Akap13 (NM_029332) Mouse Tagged ORF Clone
CAT#: MR226030
- TrueORF®
Akap13 (Myc-DDK-tagged) - Mouse A kinase (PRKA) anchor protein 13 (Akap13)
ORF Plasmid: tGFP
"NM_029332" in other vectors (2)
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CNY 27,650.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 1700026G02Rik; 5730522G15Rik; 5830460E08Rik; AKAP-13; AKAP-Lbc; BRX; Ht31; LBC |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR226030 representing NM_029332
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAAACTTAGTCCACAACAAGCTCCATTATATGGCGATTGTGTTGTTACAGTATTGCTTGCTGAAGAGG ACAAAGTTGAAGATGATGCTATTTTTTACTTGATATTTTCTGGCTCTACCCTCTATCACTGCACAAGTAC CCGGAAAGTCAGTTCTGATACGTTGGAGACAATTGCTCCTGGTCACGACTGCTGTGAGACAGTGAAGGTG CTGCTCTGTGCTTCCAGAGAGGGCCTTCCTGTGTTTGTAGTCGCTGAAGAAGACTTCCATTTCGTCCAGG ATGAGGCGTATGATGCAGCTCAGTTCCTGGCAACCAGTGCTGGAAATCAGCAGGCTCTGAACTTCACACG GTTCCTCGATCGATCAGGACCTCCTTCTAGAGATGTGAACTCTCTCGATGAGAAGGTGGCACTGGCATTC AGACACCTGAAGCTGCCTGCAGAATGGAACGTGTTAGGGACAGATCACACTTTGCATGACGGTGGCCCTC GGGAAACCCTGATGCACTTTGCTGTGCGGCTGGGACTGCTGCGGTTGACATGGTTCCTGTTACAGAAGCC AGGTGGCCGTGGAGCTCTCAGCATCCACAACAAGGAAGGGGCAACGCCTGTGAGCCTGGCACTGGAGCGA GGTTATCACGAACTTCACCAGCTTCTGACTGAGGAAAATGCAGGGGAGCCAGATTCCTGGAGCAGCTTAT CCTATGAAATCCCTTATGGCGACTGTTCAGTGAGGCACCATCGAGAACTGGACATCTACACATTGACTTC TGAATCCGAGTCACATCGTGAACCCCATGGAGACAGCTGTACTGGACATATTTCTAAACTTATGAATATC CAACAGCAGCTGATGAAAACAAACTTGAAGCAGATGGACAATCTCATGCCATTAATGGTGACAGCACAAG ATTCGTCTTGTGTGCCCAGTGTACCAGAGACAGATGGCCTATTCCTTCCCTGTGTACCAGAGCCTTCTGA CCACCAGCATCCTCCTTTTGAAGAAACTAAGAGCACTCTGTGCTGCCAAAGGAGTCCTGGGAGGATGGCT GAAAGTTCCTGTGATTTGTCAAGCATGGTTGAGGAAGAAAATGTCATCTGTTCTCATAAGAAAAATAAAG ATGTGGGGAGAAAGGGGGAAGAGGCGGAGCCAGCATCTGCCATGGACTCCGGGTCTGCATCTCATCAAGA CAGCTGCCTTCAGAGCGTACCCGACTGTGGAGTGAAGGGCAGAGAAGGTCTTCCATCCTGTGGAAACAGA AACGAAGTAACTGGAACAAACTATTCTGGAGTAGCCACATGTCAGCAGCCACTGAGCAGCAGGAGCAGTG TGCTGCAGGATGCCATGGTCACAGAACCAGATGCATGCCAGCACTCTTCTGGAAGGGAGCTACCAGACAG CTCTTCAACAGATGTTGGTGCCCCAGAAAAGGCAGGGGAACTGGAACATAGCCTGCTTACCCCAGATGCT ACCACCCAGAACAATAAGCCTCAAGTAGGGGAAGGCACAAAGGAAAGACTTGAGAATTCAGACAGTAGCA CAACTGAAACAACTGCTGTTCAAGTTTTAAGTGAACCCATGGAGAAAGCCGATATTACAAACCATGTCTT