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Igsf10 (NM_001162884) Mouse Untagged Clone

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SKU
MC225369
Igsf10 (untagged) - Mouse immunoglobulin superfamily, member 10 (Igsf10), (10ug)
Interest in protein/lysate? Submit request here!
ORF Plasmid:
Tag Free tGFP DDK
  $2,355.00
10 Weeks*
Bulk Requests & Clone Modifications

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Other products for "Igsf10 or NM_001162884"

Specifications
Specifications
Product Data
Type Mouse Untagged Clone
Target Symbol Igsf10
Synonyms 6530405F15Rik; 9030224D03; AA409708; AA536958; Adlican2; AI414626; CMF608
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
Fully Sequenced ORF
>MC225369 representing NM_001162884
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGCAGAAGAGAGGCAGGGAAGTCAGCTGCTTGCTGATCTCCCTCACTGCCATCTGCCTGGTGGTCACCC
CTGGGAGCAGGGTCTGTCCTCGCCGATGTGCCTGCTATGTGCCCACAGAGGTGCACTGTACATTTCGGTA
CCTGACCTCCATCCCAGACGGCATCCCAGCCAATGTGGAACGAGTCAATTTAGGGTATAACAGCCTCACT
AGATTGACAGAAAATGACTTTTCTGGCCTGAGCAGACTGGAGTTACTCATGCTGCACAGCAATGGCATTC
ACAGAGTCAGTGACAAGACCTTCTCGGGCTTGCAGTCCTTGCAGGTCTTAAAAATGAGCTATAACAAAGT
CCAAATAATTGAGAAGGATACTTTGTATGGACTCAGGAGCTTGACCCGGTTGCACCTGGATCACAACAAC
ATTGAGTTTATCAACCCCGAGGCGTTTTACGGACTCACCTTGCTCCGCTTGGTACATCTAGAAGGAAACC
GGCTGACAAAGCTCCATCCAGACACATTTGTCTCTTTGAGCTATCTCCAGATATTTAAAACCTCCTTCAT
TAAGTACCTGTACTTGTCTGATAACTTCCTGACCTCCCTCCCAAAAGAAATGGTCTCCTCTATGCCAAAC
CTAGAAAGCCTTTACTTGCATGGAAACCCATGGACCTGTGACTGCCATTTAAAGTGGTTGTCCGAGTGGA
TGCAGGGAAACCCAGATATAATAAAATGCAAGAAGGAAAGAATCCCCTCCAGTCCTCAGCAGTGTCCCCT
TTGCATGAACCCCAGGATCTCTAAAGGCAGATCTATTGCTATGGTTCCATCTGGCTCGTTCCTGTGTACA
AAGCCAACCATTGATCCATCACTGAAGTCAAAAAGCCTGGGTATTCAGGAGGACAATGGATCTGCCTCCG
TCTCACCTCAAGATTTCATAGAACCTTTTGGCTCCTTGTCTTTGAACATGACAGACCTGTCTGGAAATAA
GGCCAATGTGATCTGTAGTATCCAAAAGCCTTCTAGGACATTACCAATTGCATTCACTGAAGAAAATGAC
TACATCATGCTAAATATGTCATTTTCAACAAATCTTGTGTGCAGTGTCAATTATAATCACATCCAGCCAG
TGTGGCAACTCCTGGCTTTGTACAGTGACTCTCCTCTGATATTAGAAAGGAAGCCCCAGCATACTGAGAC
TCCACTGCTGTCTCCCAAATATCAACAGGTGGCTCTTAGGCCTGAAGACACTTTTACCAACATAGAGGCT
GATTTCAAAGCAGATCCTTTTTGGTTCCAACAAGAAAAAATTTCCCTGCAGCTCAACAGAACTGCTACCA
CACTTAGCACATTACAGATCCAATTTTCCACGGATGCTCAAATCACTTTACCAAAGGCAGAGATGAGACC
GGTGAAACGCAAATGGACCATGATTCTGATGATGAACAATACCAGACTGGAACATACTGTTTTGGTTGGC
GGCACTATTGCCCTGGACTGTCCGGGCAAAGGTGACCCTTCACCTCACTTGGAATGGGTTTTAGCTGATG
GGAGTAAAGTGAGAGCCCCTTATGTTAGTGAGGATGGGCGAATCCTAATAGACAAAAAGGGGAAGTTGGA
