AKAP9 (NM_147185) Human Untagged Clone

CAT#: SC306304

AKAP9 (untagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3

Datasheet
SDS

  "NM_147185" in other vectors (2)

CN¥ 75,050.00

货期*
13周
规格
    • 10 ug

Product images

经常一起买 (4)
TA322560
Anti-AKAP9 Rabbit Polyclonal Antibody
    • 100 ul

CN¥ 1,999.00
CN¥ 3,280.00

暂停销售
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CN¥ 4,090.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CN¥ 1,280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CN¥ 480.00

添加到购物车

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms AKAP-9; AKAP350; AKAP450; CG-NAP; HYPERION; LQT11; MU-RMS-40.16A; PPP1R45; PRKA9; YOTIAO
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_147185, the custom clone sequence may differ by one or more nucleotides
ATGGAGGACGAGGAGAGACAGAAGAAGCTGGAGGCCGGCAAAGCCAAGCTTGCCCAGTTT
CGACAAAGAAAAGCTCAGTCGGATGGGCAGAGTCCTTCCAAGAAGCAGAAAAAAAAGAGA
AAAACGTCAAGCAGTAAACATGATGTGTCAGCACACCATGATTTGAATATTGATCAATCA
CAGTGTAATGAAATGTACATAAATAGTTCTCAGAGAGTAGAATCAACTGTGATTCCTGAA
TCTACAATAATGAGAACTCTACATAGTGGAGAAATAACCAGTCATGAGCAGGGCTTCTCT
GTGGAACTGGAAAGTGAAATTTCAACCACAGCAGATGACTGCAGTTCAGAGGTAAATGGT
TGCAGTTTTGTGATGAGAACAGGAAAGCCTACAAATTTATTAAGGGAAGAAGAATTTGGT
GTTGATGATTCTTATTCTGAACAAGGAGCACAAGACAGTCCGACTCATCTAGAGATGATG
GAAAGTGAGTTGGCTGGGAAGCAGCATGAGATTGAAGAGCTAAACAGAGAGCTGGAAGAA
ATGAGGGTTACCTATGGGACTGAAGGACTGCAGCAGTTACAAGAATTTGAAGCTGCCATT
AAACAAAGAGATGGCATTATAACCCAGCTCACTGCTAATTTACAACAAGCAAGAAGAGAA
AAGGATGAGACAATGAGAGAATTTTTAGAGTTGACAGAACAGAGTCAAAAATTACAGATT
CAATTTCAGCAATTACAGGCTAGTGAAACTCTGAGAAACAGCACTCATAGTAGCACAGCT
GCAGACTTACTACAAGCCAAACAACAGATCCTCACTCATCAACAGCAGCTTGAAGAACAA
GACCACTTATTAGAAGATTATCAGAAAAAGAAAGAAGACTTCACAATGCAAATTAGTTTC
TTGCAAGAGAAAATTAAAGTATATGAAATGGAACAAGATAAAAAAGTAGAAAACTCAAAT
AAAGAAGAAATACAGGAAAAGGAGACAATCATTGAAGAATTAAACACAAAAATAATAGAA
GAAGAAAAGAAAACTCTTGAGCTAAAGGATAAATTAACAACTGCTGATAAATTACTAGGA
GAATTACAAGAACAGATTGTGCAAAAGAACCAAGAAATAAAAAACATGAAATTAGAGCTG
ACTAATTCTAAGCAAAAAGAAAGACAGTCTTCTGAAGAAATAAAACAGTTAATGGGGACA
GTCGAAGAACTTCAGAAGAGAAATCATAAAGACAGCCAGTTCGAAACTGATATAGTACAA
CGAATGGAACAAGAAACACAAAGAAAGTTAGAACAACTCCGGGCAGAGCTGGATGAGATG
