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ALMS1 (NM_015120) Human Untagged Clone
CAT#: SC304236
ALMS1 (untagged)-Human Alstrom syndrome 1 (ALMS1)
CNY 80,370.00
货期*
5周
规格
Product images
经常一起买 (4)
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | ALSS |
| Vector | pCMV6 series |
| Sequence Data |
>NCBI ORF sequence for NM_015120, the custom clone sequence may differ by one or more nucleotides
ATGGAGCCCGAGGATCTGCCATGGCCGGGCGAGCTGGAGGAGGAGGAGGAGGAGGAGGAG GAGGAGGAGGAGGAGGAAGAGGAGGAGGCTGCAGCGGCGGCGGCGGCGAACGTGGACGAC GTAGTGGTCGTGGAGGAGGTGGAGGAAGAGGCGGGGCGGGAGTTGGACTCCGACTCTCAC TACGGGCCCCAGCATCTGGAAAGTATAGACGACGAGGAGGACGAGGAGGCCAAGGCCTGG CTGCAGGCGCACCCCGGCAGGATTTTGCCTCCGCTGTCGCCCCCGCAGCACCGCTACTCG GAGGGCGAGCGGACCTCCCTGGAGAAGATTGTTCCATTGACCTGTCATGTATGGCAACAG ATAGTATATCAAGGCAATAGTAGAACACAAATTTCTGATACTAATGTGGTCTGTTTGGAA ACAACAGCTCAGCGGGGTTCTGGGGATGATCAGAAAACAGAATCTTGGCATTGTCTTCCT CAAGAAATGGACTCTTCCCAAACCTTGGATACATCCCAGACTAGGTTTAATGTGAGAACG GAAGATACTGAAGTGACAGACTTCCCCTCTCTGGAGGAGGGCATATTGACGCAATCAGAA AATCAAGTAAAGGAACCCAACAGAGATCTCTTCTGTTCTCCACTGCTAGTCATACAAGAT AGCTTTGCTTCTCCTGATTTGCCTTTGCTGACCTGTTTGACACAAGACCAAGAATTTGCG CCTGATTCTTTATTTCATCAAAGTGAACTAAGTTTTGCACCTCTGAGGGGAATTCCTGAT AAGTCTGAAGATACTGAATGGTCTTCTCGACCATCGGAAGTTAGTGAAGCTTTATTCCAG GCTACTGCAGAAGTAGCTTCAGACTTAGCAAGCAGTCGCTTTAGTGTATCTCAGCACCCG CTTATAGGCAGCACAGCTGTTGGGTCTCAGTGCCCTTTTTTACCTTCTGAACAAGGGAAT AATGAAGAGACTATTTCGTCTGTTGATGAACTGAAAATTCCCAAAGACTGTGATCGTTAT GATGATCTTTGTTCATATATGTCATGGAAGACACGAAAAGATACACAGTGGCCTGAAAAC AATTTAGCTGATAAAGATCAAGTTTCAGTTGCAACTTCATTTGACATAACTGATGAAAAC ATAGCTACTAAAAGAAGTGACCATTTTGATGCTGCTCGTTCATATGGGCAGTATTGGACA CAGGAAGATTCATCTAAGCAGGCAGAAACATATTTAACCAAGGGCCTGCAGGGGAAGGTT GAGTCTGACGTCATTACTCTGGATGGCCTAAATGAAAATGCTGTTGTATGCAGTGAAAGA GTTGCTGAACTACAAAGAAAGCCAACAAGAGAGTCGGAATATCACTCTTCAGATCTCAGA ATGTTGAGGATGTCTCCTGACACTGTGCCAAAGGCTCCTAAACATTTAAAAGCAGGAGAC ACTTCTAAAGGAGGCATAGCTAAAGTTACTCAATCCAACTTGAAGTCAGGCATCACTACC ACTCCTGTTGATTCAGACATTGGATCTCATTTATCCTTGTCCCTTGAGGACCTGTCTCAG TTGGCTGTAAGTTCTCCTCTAGAAACTACTACTGGTCAACACACTGATACTCTCAACCAA