTGGTGCACACAGTGAAAGAATTACCGAA TTGCAAAGAGAGGTAGACTGTTCTAATCTGAGCATTACCCAGGCTTTTCCATCTTCCTTGCCTTCATTTG TTCCTCAAGAACCGACCATTGAGTCAGAATATCATTCCTCCAATCTCAGAATGTTGAGAGTATCTCCCGA CACTCTGCTGACAACTCTTACACAGACAACAGGATCTGTTGACCAGAAGATTGGAGCAGCTGCAATCTCT TCTCCTTACTCACATGGAGTACAGCCTGGCAGCTTTCCCCAAGAAGAGTTGCCAGATAGGCATCTTACCG AAGAGATTCGGAAAGTGTCACCTGCTCCTAGGCCAGCTGGCCAGAAGCCTGAGATGCCAACAGTACCATC TAGTTCTTACTCTAAGGGAATAAAATCTGTTTTCTATCGATATCCGATGTCATACAGTCCTCAAGGCAAA GAGCCTCCAAATGTTTCATCTGTTTCTGGATCAGCTGAGAATGCCCTGCCCCTAACAGTAACCTCTGTTT CCCAGCCACAGAGAGAGACAGCTAAAGCTTTCTACCAGCAAACATTATCAGACAGTCTTCTAACTGCAGA AACATTGCCAGTTTCTGTTATTCCTGAATCAGGTGACCAGAAGACTCATTTGCTATCAGGGTTCTCTCTC TCATATTCTCACAGAGGAGAGGACCTGCCTGAAGATGTAGTGAAAGTTTCCACTGATTCTGGATCTGTTG ACAAGAAGGCTGACATTCCAACAGTGTCCTCTAGTACCTACCAGCACAAAACAAAACCTGGTATTATTTA CTACCAAGAGTTTCCAGACAGCCATGTGCCTATAGGGACTAGAAAGGTTGTATCTCAGTCAGGAGCAGCT GGCCAGAAGACTGATCTATCAGCAGTGCCCTCTACTTCCTCTTCACAGGCAGAGAAGCCTGTTCCCCCCT CCCTGCTAACTTTGCTAGGTAGTCATCTACCTGAAGATGTTTTCAAAGCTTCTTATGTTTGTAAGTCATC TGAAGAGCCATCTGGAATAACAGCTCTGACCTCTGTTTCCTACTCATATAAAGGGAGACCCAATATTTCT CATCAAGAGAAGTTTCCAGACAGTTACCTAATTGAAGAGGCCCAGAAAATCTTGGGTTCAACTGTAACAG TAGACCAGAAGACAGTGACAGCAAAAGAAAAGCCTAGTGTTTTCTACCAACAGGCCTTGCCAGAAGGTGG TCTATCTGCAGAGGATCTGCAAGTTGACCAGAACATTGCTATACCAATGGTAACTTCTGCTTCCTTCTCA CAAAGAGAAAAACCTCAGGTTTTCTACCAAGAGGCGCTCTCAGGTGGTCATTTGCCTGGAGAGCCTCCTG GACCGCCCGACCAGAACACTGAGGCACCAACAATATCGCCTAGTTCCTACTTCCCTGGAGAAGAGTCCAT TATTTTTTACCAAGCTGGCTTTCCAGGTAACACTCCATCTGTAGTGCCTTTCAAAGTTTCAAGGATTTCT GAATTAGCTGAACAGAAGACTAACATAACAACAGGACCATCAGGTTCCTACTCAGTTGGAGAGAAGTCCA TTATTTTCTACCATCAGGCCTTGCCAGATGGTCATCTTTCTAAAGAAGCTTCTCCTGCACCAGCTGACCT GAAGACTGGGGAGCCACCAGTATATTCGGCTTCCTGTTCTGTTGAGGTAAAGCCCATTATTTTCTACCAG CAGCCTCTGTCGGATAGTCCCCTAACTAAAGGTCACAACGTTTCAGTTGTTCCTGGACCAACTGACCAGA