Helz2 (NM_183162) Mouse Untagged Clone
CAT#: MC225436
Helz2 (untagged) - Mouse cDNA sequence BC006779 (BC006779), (10ug)
"NM_183162" in other vectors (2)
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Frequently bought together (2)
Other products for "Helz2"
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Helz2 |
Synonyms | mKIAA1769; mPDIP1; PDIP1; Pric285 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225436 representing NM_183162
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCATCCGTGGGTTGCAGTCTGAGGTCGGCCAGCACATCCGCCACCAACGGGCCATCCTTAGCCGGAC TCTGTGCTAAGGTAGACCTTTACCTGGGCTGCTCCCGCTGCACCCAGTGCCTCAATGAGAGTACCTACAT TCTGCGTGAGGTAGAGCACACCTGCCCCAGGGAGATCTTGCTGGCCCGCTTCAAGCAAGCAGCAGAGAGC AAGATCTGGCGTAAGGTGGGCCGCAGGCCTAGCTTCCCAACGCCTATGCGCTATCAAGTCTGTCACTACT ATAGGCCAGGGTTGGGCTGTAGGCGTCACTGGAATAGATGCACCTTTGCCCGAAGCCCTGAGGAGGCACT GGTCTGGACATTTGAGCTCAAGAACAACCTTCCCCGATTGAAACTGAAAGAGGCTGTGCAGGGCACCAGA GCCCCAGATAGGCTGCAGACCCCAGCTGACACCATCCGAGCAGAGTTTGGTGGCCACTTCCAACTACTCT GTGCCATCTGCTTCACGTGCTGTCCCCCGTGCCTCTGCCCCGTGGATCCCAGGGGCCATTGCCCTAAGCA CCAAATCTGCCCCACACTTCTCATCCATGTTATAGTTGAGGGCCTAAAGCGACAATTCGTGGAGGTGCGG CCACTGCCACAAAGAAGACATCCTTTAAACTACTGCATGTATGTGGGCCGTGGGGTACCATGCCGCCATG GGGCCTCACGCTGTGAGTATGCACACAGTGCTGTGGAGATGGCTGTGTGGAAGGCTGAGCAGTTGGATGG GCTTCAGAGAGGAGATCTGCTCACATATCCTCTCTTTGGGGAAAACAAATGGAAAGCCAGCCCTAACCCT AACCCTCCTGTGACCAAACTGTACTGCCATGCCTGCCTGGTCACCTGTAATTCTCAAGAGGCATTTGAGA ACCACTGCTCCTCCCTGGAGCACGCACAGATGGTGGCCTTTGACCAGGCTGTGCCCTGGAAACACCGTGC CCCACCAATGGGACTCTCCAAGTTCGATCTCTGCCCTAGGCCTGATCTCTGTGAGCACGGAGAGGTCTGC ATCAAGGCACACTCAAAACAGGAGTTACAGGAGTGGGTTCAGCGGGCACAAGACATGGAACTGCGAGAAC AGGCCGCCTGGCAGGATGGGCTGGTACCTTACCAGGCACGACTTCTAGCGGAATACCAGCGCAGCAGCAA AGAAGTATCAGTGATGGCTGAGACCATCCGTGGAGTGTCTGTCACTTGCCACCCACCACCGGTGCATCAG GCCCAGGAGAAGATCCAGCACCAGTGGGTGTTCACCATCCACTCTGAGGATCCCTTGCTACATGTGGCCC TACTCAATCAAGAGCCTGGAGCAGCTTTCTCACTGGTGGCCCCCAGTCTCCCACCACACCAGCTCTATGC ACAGGGAAAGCACTTCTGTGTACAAAGCTCCCCAGCCCAATACAAGGTAGGGGTGCTTGTGCAGGCTGTC