Gcc2 (NM_027375) Mouse Untagged Clone

CAT#: MC224816

Gcc2 (untagged) - Mouse GRIP and coiled-coil domain containing 2 (Gcc2), (10ug)


  "NM_027375" in other vectors (2)

Reconstitution Protocol

USD 1,554.00

7 Weeks*

Size
    • 10 ug

Product Images

Frequently bought together (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

USD 507.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

USD 160.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

USD 59.00

Other products for "Gcc2"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Gcc2
Synonyms 0610043A03Rik; 2210420P05Rik; 2600014C01Rik; AW112121; mKIAA0336
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC224816 representing NM_027375
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGAGGATTCTGCTCCAGATGCCGTAGCTGCAGCACCCTCCGGGACCCCGAAATCCAAGCTAGAAACGT
TGCCCAGAGAAGATCTCATCAAGTTTGCCAAGAAGCAAATGATGCTCCTGCAGAAAGCCAAAGCAAGGTG
TACAGAATTAGACAAAGAAGTTGAAGAACTCAAATCAAAACCTGTTGATGGAGGAACTGATGATATTATT
AAGGTACTAACTGAACGCTTGGATGCTCTTCTTCTGGAAAAAGCAGAGACTGAACAACAGTGTCTATGTC
TGAAAAAAGAAAATGTTAAAATGAAGCAAGAGGTTGAGGATTCTGTAACTAAACTGGAAGAGACACACAA
AGAGTTTGAACAATCACATAGAAACTACGTAAAAGAAATTGAAAGCTGTAAAAATGAGCTGATGGCAGTG
CACTCAGAGCACAGCAAAGAAACGGCCATCTTACAAAAAGAACTGGAAGAAGCTGTCCATAAGCAAGTAG
AGCTGAGAGAGCAGCTTAAGTCTCAGAGTGACTCTGAAGATAACGTGAGAAAACTGCAGGAAGAGATTCA
AAACATCACAGCAGCATTTGAGGAACAGATTTCATGTCTAGAGAAGAAATTAGAAGCTACCAGTGATGAA
AAACAACAAGAGATTATTCATCTCCAGAAAGTCATTGAGGACAAGGCTCAGCACTACCAAAAAGATATTA
ATACTTTCCAAGCAGAGATTTTGCAGCTGAGAGCTACACACAAAGAAGAAGTTACTGAGCTGATGTCTCA
AATAGAAACATCAGCTAAAGAACACGAGGCAGAAATAAATAAACTAAAAGAGAACAGAGTGACACAGTGT
GAGGCAAGTGAGAACATTCCAGAGAAATACCAATGTGAATCGGAAAACTTAAATGAAGTCGCCTCAGATG
CAAGCCCGGAGAGTCAGAATTGCTCTGTGGCCTTACAGGAAGATCCTTCTGCGGAACAAACAGTATGTGA
TAAAGTCAGACAATTGGAAGATTCATTAAAAGAACTGGAATCTCAACATAGTATCTTAAAAGATGAAGTA
ACTTATATGAATAATCTCAAGTTAAAACTTGAAATGGATGCCCAGCATATAAAGGATGAGTTTTTCCATG
AACGAGAAGACTTAGAGTTTAAAATTAATGAACTGTTGCTGGCTAAAGAAGAACAGGGCTATGTAGTAGA
AAAATTAAAATATGAGCGAGAAGATTTAAATAGGCAACTTTGCTGTGCTGTGGAACAACATAACAAAGAA
