Akap13 (NM_001106271) Rat Tagged ORF Clone
CAT#: RR213281
- TrueORF®
Akap13 (Myc-DDK-tagged ORF) - Rat A kinase (PRKA) anchor protein 13 (Akap13), (10 ug)
"NM_001106271" in other vectors (1)
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CNY 53,110.00
CNY 300.00
Specifications
Product Data | |
Type | Rat Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | AKAP-13; AKAP-Lbc |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RR213281 representing NM_001106271
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAAACTTAGTCCACAACAAGCTCCATTATATGGCGATTGTGTTGTTACAGTCCTGCTTGCTGAAGAGG ACAAAGTTGAAGATGATGCTATTTTTTACTTGATATTTTCTGGCTCTACCCTCTATCACTGCACAAGTAC CCGGAAAGTCAGTTCTGATACGTTGGAGACAATTGCTCCTGGTCATGACTGCTGTGAGACGGTGAAGGTG CTACTCTGTGCTTCCAAAGAGGGCCTTCCTGTGTTTGTAGTTGCTGAAGAAGACTTCCATTTTGTCCAGG ATGAGGCATATGATGCAGCTCAGTTCCTGGCAACCAGTGCTGGAAATCAGCAGGCTCTGAACTTCACACG GTTCCTTGATCGATCAGGACCCCCTTCTGGAGATGTGAACTCTCTGGATGAGAAGGTCGCACTGGCATTC AGACACCTGAAGCTGCCTGCAGAGTGGAATGTGTTAGGGACGGATCACACGTTGCATGATGGTGGCCCTC GGGAAACCCTCATGCATTTTGCTGTGCGGCTTGGATTGCTGCGGTTGACATGGTTCCTGTTACAGAAGCC AGGTGGCCGTGGAGCTCTCAGCATCCACAACAAGGAAGGGGCAACGCCTGTAAGCCTGGCACTGGAGCGA GGTTATCACAAGCTTCACCAGCTCCTGACTGAGGAAAATGCTGGTGAACCAGATTCCTGGAGCAGCTTAT CCTATGAAATCCCTTATGGAGACTATTCAGTGAGGCACCATCGAGAATTGGACATCTATACATTGACTTC CGAATCTGAATCACATTGTGAACCGCATGGAGACAGTTGTACTGGACATATTTCTAAACTTATGAATATC CAGCAGCAGCTAATGAAAACAAACTTGAAGCAGATGGACAATCTCATGCCCTTAATGGTGACAACACAAG ATTCATCTTGTGTGCCCTGTGTACCAGAGCCTTCTGACCACCAGCAGCTTCCTTTTGAAGAAACTAAGAG CACTGTGTGCTGCCAAGGGAGTCCTGGGAGGAAGGATGCAAGTCCCTGTGACTTGTCAAGTGTGGTTGAG GAAGAAAATCTCATCTGTTCTCATAAGAAAAATAAAGATACTGGGAGACCAGGGGAAGGGGTGGAGCCAG CGTCTGCGGTGGACTCTAGGTCTGCATCTCATCAAGACAGCTGCCTTCAGAGCATACCCGACTGTGGAGT GAAGGGTAGAGAAGGCCTGCCATCCTGTGGAAACAGAAACGAAGTAACTGGAACACAATATTCTGGAGTT GCCACGTGTCAGCAGCCCCTGAGCAGCGAGAGCAGTGTGCCGCAGGATGTCCTGGTCACAGAACCAGATG CGCGCCAGCACTCTTCTGGAAGGGAGCTACCAGACAGTTCTTCAACAGATGCTGGTGCCCCAGAAAAGGC AGGAGAACTAGAACATAGCCTACTTACCCCAGATGCTACCACCCAGAACAGTAAGCCTCAAGTAGGGGAA AGCGCAAAGGAGAGACTTGAGAATTCCGACATTAGCTCCGCCGAGGCGACTGCTGTTCAAGCTTTACGTG