AAGACATTAGCAGATACTCATCTAACTGAAGAGACTCTGAAAGTCACAGCTATTCCTGAA CCAGCTGACCAGAAGACTGCAACACCAACAGTACTCTCTAGTTCCCACTCACATAGGGGG AAGCCCAGCATTTTCTACCAGCAGGGCTTGCCAGACAGTCATCTAACTGAAGAGGCTTTG AAAGTTTCAGCTGCTCCTGGACTAGCTGACCAGACAACTGGCATGTCAACTCTAACCTCT ACTTCCTACTCACATAGAGAGAAGCCTGGTACTTTTTACCAACAAGAGTTACCAGAGAGT AACTTAACCGAAGAGCCTTTGGAAGTTTCAGCTGCTCCTGGCCCAGTGGAGCAGAAGACG GGAATACCTACAGTATCCTCTACATCCCACTCACATGTAGAGGACCTCCTCTTTTTCTAT CGACAGACCTTGCCAGATGGTCATCTAACTGATCAGGCTCTGAAAGTCTCAGCTGTGTCT GGACCAGCTGACCAGAAGACTGGGACAGCAACAGTACTCTCTACTCCCCACTCACATAGA GAGAAGCCTGGTATTTTTTACCAACAAGAGTTCGCAGACAGTCATCAAACTGAAGAGACT CTTACTAAAGTTTCAGCCACTCCTGGACCAGCTGACCAGAAGACTGAGATACCAGCAGTA CAGTCTAGTTCTTACTCACAAAGAGAAAAGCCTAGTATTTTGTACCCACAGGACTTAGCA GACAGTCATCTACCTGAAGAGGGTCTGAAAGTTTCAGCTGTTGCTGGACCAGCTGACCAG AAGACTGGCCTACCAACAGTACCCTCTAGTGCATACTCACACAGAGAGAAGCTCCTTGTT TTCTACCAACAGGCCTTGCTGGACAGCCATCTACCCGAAGAGGCTCTGAAAGTTTCAGCT GTTTCTGGACCAGCTGACGGAAAGACTGGGACACCAGCTGTAACCTCTACTTCCTCTGCG TCCTCTTCACTTGGAGAAAAGCCCAGTGCTTTCTATCAGCAGACCTTACCCAATAGTCAT CTAACTGAAGAGGCTCTGAAAGTATCAATTGTTCCTGGACCAGGTGATCAGAAGACTGGG ATACCCTCAGCACCATCTAGTTTCTACTCACACAGAGAGAAGCCCATTATTTTTTCCCAG CAGACCCTGCCAGACTTTCTTTTCCCTGAAGAAGCTCTGAAGGTTTCAGCTGTTTCTGTA TTGGCTGCCCAGAAGACTGGGACACCAACAGTGTCCTCTAATTCTCACTCACATAGCGAG AAATCTAGTGTTTTCTACCAGCAAGAGTTGCCAGACAGTGATCTACCTAGAGAATCTCTG AAAATGTCTGCTATTCCTGGACTGACTGACCAGAAGACTGTCCCAACACCAACAGTACCT TCAGGTTCCTTCTCACATAGAGAGAAGCCCAGTATTTTCTATCAACAGGAGTGGCCAGAT AGTTATGCAACTGAAAAGGCTCTGAAAGTTTCAACTGGCCCTGGACCAGCTGACCAGAAG ACTGAGATACCAGCAGTACAGTCTAGTTCTTACCCACAGAGGGAGAAGCCTAGTGTTTTG TACCCACAGGTGTTATCAGACAGTCATCTACCTGAAGAGAGTCTGAAAGTTTCAGCCTTC CCTGGACCAGCTGACCAGATGACTGACACACCAGCAGTACCGTCTACTTTCTACTCACAA AGAGAGAAGCCTGGTATTTTCTACCAACAGACCTTGCCAGAGAGTCATCTGCCTAAAGAG GCTCTGAAAATTTCAGTAGCTCCTGGACTAGCAGACCAGAAGACTGGCACACCAACTGTA ACCTCAACTTCCTACTCACAACATAGAGAAAAGCCCAGCATTTTCCACCAGCAGGCCTTG CCAGGTACTCATATACCTGAAGAGGCTCAGAAAGTTTCAGCTGTTACTGGACCAGGTAAC CAGAAGACTTGGATACCAAGAGTACTTTCTACCTTCTACTCACAAAGAGAGAAACCTGGT ATTTTCTATCAACAGACCTTGCCAGGTAGTCACATACCTGAAGAGGCACAGAAAGTTTCA