TATGGGCAGCAGATAGTGCAAATGAAACAAGAATTAATAAGACAACACATGGCACAGATG
GAGGAAATGAAAACACGGCATAAGGGAGAAATGGAGAATGCTTTAAGGTCATATTCAAAT
ATTACAGTTAATGAAGATCAGATAAAGTTAATGAATGTGGCAATAAATGAACTGAATATA
AAATTGCAAGATACTAACTCTCAAAAGGAAAAACTCAAGGAAGAACTAGGACTAATTTTA
GAAGAAAAGTGTGCTCTACAGAGACAGCTTGAAGACCTTGTTGAAGAATTGAGCTTTTCA
AGGGAACAGATTCAGAGAGCTAGACAGACAATAGCTGAACAAGAAAGTAAACTTAATGAA
GCACATAAGTCCCTTAGTACAGTGGAAGATTTGAAAGCTGAGATTGTTTCTGCATCTGAA
TCCAGAAAGGAACTAGAATTAAAACATGAAGCAGAAGTTACAAATTACAAGATAAAACTT
GAAATGTTAGAAAAAGAAAAGAATGCTGTGTTAGACAGAATGGCTGAATCACAAGAAGCT
GAATTAGAGAGGCTGAGAACACAGCTTCTATTTAGTCACGAAGAAGAGCTTTCCAAACTG
AAGGAAGATTTAGAAATTGAACATCGAATAAATATTGAAAAACTTAAAGATAATTTAGGC
ATTCACTATAAACAGCAGATAGATGGTTTACAGAATGAAATGAGTCAAAAGATAGAAACC
ATGCAGTTTGAAAAGGACAATTTGATAACTAAGCAGAATCAATTAATTTTGGAAATTTCA
AAGCTAAAAGATTTACAGCAGTCTCTTGTAAATTCAAAGTCAGAAGAAATGACTCTTCAA
ATCAATGAACTTCAAAAAGAAATTGAAATACTCAGACAAGAAGAAAAAGAAAAGGGTACA
CTTGAACAAGAAGTTCAAGAATTACAACTTAAAACAGAATTGTTAGAAAAACAGATGAAG
GAAAAAGAGAATGATCTTCAAGAAAAATTTGCACAACTTGAAGCAGAGAATAGCATTCTT
AAAGATGAAAAGAAAACCCTTGAAGACATGTTGAAAATACATACTCCTGTTAGCCAAGAA
GAAAGATTGATTTTCTTAGACTCCATTAAGTCCAAATCCAAAGACTCTGTGTGGGAAAAA
GAAATAGAAATACTTATAGAGGAAAATGAGGACCTCAAACAACAATGTATTCAGCTAAAT
GAAGAGATTGAAAAGCAAAGGAACACTTTTTCATTTGCTGAAAAAAACTTTGAAGTTAAC
TATCAAGAGTTACAAGAGGAGTATGCTTGCCTTCTCAAAGTAAAAGATGATTTAGAAGAC
AGTAAAAATAAACAGGAATTAGAGTATAAAAGTAAACTTAAAGCACTTAATGAAGAGCTT
CATTTGCAAAGAATAAATCCAACTACAGTGAAAATGAAAAGTTCTGTCTTTGATGAAGAC
AAAACTTTTGTAGCAGAAACATTGGAAATGGGTGAGGTTGTTGAAAAGGATACAACAGAA
CTCATGGAAAAACTTGAGGTAACCAAGCGAGAGAAATTAGAGCTGTCACAGAGACTGTCT
GATCTTTCTGAACAATTGAAACAGAAACATGGTGAGATTAGTTTTCTAAATGAAGAAGTT
AAATCTTTAAAGCAAGAGAAAGAACAAGTTTCATTGAGATGTAGAGAGCTAGAAATCATT
ATTAACCACAACAGGGCAGAAAATGTACAGTCATGTGATACTCAAGTAAGCTCTTTATTA
GATGGAGTTGTGACCATGACAAGCAGGGGTGCTGAAGGATCAGTTTCTAAAGTAAATAAA
AGTTTTGGTGAAGAATCAAAAATAATGGTGGAAGATAAAGTTTCTTTTGAAAATATGACT
GTTGGAGAAGAAAGTAAGCAAGAACAGTTGATTTTGGATCACTTACCATCTGTAACAAAG
GAATCATCACTTAGAGCAACTCAACCAAGTGAAAATGATAAACTTCAGAAAGAACTCAAT
GTACTTAAATCAGAACAGAATGATTTAAGGCTACAGATGGAAGCCCAACGCATTTGCCTC
TCTCTGGTTTATTCAACTCATGTGGATCAGGTTCGTGAATATATGGAAAATGAAAAAGAT