AACCCAAGCAGAAAGCTGACGTTACAAACCATGTCTTTGCCGCCCGTGCTGCGGGTGCTGACGCTCCTGC TGAGGCTTCACCTGCATGGAGTCCTGAAGAAATCCCCACTGGAAAACCAGGAATGGAGACTCAGGAGAGA GGCTGTGAGGGGGGCATCACAAGTGACCAGAGCTCCCAGGTGCTTCCTGCTGCTGCTGCTGCTACAGAAA ACAAGGTTTTAGATGGACTAGAACTTGAAACTCTTCCAGCATGCCCTTGTGAGACAGCATCATCCTTGGA TTTAACCGTGTCAGGGCCAAGACCAGATGGGATGCCAAAACAAAACTCAGAGTCTAGTGCTCAGCATGCT CAGAGCCTGAATAGCCAGGCCCCGCTCTGCTCTATCGCAGGGGCCGGCACGCCCTCTGCTGAGTCTGCGT GTCCGCAGAGCACAGAGACCTCTAGTGGCGGGTCGGTAATAGAGCATGGCAGTGGCGAAGCTAGCCTGCC CGAAAGCACAGCAGCGCAGCCAGAACCGCAAGGTCTTTGCACCGCCCCCTGCCCAGAAGACCCACAAGCT GACACAGTCACTTCTGACACTGCAGCACACAACCAGAAATCTGTGGGGTCTTGTCATCTCTGTGCTTTAG ATGCAAAGAACCAAGAAAAAGATTTGAGACAAGATACACCCTCAGTGAACACGCTTGAGGATGTTCCACA TCTGCCTTCAGTTGTCCCCCAATCTGAGGAAAAACTAGAGCCAGACCAGGTATCACCTCGAGGCAGCAGT TTCTCTCTGGCAAGCAGTCCAGAGAGTGAATCAGTAACCAAAGATGACGTACTTTCTCTCGTCTCCTCCC AGAAAGAAAAGGGAACAGCAACTCCTCAGCTCCATAGAGCTCCAGCTTGTAGTGATGGCCCAGATGGAAG AGATCTGAATGATACGGATAAGGTAGGAGACGGGGCTGCCAGCCCACCTACACCCTCTGCTGTAGAGCTT CAGACCAGCATGGGGAATACCAGCCCTGTAGGTGTTGGAGAGCAGGAGGGGTCCAGCCTAACAGCAACAC TTGAAGTGCTAAGTGACTCCTTGCTACAAAGCGTGGATAAGGCTGCTTTGGTCTCTGACTCTCTTCTGCC TGAAGAAGGTGGCAGTATAGTGGTTCCAGAAAGTTCCACAGCTCTGGGGCAAGGTGGCAAAGACAAAGCA ACGAAATGTCCTTCTGTTAAAGAAGATGTGCATTCTTCAGAAATGTCAAGGGAGGACCAGAGAACACCAC CTCCTGGGCAGGAGATATCAAGATTATGTGAAAAACCTATGTCAGCCCTGTGTGCCGGGGAGAAAGCGCT GCAGCACAGTAACTCGCCAGACACACCCTCTGCCTGTCTGCAAACAGAAACTAAACACAACAAGGAAGTG GCCCCACAGAGCTCCCCGCTGATGAAAGGTGGGGCTGTACAGAACCTGGTGCCACCAAAAACAAGTCTGT CTGCCGATTCAGAGCAGAAAACCTCGAGTACAGAGCAGAGTGGCTCATCTCTGCTGCCAGGTGGTGCGTC TGAGGCACTCCGCTGTAGTCAGCCTTCGCTCAGTGTCAGCGTGGAGAGCATTCAGTTCCAAGGGAAAACC AGTGCTTGTAAGGTAAGCAGAAATGCAATGGAGGATGTTACAGTGGCTGATGCTTTCCTAGCTACTGCTG AGCCCACAAAAGAGGATGCATTACACCACGTCAAAGACATTTCAGACTTGTTAAACCAAGAGAAGAAAAC GACTCCAGGTTTGCCAGAAGCTTTACTGGACAAAGGTGTCACTGACTTACAGGAAGTCATAACCCCAGAG ATAGAACCACTTGATTGCAAGAGAGAGAAACTGGAGGGAACAGACCTTAGCTGTCCCACAAGTAAATCCA AAGAGACTCCAAACAATGAAGAAACAACGCAACCTCCTGCCAGGGACCTCCCCACAGAGACAGGGCTCTC AGCTATCAATGACAATGGCCCCCAAGCTGACATGAAGCACGTGACTCAGGCATCGGTCCCAGGAGAGGAA AGTAACGTTACCACTGTACTTGGAATGGTCTCAACCCAAGCTGCAGATGGGCCTCCTGGAGCAGACTCCA