ACTCCAGATGGCTGATACCTTTGATGCAGGTCTTTACCATTGCATAAGCACCAATGATGCTGATGCAGAT
ATTCTCACATACAGGATAACTGTGGTAGAGCCCTATGTAGAAAACAAGCATGAAAATGGAGCTCTGCACA
CAGTAATTATGGGTGAGATACTCGATCTTCCATGCCTTTCCACTGGTATTCCAGATGCTTCTATTAGCTG
GATTCTTCCCCGGAACACTGTGTTCTCTCAGTCATCAAGAGACATGCAAATTCTTAACAATGGGACCTTA
AGAATATTACAGGCTACACCAAAAGATCAAGGCCATTACCGATGTGTAGCAGCCAACCCATCAGGGGCTG
ATTTTTCCAGTTTTCAAGTTTCAGTCCAAATGAAAGGTCAAAGGACAATTGAGCATGACAGGGACATAGA
TGGATCTGGACTTGAAGAACCCAAGCCCAGTGTTCTCCTTAAGCAGCCACCATCTTTGAAACTCCCTGCA
TCATCTTTGACAGGGACAGAGGCTGGAAAACAAGTCTCTGGGATACATAAGAAAAACAAACATAGAGACT
TAACACATCGACGGCGTGGGGATTCCACTCTCCGGAGATTCAGGGAACACAGGAGGCAGCTCCCTCTCTC
TGCTCGGAGAATTGACCCCCAACACTGGGCAGCACTTTTAGAAAAAGCAAAGAAGAATTCTGTTCTAAGG
AAGCAAGAAAATACCACAGTAAAGCCAACGCCACTGGCTATTCCACTTGTGGAACTCGCTGGGGAGGAAA
AAGACGCCTCCGGCCTGACTCCTCCAGATGAAGAATTCACGGTTCTGAAAACTAAGGCTTTTGGTGTCCC
AGAAAGGTCACCAACTGCTGACTCTAGACCAGTAAATCATGGCTTTGTGACAAGTTCAGCTTCTGGCACA
GAAGTCTCCTCCACCGTGAATCCGCAAACACTACTACCCACGCACCTTCCTGATTTCAAATTATTTAATG
TTGTGGACAGTGCAGCTGTGTCAAAGAGTATGAACCGACCTGTAACAAGCAAGATAGAAGATACAACACA
TCAAAACCCAATCATTATCTTTCCATCAGTAGCTGAAATTCAAGATTCTGCTCAGGTGGGGAGAACGTCT
TCCCAAAGTGCACACCCCGCAACAGGGGGAGCCATGGCTACCTATGGCTATACCACCATGCTTAGTAGCT
TCACCAACAAAGCCAATACAGTCCTGCAGTCAGCAAATCCAACAGAAAGTTATGGACCTCAGATACCTTT
AACAGAAGTAAGTAGAGTTAGCAGTAATAACTCCTTGGCTCACACTACTAAAGATCCAGGCTTCTCCAAG
CGCCCTTCAGATTCCCACACCACTGCCCCTTCTTTATTTCAAACTCCTAGAAACAACAGTACAGGTAACG
TGGGAAGAGAGAGGACAATTTGGAGCAGAGGGCGAGCTATAAGTCCATATAGAACTCCAGTTCTCCGTCG
GCATAGACACAGGATTGTGAGGCCAGCACTCAAGGGACCTGCTAACAGAAATATAAGTCAAGTTTCAGCC
ACGGAGCCCCCTGGGATGTGCCGAACCTGTTCTTCCACAGAAAGGCTCACCATGGCTACGGCAGCACTGT
CAGTTACAGGCTCATCCCACACTACCCTCCCCAAAGCTAACAATGTTGGGATTATTTCAGAAGAGTCTAC
CACTGTGGTCAAGAAGCCATCTTTACTATTGAAGAACAAACAAGATGTAGATATAGAGACAATAACAACC
ACTATAAACTATTTCAGAAGTGAAAGTACCCACATGACTCCCACTGAAGCAAGCATGATTTCTGCTCCAA
CATCCATATCCCTGGGAAAAACTCCTATAGACACTAGTGGTCACCTGAGCATGCCTAGGACCATCCAAGC
TGGAACAGATTTAGTGGTGACACCACCACTTTCCAGTCCACTTAGCCAACCCTCAATACCAACAAAAGCA
ACAAGCACAAAACTCTCAAGAAGAAAAATTCCCTGGCACCCAATCTTTGCAAATAACCATAACAAAGAGG
GGATGCTAAAGAATCTGCATCAGTTTGGTTTACAAAAGAACACAGCCACTAAGCCTCCTGAAAAAGCTCC
TCTTTTACCCACAGATCATGGTTCCTCCTCACCTTCTACAACACTCTTGGCAAGTCTGACGCCAGCTCAG
TCTGCAACAATGGCTGCCACTCGGCGCAATGGCACTGAAGTGCAAGGTGCCAGAAGTCTCTCTGCAGGGA
AAGAGCAGCCCTTCATCAACTCCTTCCTAGTGCTTCCTAGCACCACAAGAAAGAGATCTAGTACATTAAG
CTTCCTGTCAGTGGAAACCCCCACAGTGACAACTCCTCCTGTTATTGCATCTGCCATTATCTCTGAAACC