AGACTGGTATACCAGCAGTGCCTTCTACTTCACAGTCATATATAGAGAGGCGTTCTGTTTCTTACCAGCA AGAGTTTCCAAATGTTAGTGAAAAAGCTTTGAAAGTTCTAGGTGGTGTTAGATCCACTGAACAGAAAACT GAAATACCAGTAGTGTCTTCTGCTCTCTTACACACAGAGGTACCTACTATTTCTTCCCAAGAGGATTTGC CAAATCTTACTGAAGAAGCTTTGCAAATTTTAGGTGTTGCTGAAGAAGTTCCTTCTGTCCCTTCACGTGA TAAGACACGTCTCATCTCTTACCAGAAGAAGTTACCAGATGGTACTGAAGTATCTTTGAAATCAGTAGGC TTTGGCTCTACTGATCAGAAGACTGGGGCACACATAGTCTCCTCCTCAAGAAGAGAGAAGTCCAGTGGTT TTCATCAGCAGGAGTTGCCAAATACTTGTGGGGATGCATTAGGTACTTTTCATCCTGAACCAGTTGCCCA GAAGGTTGGAAAACCAACAGAACCTTCCAACATACAGGGAAAGGCCAGTGCTTTGTCTCCACAGCAGTTG CCGGCCAGCCATCTTACAGGAGAGGCTCTGAAGGTGTCAGACGGTTCTGCCTGTGTGGCACAGATGCCTG AGGCACCAGCAGGACCGTCCATTTTCTACTTCCATAAAGAAAGGTTCAGTAATTATCAAAAGGCCTCACC AGATTGTGATCTAACTGAAAATTCTTTGAAGTCTTCAACTGTTCCTGGATTGTCTGATCAGAAAAAGAGA CCTCCAGTCTCATCTGGTTCCTGTTCACACAAAGAGAAACACAAGATTTCGGCTGCAGATTTGCTGGATG CCCAGGCGGCTGAACTGCCAACAGTTATTCAGAGATCCTGCTTACATAGAGAAAAGCTGGCAATTTCAAC TGTGATCAAACCAGATGACCCAAAGATTCCATTACCAACAACTTGTCATGCCTCCTGTGCTCAAAAAGTA AAACCTGTTATTTTTGTTCAAAAACAGTTATCAGGTAGAGATCAAAGTGAAGATATTCCGAAGATTTCAA CTGTCTCTGAGCCAACTGTTGCAAACACAGGTGCACCAGTACTTCTGTCTAGTTCTTACCCATACAGAGA GAAGTCAGATTTCTCTTCCCCAAAGGAACTGCCAGATAGACATCCAGCTAAAGTTGACATGCAGGCTTCA AGCAGTCTTGGACAAGCTGACCAGATTTCTAGGTTACCTACAGTTCCTCCTGGTACTTATTCACACAGTG AAAAGTACCAGCTTATCTCAGAGCATGTACAAGAGCTGATTGATAATTTGAATTCTTCTGAGTCTTGTCT CAATGCAGACATTATGATGCCTTCAAATTCACAAATTGATGATGGAGTTATCATATGTAAGCCAGAATCT TCACGTTTTGCCAATGTTGGCTGTGAGGAAATCCAGGATATAGATCATGGTTCCAAAACTCTTAAAGAAA TTCAGACTCTCTTAATGGAAGCAGAAAATATGGCACTAAAACGATGCAATTTCTCTGTTCCCTTAGTTCC TTTCAGAGATGTTAGTGATGTTTCATTTGTACAATCAAAGAAGGTGGTTTGCTTCAAAGAAACCCCCACA TCTGATGTTTGTATCCAGAAGGACTCATTTGCAGAGGAAGTCCCACACACTAAGTATGTACAGAAGGACA TCGGTACACAGACGAACCTTAAGTACCAGAGGAATGTTAGAAATTGGGAATTTATTAGTTCAGCTACCTT TAGAAGTCCTCTACATGAAGCAAATGGCACAGCTCGAGTGGCATTTGATGAAAATTTCAGGCAATATAGA