CCTGTTCTTGGACCAGCTGACCAGAAGACTGGGACACCAACTCCAACCTCTGCTTCTTAC TCACACACAGAGAAGCCTGGTATTTTCTACCAACAGGTCTTGCCAGATAATCATCCAACT GAAGAGGCTCTGAAAATTTCAGTTGCCTCTGAACCAGTTGACCAGACAACTGGCACACCA GCTGTAACCTCTACTTCCTACTCACAATATAGAGAGAAGCCCAGCATTTTCTACCAACAG TCGTTGCCAAGTAGTCATCTAACTGAAGAGGCTAAGAATGTTTCAGCGGTTCCTGGACCA GCTGACCAGAAGACTGTGATACCAATTTTACCCTCTACTTTCTACTCACACACAGAGAAG CCTGGTGTTTTCTACCAACAGGTCTTGCCACATAGTCATCCAACTGAAGAGGCTCTGAAA ATTTCAGTTGCCTCTGAACCAGTTGACCAGACAACTGGCACACCAACTGTAACCTCTACT TCTTACTCACAACATACAGAGAAGCCGAGTATTTTCTACCAACAGTCGTTGCCAGGTAGT CATCTAACTGAAGAGGCTAAGAACGTTTCAGCGGTTCCTGGACCAGGTGACCGGAAGACT GGGATACCAACTTTACCCTCTACTTTCTACTCACACACAGAGAAGCCTGGTAGTTTCTAC CAACAGGTCTTGCCACATAGTCATCTACCTGAAGAGGCTTTGGAAGTTTCAGTTGCTCCT GGACCAGTTGACCAGACGATTGGCACACCAACTGTAACCTCCCCTTCCAGCTCATTTGGA GAGAAGCCCATTGTTATCTACAAACAGGCCTTTCCAGAGGGTCATCTACCTGAAGAGTCT CTGAAAGTTTCAGTTGCTCCTGGACCAGTTGGCCAGACAACTGGCGCACCAACTATAACC TCTCCTTCCTACTCACAACATAGAGCAAAGTCTGGCAGTTTCTACCAACTGGCATTGCTA GGTAGTCAAATACCTGAAGAGGCTCTCAGAGTTTCTTCTGCTCCTGGACCAGCTGACCAG ACAACTGGCATACCAACCATAACCTCTACTTCCTACTCATTTGGAGAGAAGCCGATTGTT AACTACAAACAGGCCTTTCCAGATGGTCATCTACCTGAAGAGGCTCTGAAAGTTTCCATT GTTTCTGGACCTACTGAAAAAAAGACTGACATACCAGCAGGACCTTTAGGTTCCAGTGCA CTTGGAGAGAAGCCCATTACTTTCTACCGGCAGGCTCTGCTAGACAGTCCTCTAAATAAA GAGGTTGTGAAAGTTTCAGCTGCTCCTGGACCAGCTGACCAGAAGACTGAGACATTACCA GTACATTCTACTAGCTACTCAAATAGGGGGAAGCCTGTCATTTTCTACCAGCAGACCCTA TCAGACAGTCATTTACCTGAAGAAGCTCTGAAAGTTCCACCTGTTCCTGGACCAGATGCC CAGAAGACTGAGACACCATCAGTATCCTCTAGTTTATACTCATATAGAGAGAAGCCCATT GTCTTCTACCAACAGGCCCTGCCAGACAGTGAGCTAACTCAAGAAGCTCTGAAAGTTTCA GCTGTTCCTCAACCAGCTGACCAGAAGACTGGGTTATCTACTGTAACTTCCTCTTTCTAT TCACATACAGAGAAGCCTAATATTTCTTACCAGCAAGAGTTGCCAGATAGTCATCTAACT GAAGAGGCTCTGAAAGTTTCAAATGTTCCTGGACCAGCTGACCAGAAGACTGGGGTATCA ACAGTAACCTCTACTTCCTACTCACACAGAGAGAAGCCCATTGTTTCCTACCAGCGAGAG TTGCCGCATTTTACTGAAGCAGGTTTGAAAATTTTAAGAGTTCCTGGACCAGCTGACCAG AAGACTGGAATAAACATCCTGCCCTCTAATTCCTACCCACAGAGAGAGCACTCTGTCATT TCTTATGAGCAGGAGTTGCCAGATCTTACTGAAGTAACTTTGAAAGCAATAGGGGTTCCT GGGCCTGCTGACCAGAAGACTGGGATACAAATAGCATCCTCTAGTTCCTACTCAAATAGA