CAAGAAGTACGATCCAAAAAAGCAAAAGACCAAACAAAGGGGTCTCTGAAGAACAGGAAAGGCCCAACCA
TCACCCCCAGGCAGATTTCTGGCTATAGCACATACTCAGTTCCAACAACAACTGATACTCCCTTGGCTTT
CAGTCATTCCCCGGGAAAAGTCACTGGTAGGACTGTAAGTACAGCTGCTCCTCACTCAGCAGCTTCTCTC
CTGGGCATAACTGAACTGCCCCAGAAATGCACTCATACTTCGGGAAATATAACAGCTTCGGAAACAACTC
TGTTGAGCAAATCACAGGAGAGCACCGCAATGAAAAGAGCCTCCGCCACACCACCACTCCTCAGCAGTGG
GGCACCCCGAATGCCTACTCCTTCCCCTCCTCCCTTCACTAAGGTTGTGGTTACAGACAGTGAGGTCCCA
GCAGTTTTCAAGATGATGTCAAATAGGATGGTCACCATATATGAATCTTCAAGGCACGATATAGATCTGC
AGCAACCCTCAGCAGAGGCTAGCCCCAATCCTGAGATCTTAACTGGATCCACTGACTTTCCCCTCTCTAG
TCTGTTGACCTCCACTCCTATGCCAGCACCAAGAGTGGATAAACCACAGGATTCTCAATGGAAGCCTTCT
CCCTGGCCAGAAAACAAATTTCAGCTCAGGTCATACTCAGAAACCATTGAAAAGGGCAAAAGGCCAGAAA
TAAGCCTGTCACCCCACCTCAGCTTTCCAGAGGCCAGCACTCATGCCTTGCATTGGAATGCACAGAGGCA
TGCAGAAAAGAGTGTCTTTGATAAGAAACCTGCTCAAAACCCAACTTCCAAACACCTGCCCTATGACTCT
CTGCCTAAGACTATATTGAAGAAACCAAGAATAATTGGAGGAAAGGCTGCAAGCTTTACTGTTCCAACTA
ATTCAGATGTCCTTCTTCCTTGCGAGGCTGTTGGAGACCCAAAGCCCACCATCCACTGGACCAGAGTCTC
ATCAGGACGTGAAATATCCCGAGGGATACAGAAAACCCGGTTTCATGTGCTTCCCAATGGCACCTTGTCC
ATCCAGAGGGTCAGCATTCAGGACCGTGGACAGTACCTGTGCGCTGCCTCTAATCCACTAGGTGTAGACC
ACCTTCATGTCACTCTGTCTGTGGTCTCCTACCCTGCTAGGATTCTGGAGAGTCATGTCAAGGAGATCAC
AGCTCATTCCGGAAGTACTGTGAAACTTAAGTGTAGAGTAGAAGGTATGCCAAGACCTACAATTTCCTGG
ATACTCGCAAACCAAACAGTGGTCTCGGAAACACCCGAGGGAAGCCGGAAGGTCTGGGTGACACCCGATG
GAACGTTGATCATCCATAATTTGAGTCTTTATGACCGTGGTTTTTACAAGTGTGTAGCCAACAACCCATC
TGGCCAGGATTCACTGTTGGTTAAGATACAAGTCATCACAGCTCCCCCTGTTATTATAGAGCAAAAGAGA
CAAGCCATCGTTGGCGTTTTAGGTGAAAGTTTGAAACTGCCCTGCACTGCAAAGGGAACTCCCCAGCCCA
GTGTTCATTGGGTCCTCTATGATGGGACTGAACTAAAACCACTGCAGTTGACTCATTCCAGGTTTTTCTT
GTATCCAAATGGGACCCTGTATATAAGAAACATCGTTTCTTCAGTCAGGGGCACTTATGAATGCATTGCT
ACCAGCTCCTCGGGCTCAGAGAGAAGGGTAGTGATTCTAAGAGTAGAAGAGCAAGAGACAGTTCCCAGGA
TAGAAACTGCCTCGCAGAAATGGACAGAGGTGAATTTGGGTGAGAAATTACTACTGAACTGCTCAGCTAC
TGGGGATCCGAAACCTACAATAATCTGGAAGTTACCATCCAAGGTTGTCATTGACCAGTGGCACAGAATG
GGCAGCCGGATCCATGTCTACCCAAATGGCTCCTTGGTTATTGGATCGGTGACAGAAAAGGATGGTGGTG
ACTACTTATGTGTGGCAAGAAACAAAATGGGAGATGACCTGGTCCTGATGCATGTCCGCCTAAGACTGAC
ACCTGCCAAAATTGAACACAAGCAGCATTTTAAGAAGCAAGTACTCCATGGGAAAGATTTCCAAGTTGAC
TGCAAGGCTTCTGGCTCCCCTGTGCCTGAGGTATCCTGGAGTTTGCCTGATGGAACAGTGGTGAACAATG
TAGCACAAGCTGATGACAGTGGCTACAGGACCAAGAGGTACACCCTCTTCCACAACGGAACCTTGTATTT
CAACAAAGTTGGGATGGCAGAGGAAGGAGATTATATTTGCTCTGCTCAGAACACCTTAGGGAAAGATGAA
ATGAAAGTTCACCTAACAGTTCTAACAGCCATCCCACGGATAAGGCAAAACTACAGGAGCAATGTAAGGA
TCAAGGCTGGAGACACAGCTGTCCTGGACTGTGAGGTCACTGGGGAACCCAAGCCAAATGTATTTTGGTT