TAGAGGAGACCGCCACTAGGATCGTGGAGGCCGTCATCAAGCAGATCAAGGCCTCCAACACACTAAGGAC ACAAGTAGAAATCCAGAATCCGCCACTGTCCAGTTCAGAGATTAAGGAGATAGAGAACACTGGTTCAGAG AGTGCACGTGTTTTCCTACCCGGGGAGCCCCTGCAGATGGAGAATACTCAGAAAGAAACCACTGGACACT GTAGTGTTGAGACAGAGGCACCAGAGAAAATAATTCTAGCTGTCCACAGGCCTGAGCCAGCACCAGAAAT GCCAGACACTAAAACTGGAGGTGAAGTGGATCTTCTGAGTAAGCGCAGTGCTGCTTCTGAGGAGGAGGCT ATAGGAAATGGAGCTGCCACGCCCAAGATGAAGCAAGCCCCAGGGACCCAGGTGATCAACCGAGAAAGCT GGTGTGCCATAGAGCCCTGCCCTGAAGCAGCATCTCTCTTAGCTTCCAAACAGAGCTCAGAATGCAGAAG CTTCATAGATGTTGGACTGGGCACGGAGTGTGCCACAAAAGAAGGCGTGCTCCAGAGAGAGTCAGGGAGT GATTCTGACCTCTTTCACTCACCCAGTGATGAAATGGACAGCATCATCTTCTCAAAGCCTGAGGAAGAGC AGTTGCTTTGTGATACAACAGGATCCAGTTCTTCAACAGATGACACAGCTTCCCTGGATCGACATTCTTC TCATGGCAGTGATGTGTCCCTTCCTCAGACGTCAAAGTTAAACAGGTCCAGAAATCATCAAAGTTCCAAT GGCTTTTTCAGCCATGGGGTGGACCCTGAGAGTCGGGAAGGTGAGAGCGAGCCTGCTGGCTCTGGTGAAA TGGAAGAGGAGGAGATGGACAGCATCACTGAAGTGCCTGCAAACCGCTCTTTTCTGAGGAACTCCATGCG CTCTCTTTCTCCTTTCCGGAGGCACAGCTGGGGACCTGGGAAGAATGCAGCCAGTGATGCAGAAATGAAC CAGCGGAGTTCAATGCAAGTTCTTGGGCATGTTGTCAGGAGACCTCCCATTCATAGGAGAAGTATGAGCT GGTGTCCCTCTGGTGTGCAGTACTCGGCTGCCCTGAATGCTGACTTTAATATCAGAAGTTTCAGTCTGGA AGGCTTGACAGGAGGAGGTGGTGTTGGAAATAAGCCATCCTCATCTCTAGAAATAAGCTCTGCAAACTCC AGCGAGCTCAGAAACCCTTTCAGTGGTGAGGAGCAGAGGAGCTCTTTGATGTCGCTTTCAGAAGAACACC TGGAACCGGACCAGAGACAGCACCATAGGATGTTTGACCAGCAGACATGTTACAGGTCTAAACAACAGGG ATTTAACTACTGTACATCAGCTATTTCTTCTCCATTGACAAAATCCATCTCATTAATGACAATCAGTCAT CCTGGATTAGACAATTCACGGCCCTTCCACAGTGCCAGTGCCAACCTGACAGAGAGTATAACAGAAGAGA ACTGTAATTTCCTGCCTCCAAGCCCCTCAAAAAAGAGTTTTGAAGAAAAGAGTGGGACTAAGGTTAGTCG CACCTTCAGCTACATCAGGAATAAAATGTCCAGCAGCAAGAAGAGCAAAAAGGAAAAAGATAAAAAGACT CTTAACGGGCACACTTTCAGCCCCATTCCTATTGTGGGTCCCATCAACTGCAGCCAGTGCATGAAGCCTT TCACCAACAAGGACGCCTACACATGTGCAAGTTGTGGTGCTTTTGTCCACAAAGGCTGCAGAGAAAATTT AGCCTCCTGTGCAAAGGTCAAAATGAAGCAGCCGAAGGGGAGCCTCCAGGCACACGATACATCATCGCTG CCCACAGTCATCATGAGAAACAAGTCTTCACAGCCCAAGGAGCGCCCTAGGTCTGCAGTCCTCTTGGCTG AAGAGGCCATTGCTGCACCAATGTTTACTAACAGAAGGTCCCAGCAGAGTGTCTCCCTCTCTAAAAGTGT CTCCATACAAAACATTACTGGAGTTGGCAACGATGAGAACATGTCAAACACCTGGAAATTTCTGTCTCAT TCAACAGACTCACTGAATAAAATCTGCAAGGTCAATGAGTCAACAGAATCCCTTACTGATGAGGGAGTAG