GCTACCAGGTCTGTAATGAGGTCTGAACCTGAAGACTGCAGCACAGGCATTGGGGATAAAATTATTATCC CTATGATGACAATCATAAAGAGTGACTCGAGTAGTGATGTAAGTGATGGTTGCTGCTCATGGGACAATAA TTTACCAGAGTCTTTGGAATCTGTTTCTGATGTTTTTCTAAACTTCTTTCCGTATACTTCACCCAAGACA AGCATAACAGATAGCCGAGAAGAGGAGGGCTTGTCAGAGAGTGAAGATGGCTATGGTAGTGCAGATTCAT TGGCTGCACATGTGAAGTACCTTCTGCAGTGTGAATCCTCACTGAATCAAGCCAAACAGATACTTAAGAA TGCAGAAGAGGAGGAATATCGAGTCCGAGCCCAAGCCTGGAATCTAAAGTTCAATTTAGGACGTGACTAT GGATACCCCGTTTCAGAGTTAAATGAAGATGACAGGAGGAAAGTAGAAGAGATAAAGGCAAAGTTGTTTG GTCATGGAAGAACAACTCACGTGTCTGAGGTCTTACAGAGTCCACGAGGAATAGGATGTTTGCCTGAAGC TGTATGTGGTCACATTATTATTGAGAGCCATGAGAAAGGATGTTACAGGACTCTTACTGCTGAACAACCA CGACCAGACAGCTGCCATTGTGTTTTTCGATCTGTTGATCCTTCAGACTTGATTAGAGGACATCGGAGCC CATCATCATGGAGAGGCAGGCACATCAACCTTTCCAGATCGATAGATCAGAGCAATCCCCATTTCAAAAT AGGGAATTCCTTTCAGTTACAGAGTCATCCCCCATTTGAAAAACTTGTACCTGATGACATCAAAATTAGC AAGGGTGTTGGAATGCCATTCCATGAACACATGGATCCCCAGCCATCAGAATTAATAGAACCTACTTGTG TGCCAGCTAAAGAAATGGATTTTTCTTCCTCTTCTGAAATACTGCCCTCTGAACCCAAGAAGCAGTTCAC CACTTCCATCACTTTTTCTTCTCACCAACACTCTAAGTGCATTTCTGATTCCTCTGGTTTTAAGGTTGAT GTTACTGCAGGTAGCCAGTGTACTGGGCCATCTTTAGGGGTGTTTAAGCCTCATATCCCTGAAGAGCAGA TTTCTCCTAGAGATCTTAAACAGAAAATCTCGTCCCCTTCATCACTTCAAAGGCATAGTTACACACCAGT GACTATTTTAGTTGACAGTAGTAGGCAAAGACAAAAATTACCTGTTGATTTTGAGCATTCTAATCAAAAA GGAAAACTCTTACAAAGATCAGCTTTTAATTTTAGCCATTCTGAACCCAGTGTCAGTACAAATGTTAGTT TCAAGGGAGTTCAATTTTCTGGTAACGATACCATCGTTAGGCAGGACAAATTAATTTCCACAGTTGAGGT AAAAGAGAAGAATGTAACTTTAACTCCTGATCTTCCTTCTTGCATTTTTCTTGAGCAAGGAGAAGAAAGC CACACCCCACACACAGATCTTCATATGAGGAAGTGCCCTTCTCCCTCTGGTCTAGACATTGCTTCTTGCA TTTTTCTTGAGCAGCACAAATTCTTTGAGCAAAGCCAAGGCCAGCATGTAGATGATCATGAAATGAGAGA AGACTACTCTCTCTTCCCTAAGTGCCAGGGTTACATAGCTGCAGACCCTTCTGACTTTCCTGATCAGCAG CAATGCAAACCTCCAGGTGTAGATGGCCACGTGAGAAAACAGCACTATCCTCTTTCTCCAGTTCAGGATT GTGAGGTAGAAGAGGTTCAGTGTATACCCCAATCATACTTTTCTAATATGGTAAATGTTGAAGCCAAGGT