TGCCACCAGTGCCGTAGGTGTTAACACTCCTGCTGAGGCTTCACCTGCATTGAGTTCTGAAGAAATCCCC ACTGAAAAACCAGGAATGGAAACTCAAGAGAGAGGCTGTGAGGGGGGAACCACAAGTGACCAGAGCTCCC CGGTGCTTCCTGCTGCTGCTATAGAAAACAAGGTTTTAGGTGGACAAGAACCTGATACTTCCATAGCAGG CTTTTGTAAGACAGCATCACCTTTGGATTTAACCATGCCAGGCCCAAGTTCAGATGGGATGCCAGAACAG AACTCAGAGTCTCATGCACGGCCTGCTCAAAGCCTAAGTGGCCAGGCGCTGCTCTGTTCTACAGCTGAGG CTGGCACGCCTTCTGCTGAGGCTACACATCAGCCGAGCACAGTGACTTCTAGTGGCAGGTTGGAAGAATG TGGCAGTGGTAAAGCTAGCCTGCCTGAAAGCACAATGGTGCAGCCAAGCACGCAAGAACTTTGCACCACC CTCTGCCCAGAAGACCCACAAGCTGACACAGTCACTTCTGACACTGTGAAAAATACCCAGAAATCTGTGG GGGTTTGTCATCTCTGTGTTTCAGATGCAAAGAATCAAGGAAATGGTTTGAAGCAAGATACACCTTTAAC GAACGTGCTTGAGGATGTTCCACGTCTGCCTTCAGTTGTCTCCCAGACTGAGAAAGAACTAGCGCCAGAC CAGGTATCACCTCCAGCCAGCAGTTTCTCTCTGGCAAGCAGTCCAGAGAGTGAATCAGTAACCAAAGATG ACGCACTTTCTCTTGTCCCCTCCCAGAAAGAAAAGGGAACAGCAACTCCTCAGCTCCATAGAACTACAGC TTGTCGAGATGGCCCAGATGGAAGAGATTTGAGTGATACCGATAAGGTAGGAGACGGGGCCACTGACCCA CCTCCATCCTCTGCTGTAGAGCTTCGGACCAGCATGGGAAATACCAGCCCTGTAGGCATTGGTGGAGAAC AGGAGGGTTCCAGCCCAACAGCAACACTTGAAGTGCTGAGTGACTCTTTACTGCATAACGTGGATAAAGC TGCTTTGGTTTCTGACTTTACTCTGCCTGAAGAAGGTGTCAGTGTAGTGGTTCCAGAAAGTTCCACAGCT CTGGGGCAAGATGGCAAAGATAGAGCAATGAGCTGTTCTTCAGTTAAAGAAGACGTGCATTCTTCAGAAA TGTCAAGGGAAGACCAGAGAACACCTCCCTCTGGGCAGGAGATACCAGGACTCTGTGAAAAACCTATGTC AGCCCTCTGTGCCGAGGAGAAAGCACAGCAGCACACACCCTCTGCCTGTCTGAAAACAGAAACTAAAGAC ATCAAGGAAGTGGCCCCACAGGTCTCCCTGCTGACTGAAGGTGGGGCTGCAAAGAGCCTGGTGCCACCAA GAACGAGTCTGTCTGCCGATTCAAAGCAGAAAGCCTCGAGTACAGAGCAGAGCGGCTCATCTCTGTTGCC AAGTGGGCTGCCAGGTGCGTCTGAGGCACTCCATTGTAATCAGCCTTCTGCTCTCGATGTTGTCGTAGAG AATACTCAGTTCCAAGGGGAAACCAATGCTTGTGAGGTAAGCAGAAGTGCGATGGAGGATGTTACAGTGG CTGATGCTTCACCAGCTACTGCTGAGCCCAGAAAAAAGGATGCATCACACTGTATCAAAGACATCCCAAT TTCAGAGTTGTTAAACCAAGAGAAGCAAATGACTCCAAGTTTGCCAGAAGCTTTCCTGGACAAAGGTGTC ACTGACTTACAGGAAGTCATAACCCCAGAGATAGAACCACTTGATTGCAAGAGAGAGACGCTGGAGGGAA CAGACCTTAACTGTGCCACGAGTAACTCCAAAGAGACCCCAATCGAAAAACCAATGCAGCCTCTTGCCAG GGACCTCCCCACAGAGACAGGGCTCTCAGTGATCAATAACAATGTCCCCCAAGCTGACATGAAGCAAGTG GCACAGGCTTCCATCCCGGCAGAGGAAAGTAATGCCACTACTGTCTCAACCCAAGCTGCAGATGTGCCTA CCAGAGCAGACTCCATAGAGGAGACCGCCACTAGGATAGTGGAGGCCGTCATCAGGCAAGTCAGGGCCTC