ATACAGCGTCTTCAGGAACACCATCAGAAAGAAGTCTCTGAACTAAGTGAGACATTTATATCAGGTTCAG
AAAAAGAAAAGTTAGCATTGATGTTTGAAATACAAGGTCTTAAGGAACAGTGTGAAAATCTACAACATGA
AAAGCAAGAGGTAGTTCTAAACTATGAGAGTTTACGAGAGATGATGGAAATTTTACAAACAGAACTTGGA
GAATCTGCTGGAAAAATAAGTCAAGAGTTTGAAACAATGAAGCAACAGCAAGCATCTGATGTTCATGAGC
TTCAGCAGAAGCTAAGAAGTGCTTTTAATGAAAAAGATGCTCTTCTTGAAACTGTGAATCGCCTCCAAGG
AGAAAATGAAAAATTATTATCTCAACAAGAATTAGTACCAGAACTTGAAAGTACCATAAAGAACCTTCAG
GCAGATAATAGCATGTACTTAGCCAGTCTTGGTCAAAAAGATACCATGTTACAAGAATTAGAAGCAAAGA
TAAGTTCTCTTGCTAAAGAAAAAGATGACTTTATAAGTAAAATCAAAACTTCCCATGAAGAGATGGATGA
TCTCCATCAGAAATGGGAAAGGGAACAGAGACTGTCTGTAGAACTCAGGGAAGCAGCAGGGCAAGCTGCC
CAGCACAACAGTGAACTGAGACAAAGAGTAAGTGAATTAACAGGGAAACTAGATGAACTAGTAAGAGAAA
AGAGTCAAAATGACCAAAGCATTACGGTTCAAATGAAAACTATGACGGAAGATCAAGAAGCTCTGTCATC
TAAAATCAAGTCTCTTTATGAGGAAAACAATAGACTACATTCAGAAAAGGCCCAGTTGAGCAGGGATTTA
GAAGCACTTCAGGCTCAACAAGATTTTGCCCATAAAGAACATGTTGCTGAATTCGAAAAGAAACTCCAGT
TAATGGTTGAGGAGCGAGACGATTTAAATAAACTGCTTGAAAATGAGCAAGTTCAGAAGTCATTTGTTAA
AACTCAGTTGTATGAGTATCTTAAGCAACTGAGGGCAAGCATTTTAGAAGAAAATGAAGAGGAAGATGTT
GTCAAACTTATACAAGCTGTAGGTGAATCTTTAGTGAAAGTAAAGGAAGAAGAACATAACTTAGTCTTTG
AATATGATGCAAGGGTATTAGAATTAGAAAATAAGATTAAGTGTCTTCAAGAGGACAGTGCAGTTCAGTG
TGAAGAACTAAGGACTTTAGTAAGAGACTCTGAGCAAGAGAAAATTCTCCTAAGAAAAGAATTAGATGCA
GTCACATCAGCAAAAGAGGCCCTCCAACTTGATCTTTTAGAAATGAAGAATACTAATGAGAAAGCAAGCC
TTGAAAACCAGACTCTTTCAACTCAGGTTGAAGAATTATCTCAGACATTACACAGCAGAAATGAAGTCCA
TGATGAAAAGGTTCTTGTAATAGAACATGAAAACCTAAGGCTACTGCTTAAACAGAGGGAATCTGAACTC
CAAGATGTGAGAGCAGAATTGATACTGCTAAAGGATTCCTTAGAGAAATCGCCTTCTGTAAAAAATGATC
AACTTTCATTGGTAAAAGAGCTGGAAGAAAAAATAGAAAGTCTGGAAAAAGAATCCAAAGACAAGGATGA
GAAAATAAGTAAGATAAAACTAGTTGCTGTGAAAGCAAAGAAAGAACTAGATTCTAACAGGAAAGAGGCC
CAGACACTACGGGAAGAACTGGAATCCGTGCGGTCAGAAAAGGACCGCCTGTCTGCTTCTATGAAGGAGT
TCCTCCAAGGAGCAGAGAGCTATAAGAGTCTTCTGTTAGAATATGATAAGCAGTCAGAACAGCTGGATGT
GGAAAAAGAACGTGCTCATAATTTTGAACGTCATATAGAAGACCTTACCAAACAATTAAGAAATTCGACT
TGCCAGTATGAAAGACTAACTTCAGACAACGAGGATCTCCTGGCTCGAATTGAGACCCTGCAGGCTAATG
CCAAGTTGTTAGAAGCACAGATCTTAGAAGTCCAGAAAGCCAAAGGAGTAGTAGAAAAAGAACTGGACGC
TGAAAAACTTCAGAAAGAGCAGAAAATTAAGGAACATGTCAGTACTGTAAATGAGCTCGAAGAACTCCAA