GAGAAGGCCAGTATTTTTCATCAGCAGGAGTTGCCAGATGTTACTGAAGAAGCTTTAAAT GTTTTTGTTGTTCCTGGACAAGGTGACCGGAAGACTGAGATACCAACAGTACCTTTAAGT TACTACTCACGTAGAGAGAAGCCCAGTGTTATCTCTCAACAGGAGTTGCCAGACAGTCAT CTCACAGAAGAGGCTCTGAAAGTTTCACCTGTTTCTATACCAGCAGAGCAGAAGACTGGG ATACCAATAGGACTGTCTAGTTCCTACTCACATTCACATAAAGAGAAACTCAAGATTTCA ACTGTGCATATACCAGATGACCAGAAAACTGAGTTTCCAGCAGCTACCCTTAGTTCCTAC TCACAAATAGAGAAGCCCAAGATTTCAACTGTGATTGGACCAAATGACCAGAAGACTCCA TCCCAGACAGCTTTTCATAGTTCCTATTCTCAAACAGTAAAGCCCAATATTTTATTTCAA CAGCAGTTGCCAGATAGAGATCAAAGTAAAGGTATTCTAAAGATTTCAGCTGTCCCTGAA CTAACTGATGTGAATACTGGAAAACCAGTATCTCTCTCTAGTTCTTATTTTCACAGAGAG AAATCGAATATTTTCAGTCCACAGGAATTGCCAGGTAGTCATGTAACTGAAGATGTGCTG AAGGTTTCAACAATTCCTGGACCAGCTGGCCAGAAAACAGTATTACCAACAGCTCTTCCT AGTTCCTTTTCACATCGAGAGAAACCAGATATTTTCTATCAAAAGGATTTGCCAGATAGA CATCTAACTGAAGATGCTCTAAAGATCTCAAGTGCTCTTGGGCAAGCTGATCAAATTACC GGATTACAAACAGTTCCCTCTGGTACTTACTCACATGGTGAGAATCACAAGCTTGTTTCA GAACATGTCCAAAGGCTAATAGATAATTTGAATTCTTCTGACTCCAGTGTTAGCTCAAAT AATGTGCTTTTAAATTCTCAGGCTGATGACAGAGTTGTAATAAATAAACCAGAATCTGCA GGTTTTAGAGATGTTGGCTCTGAAGAAATCCAGGATGCAGAAAATAGTGCTAAAACTCTT AAGGAAATTCGGACACTTTTGATGGAGGCAGAAAATATGGCACTGAAACGATGCAATTTT CCTGCTCCCCTTGCCCGTTTCAGAGATATTAGTGATATTTCATTTATACAATCTAAGAAG GTGGTTTGCTTCAAAGAACCCTCTTCCACGGGTGTATCTAATGGTGATTTGCTTCACAGA CAGCCATTCACAGAGGAAAGCCCAAGCAGCAGGTGCATACAGAAGGATATTGGCACACAG ACGAATTTGAAATGCCGGAGAGGCATTGAAAATTGGGAGTTTATTAGTTCAACTACAGTT AGAAGTCCTCTACAGGAAGCAGAGAGCAAAGTCAGTATGGCATTAGAAGAAACTCTTAGG CAATATCAAGCAGCCAAATCTGTAATGAGGTCTGAACCTGAAGGGTGTAGTGGAACCATT GGGAATAAAATTATTATCCCTATGATGACTGTCATAAAAAGTGATTCAAGTAGTGATGCC AGTGATGGAAATGGTTCCTGCTCGTGGGACAGTAATTTACCAGAGTCTTTGGAATCAGTT TCTGATGTTCTTCTAAACTTCTTTCCATATGTTTCACCCAAGACAAGTATAACAGATAGC AGGGAGGAAGAGGGTGTGTCAGAGAGTGAGGATGGTGGTGGTAGCAGTGTAGATTCACTG GCTGCACATGTGAAAAACCTTCTGCAATGTGAATCCTCACTGAATCATGCTAAAGAAATA CTCAGAAATGCAGAGGAAGAGGAAAGCCGGGTACGAGCACATGCCTGGAATATGAAGTTC AATTTAGCACATGATTGTGGATACTCCATTTCAGAATTAAATGAAGATGACAGGAGGAAA GTAGAAGAGATCAAGGCAGAGTTATTTGGTCATGGAAGAACAACTGACTTGTCCAAGGGT TTACAGAGTCCACGGGGAATGGGATGCAAGCCAGAAGCTGTATGTAGTCACATTATTATT