GCCTTCGGCAGCTTTGAGCAGTGGGTGGTCTTTGACTTTGGTCGCAGGCCAGTGCTTCTCCAGAAGCTGA AGTTGCAGCTAGGCCAGACACACAGCCAGGGCCTAAATGGGAAGCCAGCACCCAGCCACCCCCAGGAGCT GGAATGCTGGCACACAGGCAACCGCCACGTGGTGCTTGAGGTAGATTGGACACCCGAGCAGGAAGCCCTG ATGGCCAAGTACAAGTTACCCTCCCTGGCCCTGGAGTTCAATCAGATTGTTCCGGACTGGGGGCCCATCT CTCGTTCGAACTACCGACAGAGGATGCACAAATTTCTCTATGAGGAGGAAGCAGCCCAGCAGCAGCTAGT AGCCAAGCTGGCCATGAAGGGCCAGGTATCCCTGAAGACAGCACTGGAGACACCAGCACTCGGCATGCTC TTCGCACCACCAGGGGCCCTCTATGCCAAGGTCCCCTTCCACTCCTCTCTGTTGCCAGACACTGATCAGG GCTTCCTGTTGAGCCGAGCAGTCAGCACAGCCCTTGTGGCTCCCGTGCCTGCGCCTAACAGTACAGTATA CCAAGTGCGGCTGGAGGCACGGGCCAGTTCAGACCATGCGCTGTGGCTGCTGTTACCAGCACGATGCTGT ATGGCTTTGGGGCTGCAGGCCCAAGACAGCCCCATCTTGGAGGTGCAGTTCCAGATTGACCCTATGACCT TCCGGTTCTGGCATCAGGCAGTGGATGCACTGCTCGAGGAGCACCTGGTGGTTCCTGACCTGCCTGCCTG CACCCTGCCCCACCCCTGGCCCACCCCACCCTCATTTCGTGGCAATCACAAACAGAAGCTGGCTGTGGGG CTCATTGCAGGCAGAAGACCCGAGGGCACAAAGCACATCCCACCACTGCTCATCTATGGCCCCTTTGGCA CCGGCAAGACGTACACATTGGCCATGGCCGCACTTGAGGTTGTCCAGCAGCCCCACACCAAGGTGCTCAT CTGCACACACACCAACAGTGCTGCAGACATCTATATCCGGGAGTATTTCCACGACTACGTCAGCAGTGGC CATCCAGAGGCCACTCCACTCAGGGTGATGTATGCAGATCGTCCTCCAAGACAGACTGATCCAACCACGT TGCAGTACTGCTGCCTAACTGAGGACCGCCAGGCCTTTCGCCCACCCACAGGCCCAGAGCTGGTACATCA CCGTTTAGTGGTCACCACCACTTCTCAGGCTCGTGAGCTCCAGGTGCCAGCGGGCTTCTTCTCCCACATT TTCATCGATGAGGCAGCCCAAATGCTGGAGTGTGAGGCCCTTATCCCACTCTCCTATGCCTTGTCACTAA CCCGTGTAGTACTGGCAGGGGACCACATGCAGGTCACACCTAGGCTCTTCAGCGTGCCTAGGGACAAGTC AGCCAGGCACACGCTGCTGCACCGCCTCTTCCTGTACTACCAGCAGGAGGCACACAAGATCGCTCAGCAG AGTCGCATCATCTTCCATGAGAACTACCGGTCAACTGCAGCCATCATCAACTTCGTCTCCCATCATTTCT ATTTAGCCAAGGGTAATCCCATCCAGGCCAGTGGCAAAGTCCCACGTCACCCCCAACACTACCCTCTCAT GTTCTGCCATGTGGCAGGAAGCCCTGAGCAGGACATGTCCATGACATCCTGGCTTAACTCGGCTGAGGTC ACCCAGGTGGTGGAGAAGGTGCGGGAGATCTATAACACCTGGCCTCACTGCTGGGGACCCCGGGAGCAGA GACACATCTGTGCTGTCTCTCATGGTGCCCAGGTTAGTGCGCTGAGACAGGAGCTAAGAAGGAGGAACCT TGGTGAGGTGTCTGTGGGCAGCTTTGAGATCCTGCCAGGGCGTGAGTTCCGGGTGGTGGTACTGAGCTCT GTCCACAACCGCAATAGTCTGCTTAGCCCAGGGGCACCAACCTCAGAGTTCTTCACTGAGCCTCGAGTAC TGAACACGGTCATGACTCGTGCCCAGTCTCAGCTGGTGGCTGTGGGAGATGCTGTGGCCCTCTGCTCCTC