AAAGCTCTTTGCAGTCTTAAAGAAGAGCTTATTTTTGCTCAAGAGGAAAAGATCAAGGAA
CTTCAGAAAATACACCAGTTAGAACTACAGACTATGAAAACACAAGAAACAGGTGATGAA
GGAAAGCCTTTACATCTGCTCATTGGAAAACTTCAAAAGGCAGTGTCTGAAGAATGTTCT
TATTTTTTACAGACTTTATGCAGTGTCCTTGGTGAATATTATACTCCTGCTTTAAAATGT
GAAGTAAATGCAGAAGACAAAGAGAATTCTGGTGATTACATTTCTGAAAATGAAGATCCA
GAATTACAAGATTATAGATATGAAGTTCAAGACTTTCAAGAAAATATGCACACTCTTCTC
AACAAAGTAACAGAAGAATACAACAAACTCTTGGTACTTCAAACACGACTAAGCAAGATC
TGGGGACAGCAGACAGATGGTATGAAACTTGAATTTGGAGAAGAAAACCTTCCAAAAGAG
GAAACAGAGTTTTTATCAATCCATTCTCAGATGACCAATTTGGAAGACATTGATGTCAAT
CATAAAAGCAAGTTATCTTCTCTGCAAGATCTTGAAAAAACTAAACTTGAAGAACAAGTT
CAAGAATTAGAAAGCCTCATATCCTCTTTGCAGCAACAGTTGAAAGAAACTGAACAAAAC
TATGAGGCAGAGATCCACTGTTTACAGAAGAGGCTTCAAGCTGTTAGTGAGTCCACGGTT
CCGCCAAGCTTACCTGTTGATTCGGTGGTAATTACAGAATCTGATGCACAGAGAACAATG
TACCCTGGAAGTTGTGTGAAAAAGAATATTGATGGTACAATAGAGTTTTCTGGTGAATTT
GGAGTGAAAGAGGAAACAAATATCGTTAAGTTGCTTGAAAAACAATACCAAGAACAATTA
GAAGAAGAAGTAGCTAAGGTTATTGTGTCAATGAGTATAGCATTTGCTCAACAAACTGAA
CTGTCTAGAATATCTGGGGGAAAAGAAAATACTGCATCATCAAAGCAAGCACATGCTGTG
TGTCAGCAAGAACAACATTATTTTAATGAAATGAAATTATCACAGGATCAAATTGGTTTT
CAGACTTTTGAGACAGTGGATGTGAAATTTAAAGAAGAATTTAAACCACTTAGTAAAGAG
TTAGGAGAACATGGAAAGGAAATTTTATTATCAAATAGTGATCCCCATGATATACCAGAA
TCAAAGGACTGTGTGCTGACTATTTCAGAAGAAATGTTCTCCAAAGATAAAACATTTATA
GTTAGACAGTCTATTCATGATGAGATTTCAGTGTCAAGCATGGATGCTTCTAGACAACTA
ATGTTGAATGAAGAACAGTTGGAAGATATGAGACAGGAACTTGTACGACAATACCAAGAA
CATCAACAGGCAACGGAATTGTTAAGGCAAGCACATATGCGGCAAATGGAGAGACAGCGA
GAAGACCAGGAACAGCTACAAGAAGAGATTAAGAGACTTAATAGACAATTAGCCCAGAGA
TCCTCCATAGATAATGAAAACCTGGTTTCAGAGAGAGAGAGGGTGCTTTTAGAGGAGCTG
GAAGCACTAAAGCAGCTGTCTTTAGCTGGAAGAGAGAAGCTGTGTTGTGAGCTGCGCAAC
AGCAGTACGCAAACACAGAATGGAAATGAAAACCAAGGAGAAGTTGAAGAACAAACATTT
AAAGAAAAGGAATTAGACAGAAAACCTGAAGATGTGCCTCCTGAGATTTTGTCTAATGAA
AGGTATGCACTCCAGAAAGCTAATAATAGACTTTTGAAGATCCTCTTAGAAGTTGTAAAG
ACAACAGCAGCTGTTGAAGAAACAATTGGTCGCCATGTCCTTGGGATTCTAGATAGATCT
AGTAAAAGCCAGTCATCTGCCAGCCTAATTTGGAGGTCAGAAGCAGAGGCATCTGTAAAG
TCATGTGTCCATGAGGAACATACAAGAGTTACAGATGAATCCATTCCCTCTTATTCTGGA
AGTGATATGCCAAGAAATGACATTAACATGTGGTCAAAAGTAACTGAGGAAGGAACAGAG
CTGTCACAACGACTTGTGAGGAGTGGTTTTGCTGGAACTGAAATAGACCCTGAAAATGAA