CAACGCACTGATGGCTAAAGTAGAAACCCAGAATCCGTCACTCTCCAGTCCAGAGACTAAGCAGCTAGAG AATGCTTACACAGAGAGTGCATGCGCTTTCCTGCCTGGGGAGACCCCGCAGATAGAGAAGACGCACGAAG ACACCACCGGGCAGTGTGGTGCTGAGACAGAAGAACCAGAGAAAATTATTCTACCTGAGTCAGCACCAGG TAAGCAAGGCAAAATGCCAGACACCAGAACTGGAGATGAAGTGGACCTTCTGAGTAGGATCAGTGCTGCT TCTGAGGAGGAGGCTGTAGGAAATGGAGCTGCCACACCCAAGATGAAGCAAGGCCCGGGGACCCAGGCGA TCAACCGAGAAAGCTGGTGTGCCATAGAGCCCTGCCCTGAAGCAGCATCTCTCTTAGCTTCCAAACAGAG CTCAGAATGCAGAAGCTTCATAGATGTTGGACTGGGCACGGAGTGTGCCTCAAAAGAAGGCATGCTCCAG AGAGTGTCAGGGAGTGAGTCTGACCTCTTTCACTCACCCAGTGATGAAATGGACAGCATCATCTTCCCAA AGCCTGAAGAAGAGCAGTTACTTTGTGATACAACAGGATCCAGTTCTTCCACAGATGACACAGCTTCCCT GGATCGACATTCTTCTCATGGCAGTGACGTGTCCCTTCCTCAGACTTCAAAGTTAAACAGATCCAGAAAT CATCAAAGTGCCAATGGCTTTTTCAGCCCTGGAGTCGAGGCACCTGAGAGTCGAGAGAGTGAGAGTGAGC CTGCTGGCTCTGGTGAAATGGAAGAGGAGGAGATGGACAGCATCACTGAAGTGCCTGCCAACTGCTCTTT TCTGAGGAGCTCCATGCGTTCTCTTTCTCCTTTCCGGAGGCACAGCTGGGGACCTGGGAAGAACGCAGCC AGTGATGCAGAAATGAACCAGCGGAGTTCAATGCGAGCTCTTGGGCATGTTGTCAGGAGACCTCCCATTC ATAGGAGAAGTTTCAGTCTGGAAGGCTTGACAGGAGGAGGTGTTGGAAATAAGCCATCCTCGTCTCTAGA AATGAGCTCTGCAAACTCCAGCGAGCTCAGAAACCCTTTCGGTGGTGAGGAACAGAGAAACTCTTTGATG TCACTTTCAGAAGAACATCTGGAGCCAGACCAGAGACAGCATCATAGGATGTTTGATCAGCAGACATGTT ACAGGTCTAAACAACAGGGATTTAACTACTGTACATCAGCCATTTCTTCTCCATTGACAAAATCCATCTC ATTAATGACAATCAGTCATCCTGGATTGGACAGTTCACGGCCCTTCCACAGTACCAGTGCCAACCTGACC GAGAGTATAACAGAAGAAAACTGTAACTTCCTGCCTCCAAGTCCCTCAAAAAAGAATTTTGAAGAAAAGA GTGGGACTAAGGTTAGTCGCACCTTCAGCTACATCAGGAATAAAATGTCCAGCAGCAAGAAGAGCAAAGA AAAGGAAAAGGAGAAGGATAAAATTAAGGAGAAAGAGAAAGACTCTAAAGAGAAGGAAAAAGATAAAAAG ACTCTTAACGGGCACACATTCAGCCCCATTCCTATTGTGGGTCCCATCAGCTGCAGCCAGTGCATGAAGC CTTTTACCAACAAGGACGCCTACACGTGTGCAGGCTGTGGTGCTTTTGTCCACAAAGGCTGCAGAGAAAA TCTAGCCTCCTGTGCAAAGGTCAAAATGAAGCAGCCAAAAGGGAGCCTCCAGGCCCACGATACATCATCG CTGCCCACAGTCATCATGAGAAACAAGTCTTCACAGCCCAAGGAGCGCCCTAGGTCTGCAGTCCTCTTGG CTGATGAGGCCACTGCGGCACCAATGTTTACTAACAGACGGTCCCAGCAGAGTGTCTCCCTCTCTAAAAG TGTCTCCATACAAAACATCACTGGAGTTGGCAATGATGAGAACATGTCAAACACCTGGAAATTTCTATCT CATTCAACAGACTCATTGAATAAAATCTGCAAGGTCAATGAGTCAACAGAATCCCTTACTGATGAGGGAG TAGGTACAGACATGAATGAAGGACAGCTGATGGGAGATTTTGAAAGCGACTCTAAACAGCTAGAAGCAGA