Fry (NM_172887) Mouse Untagged Clone
CAT#: MC225446
Fry (untagged) - Mouse furry homolog (Drosophila) (Fry), (10ug)
"NM_172887" in other vectors (2)
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Other products for "Fry"
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Fry |
Synonyms | 13CDNA73; 9330186A19Rik; AF346502; AI462658; C87180; cg003; D930046M03; mKIAA4143 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225446 representing NM_172887
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCCAGCCAGCAGGATTCCGGCTTCTTTGAAATCAGTATCAAATATTTACTGAAATCCTGGAGTAACG CTTCTCCAGTTGGCAACGGTTACATCAAACCTCCAGTCCCACCTGCTTCTGGCACGCACAGGGAGAAAGG ACCACCGGCCATGTTGCCGATCAATGTGGACCCAGACAGCAAGCCAGGAGAGTATGTCCTCAAGAGTTTG TTTGTGAACTTCACCACTCAGGCCGAGCGTAAGATTCGAATCATCATGGCAGAGCCTTTGGAAAAGCCAT TGACGAAGTCTCTGCAGCGTGGAGAAGACCCCCAGTTTGATCAGGTCATCAGCTCTATGAGCTCCCTCTC TGAGTACTGCCTGCCCTCCATCCTGCGAACACTCTTCGACTGGTACAAAAGGCAAAACGGCATTGAGGAC GAGTCACACGAATACAGGCCACGAACAAGCAATAAGTCCAAAAGTGATGAACAGCAGCGAGACTATTTAA TGGAGAGACGGGACCTTGCCATTGATTTCATCTTTTCTTTAGTGTTAATAGAAGTCTTGAAACAGATCCC CCTTCATCCTGTAATTGACAGCTTAATACATGATATTATTAACTTGGCTTTCAAGCACTTTAAATACAAA GAAGGGTACCTGGGTCCCAACACTGGCAATATGCACATTGTGGCTGATCTGTATGCTGAGGTCATCGGAG TGCTGGCCCAAGCCAAGTTCCCTGCTGTCAAGAAGAAGTTCATGGCAGAGCTGAAAGAGCTACGGCACAA AGAGCAGAGCCCCTATGTGGTGCAAAGCATCATCAGCTTGATAATGGGGATGAAATTCTTCCGAATTAAG ATGTACCCCGTGGAGGACTTCGAGGCGTCCCTCCAGTTCATGCAGGAATGCGCGCATTACTTTCTGGAGG TCAAAGACAAAGACATCAAGCATGCCTTGGCTGGGCTCTTTGTAGAAATCCTTGTCCCGGTGGCCGCTGC TGTCAAAAATGAAGTCAACGTCCCCTGCCTCAGGAACTTTGTGGAGAGCCTGTACGATACGACGTTGGAA CTCTCCTCTCGGAAAAAGCATTCCTTGGCCTTATACCCACTGGTGACCTGTCTCCTCTGTGTCAGTCAGA AGCAGCTGTTCCTCAACAGGTGGCATGTTTTCCTCAACAACTGCTTGTCCAACCTTAAGAATAAAGACCC CAAAATGGCTCGCGTTGCCTTGGAATCTCTCTACAGATTACTGTGGGTTTACATGATTCGAATCAAATGT GAAAGCAACACGGCCACTCAGAGCCGACTCATAACCATCACCACCACGCTTTTCCCCAAAGGGTCCCGCG GCGTGGTACCCAGGGATATGCCTCTGAATATCTTTGTGAAGATTATCCAGTTCATCGCCCAGGAACGTCT GGACTTTGCAATGAAGGAAATTATTTTTGACTTTCTCTGTGTGGGAAAACCAGCCAAAGCTTTCAGTCTC AACCCAGAGAGAATGAACATCGGTTTGCGGGCGTTCCTGGTGATTGCTGATAGCCTACAACAAAAGGATG