GAACTTATGCTGAACATTAGCTCTCGACTACAAGCAGCAGTTGAAAAACTCCTAGAAGCC
ATAAGTGAAACTAGCAGTCAGCTTGAACATGCGAAAGTGACACAGACAGAGTTGATGCGT
GAGTCATTTAGACAGAAACAAGAAGCAACAGAGTCCCTTAAGTGCCAAGAGGAACTTCGA
GAGCGCCTTCATGAGGAGTCCAGGGCCAGAGAACAGCTAGCTGTGGAGCTCAGTAAGGCT
GAGGGCGTCATTGATGGCTATGCAGATGAAAAAACTCTTTTTGAAAGGCAAATTCAGGAA
AAAACTGATATAATAGATCGTCTTGAGCAGGAGTTGTTATGTGCAAGTAACAGGTTGCAA
GAATTGGAGGCAGAGCAACAGCAGATCCAAGAAGAAAGAGAATTACTGTCCAGACAAAAG
GAAGCTATGAAAGCAGAGGCAGGCCCAGTTGAACAACAATTACTACAGGAGACAGAAAAA
TTAATGAAGGAAAAACTAGAAGTACAATGTCAAGCTGAAAAAGTACGTGATGACCTTCAA
AAACAAGTGAAAGCTCTAGAAATAGATGTGGAAGAACAAGTCAGTAGGTTTATAGAGCTG
GAACAAGAAAAAAATACTGAACTAATGGATTTAAGACAGCAAAACCAAGCATTGGAAAAG
CAGTTAGAAAAAATGAGAAAATTTTTAGATGAGCAAGCCATTGACAGAGAACATGAGAGA
GATGTATTCCAACAGGAAATACAGAAACTAGAACAGCAACTTAAGGTTGTTCCTCGATTC
CAGCCTATCAGTGAACATCAAACTAGAGAGGTTGAACAGTTAGCAAATCATCTGAAAGAA
AAAACAGACAAATGCAGTGAGCTTTTGCTCTCTAAAGAGCAGCTTCAAAGGGATATACAA
GAAAGGAATGAAGAAATAGAGAAACTGGAGTTCAGAGTAAGAGAACTGGAGCAGGCGCTT
CTTGTAGAGGACCGAAAACACTTTGGAGCTGTAGAAGCTAAACCAGAATTGTCCCTAGAA
GTACAATTGCAGGCTGAACGAGATGCCATAGACAGAAAGGAAAAAGAGATTACAAACTTA
GAAGAGCAATTAGAACAGTTTAGAGAAGAACTGGAAAATAAGAATGAAGAAGTTCAACAA
TTACATATGCAATTAGAAATACAGAAAAAGGAATCTACTACCCGCCTACAAGAACTTGAA
CAGGAAAACAAATTATTTAAGGATGACATGGAGAAACTGGGACTTGCCATAAAGGAATCT
GATGCCATGTCTACTCAAGACCAACATGTGCTATTTGGGAAATTTGCTCAAATAATACAG
GAAAAAGAGGTAGAAATTGACCAATTAAATGAACAAGTTACGAAACTCCAGCAGCAACTT
AAAATTACAACAGATAACAAGGTTATTGAAGAAAAAAATGAACTGATAAGGGATCTTGAA
ACCCAAATAGAATGTTTGATGAGTGATCAAGAATGTGTGAAGAGAAATAGAGAAGAAGAA
ATAGAGCAGCTCAATGAAGTGATTGAAAAACTTCAACAGGAATTGGCAAATATTGGACAG
AAGACATCAATGAATGCTCATTCCCTCTCAGAAGAAGCAGACAGTTTAAAACATCAATTG
GATGTGGTTATAGCTGAAAAGCTGGCCTTGGAACAGCAAGTAGAAACCGCTAATGAAGAA
ATGACCTTCATGAAAAATGTACTTAAAGAAACCAATTTTAAAATGAATCAGCTAACACAG
GAATTATTCAGCTTAAAGAGAGAACGTGAAAGTGTGGAAAAGATTCAAAGCATACCAGAG
AATAGTGTTAACGTGGCTATAGATCATCTGAGCAAAGACAAACCTGAACTAGAAGTAGTC
CTTACAGAGGATGCTCTTAAATCCCTAGAAAATCAGACATACTTCAAATCTTTTGAAGAA
AATGGCAAAGGTTCCATAATTAATTTGGAAACAAGGTTGCTACAACTTGAGAGCACTGTT
AGTGCAAAGGACTTAGAACTTACCCAGTGTTATAAACAAATAAAAGACATGCAAGAACAA
GGCCAGTTTGAAACAGAAATGCTTCAAAAGAAGATTGTAAACCTACAGAAAATAGTTGAA