GTCATGGAGCCGGACAGTGGACAGCAAGTTCCTTAAACAGCAGAAGAAAGATGTGGTCAAACGGCAGGAA GTGATTTACGAGTTGATGCAGACAGAGTTACATCACATCCGCACACTCAAGATCATGAGTGACGTGTACA GCCGGGGCATGATGACAGATCTGCTCTTTGAGCAGCAGATGGTGGAAAAGCTGTTCCCCTGCTTGGATGA GCTGATCAGTATCCACAGCCAGTTCTTTCAGAGGATCCTGGAGCGGAAGAAGGAGTCTCTTGTGGATAAG AGTGAAAAGAACTTTCTCATCAAGAGGATAGGGGATGTGCTTGTCAGTCAGTTCTCAGGTGAGAGTGCAG AGCGCTTAAAGAAGACATACGGCAAGTTCTGTGGACAGCACAACCAGTCTGTCAACTACTTCAAAGACCT CTACACCAAGGATAAGCGTTTCCAAGCCTTTGTGAAGAAGAAGATGAGCAGTTCAGTAGTAAGAAGGCTG GGAATTCCAGAGTGCATTTTACTTGTAACTCAGAGGATCACCAAGTACCCAGTTTTATTCCAAAGGATAC TGCAATGTACCAAAGACAATGAAGTGGAGCAGGAAGACCTCACTCAGTCCTTGAGCCTGGTGAAGGATGT GATTGGAGCCGTGGACAGCAAAGTGGCAAGTTACGAGAAGAAAGTGCGTCTCGGTGAGATTTACACAAAG ACAGATAGCAAGTCGATCATGAGAATGAAGAGTGGGCAGATGTTCGCCAAGGAGGACCTAAGACGGAAGA AGCTGGTGCGCGACGGGAGTGTGTTTCTGAAGAGCACAACAGGAAGGCTGAAAGAGGTTCAAGCAGTTCT ACTCACTGACATTTTAGTTTTCCTTCAAGAAAAAGACCAGAAATACGTGTTTGCATCCTTGGACCATAAG TCAACAGTGATCTCCTTAAAGAAGCTGATTGTAAGAGAAGTGGCCCATGAGGAGAAAGGCCTGTTCCTCA TCAGTATGGGGGTGAAAGATCCAGAGATGGTGGAGGTCCATGCAAGCTCCAGAGAGGAGCGGAATAGCTG GATTCAGATCATTCAGGACACAATCAACTCCCTGAATAGAGATGAAGATGAAGGGATTCCCAGTGAGAAT GAAGAAGAAAAGAAATTGTTGGATACCAAAGCCCGGGAGTTAAAAGAACAGCTTCAGCAGAAGGACCAGC AGATCCTCCTCTTGCTGGAAGAGAAGGAGATGATTTTCCGGGACATGACTGAGTGCAGCACTCCCTTGCC AGAGGATTGCTCCCCAACGCACAGCCCGAGAGTGCTCTTCCGCTCCAACACAGAGGAGGCTCTCAAAGGA GGACCGCTGATGAAAAGTGCAATAAATGAAGTGGAAATCCTTCAGAGTTTGGTGAGTGGAAGCCTCGGTG GCACACTTGGACAGTCCATCAGCAGCCCTGTTGAACAGGAAGTCATGGCTGCGCCCATTTCTTTGCCCCG GAGAGCAGAGACCTTTGGAGGATTTGACTGTCATCAGATGAATGCTTCCAAAGGAGGTGAGAAAGAAGAG GGTGATGACGGCCAAGATCTCAGGAGAACAGAGTCAGACAGCGGCCTGAAAAAGGGTGGAAATGGTAACC TGGTATTTATGCTTAAAAGAAACAGTGAGCAGGTTGTCCAGAGCATTGTTCACCTCCACGAACTCCTCAG CATGCTGCAGGGTGTCGTGCTACAACAAGACAGCTACATTGAGGATCAGAAGCTGGTGCTGACAGAGAAG GTCCTCACAAGGAGTGCATCTCGCCCCAGCTCTCTCATTGAGCAGGAGAAGCAGCGGAGCCTGGAGAAGC AGCGCCAGGACCTGGCCAACCTGCAGAAGCAGCAAGCACAGCACCTGGAGGAAAAGCGCCGCCGGGAGCG TGAGTGGGAGGCCCGGGAGCAGGAGCTCCGAGACCGAGAGGCCAAGCTGGCCGAGCGGGAAGAGACGGTC CGCCGCAGGCAGCAGGACCTGGAGAGGGACCGCGAAGAGCTCCAGCAGAAGAAGGGCACTTACCAGTGTG ACCTAGAGAGGCTACGGGCTGCCCAGAAACAGCTGGAACGAGAACAGGAACAGCTGAGGAGGGACACAGA