GCGAGCCGCCCATGCCAGTGACGGGAGCCGTGCTCCCCTCAGGAAACACCCTGAGAGTGAAGAAGACATA CTTGAGTAAAACACTCACTGAGGAGGAAGCCAAAATGATAGGAATGTCCTTGTATTACTCTCAAGTCCGC AAGGCCGTAGGCAATATCTTAAGGCACCTTGATAAAGAAGTGGGGCGGTGCATGATGCTGACCAACGTCC AGATGCTAAACAAAGAGCCGGAAGATATGATCACGGGCGAGAGAAAGCCCAAGATAGATCTCTTCAGGAC CTGTGTTGCCGCGATTCCTCGCCTGTTGCCTGATGGGATGTCCAAACTTGAACTTATTGACTTGCTAGCC AGACTCTCTATTCATATGGATGACGAACTGCGCCACATTGCACAGAACTCTCTTCAGGGACTACTGGTTG ACTTCTCTGACTGGAGGGAAGACGTCCTGTTCGGCTTCACGAACTTCCTGCTCCGGGAAGTAAATGACAT GCATCACACCCTCCTGGACTCCTCCCTAAAGTTGCTTCTGCAGTTGCTCACCCAGTGGAAACTGGTCATA CAGACACAGGGAAGAGCCTACGAACAAGCCAACAAGATCAGAAACTCAGAGCTCATTCCCAACGGCTCCA GCCACCGTATGCAGTCAGAACGAGGCCCGCACTGCAGTGTCCTCCATGCTGTGGAAGGCTTCGCTCTCGT CTTGCTCTGCAGCTTCCAGGTGGCCACACGCAAGCTGTCGGTGCTGATACTCAAGGAGATCCGAGCTCTC TTCCTGGCCCTGGGTCAGCCCGAGGACGATGACAGGCCAATGATTGATGTCATGGATCAGCTGAGTTCTT CCATTCTTGAAAGCTTCATTCATGTGGCAGTTTCAGATTCGGCAACACTACCTCCGACCCACAATGTAGA TCTCCAGTGGTTGGTGGAATGGAACGCGGTCCTGGTCAACAGCCATTACGATGTGAAGAGCCCCTCCCAC GTCTGGATCTTCGCGCAATCTGTCAAAGACCCCTGGGTCCTGTGCCTCTTCAGCTTCCTCCGTCAGGAAA ACTTGCCGAAGCATTGCCCCACGGCCCTCAGCTATGCCTGGCCTTACGCCTTCACCCGGCTGCAGTCCGT GATGCCGCTGGTAGACCCAAACAGCCCAGTCAACGCCAAGAAAACCAGCACAGCGAGCAGCGGAGACAAC TATGTTACCTTGTGGAGAAATTACCTCATTCTCTGTTTCGGAGTTGCCAAGCCCAGTATTATGAGCCCAG GACACTTACGAGCATCCACTCCTGAGATAATGGCAACGACTCCCGACGGTACAGTGAGCTACGATAACAA GGCCATTGGCACACCATCAGTGGGCGTCCTGCTGAAACAGTTGGTGCCTTTGATGAGGCTGGAAAGCATT GAAATCACAGAGTCCCTTGTTTTAGGATTTGGAAGAACAAATTCCCTTGTTTTCAGAGAATTGGTTGAAG AACTCCATCCATTAATGAAGGAGGCTCTAGAGAGAAGACCAGAGAACAAGAAACGCCGAGAACGGAGAGA TTTGCTGAGGCTTCAGCTGCTTCGGATATTCGAACTTCTGGCAGACGCTGGCGTGATAAGTGACAGCACA AATGGAGCTTTAGAACGAGACACCTTAGCGCTTGGAGCTTTGTTCTTGGAATACGTGGACTTGACCCGCA TGCTCTTAGAAGCTGAAAATGACAAAGAGGTCGAAATTCTTAAAGACATCCGAGCACATTTTAGCGCCAT GGTTGCCAACTTGATCCAGTGTGTTCCAGTTCATCACAGAAGATTTCTCTTCCCCCAGCAAAGCCTACGG CACCATCTCTTCATCTTGTTCAGCCAGTGGGCTGGCCCCTTCAGCATCATGTTTACACCTCTGGATCGGT ACAGTGACCGAAACCACCAGATAACGAGATACCAGTACTGTGCTCTAAAGGCAATGTCGGCAGTGCTGTG CTGTGGCCCTGTATTTGACAATGTCGGCCTCTCTCCGGACGGCTATCTGTATAAGTGGCTCGACAATATT CTGGCTTGTCAAGATTTACGAGTTCATCAGCTTGGCTGTGAGGTCGTCATGTTGCTACTGGAACTTAATC