SOX11 (NM_003108) Human 3' UTR Clone

Name: SOX11 (NM_003108) Human 3' UTR Clone
SKU: SC222741
Price: 3150.00 USD

CAT#: SC222741

3`UTR clone of SRY (sex determining region Y)-box 11 (SOX11) for miRNA target validation

Reconstitution Protocol

USD 3,150.00

5 Days*

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Specifications

Product Data
Vector	pMirTarget
Species	Human
Transfection Reporter	RFP
Assay Reporter	Luciferase
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Symbol	SOX11
Synonyms	MRD27
ACCN	NM_003108
Insert Size	7341 bp
Sequence Data	Insert Sequence (showhide) >SC222741 3'UTR clone of NM_003108 The sequence shown below is from the reference sequence of NM_003108. The complete sequence of this clone may contain minor differences, such as SNPs. Red=Cloning site Blue=Stop Codon CAATTGGCAGAGCTCAGAATTCAAGCGATCGCTTGGCGCGCCCGGACCG AACTTCTCCGACCTGGTGTTCACATATTGAAAGGCGCCCGCTGCTCGCTCTTTCTCTCGGAGGGTGCAGA GCTGGGTTCCTTGGGAGGAAGTTGTAGTGGTGATGATGATGATGATAATGATGATGATGATGGTGGTGTT GATGGTGGCGGTGGTAGGGTGGAGGGGAGAGAAGAAGATGCTGATGATATTGATAAGATGTCGTGACGCA AAGAAATTGGAAAACATGATGAAAATTTTGGTGGAGTTAAAGTGAAATGAGTAGTTTTTAAACATTTTTC CTGTCCTTTTTTTGTCCCCCCTCCCTTCCTTTATCGTGTCTCAAGGTAGTTGCATACCTAGTCTGGAGTT GTGATTATTTTCCCAAAAAATGTGTTTTTGTAATTACTATTTCTTTTTCCTGAAATTCGTGATTGCAACA AAGGCAGAGGGGGCGGGGCGGGGGAGGGGAGGTAGGACCCGCTCCGGAAGGCGCTGTTTGAAGCTTGTCG GTCTTTGAAGTCTGGAAGACGTCTGCAGAGGACCCTTTTGGCAGCACAACTGTTACTCTAGGGAGTTGGT GGAGATATTTTTTTTTCTTAAGAGAACTTAAAGAACTGGTGATTTTTTTTTAACAAAAAAAGGGACCATT GCAACTTTTGTTAATTTAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGAGGGAGAAAACTGATGT CTTCTATGCATCCGATTCTTAACAAAACTGCAGGGAGCTTGAAAAAATGCAGACTGTACAAACGCTTACA AAAAAAAAAACTGTGAACTGACTTAAGATCAGAGTTTACTTTTCAGATCAAATTGTTTATGGTTTTACAA ATGTGATTTCTACTTGCCAACTTTTTTTTTGTAACTTGTTCCCTTATACCTCCTTGATTGAATACCAGAC AGCCTAGACCTCAGTACAAAAGGTATTGAAACATTTTTGATACATAACAGACCTCAGTCTTTTTTAAAAA TTAATATATTTTCAGGCGTATTTTTGTACAGTGAAAAGGGAACATTCTTGCTGTGTTTTTTCAGTAAGAC TTTCAGGCACTTCTTCCCTTTTGATTTCTTTTTTTTCCTCTGTTTTTTAGCATGCAAGTATGTTGGTACG TTATGTCCTGGTTTAAAAAGGATTAAAATTTTAAAATAATCCTTGCATCTAAAGGCCTTGTGGTTTAAAA AAAAAAAGCAAACTTTTTTTTGTACAGCTATAGTAGAGATTTGTTCAATATTTGTAGGTAAAGATTTATT GAAAATGGTGATATAGACCTCAGAGCTGTTATCTTAGTTTAAAGATTGTATATGTACTGTACTATAGTAG GACTTTATGTATCTCATACGCTGTGATGTGGATGGGGCCCCAGATGGAAGGTTTGAAACTGGATTCTCGA TTTTTAGCAAAAAAGAAAAAAAAAAGGCACATAGTTTAAAAAGTTTCTCATTTTGTGCAATATAATCTAA ATAAAGTACAGACCATCTGCATATTTTGTAGCAAATGGTGGCAAAGCAGACTCAATGCACTGTCGACATC ATTGCCTGTTTTTTTTTTTTTTTTTTTGTGCTGGAAGTCTGTATCTTGACAATTTTAATAAATCAGCTGG