GAAAAAGTGGCTGCTGCTCTTGTCAGTCAAATCCAACTTGAGGCAGTTCAGGAATATGCA
AAATTCTGTCAAGATAATCAAACAATTTCATCAGAACCTGAAAGAACAAATATTCAGAAT
TTAAATCAACTAAGAGAAGATGAGTTGGGGTCAGATATATCAGCATTAACCTTGAGAATA
TCAGAATTAGAAAGCCAGGTTGTTGAAATGCATACTAGTTTGATTTTAGAAAAAGAACAA
GTAGAAATTGCAGAAAAAAATGTTTTAGAAAAAGAAAAGAAGCTGCTAGAACTACAGAAG
CTATTGGAGGGCAATGAGAAAAAACAGAGAGAGAAAGAAAAGAAAAGAAGCCCTCAAGAT
GTTGAAGTTCTCAAGACAACTACTGAGCTATTTCATAGCAATGAAGAAAGTGGATTTTTT
AATGAACTCGAGGCTCTTAGAGCTGAATCAGTGGCTACCAAAGCAGAACTTGCCAGTTAT
AAAGAAAAGGCTGAAAAACTTCAAGAAGAGCTTTTGGTAAAAGAAACAAATATGACATCT
CTTCAGAAAGACTTAAGCCAAGTTAGGGATCACCTCGCAGAGGCAAAAGAGAAATTGTCC
ATTTTAGAAAAAGAAGATGAGACTGAGGTACAAGAAAGCAAAAAGGCCTGCATGTTTGAG
CCACTTCCTATAAAACTGAGTAAGAGCATTGCATCCCAGACAGATGGGACTCTGAAGATC
AGTAGCAGCAATCAGACTCCACAAATTCTTGTTAAAAATGCAGGAATACAAATTAATTTA
CAGAGTGAATGTTCCTCAGAAGAAGTTACTGAAATAATCAGTCAGTTTACTGAAAAAATT
GAGAAGATGCAAGAACTACATGCTGCTGAAATTTTGGACATGGAATCCAGACATATTTCA
GAAACTGAAACCTTAAAGAGGGAACACTATGTTGCCGTTCAGTTACTGAAAGAGGAATGT
GGTACCTTGAAGGCAGTGATACAGTGTCTGAGAAGTAAAGAGGGATCCTCAATTCCTGAG
CTAGCACATTCTGATGCTTACCAGACTAGAGAAATATGCTCCAGTGATTCTGGATCAGAC
TGGGGTCAGGGAATTTATCTTACACACAGTCAGGGATTTGACATAGCATCAGAAGGCCGA
GGAGAAGAAAGTGAAAGTGCAACAGATTCCTTTCCAAAGAAAATAAAGGGATTACTGAGA
GCTGTCCATAATGAAGGCATGCAGGTGCTTTCTCTCACTGAGTCTCCCTATAGTGATGGA
GAGGACCATTCTATTCAGCAGGTTTCAGAACCTTGGCTAGAAGAGAGAAAAGCTTACATC
AATACAATCTCATCTCTAAAGGATTTAATTACAAAGATGCAACTGCAAAGAGAAGCCGAG
GTTTATGATAGTTCTCAATCTCATGAGAGCTTCTCAGACTGGCGAGGTGAACTACTGCTT
GCCCTTCAACAAGTTTTCTTAGAAGAGCGTAGTGTTTTACTAGCAGCATTTCGGACGGAG
CTGACAGCTCTAGGTACTACAGATGCAGTTGGTTTACTAAACTGTTTGGAACAGAGAATA
CAAGAACAGGGTGTTGAATATCAAGCAGCTATGGAATGCCTCCAGAAAGCAGATAGAAGG
AGTTTGTTATCTGAAATTCAGGCACTGCATGCACAAATGAATGGTAGGAAAATTACTCTG
AAAAGAGAACAAGAGAGTGAGAAACCAAGCCAAGAACTCTTGGAATATAATATACAGCAG
AAGCAGTCTCAAATGCTGGAGATGCAAGTGGAGCTCAGCAGTATGAAAGACAGAGCAACG
GAACTGCAGGAGCAGCTGAGTTCTGAGAAAATGGTGGTTGCTGAACTGAAGAGTGAGCTT
GCACAAACTAAATTGGAACTAGAAACAACACTCAAGGCACAGCATAAACACCTAAAAGAA
TTGGAGGCTTTCAGGTTGGAAGTTAAAGATAAGACAGATGAAGTACATTTGCTTAATGAC
ACATTAGCAAGTGAACAGAAAAAATCAAGAGAGCTCCAGTGGGCTTTGGAGAAAGAGAAA
GCCAAGTTGGGACGCAGTGAAGAACGGGATAAAGAAGAACTTGAGGATCTGAAGTTTTCA