CTGACCAGATAAACCTTTTCAATTGGGCCATCGACCGATGTTACACAGGATCCTACCAGCTTGCTTCCGG CTGCTTCAAAGCCATAGCGACTGTGTGCGGAAACAGGAACTATCCCTTCGACATAGTGACACTGCTGAAC CTTGTTCTCTTCAAGGCCTCTGACACCAACAGAGAGATTTACGAAGTCTCCATGCAGCTCATGCAGATCC TCGAAGCAAAGCTTTTTGTGCACTCCAAAAAGGTTGCGGAACAAAGACCTGGCAGTATTCTATACGGAAC ACATGGACCGCTGCCACCTCTCTACAGTGTGTCGCTAGCCCTTCTGTCGTGTGAGCTGGCCCGGATGTAC CCCGAGCTCACTCTTCCCCTCTTCTCAGAGGTGAGCCAGAGATTCCCCACGACACACCCAAATGGACGGC AGATCATGCTCACCTACCTGTTGCCATGGCTACACAACATTGAACTGGTGGACAGCAGACTCCTCCTCCC GGGGTCCAGTCCCAGCAGTCCTGAGGATGAGGTCAAGGACCGAGAAGGAGAAGTGACTGCCTCTCATGGA CTAAAAGGGAATGGCTGGGGCTCTCCGGAAGCTACCTCTCTGGTCCTGAATAACCTCATGTACATGACAG CCAAGTATGGAGATGAAGTCCCAGGAGCAGAAATGGAGAACGCTTGGAACGCTCTGGCCAACAATGAGAA GTGGAGCAACAACCTGAGGGTCACACTGCAGTTCCTCATCAGCCTGTGCGGGGTCAGCAGCGACACCATC CTCCTGCCCTATATTAAAAAGGTGGCAACCTACCTGTGTCGGAATAACACCATCCAGACTATGGAAGAGC TTCTCTTTGAGCTGCAGCAGACAGAGCCAGTGAACCCCATCGTCCAGCACTGTGACAACCCACCTTTCTA TCGATTCACGGCCAGCAGCAAAGCCTCAGCAGCTGCTTCAGGAACCACCTCCAGCAGTAACACTGTGGTC GCCGGCCAGGACAGTTTCCCAGACCCTGAGGAGAGCAAGATACTGAAAGAATCCGATGACAGGTTTAGCA ATGTGATCCGAGCCCACACTCGCCTGGAGTCAAGATACAGCAACAGCTCGGGAGGCTCGTATGATGAGGA TAAAAATGATCCCATCTCTCCCTACACCGGCTGGTTGTTAAGTATTACGGAAGCCAAGCAGCCACAGCCC TTACCCATGCCGTGCAGTGGAGGATGCTGGGCCCCCTTGGTCGACTACCTCCCAGAGACCATCACTCCGA GGGGGCCGCTGCACAGGTGTAATATTGCTGTGATCTTTATGACTGAGATGGTGGTGGATCACAGCGTGAG GGAAGACTGGGCTCTTCATCTTCCATTGTTACTTCATGCTGTCTTTTTGGGTTTGGACCATTATCGGCCA GAAGTCTTCGAGCACAGCAAAAAGCTGCTGCTTCACCTCCTCATCGCCCTCTCTTGCAACAGTAACTTTC ACGCCATTGCCTCTGTACTCCTGCAGACCCGCGAGATGGGGGAAGCGAAGACACTAACCATGCAGCCAGC TTACCAGCCGGAGTATCTCTACACTGGCGGCTTTGACTTCCTGAGAGAGGATCAGTCATCCCCAGTGCCA GACTCTGGCCTCAACTCCAGTTCCACCTCCTCCAGCATCAGTCTGGGGGGCAGCAGCGGGAACCTCCCAC AGATGACCCAAGAGGTGGAAGATGTCGAAGCAGCCACTGAAACGGACGAGAAGGCCAGCAAGCTCATCGA GTTTCTGACGACCAGGGCATTCGGGCCACTTTGGTGCCACGAAGACATCACACCCAAAAACCAGAACTCC AAGAGTGCTGAGCAACTCTCTAATTTCCTGCGTCACGTTGTCTCTGTGTTTAAGGATTCCAGATCAGGTT TCCATCTGGAGCAGCATCTGAGCGAGGTTGCGCTGCAAACTGCTCTTGCAAGCTCTTCCAGGCACTATGC AGGCCGGTCTTTCCAGATCTTCCGGGCCCTCAAACAACCTCTATCAGCGCATGCCCTGTCTGACCTCCTG