AACTGATAGAAACTCGCATCGCCAATAGTCTCTATGGAAGTCAAACTGGAGGTCCTGTTGTCGCAGAGCA TTCGGTGGTGAGGCTGTTGTGTGCGCGGATGAGGGGAGGTGGCAGGAGAGAATTCTACATTTAGGGGGTT AGGCTGAAAAGTGTTCAATTAGCAGGCTGATTTCTTTTTCCTCTTCCGCTAGTTGTGAAAGACAGGGGAA GGGTGTTCTTTCTCTCTGCCCTCCCTTTCCATCTCCAGCTCCCCATTTCCTTTCTCACCTCCTCCTCCAC TCCCTGCCTCTTCTCCCCACCCATCCTGGCGGGCGGGCTGCGCGGAGGCTCGGGAGCTGGCCGGGGAGGG GCGGATGGAGGGGCCTGGGTTGCCAGCTCCCTTGGTCGGGGTCCTGCTCGCTGGGGCTTGTGTGTTCTCT GCGGCGGGCCGCGTCCCCGCTGAGCCTCGCGGTGACAGCCGCCTTTGGCAGCGAGCGCTCGGGGCACTTC TATCCCCGCCTCTCAAAGGGTGGGGACAGCCGTTTCCAGATTTGAATTTTTTCTGTTCTTTATTTTTAAC GCTGCATCTTCGCGTGTGCTCAGAGGTGGTTGTTGGCGGAGAACGCCGCCGCAGTGTTTGACCTCTAGCG GTGAAGGGGGAAGGGGAAGAGGAAAGGAGAGAAGTGGTCGGTGTCTGTTTCCTTCTGTCCCCCGGGGCCG TGGAGCTGTCGGAGGGAAGGAGGACGGTGCGGGGCCGCAGGGGGCGCGGGGCGCGGCGGGACCCAGGCTA CGAGCGGGAGGGAGGCGGGAGTCGGGGGAAGACGCGGCAGGCCGGCCGAGGGCACCCCGAGGAACATGGC ATGGCCTCTGTGCGATCCGAGTCGCGGTCTCCGGGGTGCCTGGGAGGGCCGAACCACTGGTGAGGGCGTG GGGAGCAGGGGGTGGCAGAGGGCACCCGGGCGGTAGTCCGGGACGCGCAAGGCAGAGCCCTGACGCTCCG GGTCCCCGTGCCTGGCTCTTCTTGCCTCGCCACCGCGTGCTCCTGGGCGCGCCCCGCCGCGGGCCCTTGA GGCGCGCGGAGACACCAGCGCTGGCTTCCCGGGCCCGCGGGCCGGGGAGGGAAGCCTCGGGGCTGCGGGG TGAGAGGAAGAAAGCAAACCCGGGGAGCAGGCGGCTGCCGCACCCGCGCACCCCGGGCCCTCACCACGCC CTCCCCGCGCGCCGGCTCAGGGGCTGCCCCGGAATCAGCTCCCCGGGGCCGCCGCAACGAAGGTGGATCC GCATCTTGATTGTTCTCCGGGAGCCTCCTGGGGGCTCCGGCGGCGGCGCGGGCGCGACCCATCCCGCTGG CGCTCCCCGCTCGCTGAACCCCGTTTGCCTGTCCACACCCCCTCGCTCCCCACCATTTTTCCTGACCGGC CTGTGTCCCCGAGCCCTCGCGGCAGGCCCGAGCAGGCGATCGCGGCCGGGCACGCGCGCCCCGGGCTCCC GCCCCCCTTCCGAGCATCCGCCGCCTCTTTTCTGCTGGGTCTGGGAGGAGGGAGGCTGGGAGGCCGCTCG GGGCCCAGCGTGCCAGCCCCGGAGTTCAGCCTCCCGAGCTGCGGCGCCCGCAGCGGAGGAGGTTTTCAGT GGCTGATTGAAACTCACTGCAAAATCACCACGACTCTTTCACCTACTGAGATGATTGACCGAGGTTTGGC CTTCCATTTTTACTGAGATTTGGCGAGACCGAATGGAAGCGTCCGCACAGTAACTGCAGCTGCTAGGCCA GAGGGGCCCCGGCGCCCTTCCCGCCTCCCCTCCCGCTTGCTTTTGCCTTACTCGATCTTACCACCACCCC TCCCCCGGCCCCCCGACTGAGAACTCGGGCCTCTCACCCGCCCCCCAGCCTCCCGCTCTGGGCGAGCCTC CTCCCCAGCCCCCACCCCTGGGATGCGAAGCCAGCAAGCTTTTGCTGCAGATGGACAGGTTTCTTTTCTG TGGCTTTTTCCTTTCGATAAACCATCAGATTTCAGTAGTACATTTGGGAAAAGAAGGGGCTGATGGCGTT AACCAGGTTCTCAATATAGAACTGGATTTCTGGAGTTGTTTACCTTACCCCACACCCCCTCAACATGTAG ACTAATGCAGCCATTGGTGGTACATTTATTTTAGCCACGGATAATTGAACCAGCGGTTTACAATTGACAC GTGCTCCGTGCTGGTGATTTTATGTGGCAGCCCTCTGCTGCAGTTCCGAAACTTGTTGGCAACGTAAACC CATTGATAGGCTGATCTATGTATTTTGAAAGCCTGAAAACTTGGCATGTCTTTTCTGTTTTAATCATAGA TGAATCTTGGACATTTTCTGTGGTGAGGTGGAAACTTTAAGTAAATTAGTAAAGTAATAATTTGGCTTCA GAATGGGAAGAGATAGTCAAGATTTTTTTTTTTTAAAGCCATGTGGCCTAACTTGATACAAAAATAAAAG