GTACAGACATGAATGAAGGACAGCTGATGGGAGATTTTGAAAGCGACTCTAAACAGCTAGAAGCAGAGTC ATGGAGCCGGACAGTGGACAGCAAGTTCCTTAAACAGCAGAAGAAAGATGTGGTCAAGCGGCAGGAAGTG ATTTACGAGTTGATGCAGACTGAGTTACATCACATCCGCACACTGAAGATCATGAGTGACGTGTACAGCC GGGGCATGATGACAGATCTGCTCTTTGAGCAGCAGATGGTGGAAAAGCTGTTCCCCTGTTTGGATGAACT GATCAGTATCCACAGCCAGTTCTTTCAGAGAATCCTGGAGCGGAAGAAGGAGTCTCTGGTGGATAAAAGT GAAAAGAACTTTCTCATCAAGAGGATAGGGGATGTGCTTGTCAGTCAGTTCTCAGGTGAGAATGCAGAGC GTTTAAAGAAGACATATGGCAAGTTCTGTGGACAGCACAACCAGTCTGTCAACTACTTCAAAGACCTGTA CACCAAGGATAAGCGTTTCCAAGCCTTTGTGAAGAAGAAGATGAGCAGTTCAGTAGTAAGAAGACTGGGA ATCCCAGAGTGCATTTTACTTGTAACTCAGAGGATCACCAAGTACCCAGTTTTATTCCAAAGGATACTGC AATGTACCAAAGACAATGAAGTGGAGCAGGAAGACCTCACCCAGTCCTTGAGCCTGGTGAAGGATGTGAT TGGAGCCGTGGACAGCAAAGTAGCAAGTTATGAGAAGAAAGTGCGTCTCGGTGAGATTTACACAAAGACA GATAGCAAGTCGATCATGAGAATGAAGAGTGGGCAGATGTTCGCCAAGGAGGATCTGAGACGGAAGAAGC TGGTGCGGGATGGAAGTGTGTTTCTCAAGAGCGCAACAGGAAGGCTGAAAGAAAAAGACCAGAAATACGT ATTTGCATCATTGGACCACAAGTCAACAGTGATCTCCTTAAAGAAACTGATTGTAAGAGAAGTTGCCCAT GAGGAGAAAGGCCTGTTCCTCATCAGTATGGGGGTGAAAGATCCAGAGATGGTGGAGGTCCATGCAAGCT CCAGAGAGGAGCGGAATAGCTGGATTCAGATCATTCAGGACACAATCAACTCCTTGAACAGAGATGAAGA TGAAGGGATTCCCAGTGAAAATGAAGAAGAAAAGAGATTGTTGGATACCAAAGCCCGGGAGTTAAAAGAA CAACTTCAGCAGAAGGACCAGCAGATCCTCCTCTTGCTGGAAGAGAAGGAGATGATTTTCCGGGACATGA CTGAGTGCAGCACTCCCTTACCTGAGGATTGCTCCCCAACACACAGCCCGAGAATGCTCTTCCGCTCCAA CACAGAGGAGGCTCTCAAAGGAGGACCGCTGATGAAAAGTGCAATCAGCGAAGTGGAAATCCTTCAGGGG TTGGTGAGTGGAAGCCTTGGTGGCACACTTGGGCAGCCCATCAGCAGCCCTGTTGAGCAGGAAGTCATGG CTGGGCCCATTTCTTTGCCCCGGAGAGCAGAGACCTTTGGAGGATTTGACTGTCATCAGCTGAATGCTTC CAAAGGAGGTGAGAAAGAAGAGGGTGATGATGGCCAAGATCTTAGGAGAACAGAATCTGATAGTGGCCTG AAAAAGGGTGGAAATGCTAACCTGGTATTTATGCTTAAAAGAAACAGTGAGCAGGTTGTCCAGAGCATTG TGCACCTCCACGAGCTCCTTACCATGCTGCAGGGTGTTGTGCTACAACAAGACAGCTACATTGAGGACCA GAAGCTGGTGCTGACAGAGAAGGTACTCACAAGGAGTGCATCCCGCCCCAGCTCTCTCATTGAGCAGGAG AAGCAGCGGAGCCTGGAGAAGCAGCGCCAGGACCTGGCCAACCTGCAGAAGCAGCAGGCACAGCACCTGG AGGAAAAGCGACGACGTGAACGTGAGTGGGAGGCCCGTGAGCTGGAGCTTCGAGACCGAGAGGCCAAGCT GGCTGAGCGGGAAGAGACAGTCCGTCGTAGGCAGCAGGACCTGGAGAGGGACCGCGAAGAGCTCCAGCAG