GAGAGCCATGAAAAGGGATGTTTCCGGACTCTAACTTCTGAACATCCACAACTAGATAGA CACCCTTGTGCTTTCAGATCTGCTGGACCCTCAGAAATGACCAGAGGACGGCAGAACCCA TCATCATGCAGAGCCAAGCATGTCAACCTTTCTGCATCCTTAGACCAGAACAACTCCCAT TTCAAAGTTTGGAATTCCTTGCAGTTAAAAAGTCATTCCCCATTTCAGAACTTTATACCT GATGAATTCAAAATCAGCAAAGGTCTTCGAATGCCATTCGATGAAAAGATGGACCCTTGG CTGTCAGAATTAGTAGAACCTGCTTTTGTGCCACCTAAAGAAGTGGATTTTCATTCTTCA TCACAAATGCCGTCCCCAGAACCCATGAAAAAGTTTACTACCTCCATCACTTTTTCATCT CACCGACATTCTAAATGCATTTCCAATTCCTCTGTTGTTAAGGTTGGTGTTACTGAAGGT AGCCAGTGTACTGGAGCATCTGTGGGGGTATTTAATTCTCATTTCACTGAAGAACAAAAT CCTCCCAGAGATCTTAAACAGAAAACCTCTTCCCCTTCATCATTTAAAATGCATAGTAAT TCACAAGATAAAGAAGTGACTATTTTAGCAGAAGGTAGAAGGCAAAGCCAAAAATTACCT GTTGATTTTGAGCGTTCTTTTCAAGAAGAAAAACCCTTAGAAAGATCAGATTTTACAGGC AGTCATTCTGAGCCCAGTACCAGGGCAAATTGTAGCAATTTCAAGGAAATTCAGATTTCT GATAACCATACCCTTATTAGCATGGGCAGACCAAGTTCCACCCTAGGAGTAAACAGATCG AGTTCCAGACTAGGAGTAAAAGAGAAGAATGTAACTATAACTCCAGATCTTCCTTCTTGC ATTTTTCTTGAACAACGAGAGCTCTTTGAACAAAGCAAAGCCCCACGTGCAGATGACCAT GTGAGGAAACACCATTCTCCCTCTCCTCAACATCAGGATTATGTAGCTCCAGACCTTCCT TCTTGCATTTTTCTTGAACAACGAGAACTCTTTGAACAGTGCAAAGCCCCATATGTAGAT CATCAAATGAGAGAAAACCATTCTCCCCTTCCTCAAGGTCAGGATTCTATAGCTTCAGAC CTTCCGTCTCCCATTTCTCTTGAACAATGCCAAAGCAAAGCGCCAGGTGTAGATGACCAA ATGAATAAACACCATTTTCCCCTTCCTCAAGGTCAGGATTGTGTAGTGGAAAAGAATAAT CAACATAAGCCTAAATCACACATTTCTAATATAAATGTTGAAGCCAAGTTCAATACTGTG GTCTCCCAGTCAGCCCCAAATCACTGTACATTAGCAGCATCTGCATCTACTCCTCCTTCA AATAGAAAAGCACTTTCTTGTGTTCATATAACTCTTTGTCCCAAGACTTCTTCCAAGTTG GATAGTGGAACTTTAGATGAAAGATTCCATTCATTGGATGCTGCTTCTAAAGCGAGGATG AATAGTGAGTTTAACTTTGACTTACATACTGTATCTTCGAGATCACTGGAACCAACCTCC AAATTATTGACCAGTAAACCTGTAGCACAGGATCAAGAATCTTTAGGTTTTCTAGGACCT AAATCTTCACTGGATTTCCAAGTCGTACAGCCTTCTCTTCCAGACAGTAACACTATTACT CAGGACTTGAAAACCATACCTTCTCAGAATAGCCAGATAGTAACCTCCAGGCAAATACAA GTGAACATTTCAGATTTCGAAGGACATTCCAATCCAGAGGGGACCCCAGTATTTGCAGAT CGATTACCAGAGAAGATGAAGACCCCACTTTCTGCTTTCTCTGAAAAATTGTCATCTGAT GCAGTCACTCAGATAACAACAGAAAGTCCAGAAAAGACCCTATTTTCATCTGAGATTTTT ATTAATGCTGAAGATCGTGGACATGAAATTATAGAGCCTGGTAACCAGAAGCTACGCAAA GCTCCTGTCAAGTTTGCCTCATCATCTTCAGTCCAACAGGTTACTTTTTCTCGCGGCACA