GCGGCTCAGCCAGAGGCAGATGGATCAGAACCTTTGCCAGGTTTCAAATAAACATGGCAGGCTGATGCGG ATCCCATCCTTCTTGCCCAATTCGGATGAGTTCTCCTCGCCGTCTGCACCTTCTGTAACCAAATCAGGCT CATTGGACTCAGAACTCTCAGTGTCTCCTAAAAGGAACAGCATCTCTCGGACACAGAAAGATAAGGGGCC TTTCCATATACTGGGCTCAGCCAGCCAGACAAAAGTTCCCGAGGGGCAGAGCCAGGCCCCGTCCAGCACC TCCACTTCCACCCGACTCTTTGGGTTATCCAAGCCAAAGGAAAAGAAGGAGAAAAAGAAGAAGAGCAAAG GAAGCCGCACCCAGCCTGGTGACGGCCCTGCTTCGGAAGTACCAGCAGAGGGTGAAGAGATCTTCTGT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR226030 representing NM_029332
Red=Cloning site Green=Tags(s) MKLSPQQAPLYGDCVVTVLLAEEDKVEDDAIFYLIFSGSTLYHCTSTRKVSSDTLETIAPGHDCCETVKV LLCASREGLPVFVVAEEDFHFVQDEAYDAAQFLATSAGNQQALNFTRFLDRSGPPSRDVNSLDEKVALAF RHLKLPAEWNVLGTDHTLHDGGPRETLMHFAVRLGLLRLTWFLLQKPGGRGALSIHNKEGATPVSLALER GYHELHQLLTEENAGEPDSWSSLSYEIPYGDCSVRHHRELDIYTLTSESESHREPHGDSCTGHISKLMNI QQQLMKTNLKQMDNLMPLMVTAQDSSCVPSVPETDGLFLPCVPEPSDHQHPPFEETKSTLCCQRSPGRMA ESSCDLSSMVEEENVICSHKKNKDVGRKGEEAEPASAMDSGSASHQDSCLQSVPDCGVKGREGLPSCGNR NEVTGTNYSGVATCQQPLSSRSSVLQDAMVTEPDACQHSSGRELPDSSSTDVGAPEKAGELEHSLLTPDA TTQNNKPQVGEGTKERLENSDSSTTETTAVQVLSEPMEKADITNHVFATSAVGVNTPAEASPALSSEEIP TEKPGMETQERGCEGGTTSDQSSPVLPAAAIENKVLGGQEPDTSIAGFCKTASPLDLTMPGPSSDGMPEQ NSESHARPAQSLSGQALLCSTAEAGTPSAEATHQPSTVTSSGRLEECGSGKASLPESTMVQPSTQELCTT LCPEDPQADTVTSDTVKNTQKSVGVCHLCVSDAKNQGNGLKQDTPLTNVLEDVPRLPSVVSQTEKELAPD QVSPPASSFSLASSPESESVTKDDALSLVPSQKEKGTATPQLHRTTACRDGPDGRDLSDTDKVGDGATDP PPSSAVELRTSMGNTSPVGIGGEQEGSSPTATLEVLSDSLLHNVDKAALVSDFTLPEEGVSVVVPESSTA LGQDGKDRAMSCSSVKEDVHSSEMSREDQRTPPSGQEIPGLCEKPMSALCAEEKAQQHTPSACLKTETKD IKEVAPQVSLLTEGGAAKSLVPPRTSLSADSKQKASSTEQSGSSLLPSGLPGASEALHCNQPSALDVVVE NTQFQGETNACEVSRSAMEDVTVADASPATAEPRKKDASHCIKDIPISELLNQEKQMTPSLPEAFLDKGV TDLQEVITPEIEPLDCKRETLEGTDLNCATSNSKETPIEKPMQPLARDLPTETGLSVINNNVPQADMKQV AQASIPAEESNATTVSTQAADVPTRADSIEETATRIVEAVIRQVRASNALMAKVETQNPSLSSPETKQLE NAYTESACAFLPGETPQIEKTHEDTTGQCGAETEEPEKIILPESAPGKQGKMPDTRTGDEVDLLSRISAA SEEEAVGNGAATPKMKQGPGTQAINRESWCAIEPCPEAASLLASKQSSECRSFIDVGLGTECASKEGMLQ RVSGSESDLFHSPSDEMDSIIFPKPEEEQLLCDTTGSSSSTDDTASLDRHSSHGSDVSLPQTSKLNRSRN HQSANGFFSPGVEAPESRESESEPAGSGEMEEEEMDSITEVPANCSFLRSSMRSLSPFRRHSWGPGKNAA SDAEMNQRSSMRALGHVVRRPPIHRRSFSLEGLTGGGVGNKPSSSLEMSSANSSELRNPFGGEEQRNSLM