AAGAAGGGCACTTACCAGTGTGATCTAGAGAGACTACGGGCTGCCCAGAAACAGCTGGAACGGGAGCAGG AACAACTGAAGAGGGATGCAGAGCAGCTCAGCCAGAGGCAGATGGAGCAGGACCTTTGCCAGGTTTCAAA TAAACATGGCAGACTGATGCGGGTCCCGTCCTTCTTGCCCAATTCGGATGAGTTCTCCTTGCTGTCTACA CCTTCTATAACCAAATCGGGCTCACTGGACTCAGAACTCTCAGTGTCTCCTAAAAGGAACAGCATCTCTC GGACACAGAAAGATAAGGGGCCTTTCCATATACTGAGCTCAGCCAGCCAAACAAAAGTACCAGAGGGGCA GAGCCAGGCCCCGTCCAGCACCTCCACTTCCACCCGACTCTTTGGATTATCTAAGCCAAAGGAAAAGAAG GAGAAGAAAAAGAAGAGCAAAGGAAGCCGCACTCAGCCTGGTGATGGTCCTGCTCCAGAAGTACCAGCAG AGGGTGAAGAGATCTTCTGT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RR213281 representing NM_001106271
Red=Cloning site Green=Tags(s) MKLSPQQAPLYGDCVVTVLLAEEDKVEDDAIFYLIFSGSTLYHCTSTRKVSSDTLETIAPGHDCCETVKV LLCASKEGLPVFVVAEEDFHFVQDEAYDAAQFLATSAGNQQALNFTRFLDRSGPPSGDVNSLDEKVALAF RHLKLPAEWNVLGTDHTLHDGGPRETLMHFAVRLGLLRLTWFLLQKPGGRGALSIHNKEGATPVSLALER GYHKLHQLLTEENAGEPDSWSSLSYEIPYGDYSVRHHRELDIYTLTSESESHCEPHGDSCTGHISKLMNI QQQLMKTNLKQMDNLMPLMVTTQDSSCVPCVPEPSDHQQLPFEETKSTVCCQGSPGRKDASPCDLSSVVE EENLICSHKKNKDTGRPGEGVEPASAVDSRSASHQDSCLQSIPDCGVKGREGLPSCGNRNEVTGTQYSGV ATCQQPLSSESSVPQDVLVTEPDARQHSSGRELPDSSSTDAGAPEKAGELEHSLLTPDATTQNSKPQVGE SAKERLENSDISSAEATAVQALREPKQKADVTNHVFAARAAGADAPAEASPAWSPEEIPTGKPGMETQER GCEGGITSDQSSQVLPAAAAATENKVLDGLELETLPACPCETASSLDLTVSGPRPDGMPKQNSESSAQHA QSLNSQAPLCSIAGAGTPSAESACPQSTETSSGGSVIEHGSGEASLPESTAAQPEPQGLCTAPCPEDPQA DTVTSDTAAHNQKSVGSCHLCALDAKNQEKDLRQDTPSVNTLEDVPHLPSVVPQSEEKLEPDQVSPRGSS FSLASSPESESVTKDDVLSLVSSQKEKGTATPQLHRAPACSDGPDGRDLNDTDKVGDGAASPPTPSAVEL QTSMGNTSPVGVGEQEGSSLTATLEVLSDSLLQSVDKAALVSDSLLPEEGGSIVVPESSTALGQGGKDKA TKCPSVKEDVHSSEMSREDQRTPPPGQEISRLCEKPMSALCAGEKALQHSNSPDTPSACLQTETKHNKEV APQSSPLMKGGAVQNLVPPKTSLSADSEQKTSSTEQSGSSLLPGGASEALRCSQPSLSVSVESIQFQGKT SACKVSRNAMEDVTVADAFLATAEPTKEDALHHVKDISDLLNQEKKTTPGLPEALLDKGVTDLQEVITPE IEPLDCKREKLEGTDLSCPTSKSKETPNNEETTQPPARDLPTETGLSAINDNGPQADMKHVTQASVPGEE SNVTTVLGMVSTQAADGPPGADSIEETATRIVEAVIKQIKASNTLRTQVEIQNPPLSSSEIKEIENTGSE SARVFLPGEPLQMENTQKETTGHCSVETEAPEKIILAVHRPEPAPEMPDTKTGGEVDLLSKRSAASEEEA IGNGAATPKMKQAPGTQVINRESWCAIEPCPEAASLLASKQSSECRSFIDVGLGTECATKEGVLQRESGS DSDLFHSPSDEMDSIIFSKPEEEQLLCDTTGSSSSTDDTASLDRHSSHGSDVSLPQTSKLNRSRNHQSSN