CAGTGATATGGTCTCCCCTGACGCCCCTGACCACTTTACAGCAGCATCTACTCCACCTTCAAGTAGAAAA GCACTTTCATGTGTTCGCATAACTCTTTGTCCCAAGACTCCTTCCAAGTTGGATAGTGGAACCTTAGACG AAAGGTTTCATTCATTGGATCCTGCTTCTAAAACAAGGATTAATAGTGAGTTTAACTCTGATCTTCGAAT TATATCTTCAAGGTCATTGGAACCAACCTCCAAATTACTGACCTGTAAACCAGTAGCACAGGATCAAGAA TCTTTAGTTTTTCTAGGACCTAAATCTCCACTGGACTTGCAAGTCGCAGAGTCTTCTCTTCCAGATAGTA AGACTATTTCTCAGGACTTGAAAACCACACCTCCTCAGAATAGCCAGATAGTAACCTCAAGGCAAACACA AGTGAACATTTCAGATTTGGAAGAATATTCCAAACCAGAGGGGACTCCAGTACCTGCAGATGGTTCACAA GAACAGAATAAGGCTCCCTTTACTACATCCTCTGGAATGTTATCATCTGATGCAGTCACTCAGGTAACAA CAGAAAGTCCAGAAAAGATGACATTTTCATCTGAAATTTTTATTAATGCTGATGATCGTGGACAGGACAT TCCATACCCCACGACCCAAAATCCATCCAGGTTTGCCTCCTCTTCCTCAGGGCAGCAAATCACAGCTTCT CAGGGCAAAGACGCCCAGCCTGTGTTGTTGCCATATAAGCCATCTGGTAGTTCGAAGATGTACTATGTTC CACTGTTAAAACCAGTTCCGTCATATCTGGATTCCAAATCAGATACTACTGTTGAGAGCTCACATTCAGG CTCCAATGATGCTATTGCCCCAGACTTTCCACCTCAAGTGCTAGGCACAAGAGATGATGACCTCTCCACC ACTGTAAACATTAAGCACAAAGAAGGGATCTATAGCAAGAGGGCTGCATCAAAGGGGAAACAACCCTCTC AGAAAGGTAATGCAGAGGCCCCAGTTCAAATGCCTGTAACTTGGGATAAGAATGTCTATAAGGAAAACCA AGACGAGATCATCAGTAGAAGAGTTGTGATCGAGACGGCAGGACCTGAAGAAATGCCATCCCAGGAGAAG GACCTTGCAGGATCCAGTGATATCACTGTGCAAGACAGAAAAACTGGAAATCTGCCAGACGCTAAATCCA TTAAACAGAAGGAAGGATCCTTAGAGATAGAGCCTGAGTGTCACTCCGAGTTTGCAAACACCACTCACTC TGTCTTCAGGTCAGCCAGCTTTTACTTCCACCACCCAGTGCACCTGCCCCAAGAGCAGGATCTCTGCCGC GAGTCTTCGGGAAGGAATGTTCTCACGCAGCATCCTTGGAAGGATCTCTTTCACTGTCATTCAGGGCACA GCGGCCTCCCGCCCCCTGGCCCAAGGTCAGACAACACTGAGATGGAGTGCACCAGAGTTAAGAGCCTCAG CATGGATTTGAATTTGGGGGGCCATGAGAAGATACATACTATCAAGAATCAGGCCAGAGACACAAAAGAA GACAAAAGACCGGCAAATGACCCAAAAAAGGATCAGAAGGTCACCCCAGAGCTAACAAGTCAGTGCCCCA TGAGTTTGAATGAACTCTGGAACAAGTACCAGGAGCGACAGAAGCAGCAGAAACCATCTGGCGCTTGTGA TAACAAAGAGCTCTCCTTGGTGGAACGGCTTGATCGTTTGGCTAAACTGCTTCAGAATCCCATCACACAT TCACTCCAGGCCTCAGAAAGTACTCAAGATGACCGCAGATGGGGACGTGGAGCCAGGGGGTGGACTGGGA