TGGAGCCTGCAGAAATCTCTGGAGAAGCTTCATCCGCGAGTGCATAGAACACCACAGCGCCTTCCCTGAG GAGCTGTCACTGGAACAGATTGAGCAGGGTGTGGCCCAGAGACAGAACTGGGCCTCATTGACACTCAAAG CTAGGGGCCCAGAGACAGAGCAAAAATCTATGGCCCAGGGCCCACAAAGGCTCATAGCTGAAGGGACCAT GGTCACGGTGAAGGCAGAGACCAGAGCCGAGGCAGCAGCCAAGGCACAGACTGCGGCAGTCGCAGCAGAA GACACAGCAAGCGGGAACTCAGCCTCTAGAGATGCAGCAGCAGAAGTGTCCACCCTGGAAGGGGGGATGT CTGAGGAAGATTCTGAGTCTGACTTCTGGCCCTCTGACTGGGAGCTCAATGCTGATGACGCCATCCTGAA GGAACTTCTCGACGAGAGCCAGCAAGTGACTGTGACTGTTAGGGAGGACGGACTTCTGGACACCGTGGTT TGCTCTGCACCACAGAAGGCCCGAGAGTACACAAACCTACCCTCATCTGTGCTGTGGAAGTTCCTGCGCT CAAACTCCAAGCAATTCCGCCGCTGCAGCTTCCTACAGGAGACCTTTGAGAGAGCATTGGCCACTCCGCT GGACGACATGGCCTCTAGCCCTATCCAGGTCAGGGGCCGTCTGAACTGTGGGATGGCATTCACGGGGGAT GAGGTGCTAGTACAGATCCTGGGTCCGGCAGGAGATGACAGGTGCGTCCCTGGGAGCCTGCAGGGTCGTG TGATGGGTGTGTTGAAGAGGAGGAGGCACGAATTGGCCTTTGTGTGTCGGATGGATGAGTGGGACCCCCG CATCATGATCCCTATCAACGGTTCTGTGACTAAGATTTTTGTGGCAGAGATGAAGGACCCACAGCAAGTT CCCATCCACCGCCTCATTCAAGGCCAGGTGCAGCGTGTGAGGCATGAGACCCTCAAGCCTGAGGATCGGA GCACCCGGCTTTTCTGGGTCCGTATTGTCCTTTGGCGGGAACGTTTCTACTATCCACTAGGCATTGTCCT GGAGGTGCTGCCCAAGGCCATCACCTGGGAGCAGGGCCTTTATATCCTTGACCTAGAGCATGGCCTGAAG GCCCACACACCAGACCCAGCCTCAGTTTCCAAGGCTCTGCAGAGATACCGCTCAGAGCTAAACACGGCCG CTGGTCACCGAGAGGACTACCGCCACTTCCTGACCTTCACTGTGGACCCCCAGGGTGCCTGCAACCTTGA CGACGCTCTTAGTGTCCGAGACCTAGGCCCAGTGTACGAGGTGGCAGTGCATATTGCTGATGTGGCCAGC TTGGTGCCCAAGGATGGGGCCCTGGACGTGGAAGCCCGCCAGCAGGGAACTGTGTTCTATGCCCCCAATA GGGAGCCAGTACTCATGCTGCCCGCCAGCTTGTGCCAGGATGCACTCAGCCTTCTCCCTGGTCAGGATCG CCTCGCCATCTCTCTCTTCCTCACCATGGAGAAAGGTGGTGGCCAGATCAAGAGCCTGCGATTTGCACCC TCCATAATCCGCTCTGACCGCCAGCTGTCGTATGAGGAAGCCGAAGAACTGATCAAGAGACACCCTGGGG CTGGCCTGGAGCTTCCAGCCCACCTGGACTCTGTGGAGGCCTGTGTTGTAGCTGCCTGCTACTTCTCTTG GATGTTACGTCGCCAGCGCCTCTCAGCTGCCTGTTACTATGAGCCGCCAGACGAGGACAGTGTGCTGGGC TTCCGCACAGCTCACATCATGGTCCAAGAGTACATGATCCAGTTTAACAGCCATGTGGCTGAATTCCTTG TGAGCAACAAGCACACACAGACACTCACACCACTCAGGTGGCAGCCCACACCCAGTAGGCAGCAGCTTGA CAGTGTTTTCAAGAAGTACAGAGGCCTGGTGCCTCTGTCCCTGCACCTGTGCCACCACTCGAACACTGAC