GFFSHGVDPESREGESEPAGSGEMEEEEMDSITEVPANRSFLRNSMRSLSPFRRHSWGPGKNAASDAEMN QRSSMQVLGHVVRRPPIHRRSMSWCPSGVQYSAALNADFNIRSFSLEGLTGGGGVGNKPSSSLEISSANS SELRNPFSGEEQRSSLMSLSEEHLEPDQRQHHRMFDQQTCYRSKQQGFNYCTSAISSPLTKSISLMTISH PGLDNSRPFHSASANLTESITEENCNFLPPSPSKKSFEEKSGTKVSRTFSYIRNKMSSSKKSKKEKDKKT LNGHTFSPIPIVGPINCSQCMKPFTNKDAYTCASCGAFVHKGCRENLASCAKVKMKQPKGSLQAHDTSSL PTVIMRNKSSQPKERPRSAVLLAEEAIAAPMFTNRRSQQSVSLSKSVSIQNITGVGNDENMSNTWKFLSH STDSLNKICKVNESTESLTDEGVGTDMNEGQLMGDFESDSKQLEAESWSRTVDSKFLKQQKKDVVKRQEV IYELMQTELHHIRTLKIMSDVYSRGMMTDLLFEQQMVEKLFPCLDELISIHSQFFQRILERKKESLVDKS EKNFLIKRIGDVLVSQFSGENAERLKKTYGKFCGQHNQSVNYFKDLYTKDKRFQAFVKKKMSSSVVRRLG IPECILLVTQRITKYPVLFQRILQCTKDNEVEQEDLTQSLSLVKDVIGAVDSKVASYEKKVRLGEIYTKT DSKSIMRMKSGQMFAKEDLRRKKLVRDGSVFLKSATGRLKEKDQKYVFASLDHKSTVISLKKLIVREVAH EEKGLFLISMGVKDPEMVEVHASSREERNSWIQIIQDTINSLNRDEDEGIPSENEEEKRLLDTKARELKE QLQQKDQQILLLLEEKEMIFRDMTECSTPLPEDCSPTHSPRMLFRSNTEEALKGGPLMKSAISEVEILQG LVSGSLGGTLGQPISSPVEQEVMAGPISLPRRAETFGGFDCHQLNASKGGEKEEGDDGQDLRRTESDSGL KKGGNANLVFMLKRNSEQVVQSIVHLHELLTMLQGVVLQQDSYIEDQKLVLTEKVLTRSASRPSSLIEQE KQRSLEKQRQDLANLQKQQAQHLEEKRRREREWEARELELRDREAKLAEREETVRRRQQDLERDREELQQ KKGTYQCDLERLRAAQKQLEREQEQLKRDAEQLSQRQMEQDLCQVSNKHGRLMRVPSFLPNSDEFSLLST PSITKSGSLDSELSVSPKRNSISRTQKDKGPFHILSSASQTKVPEGQSQAPSSTSTSTRLFGLSKPKEKK EKKKKSKGSRTQPGDGPAPEVPAEGEEIFC TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001106271 |
ORF Size | 8280 bp |
OTI Disclaimer | 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 |
OTI Annotation | This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
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_001106271.2, NP_001099741.2 |
RefSeq Size | 12224 bp |
RefSeq ORF | 8283 bp |
Locus ID | 293024 |
UniProt ID | F1M3G7 |
MW | 301.4 kDa |
Gene Summary | protein kinase A anchoring protein; may be able to integrate Rho and protein kinase A signaling pathways [RGD, Feb 2006] |
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SDS |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RN213281 | Akap13 (untagged ORF) - Rat A kinase (PRKA) anchor protein 13 (Akap13), (10 ug) |
CNY 53,110.00 |