TCCAGATTGGTGGAGGTGATCGGAGAGCATGGTGATGAGATTCAGGGATATGTGATGGAAGCGCTCCTGA CCCTGGAGGCCGCTGTGGATAACTTGTCGGACTGCTTGAAGAACAGTGACCTCTTCACAGTGTTATCTCG TTCTTCATCGCCAGACCTAAGCTCCAGCAGTAAACTGACAGCGAGCAGGAAAAGCACCGGACAGCTGAAC GTCAATCCCGGGACTCCTGGCAGCGGCGGAGGCGGCGGCGGCAGCGGCAACACCACGACTGCAGAGCGAA GCCGGCACCAGAGAAGCTTCTCTGTGCCCAAGAAGTTCGGTGTCGTTGACCGATCCTCAGACCCGCCTCG GAGCGCCACCCTGGACAGAATTCAAGCTTGTACCCAACAAGGCCTTTCCTCAAAAACCAGAAGCAATTCC TCCCTGAAGGAGAGCCTCACGGACCCGTCCCACGTAAGCCACCCCACCAACCTGCTGGCCACCATTTTCT GGGTCACGGTGGCCCTGATGGAGTCTGATTTTGAGTTTGAATACCTGATGGCCTTACGGCTCTTGAACCG ACTGCTGGCACATATGCCGCTGGAGAAAGCTGAGAACCGAGAAAAGCTGGAGAAACTCCAGGCGCAGCTC AAGTGGGCGGACTTCCCAGGGCTACAGCAGCTGCTCCTGAAGGGATTCACCTCTCTCACCACCACAGACC TGACCCTGCAGCTTTTCAGCTTGCTGACATCAGTGTCCAAAGTCCCCATGGTGGACTCGTCCCAAGCTAT TGGATTTCCGCTGAATGTCTTGTGTCTCCTGCCTCAACTGATCCAGCATTTTGAAAATCCCAATCAGTTC TGTAAGGATATAGCTGAAAGGATCGCTCAGGTTTGCTTGGAAGAAAAAAACCCTAAACTTTCCAACCTGG CTCACGTCATGACCCTTTACAAAACACACAGCTACACAAGGGACTGCGCCACATGGGTCAACGTGGTCTG TCGCTACCTTCATGAAGCCTATGCCGACATCACCTTGAACATGGTCACCTACCTGGCAGAGTTGCTGGAG AAAGGCCTCCCCAGCATGCAGCAGCCGCTCCTGCAGGTCATCTACAGTCTACTCAGCTACATGGACCTCT CTGTCGTTCCTGTCAAGCAGTTTAACATGGAAGTCCTGAAGACCATTGAAAAATACGTACAGAGCATTCA CTGGAGGGAAGCGTTGAATATCTTGAAGCTGGTTGTCTCTCGATCGGCCAGCCTGGTATTGCCTTCCTAC CAACACAGCGACCTCTCCAAGATAGAACTACACCGGGTGTGGACCAGCGCCTCAAAGGAACTGCCGGGCA AGACCCTGGACTTCCACTTCGACATCTCAGAGACTCCAATCATTGGGAGACGGTACGATGAACTCCAGAA TTCCTCTGGACGGGATGGGAAGCCTAGGGCCATGGCCGTCACCCGGAGTGCATCCTCTACCTCCTCCGGC TCCAACTCCAATGTCCTTGTTCCTGTGAGCTGGAAAAGACCCCAGTATTCTCAGAAAAGAACGAAAGAGA AGCTAGTGCACGTCCTCTCTCTGTGCGGCCAGGAAGTCGGACTAAGCAAAAACCCGTCGGTGATTTTTTC CTCGTGTGGGGACCTGGATCTTCCGGAGCATCAGACAAGCCTGGTGTCATCCGAGGACGGCCCCCGGGAG CAGGAGAACATGGATGACACCAACAGCGAACAGCAGTTCAGAGTCTTCAGGGACTTCGATTTCCTAGACG TGGAACTGGAGGACGGGGAGGGGGAGAGTATGGACAACTTCAACTGGGGAGTGCGCAGGCGCTCCCTGGA CAGCCTGGACAAGTGTGATATGCAGATCCTGGAGGAGCGCCAGCTCTCCAGAAGTACTCCCAGCCTAAAC AAGATGAGCCACGAGGATTCCGATGAGTCATCCGAGGAGGACCTCACAGCCAGCCAGATCCTGGAACACT CAGACCTTATCATGAACCTCTCCCCCTCCGAGGAGGCGAATCCCATGGAGCTGCTGACCAGTGCCTGTGA CTCCGCCCCCGCAGACCCTCATTCCTTCAACACCAGAATGGCAAACTTCGAGGCTTCTTTGCCTGATATA