TAATTGTTTGGCAATCTAAATTTAAAACCTGTTAGAACTCAGGACAGGCGCTTCAATGCGCTTTTTAACA ATATTTAAGGCTGTTTTGATGAGTGCGTTGTGAGAATCATCTTAATGAATTCTTTATTGAGTGTCTAAAA CATAGTATAATACACATGGTATTCTTGCCACTGGATAGTCTTCAATAAAAGTTTAATTGATTTTTTTTTG TTGGTCTCTTAAGTAAGTCTTATTTTTAACTAAGCATTGACAGAATATCTTAAAATGGTAACCTGGGGGT GGCGGGTGGGTGCTGTGTGCACGGCAGCCTAGCCAGTGGGGATCCTGCTGTTTATTATAAGTAGTTCACA GACTCTGATGGCATTTTGGTAAGCTTTCCATCTTTAAGAAATTGAACCAGCATTCTCTTATTAATTCTTT AAACTGTGGAAGTAATTTCCAGTTCTTACACTCTGATACGCATCCCTTTTATTTAAAAAAAAAAAAAATG CTAATAAAAGGCAGTGTACTTAAACTGTGCTTTGCAAATATTGTGTATGTTATGAATGACTACAGACACT GGGCAAATTATTTGTAGAATGATTATCCTTTAGCTAGAGAAAGAAATCATTACAACTCTTTTGGGCAGAG ATGTTTCTTTTTAATGTTAATCAAGGGGAAGTGATTTAAATATGCATAAATGTAGCAGTCAGGGTGATTT AGTTGCTTTTTTCATGAAAGAAAAAGACTCAAAAGACAAGACTTATTTTTCTCTTCTGGGACTTGAAATC ATAATCATCTGATATTAGTACAGTACAAGAAATTTACATTTGTTTTTTACTTCAGAATTTAAGTGACTTT TGCCCAAGGAATTTGAGAAATAAGGCAAATAAGTTGCTCTATTTTAAAGTAGTCATTCAATATAAATATA TTATATCAATCTTAACTTTTTTATTCTCTGATATGATTAATAATATGTATATTCTTACTTTTCTTCTAAT GGGCATATGTATCCTTGTGGACACTTTGAGAGAGGTTTTCTTGGACTCTCCCATTTATAGAATCTTTATA CTCTTTTACTGTGTGGTTCCCTGCTTTTAACAGATTTCTGAGGCAAATATATTTGTGCTTTTTTCTTATG TAGGAAGACCAGCGAAAATAGTTTACTGAGTTGTCAATTTTATCAGTAGATAAGAAACTTTCTTTATTAC AGTTTCAGGGAAGATTTTTTCAGGATATTTCTCAGTTATTCTAAGGGCCAAATTTTGTAAAATTTCCATT AGGAATGTCAGTTTCAAATACCCTTTGTATAGCCTAAGCCTGTGAGGATAACAAGAATGAGCCTTACCTA TCCTAACACAGGGATTTACAAGTTCCCAAAGTAACCGTCTCCATGTAACTCTTGACATACTTTTCTGAGA TTTGGCTTATTTTTATTATTGGTTATTTCTCACTGTTCATTCTATTTGATTTATTCTACAACATCCCCTT TTATTTAATGATCTGGAAAATTCTGCTCTTTGATAACAACTCAGGATTTTTTTGTTCAGTTTTGGTTTTT GCCCCTTCCTGTGGAGCCTACATTTTCAACCACAATAAAGATGAAACAAAATTTATGAAACTGAGCTCTC TTCCATTTTACTTACTGCTGGCTTTTTTTTTTTTTTTTTTCCTTGATTCCTACCATACCTTCGTTTTTTT CATTGTACTTTTTTAACACTACCTATATCCATTAGCTGCCTAATTAGTTTTATCTGTTCCATGTGGATGC AGTGAGTTTATAAGAGAATTTCACAAACAAGTAGTTTTTTAGTGAACTTAAAATAAACAGAATTTTAAAG GAGACCTATTTTTATACTCAATAAAAGCACAAAAGTGCAGAAAGTATAAAACGGCTTACAAAGGGAGACA CAAGCTCATAATGTTCCATGTATAAAAGTAATAACTTTATTGGGTAGAGATATTCTTACAAGATCTAGCA CCTCTGCCAGTGCACAGATAGGACTGTTTTAAATGATTTGGGAACTTTTGGTTGCCTGCAGTTGTGAACA GAGAACTTCTCTACAGAGAAACAAACCACTAAAAGCAATATGACCGAGTTGAGATGTGGTTTCCAATGAG CAATTGGTGAATTTAAGCAACCTGGATGTGCATATGTGGAGGCTCCCGTCTCACTGTTTGATCAAACTTC TTTTATGTAGTCACGTAGACTTGATTTTTTCTGCTGTGAAAATGAAAAAATAAAGCAATATGACAAAAAG TTTAAAAATGCATAAAAAATAGGATTTCCTCTAGGCTCCTCGAAGAGATTTTTTTAATATGATGCTTGTC TTACTTTCTTAGACACGTTACATTTCCCCTTCCAAAAAAAAAAAAAAGGACAACTGGAAGTAATTTATCA TATAAAGAATTTTGATCAAATAGATATTGACAAAGGGCCCTCTGTCACATTTTTCTTCATCCAGCTTTTG TTCAAAAACAGTATGCCTCCTCCCTTGAATCACATAGGGAGAAACGTTATACTCCATTCTCATTAATTTC