CTCCAATTTCAAAAGGAAAAGAAGCAGCTTCAGAAAACAATGCAAGAATTAGAGCTGGTTAAAAAGGATG
CCCAACAGACCACATTGATGAATATGGAAATAGCAGATTACGAACGTTTGATGAAAGAACTAAATCAAAA
GTTAACAAATAAAAACAGTACAATAGAAGATTTGGAGCAAGAAATGAAAATTCAGAAAGAGAAACAAGAA
ACCCTACAAGAAGAAATAACTTCACTGCAGTCGTCAGTACAGCACTATGAAGAAAAGAACACTAAAATCA
AGCAGCTGCTTGTGAAAACCAAAAAGGAGCTGGCAGATGCAAAGCAAGCGGAAACCGATCACTTACTACT
CCAGGCATCTTTAAAGGGTGAGCTGGAAGCAAGCCAGCAGCAAGTAGAAGTCTATAAAATTCAGCTGGCT
GAGATGACATCTGAGAAACACAAAATCCATGAGCATCTGAAGACTTCTGCGGAACAGCACCAGCGCACAC
TGAGTGCATACCAGCAGAGGGTGGTGGCCCTGCAGGAGGAGAGTCGCGCTGCCAAGGCAGAACAAGCTGC
TGTCACCTCTGAATTTGAGAGCTACAAAGTCCGAGTTCATAACGTTCTAAAGCAACAGAAAAATAAATCT
GTGTCTCAGGTTGAAACTGAGGGAGCTAAACAAGAAAGGGAACACCTGGAAATGCTGATTGACCAACTGA
AAATCAAGTTACAGGACAGCCAAAATAGCTTACAAATCAGTGTATCGGAGTACCAGACCCTGCAGGCTGA
GCACGACACTCTGCTAGAGAGGCACAACCGGATGCTGCAGGAAACTGTGACCAAAGAGGCAGAACTTCGG
GAAAAGCTATGTTCAGTTCAATCTGAGAACACCATGATGAAGTCTGAGCACTCGCAGACAATGTGTCAGC
TAACATCCCAGAATGAAGCACTCCGTACCAGCTTCCGAGACCAAGTTCGACACTTGCAGGATGAGCACAG
AAAGACAGTGGAGACTCTGCAGCACCAGCTCTCCAAGCTGGAAGCTCAGCTCTTCCAGCTCAAGAGTGAG
CCATCCACAAGAAGCCCTGCTTCTTCCCATCAACCTTCGAAAAGCCTCCGAGAAAGAAGAACCACAGACC
TCCCCCTTCTGGACATGCACACTGTGGCCCGCGAGGAGGGGGAGGGCATGGAGACAACTGACAGCGAGTC
TGTGTCGTCGGCAGGCACACACATTCAGTCCTTAGAGCAGCTCCTTAGCTCTCCTGACACCAAGCTTGAA
CGCCTTGCAGAGACCTCCTTGTGGCATAATGAATTTACCAAAGAAGAATTAGCTGAGAAGCTCAGCTCCA
CCACGAAGAGTGCAGATCACTTAAACGGCCTGCTTCGGGAGACAGAGGCTACCAACGCTATCCTTATGGA
GCAAATTAAGCTTCTCAAGAGTGAAATAAGAAGACTGGAAAGAAACCAAGAGCGTGAGAAGTCTGTGGCT
AACCTGGAGTACTTGAAGAATGTCTTGCTGCGGTTCATTTTCCTGAAGCCGGGTAGTGAAAGAGAGAGGC
TTCTGCCTGTGATAGACACCATGCTGCAGCTCAGCCCTGAGGAAAAGGGAAAGCTTGCCACAGTTGCTCA
AGGTGAGGAAGAAAGTGCTTCTCGTTCCTCTGGATGGGCGTCCTATCTGCATAGCTGGTCTGGACTGCGA
TAG


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_027375
Insert Size 5043 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_027375.2, NP_081651.2
RefSeq Size 6528 bp
RefSeq ORF 5043 bp
Locus ID 70297
Cytogenetics 10 B4

Other Versions

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*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.