GGAGGCAACATCAACAGAAAGGCAAGCAGCAGAGGAAGTGGAGTAAGAGCCTAGAGAGGGGTCACAGTAC AGGTGACTTTAGGAAAAGCAAAGTGCTTTCTCCTCATGAAGGTGGGAAATCCAGTCAGCGTAATATTGAG AAGATTAAACTAGATAAGTACATCCTGAGAAAGCAGCCAGATTTTAATAATGTCAGCAATACCTCCTTGG ATTCTAGACCCTCAGAGGAAAGTGAGCTCCTCCTCACAGATAGTCCCAACCTTTTTTCCAGCACTGAGTC TCCTGTGGAGTCAGATGTATTGACCCACACTGGTAGGGACATGCCTTTAAATGAGAGGAGTAGCTCCATT TCTACCGTTGACACAGCCCGGCTGATCCAAGCCTTTGGCCACGATAGACTGTATTTGTCACCCAGGCAAA TTAAATTATACAGTAGTGTCACTAATCAACGGAGGAAACATCTGGAGAAGCCATGCAAGCACAAGAGGAA AGCATTGAACACAGCCTGCCCCCAAATGACTTCTGAGCACACCAGAAGGAGGCACGTCCAGGTGGCAAAC CGTATAATGTCTTCTGACTCTGTTTCATCTGCTGGTAGTTGTTTGAGCTTGGACTCTACTCTGTCCAATG AGGAAAATGTGCACATGTTGAATAAGGGTGTACAAGCTGGTAACTTGGAGATTGTGACTGGTGCCAAAAA ATACACTCAGGATGTTGGGGTGACTTTCCCAACGCCCAGTTCTAGTGAGGCCAGATTGGAAGAGGATAGT GATATGACTTCTTGGTCAGAAGAAAAAGCCAAAGAGAAAAAGTTCCTTTCCAACTATCTGCGGGGCAAAA ACTTAAGGAAAAACAAGCCAAATCCCTGTGAAGGAGTCTCATGGTTTGTTCCTGTGGAAAACAGAAAGTC TGAATCTAAGAAGGAAAACCTGCCCAAGATTTACAGACCTGCTATCTCCTGGTTTGAACCAGTAACCCAA ACCAAACCCTGGAGGGAGCCACTGAGGGAACAAAACTGGCAGGCACAATGCATGAACAGTCGTGGGTCCC TGGGAGGCCCAGGCAGGGATAGTGGCCAGAGTTTTCTTCAGCCATTTGTGAGAGCAACCCTGCAGGAATC ACTTCAGCTTCACAGACCTGATTTCATCTCCCGCTCTGGGGAGCGGATAAAACGTCTGAAGCTACTAGTC CAGGAGAGGAAGCTACAGAACCTGTTCCAGAATGAGCGAGAAGCTCTGTTCAACACTGCGAGGCCCCTGC CCAGGAGAGTTCTCTTGGCAGTCCAGAAGAACAAGCCTATTGGGAAGACGGAAATGATTCGGAGGACCAG ACGGTTTTATGAGCAGCTTCCAGAAGTGAAGAAGAAGAGAGAAGAGGAGAAGAGAAAATCAGAATATACA TCCTACCGGCTACGAGCTCAGCACTATAAAATGAAAGTGACCAATCATCTCCTGGGGAGAAAAGTGCCTT GGGAC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RR209052 representing NM_001106604