CTTGAGAGTCAGAAACAAAGGAATCTTCAGCTAAATCTACTTTTGGAACAACAGAAACAA
CTACTGAACGAATCCCAGCAAAAAATAGAATCACAGAGAATGCTATATGATGCCCAGTTG
TCAGAAGAACAAGGTCGAAACTTAGAGCTTCAGGTACTTCTTGAATCTGAGAAAGTTCGA
ATTCGGGAAATGAGTAGTACCCTAGATAGGGAGCGGGAATTGCACGCACAGCTGCAGAGC
AGTGATGGTACTGGACAGTCTCGGCCACCCTTGCCCTCAGAGGACCTACTGAAAGAGCTG
CAGAAACAGCTAGAGGAAAAACACAGTCGCATAGTAGAATTGTTAAATGAGACTGAAAAA
TATAAACTGGATTCTTTGCAAACACGACAGCAAATGGAAAAAGATAGGCAGGTTCACAGG
AAAACACTGCAGACAGAACAGGAGGCCAACACTGAGGGACAGAAAAAAATGCATGAGCTC
CAGTCCAAAGTGGAAGATCTTCAGCGCCAGCTGGAAGAGAAAAGACAACAAGTTTATAAG
TTAGACCTTGAAGGACAGCGACTACAAGGAATCATGCAGGAATTCCAGAAGCAAGAACTA
GAACGAGAAGAAAAACGAGAAAGTAGAAGAATTCTGTATCAGAACCTTAATGAGCCAACC
ACGTGGAGCTTAACCAGTGATAGAACTAGAAATTGGGTTCTTCAACAGAAAATAGAAGGA
GAAACAAAAGAATCAAACTACGCTAAATTGATTGAAATGAATGGAGGAGGAACCGGCTGT
AATCATGAATTAGAAATGATCAGACAAAAGCTTCAATGTGTAGCTTCAAAACTACAGGTT
CTACCCCAGAAAGCCTCTGAGAGACTACAGTTTGAAACAGCAGATGATGAAGATTTCATT
TGGGTTCAGGAAAATATTGATGAAATTATTTTACAACTACAGAAATTAACTGGCCAGCAA
GGTGAAGAGCCCAGCTTGGTGTCCCCAAGTACTTCTTGTGGCTCATTGACTGAAAGACTA
CTGAGACAAAATGCTGAGCTGACAGGGCATATCAGTCAACTGACTGAAGAGAAGAATGAC
TTAAGGAACATGGTTATGAAGCTGGAAGAGCAGATCAGGTGGTATCGACAGACAGGAGCT
GGTAGAGATAATTCTTCCAGGTTTTCATTGAATGGTGGTGCCAACATTGAAGCCATCATT
GCCTCTGAAAAAGAAGTATGGAACAGAGAAAAATTGACTCTCCAGAAATCTTTGAAAAGG
GCAGAGGCTGAAGTATACAAACTGAAAGCTGAACTAAGAAATGACTCTTTACTTCAAACT
CTGAGCCCTGATTCTGAACATGTCACTTTAAAGAGAATTTATGGTAAATACTTGAGGGCA
GAAAGTTTTCGAAAGGCTCTCATTTACCAGAAGAAATACCTGCTGCTGTTACTGGGTGGG
TTCCAGGAATGTGAAGATGCCACCTTGGCCCTGCTTGCCCGGATGGGGGGGCAGCCAGCT
TTCACGGATCTAGAGGTGATCACCAATCGCCCAAAGGGCTTCACCAGGTTTCGGTCGGCC
GTCAGAGTATCCATTGCAATTTCCAGAATGAAATTTTTGGTTCGACGGTGGCATCGAGTC
ACAGGTTCTGTTTCCATCAATATTAACAGAGATGGCTTTGGACTGAATCAAGGTGCAGAA
AAGACTGACTCATTTTATCATTCTTCTGGTGGGCTGGAGTTATATGGAGAACCAAGACAT
ACTACGTATCGCTCAAGATCAGATCTGGACTATATTAGGTCCCCTTTACCATTTCAGAAT
AGGTACCCAGGCACTCCAGCTGATTTCAATCCTGGTTCTTTAGCATGTTCTCAGCTTCAG
AATTACGATCCTGACAGAGCCCTAACAGATTATATCACTCGGCTAGAGGCACTGCAAAGA
CGACTTGGAACTATACAGTCAGGTTCAACTACTCAATTTCATGCTGGCATGAGAAGATAA
Restriction Sites Please inquire     
ACCN NM_147185
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.