GCTGCCTTCCAACAATGTCATTTCATTCTCCAATGACAGGTTCATATTTCATGCCAATGGAACTTTGTCC
ATCAATAAAGTGAAACCGCTTGACTCTGGGAAGTATGTGTGTGTAGCTCAAAATCCTAGTGGGGATGACA
CTAAGACATACAAACTGGATATTGTCTCTAGGCCTCCATTAATCAATGGTTTGTATGCAAACAAAACTGT
TATTAAAGCCACAGCCATTCAGCACTCCAAAAAACACTTGGACTGCAGAGCAGATGGGGTCCCACCACCC
CAGATCACATGGATTATGCCAGACAATATTTTCCTCACGGCTCCATACTACGGAGGCAGAATCACCGTGC
ATCAAAATGGAACCTTGGAAATTCGGAACATAAGGCTTTCTGATTCTGCGGATTTCACCTGTGTGGTTCG
GAGCGAAGGAGGAGAGAGTGTGTTGGTGGTGCAGTTAAAAGTACTGGAAATGCTGAGAAGACCAACATTC
AGAAACCCATTCAATGAAAAAGTAGTTGCCCAGGTTGGCAAGCCTGTAGCAATGAACTGCTCTGTGGATG
GGAACCCAACACCTGAAATTATCTGGATCTTACCTGATGGCACACAATTTGCTAATGGGCCACAAAATTC
CCCATATCTGATGGCAAGCAATGGTTCTCTCATTGTTTACAAAGCAACTCGGAACAAGTCAGGAAAGTAT
CGCTGTACAGCAAGAAATAAGGTTGGCTACATCGAGAAACTCATCCTGTTAGAAATTGGACAGAAGCCAG
TCATTCTGACATACGAACCGGGGATGATAAAGAGCGCCGGTGGGGAATCGCTATCCCTGCATTGTGTGTC
TGATGGAATCCCTAAGCCAAATGTCAAATGGACTACGCCAGGTGGCCTTGTAATCGACAGACCTCAAGTC
GGTGGAAAATACATATTGCATGAAAATGGCACGTTGGTCATCAAAGAAACAACAGCTCATGACAGAGGAA
ATTATATCTGTAAGGCTCAAAACAGCGTTGGCCAGGCAGTTATTAGTGTTCCCGTGACGATTGTGGCCTA
CCCTCCCCGAATTATAAACTACCTTCCCAGGAGCATGCTCAGGAGGACAGGAGAGGCAATGCAGCTCCAC
TGTGTGGCCTTGGGAGTCCCCAAGCCACAAATCACCTGGGAGACGCCGGGATACTCCCTGCTCTCAACGG
CGACAGAAAGAAGGCCCCACAGAAGTGAGATGCTTCCCCTACAAGGTACGCTGGTCATTCAGAATCTACG
AGCCTCAGATTCTGGCGTCTATAAATGCAGAGCACAGAACGTGCTTGGTGCCGATTATGCAACAACTTAC
ATCCAGGTCCTCTGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI |
ACCN NM_001162884
Insert Size 7785 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).
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 Method 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.
Shipping Ambient
Reference Data
RefSeq NM_001162884.1, NP_001156356.1
RefSeq Size 10084 bp
RefSeq ORF 7785 bp
Locus ID 242050
UniProt ID Q3V1M1
Cytogenetics 3 D
Summary Involved in the control of early migration of neurons expressing gonadotropin-releasing hormone (GNRH neurons) (PubMed:27137492). May be involved in the maintenance of osteochondroprogenitor cells pool (By similarity).UniProtKB/Swiss-Prot Function
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Documents
Resources
"NM_001162884" in other vectors (2)
SKU Description Size Price
MG223639 Igsf10 (tGFP-tagged) - Mouse immunoglobulin superfamily member 10 (Igsf10), (10ug) 10 ug
$2,341.00
MR223639 Igsf10 (Myc-DDK-tagged) - Mouse immunoglobulin superfamily, member 10 (Igsf10) 10 ug
$2,141.00

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