GATGGCCAGCCTTTATTATTGCCATATAAGCCTTCTGGTAGTACCAAGATGTATTATGTT CCACAATTAAGACAAATTCCTCCATCTCCGGATTCCAAATCAGATACCACCGTTGAAAGC TCCCATTCAGGATCCAATGATGCCATTGCTCCAGACTTCCCAGCTCAGGTGCTAGGCACA AGAGATGATGACCTCTCAGCCACTGTTAACATTAAACATAAAGAAGGAATCTACAGTAAG AGGGTAGTGACTAAGGCATCCTTGCCAGTGGGAGAAAAACCCTTGCAGAATGAAAATGCA GATGCCTCAGTTCAAGTGCTAATCACTGGGGATGAGAACCTCTCAGACAAAAAACAGCAA GAGATTCACAGTACAAGGGCAGTGACTGAGGCTGCCCAGGCTAAAGAAAAAGAATCTTTG CAGAAAGATACTGCAGATTCCAGTGCTGCTGCTGCTGCAGAGCACTCAGCTCAAGTAGGA GACCCAGAAATGAAGAACTTGCCAGACACTAAAGCCATTACACAGAAAGAGGAGATCCAT AGGAAGAAGACAGTTCCCGAGGAAGCCTGGCCAAACAATAAAGAATCCCTACAGATCAAT ATTGAAGAGTCCGAATGTCATTCAGAATTTGAAAATACTACCCGTTCTGTCTTCAGGTCA GCAAAGTTTTACATTCATCATCCCGTACACCTACCAAGTGATCAAGATATTTGCCATGAA TCTTTGGGAAAGAGTGTTTTCATGAGACATTCTTGGAAAGATTTCTTTCAGCATCATCCA GACAAACATAGAGAACACATGTGTCTTCCTCTTCCTTATCAAAACATGGACAAGACTAAG ACAGATTATACCAGAATAAAGAGCCTCAGCATCAATGTGAATTTGGGAAACAAAGAAGTG ATGGATACTACTAAAAGTCAAGTTAGAGATTATCCAAAACATAATGGACAAATTAGTGAT CCACAAAGGGATCAGAAGGTCACCCCAGAGCAAACAACTCAGCACACTGTGAGTTTGAAT GAACTGTGGAACAAGTATCGGGAGCGACAGAGGCAACAGAGACAGCCTGAGTTGGGTGAC AGGAAAGAACTGTCCTTGGTGGACCGACTTGATCGTTTGGCTAAAATTCTTCAGAATCCA ATCACACATTCTCTCCAGGTCTCAGAAAGTACACATGATGATAGCAGAGGGGAACGAAGT GTGAAGGAATGGAGTGGTAGACAACAGCAGAGAAATAAGCTTCAGAAAAAGAAGCGGTTT AAAAGCCTAGAGAAAAGCCATAAAAATACAGGCGAGCTTAAAAAAAGCAAGGTGCTTTCT CATCATCGAGCTGGGAGGTCTAATCAAATTAAAATTGAACAGATTAAATTTGATAAATAT ATTCTGAGTAAACAGCCAGGTTTTAATTATATAAGCAACACTTCTTCGGATTGTCGGCCC TCAGAGGAGAGTGAGCTGCTCACAGATACTACCACCAACATCCTTTCCGGCACCACTTCT ACTGTCGAATCAGATATATTGACCCAAACAGATAGAGAGGTGGCTCTGCACGAAAGGAGT AGCTCTGTTTCCACTATTGACACTGCCCGGCTGATTCAAGCTTTTGGCCATGAAAGAGTA TGCTTGTCACCCAGACGAATTAAATTATATAGCAGCATCACCAACCAACAGAGGAGATAC CTTGAGAAGCGGAGCAAACACAGCAAGAAAGTGCTGAATACAGGTCATCCCCTAGTGACT TCTGAGCACACCAGAAGGAGACACATCCAGGTAGCAAACCATGTGATTTCTTCTGACTCT ATTTCCTCTTCTGCCAGTAGTTTCCTGAGCTCAAACTCTACTTTTTGCAACAAGCAGAAT GTACACATGTTAAACAAGGGCATACAAGCAGGTAACTTGGAGATTGTGAACGGTGCCAAA AAACACACTCGAGATGTTGGGATAACTTTCCCAACTCCAAGTTCCAGCGAGGCTAAATTG GAAGAGAACAGTGATGTGACTTCTTGGTCAGAAGAAAAACGTGAAGAGAAAATGCTCTTT