Red=Cloning site Green=Tags(s) MEPEDLPWPDELEEEEEEEEEEGKEEAENASAAATEEARTSEETGRLEEEELEGAGPEVDLDFNSESQLQ ESTDEEEDELAKAWLQAHPDRPGQGFSLTPPPTPPPSSRHQYRPVEHWGKREVIPLTYRAWQQTSYQDNA RAQFSNSSTLLLEPEFQWDPEEVQRTESWHHLPQERDSFQTLNISQTGIDRVEGAEVKDLPSQEGGESVQ AQCPVKEPKLDLLCSPLLVIQDDFAAPDLPLLTCMTQDQEFEPDSLFQQSELEFAPLRGIPDKSEDIEWL ARPSEVSEALIQATSESSSDLVNSCFSISQHPLTEGLQGKAKSDVLILFGDAKYASIYENAGAHSERITE LQREVDCSNLSITQAFPSSLPSFVPQEPTIESEYHSSNLRMLRVSPDTLLTTLTQTTGSVDQKIGAAAIS SPYSHGVQPGSFPQEELPDRHLTEEIRKVSPAPRPAGQKPEMPTVPSSSYSKGIKSVFYRYPMSYSPQGK EPPNVSSVSGSAENALPLTVTSVSQPQRETAKAFYQQTLSDSLLTAETLPVSVIPESGDQKTHLLSGFSL SYSHRGEDLPEDVVKVSTDSGSVDKKADIPTVSSSTYQHKTKPGIIYYQEFPDSHVPIGTRKVVSQSGAA GQKTDLSAVPSTSSSQAEKPVPPSLLTLLGSHLPEDVFKASYVCKSSEEPSGITALTSVSYSYKGRPNIS HQEKFPDSYLIEEAQKILGSTVTVDQKTVTAKEKPSVFYQQALPEGGLSAEDLQVDQNIAIPMVTSASFS QREKPQVFYQEALSGGHLPGEPPGPPDQNTEAPTISPSSYFPGEESIIFYQAGFPGNTPSVVPFKVSRIS ELAEQKTNITTGPSGSYSVGEKSIIFYHQALPDGHLSKEASPAPADLKTGEPPVYSASCSVEVKPIIFYQ QPLSDSPLTKGHNVSVVPGPTDQKTGIPAVPSTSQSYIERRSVSYQQEFPNVSEKALKVLGGVRSTEQKT EIPVVSSALLHTEVPTISSQEDLPNLTEEALQILGVAEEVPSVPSRDKTRLISYQKKLPDGTEVSLKSVG FGSTDQKTGAHIVSSSRREKSSGFHQQELPNTCGDALGTFHPEPVAQKVGKPTEPSNIQGKASALSPQQL PASHLTGEALKVSDGSACVAQMPEAPAGPSIFYFHKERFSNYQKASPDCDLTENSLKSSTVPGLSDQKKR PPVSSGSCSHKEKHKISAADLLDAQAAELPTVIQRSCLHREKLAISTVIKPDDPKIPLPTTCHASCAQKV KPVIFVQKQLSGRDQSEDIPKISTVSEPTVANTGAPVLLSSSYPYREKSDFSSPKELPDRHPAKVDMQAS SSLGQADQISRLPTVPPGTYSHSEKYQLISEHVQELIDNLNSSESCLNADIMMPSNSQIDDGVIICKPES SRFANVGCEEIQDIDHGSKTLKEIQTLLMEAENMALKRCNFSVPLVPFRDVSDVSFVQSKKVVCFKETPT SDVCIQKDSFAEEVPHTKYVQKDIGTQTNLKYQRNVRNWEFISSATFRSPLHEANGTARVAFDENFRQYR ATRSVMRSEPEDCSTGIGDKIIIPMMTIIKSDSSSDVSDGCCSWDNNLPESLESVSDVFLNFFPYTSPKT SITDSREEEGLSESEDGYGSADSLAAHVKYLLQCESSLNQAKQILKNAEEEEYRVRAQAWNLKFNLGRDY GYPVSELNEDDRRKVEEIKAKLFGHGRTTHVSEVLQSPRGIGCLPEAVCGHIIIESHEKGCYRTLTAEQP RPDSCHCVFRSVDPSDLIRGHRSPSSWRGRHINLSRSIDQSNPHFKIGNSFQLQSHPPFEKLVPDDIKIS KGVGMPFHEHMDPQPSELIEPTCVPAKEMDFSSSSEILPSEPKKQFTTSITFSSHQHSKCISDSSGFKVD VTAGSQCTGPSLGVFKPHIPEEQISPRDLKQKISSPSSLQRHSYTPVTILVDSSRQRQKLPVDFEHSNQK