TATACCCCCAACAAGCAGCTGCATCTCCTGACTTCCCTCTGGAAACAAGTGCAGCTTGCAGCTGGTACTC AGGATTACAGCCAGATGGTGGACCTTATTGCTGCAGATGACATGCACCCTTCACTGGCTCCTGCTTGCCT GGACTTGCGAAGGGCTCTAGGCCGCTCTGTTTTTGGTCGCTCCAGCCAGGGTAAGCAGCAACCTGCTGTT CACCACTCGCTACAGGTGGATTGGTACACATGGGCAACCTCACCCATCCGTAGGTATCTAGATGTGGTGC TGCAGCGGCTGATCCTGCTGGCATTGGGCCACAGGGGCTCTACATATTCTAACAGGGACATTGATGGGCT CTGCCTGGACTTCAGTCGCCAGTATGCAAGTGCCCAGAGCTACCAACGGAGGGCCTACAGCCTGCACCTG GCCATCCAGCTCAAGAGCCAGCCTCAAAACAAGCTGGGCTTCGTAGTGGATGTCGAGATGGGTGCCCGCT GCTTCAAAGTGCTTTTCCCTATAAACCGGGAAACGCTGCCCGATCCCTGCCCAATTCACTACCATTCCCT GCAGTTGGCTGAGCACCCCCAGGAGCTAGTGAGCCAGACAGGCGTGCGGCTTGTATGGCGGCGCCGCATG TACTCGGTGCAGGCGTCCAAGCTGCCTTTACCACTTCTGGGCACGAGTCTTGATCCACACACCCAGACTG TAGATGCAGCCCTGTGGATGAAGCTACTGATGCTGCTGAAGGAGCAGCGCTGGCCTGAGATAGCTGCCCT CATCCAGGAGCAAGATAAGCGTTTTCATCCAAGGGAGAAAGTAAAGATCCACCAGAGCCGCTGTGGACAC TTTGTAGAGGTGGTCTACGAGCTGGGCAGTGGAGATACCCTGCAGGTTCAGCTTGGTTCCAGCCTGCAGC GGGGTTTCCTGGCACCAACCCTGAAGCTGTGGACTGTGGTCCCTGGCTTCAGCCTCTGTCTGGAGCACAT GGAACGGCCAGGTGACTGCTTTTCAAGCCATGTGCACCAGGCTCTGCAAGACCAGTACCTTCAAGTCGGC GAGTACTCAGGTGCCTGGGGGCCACGCTGCGCCCTGGAGTCGCTCACCAATGCTGTTACAGAAAACGACT CCATTGTGCTGCACGATGTGCATATCTCTTGGGACACATCCCAGGGGCAGTTGCAGGGCACCTTCCAGCT GGAAGCTGCTTTTCTCCAGGAGAAATGCATCAACATCCACTTTGGCTGTTGCTACCTCTGCATTCGGCTG GAGGGGCTCCCTCTCCCCCTAGATAGCTCACTCCCTGGGCCTAGTGGCCTTGGCCCCTTCCTGAACATTG ACCCCAATACATATACCTGGGTGGCCCATGGGCTGTCTGGTGACTGGGACCATGAACTGGCTGGTGGTGA CTGGGACCAGGAGAATGTGGATGATCGGCAGGAGGCGCCCAAGCAGGTATATTTTCTCATCCATCACATG ACCATGGAGAAGGTTCCAGAAGAGGTGCTGAGACCTAGCGCTCGGTTCACTGTGGAAGTGCTGTCTAAGC AGCTTCCTGACCTCCGCAAGGAAGAAGCAGTGCGTCAACTGAAAACAGCATCCCCATTGGTCATTAGCAT CGCCTTGGGCCTGCCTATCCCTGAGATCCGCTGGCCAATATCTGGGCCCCGTCGCTTAGTATCTGAGCTC CGTTGGCCAATACCCGGGCCCCGTCGCCCAGTATCTGAGCCCCATCGCCCAATGTCCGGGCCCTGTGGCC CAATATCTGAACCGTGTCGCTCAATCCCCGAGCCCTGCCGCGGCAACTGGCCTCGCCAGCATTCTTTTCA CAAGGCATCTACCAGCAGGTTCTTGGAGCGGCAGAACTACAACATCCCTGCTGGACATCATAAGCTGAAC CAGAGCCAGGACAGGGCTGTCAGGAGCGCTCTGCAGAAACAGTTCACAGTCATCCAGGGCCCACCAGGCA CTGGGAAGACCGTTGTGGGCTTCCACATTGTGTACTGGTTCCACAGGTCAAACCAGGAGCAGATGCCAAC