ACCGGTTATCCTGAGGACAGAAAGTTAAAAAAGAACAAGAAGAATTCCCATGAAGGAGTT TCCTGGTTTGTTCCTGTGGAAAATGTGGAGTCTAGATCAAAGAAGGAAAACGTGCCTAAC ACTTGTGGCCCTGGCATCTCCTGGTTTGAACCAATAACCAAGACCAGACCCTGGAGGGAG CCACTGCGGGAGCAGAACTGTCAGGGGCAGCACCTGGACGGTCGGGGCTACCTGGCAGGC CCAGGCAGAGAGGCTGGCAGAGACCTACTGAGGCCATTTGTGAGAGCAACCCTTCAGGAA TCGCTTCAGTTTCACAGACCTGACTTCATCTCCCGCTCTGGGGAGCGGATAAAGCGCCTG AAGTTAATAGTCCAGGAGAGGAAGCTGCAGAGCATGTTACAGACCGAGCGGGATGCACTA TTCAACATTGACAGGGAACGGCAGGGCCACCAGAATCGCATGTGCCCGCTGCCCAAGAGA GTCTTCCTGGCTATCCAGAAGAACAAGCCTATCAGCAAGAAGGAAATGATTCAGAGGTCC AAACGGATTTATGAGCAGCTTCCAGAAGTACAGAAAAAGAGAGAAGAAGAGAAGAGAAAA TCAGAATATAAGTCATACCGGCTGCGAGCCCAGCTATATAAAAAGAGAGTGACCAATCAA CTTCTGGGGAGAAAAGTTCCCTGGGACTGA |
| Restriction Sites | Please inquire |
| ACCN | NM_015120 |
| 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. 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). |
| OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
| 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_015120.3, NP_055935.3 |
| RefSeq Size | 12928 bp |
| RefSeq ORF | 12510 bp |
| Locus ID | 7840 |
| UniProt ID | Q8TCU4 |
| Gene Summary | This gene encodes a protein containing a large tandem-repeat domain as well as additional low complexity regions. The encoded protein functions in microtubule organization, particularly in the formation and maintanance of cilia. Mutations in this gene cause Alstrom syndrome. There is a pseudogene for this gene located adjacent in the same region of chromosome 2. Alternative splice variants have been described but their full length nature has not been determined. [provided by RefSeq, Apr 2014] |
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Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC214632 | ALMS1 (Myc-DDK-tagged)-Human Alstrom syndrome 1 (ALMS1) |
CNY 59,380.00 |
|
| RC214632L1 | Lenti ORF clone of Human Alstrom syndrome 1 (ALMS1), Myc-DDK-tagged |
CNY 61,280.00 |
|
| RG214632 | ALMS1 (tGFP-tagged) - Human Alstrom syndrome 1 (ALMS1) |
CNY 65,360.00 |
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