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).
OTI Annotation This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_147185.1, NP_671714.1
RefSeq Size 12450 bp
RefSeq ORF 11700 bp
Locus ID 10142
UniProt ID Q99996
Protein Families Druggable Genome
Gene Summary The A-kinase anchor proteins (AKAPs) are a group of structurally diverse proteins which have the common function of binding to the regulatory subunit of protein kinase A (PKA) and confining the holoenzyme to discrete locations within the cell. This gene encodes a member of the AKAP family. Alternate splicing of this gene results in at least two isoforms that localize to the centrosome and the Golgi apparatus, and interact with numerous signaling proteins from multiple signal transduction pathways. These signaling proteins include type II protein kinase A, serine/threonine kinase protein kinase N, protein phosphatase 1, protein phosphatase 2a, protein kinase C-epsilon and phosphodiesterase 4D3. [provided by RefSeq, Aug 2008]
Transcript Variant: This variant (3) uses an alternate in-frame splice site at the end of an exon compared to variant 2. The resulting isoform (3) has the same N- and C-termini but is shorter compared to isoform 2.
*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.

Other Versions

SKU Description Size Price
RC219690 AKAP9 (Myc-DDK-tagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3
    • 10 ug

CN¥ 55,580.00

RG219690 AKAP9 (tGFP-tagged) - Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3
    • 10 ug

CN¥ 61,180.00

其它AKAP9产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
相关产品 (3)

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CN¥ 4,090.00

RG219690

AKAP9 (tGFP-tagged) - Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3

    • 10 ug

CN¥ 61,180.00

RC219690

AKAP9 (Myc-DDK-tagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3

    • 10 ug

CN¥ 55,580.00

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