TGACAGCAGCCCGAGTGGAGAGGAGCAGCTGGGGGGCCCATGTGTCTTATACTGTGGACCCTCCAACAAG TCTGTGGATGTCCTGGGAGGACTGCTCCTGAGGAGGAAGACAGAGATGAAGCCCCTGCGTGTATATGGGG AGCAGGCAGAGGCCACTGAATTCCCGCTGCCAGGAGTGAGCAACAGGAGTCTGTTTGGCAAGACCTCTCA GGAAGGAAGACCAAATCAGAGCCTCAGGAGCATTACCCTTCACCACCGGATCCGCCAGGCCCCCAACCCA TATGCAGCAGAGATCAGAAAATTTGATGCCCAGCTTCGGGAAGGGAAAATATTCTCAAAGGAGGATCTTA GAGTGTACAGGAGAGTCTTGGGGAAGGCACGCAAACATGAACTGGAGCGGCACTCGGTCATCCTGTGCAC GTGCTCCTGTGCGGCATCAAAGAGCCTGAAAATTCTGAATGTTCGACAGATCCTTATCGACGAGGCAGGC ATGGCCACTGAGCCAGAGACCCTTATCCCCTTGGTGTGCTTCTCAAAGACGGTTGAGAAGGTGGTTCTGC TTGGAGACCACAAGCAGCTTCGGCCTGTGGTCAAGAGTGAACAGCTGCAGAGTCTGGGGATGGATCGGTC TCTCTTTGAGAGGTACCACAGGGATGCCATCATGCTGGACACACAGTACCGTATGCATAAGGACATCTGT TCCTTCCCCTCCGTGGAGTTCTATGGGGGAAAGCTAAAGACCTGGTCTGACCTGAGGCGTCTGCCTAGTA TCCTGGGTCACACTGGCAAGCCGAGCTGTTCCGTCATCTTCGGCTCTGTGCAGGGCCATGAGCAGAAGCT GCTGGTGTCCACCGAGGATGGCAATGAGAACTCTAGGGCCAACCCAGAGGAAGTCACACAGGTGGTCCGC ATCATAAAGCAGTTGACCCTGGATCGGACGGTGGATCCCAAAGATATTGCTGTCCTTACACCCTACAATG CACAGGCTGCTGCAATCAGTAGGGGCCTCATGCAAAGAGGAGTCACCGGAGTGACTGTGACCTCTATTAC CAAGAGCCAGGGGAGTGAGTGGCGCTATGTGATAGTGAGTACCGTCCGAACATGCCCCAGGAGTGATGTG GACCAGCGGCCAACAAAGAGCTGGCTCAAGAAGTTTCTGGGCTTTGTTGTGGACCCCCACCAAGTAAACG TGGCCATCACCCGGGCCCAGGAGGCGTTGTGCATCATTGGGGACCATCTACTGCTACGCTGCTGCCCACT CTGGCACCGTCTCCTAGACTTCTGTGAGGCTCAACACAGCCTGGTGTCCGCTGAGAAGGTGAGGGTCCAG AGAAAATCTGCTCTGTCTTCTTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_183162 |
Insert Size | 8844 bp |
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. 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 |
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_183162.2, NP_898985.2 |
RefSeq Size | 10124 bp |
RefSeq ORF | 8844 bp |
Locus ID | 229003 |
UniProt ID | E9QAM5 |
Cytogenetics | 2 H4 |
Gene Summary | Helicase that acts as a transcriptional coactivator for a number of nuclear receptors including PPARA, PPARG, THRA, THRB and RXRA.[UniProtKB/Swiss-Prot Function] |
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