CCATTTTGTCTACTTTTACTCTTGTACATATGTTGTGGGTTTAAGAGTCTTTTGCATTTGTTCTGTGACA CCTTTTTTTGAATTGACTGTTTTAAAACGGAGGCCTATTTTTTCCGGTTTGGGACTCCTAGTGGTTATGG CATCCCATAATGCTTCGTGACGGCCACCAGGACAGAACCACCTGATGTTTTAGAGCAGTTTTCAGCATGA CACTGTTAACAAGTGTGTATTTTCCAAGGCCACATGAAACTTACTTTCTTAGCCACTCCAGGTTTGGGAG CAGAAAAGCTGAAAAACCCTTTTGTGTAGAAGTCTGAGTGGTTTGTGGGGGGGACCTTTTTTAGAGTTTG CATGCCAGCGCACGGCCTATTGCTGTGAAACAGAGAGAAGGTAAAGCTACCTGAGGCAGTGCGCTGGAGG ATGAAGTGTTTGATAGCACTAGGGGGGAAAGAAAATGCATGGCAAAGTTTCGTCTTCTCGTAGACTATCT AGCATGCAGAGTGTAGTGTGTTGAAACGGTGTATGACATTGCTGTATCAAAGTTGTAAAATTAAGCATTA TTTATTGAAAACTATGTATTTTTTTGTAAAAACCTGATCACATAGAGAATATCAGTGGCTTGTGCTTGTG CTTCGATCTAACCAGCTTCTTGACCCACCCCCCCTTGGTATGCAGTGTTAATGCTCAGGGTTGAAAATAG TACACTCCAATGTCTCTTTTGCAAGAGTTTTTCACAGAGGATTACATTTGTTCAAAAGACT ACGCGTAAGCGGCCGCGGCATCTAGATTCGAAGAAAATGACCG
Restriction Sites	RsrII-MluI
OTI Disclaimer	Our molecular clone sequence data has been matched to the sequence identifier above as a point of reference. Note that the complete sequence of this clone is largely the same as the reference sequence but may contain minor differences , e.g., single nucleotide polymorphisms (SNPs).
Product Components	The cDNA clone is shipped in a 2-D bar-coded Matrix tube as 10 ug dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials.
Reference Data
RefSeq	NM_003108.3
Summary	'This intronless gene encodes a member of the SOX (SRY-related HMG-box) family of transcription factors involved in the regulation of embryonic development and in the determination of the cell fate. The encoded protein may act as a transcriptional regulator after forming a protein complex with other proteins. The protein may function in the developing nervous system and play a role in tumorigenesis. [provided by RefSeq, Jul 2008]'
Locus ID	6664

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Video Tutorial: Clone Selection Guide Product Video: What is TrueORF GOLD and why it is the most popular type of clone Video Tutorial: How to make Lentivirus particles Video Tutorial: Is the Lentivirus Safe Product Brochure: cDNA clones Protocol: Lentivirus packaging Product Sheet: AAV AAV Biosafety AAV Products and Services Flyer

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SOX11 (NM_003108) Human 3' UTR Clone

CAT#: SC222741

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SOX11 (NM_003108) Human 3' UTR Clone

CAT#: SC222741

Product Images

Specifications

Documents

Resources

{0} Product Review(s)

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