GKLLQRSAFNFSHSEPSVSTNVSFKGVQFSGNDTIVRQDKLISTVEVKEKNVTLTPDLPSCIFLEQGEES HTPHTDLHMRKCPSPSGLDIASCIFLEQHKFFEQSQGQHVDDHEMREDYSLFPKCQGYIAADPSDFPDQQ QCKPPGVDGHVRKQHYPLSPVQDCEVEEVQCIPQSYFSNMVNVEAKVSDMVSPDAPDHFTAASTPPSSRK ALSCVRITLCPKTPSKLDSGTLDERFHSLDPASKTRINSEFNSDLRIISSRSLEPTSKLLTCKPVAQDQE SLVFLGPKSPLDLQVAESSLPDSKTISQDLKTTPPQNSQIVTSRQTQVNISDLEEYSKPEGTPVPADGSQ EQNKAPFTTSSGMLSSDAVTQVTTESPEKMTFSSEIFINADDRGQDIPYPTTQNPSRFASSSSGQQITAS QGKDAQPVLLPYKPSGSSKMYYVPLLKPVPSYLDSKSDTTVESSHSGSNDAIAPDFPPQVLGTRDDDLST TVNIKHKEGIYSKRAASKGKQPSQKGNAEAPVQMPVTWDKNVYKENQDEIISRRVVIETAGPEEMPSQEK DLAGSSDITVQDRKTGNLPDAKSIKQKEGSLEIEPECHSEFANTTHSVFRSASFYFHHPVHLPQEQDLCR ESSGRNVLTQHPWKDLFHCHSGHSGLPPPGPRSDNTEMECTRVKSLSMDLNLGGHEKIHTIKNQARDTKE DKRPANDPKKDQKVTPELTSQCPMSLNELWNKYQERQKQQKPSGACDNKELSLVERLDRLAKLLQNPITH SLQASESTQDDRRWGRGARGWTGRRQHQQKGKQQRKWSKSLERGHSTGDFRKSKVLSPHEGGKSSQRNIE KIKLDKYILRKQPDFNNVSNTSLDSRPSEESELLLTDSPNLFSSTESPVESDVLTHTGRDMPLNERSSSI STVDTARLIQAFGHDRLYLSPRQIKLYSSVTNQRRKHLEKPCKHKRKALNTACPQMTSEHTRRRHVQVAN RIMSSDSVSSAGSCLSLDSTLSNEENVHMLNKGVQAGNLEIVTGAKKYTQDVGVTFPTPSSSEARLEEDS DMTSWSEEKAKEKKFLSNYLRGKNLRKNKPNPCEGVSWFVPVENRKSESKKENLPKIYRPAISWFEPVTQ TKPWREPLREQNWQAQCMNSRGSLGGPGRDSGQSFLQPFVRATLQESLQLHRPDFISRSGERIKRLKLLV QERKLQNLFQNEREALFNTARPLPRRVLLAVQKNKPIGKTEMIRRTRRFYEQLPEVKKKREEEKRKSEYT SYRLRAQHYKMKVTNHLLGRKVPWD TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001106604 |
ORF Size | 9735 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. |
Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
Reference Data | |
RefSeq | NM_001106604.2, NP_001100074.2 |
RefSeq Size | 9965 bp |
RefSeq ORF | 9738 bp |
Locus ID | 297408 |
MW | 360 kDa |
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SDS |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RN209052 | Alms1 (untagged ORF) - Rat Alstrom syndrome 1 homolog (human) (Alms1), (10 ug) |
CNY 49,400.00 |