AATAATCTGCAGATTTCAGAGGGGTCAAAGGCTGAGGCAGTCCCCGAAGAGGAGGACACCACCGTGCACG AAGATGATCTCTCAAGCTCCATCAATGAGCTCCCAGCAGCGTTTGAATGCAGCGACAGCTTCAGCCTGGA TATGACGGAGGCGGAGGAGAAAGGAAATCGGGGCCTGGACCAGTACACTCTCGCCAGCTTCGGAGAAGGT GACAGGGGTGTGTCTCCCCCTCCCTCGCCCTTCTTCTCGGCCATCCTTGCTGCCTTTCAGCCCGCCGCCT GTGATGACGCCGAGGAAGCCTGGCGAAGCCACATTAACCAGCTCATGTGTGACTCAGACGGCTCCTGTGC TGTGTACACATTTCATGTGTTCTCCTCTCTGTTTAAGAATATTCAAAAGAGGTTCTGCTTCCTAACCTGT GATGCAGCCAGTTACCTTGGAGATAACCTCCGGGGAATCGGGTCCAAATTTGTCAGCTCTTCCCAGATGC TCACCTCCTGTTCTGAATGCCCTACGCTGTTCGTAGATGCAGAGACTCTCCTTTCCTGTGGGCTCCTGGA CAAGCTCAAGTTCAGTGTGCTGGAACTGCAAGAATATCTGGACACGTACAACAACAGGAAAGAGGCCACA CTCTCGTGGCTTGCCAACTGTAAGGCAACGTTTGCAGGTGGCTCGAGAGATGGAGTGATTACCTGCCAAC CCGGGGACTCGGAAGAAAAGCAACTGGAGCTGTGTCAGAGGCTGTACAAGCTGCATTTCCAGCTGCTCCT GCTCTATCAATCCTATTGCAAGCTCATCGGCCAGGTGCATGAAGTGAGCTCCGTGCCCGAGCTGCTGAAC ATGTCCAGAGAACTGAGTGATCTGAAGAGGAACCTGAAAGAGGCCACTGCCGCCATCGCCACAGACCCAC TGTACATCGAGGGGGCGTGGTCAGAACCAACCTTCACCTCCACAGAGGCGGCCATCCAGTCCATGCTGGA GTGCCTGAAGAACAATGAACTTGGCAAAGCCCTGAGGCAGATCAAAGAGTGCAGAAGCCTGTGGCCCAAC GACATCTTTGGAAGCAGTTCTGACGATGAGGTCCAGACACTCCTGAATATTTATTTCCGTCACCAGACTC TGGGACAGACGGGTACTTATGCCCTGGTGGGGTCTAACCACAGCCTGACTGAAATCTGCACCAAGCTCAT GGAGCTGAACATGGAGATCCGAGACATGATCCGCAGGGCCCAGAACTACCGGGTCCTCACAGCCTTCCTC CCAGACTCCAGTGTGTCTGGCACTAGTCTCTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_172887 |
Insert Size | 9063 bp |
OTI Disclaimer | 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). |
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_172887.2, NP_766475.2 |
RefSeq Size | 10753 bp |
RefSeq ORF | 9063 bp |
Locus ID | 320365 |
UniProt ID | E9Q8I9 |
Cytogenetics | 5 89.36 cM |
Gene Summary | Plays a crucial role in the structural integrity of mitotic centrosomes and in the maintenance of spindle bipolarity by promoting PLK1 activity at the spindle poles in early mitosis. May function as a scaffold promoting the interaction between AURKA and PLK1, thereby enhancing AURKA-mediated PLK1 phosphorylation.[UniProtKB/Swiss-Prot Function] |
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