SLSEEHLEPDQRQHHRMFDQQTCYRSKQQGFNYCTSAISSPLTKSISLMTISHPGLDSSRPFHSTSANLT ESITEENCNFLPPSPSKKNFEEKSGTKVSRTFSYIRNKMSSSKKSKEKEKEKDKIKEKEKDSKEKEKDKK TLNGHTFSPIPIVGPISCSQCMKPFTNKDAYTCAGCGAFVHKGCRENLASCAKVKMKQPKGSLQAHDTSS LPTVIMRNKSSQPKERPRSAVLLADEATAAPMFTNRRSQQSVSLSKSVSIQNITGVGNDENMSNTWKFLS HSTDSLNKICKVNESTESLTDEGVGTDMNEGQLMGDFESDSKQLEAESWSRTVDSKFLKQQKKDVVKRQE VIYELMQTELHHIRTLKIMSDVYSRGMMTDLLFEQQMVEKLFPCLDELISIHSQFFQRILERKKESLVDK SEKNFLIKRIGDVLVSQFSGESAERLKKTYGKFCGQHNQSVNYFKDLYTKDKRFQAFVKKKMSSSVVRRL GIPECILLVTQRITKYPVLFQRILQCTKDNEVEQEDLTQSLSLVKDVIGAVDSKVASYEKKVRLGEIYTK TDSKSIMRMKSGQMFAKEDLRRKKLVRDGSVFLKSTTGRLKEVQAVLLTDILVFLQEKDQKYVFASLDHK STVISLKKLIVREVAHEEKGLFLISMGVKDPEMVEVHASSREERNSWIQIIQDTINSLNRDEDEGIPSEN EEEKKLLDTKARELKEQLQQKDQQILLLLEEKEMIFRDMTECSTPLPEDCSPTHSPRVLFRSNTEEALKG GPLMKSAINEVEILQSLVSGSLGGTLGQSISSPVEQEVMAAPISLPRRAETFGGFDCHQMNASKGGEKEE GDDGQDLRRTESDSGLKKGGNGNLVFMLKRNSEQVVQSIVHLHELLSMLQGVVLQQDSYIEDQKLVLTEK VLTRSASRPSSLIEQEKQRSLEKQRQDLANLQKQQAQHLEEKRRREREWEAREQELRDREAKLAEREETV RRRQQDLERDREELQQKKGTYQCDLERLRAAQKQLEREQEQLRRDTERLSQRQMDQNLCQVSNKHGRLMR IPSFLPNSDEFSSPSAPSVTKSGSLDSELSVSPKRNSISRTQKDKGPFHILGSASQTKVPEGQSQAPSST STSTRLFGLSKPKEKKEKKKKSKGSRTQPGDGPASEVPAEGEEIFC TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_029332 |
ORF Size | 8328 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_029332.1, NP_083608.1 |
RefSeq Size | 12543 bp |
RefSeq ORF | 8331 bp |
Locus ID | 75547 |
UniProt ID | E9Q394 |
MW | 304 kDa |
Gene Summary | Scaffold protein that plays an important role in assembling signaling complexes downstream of several types of G protein-coupled receptors. Activates RHOA in response to signaling via G protein-coupled receptors via its function as Rho guanine nucleotide exchange factor. May also activate other Rho family members (PubMed:23658642). Part of a kinase signaling complex that links ADRA1A and ADRA1B adrenergic receptor signaling to the activation of downstream p38 MAP kinases, such as MAPK11 and MAPK14. Part of a signaling complex that links ADRA1B signaling to the activation of RHOA and IKBKB/IKKB, leading to increased NF-kappa-B transcriptional activity. Part of a RHOA-dependent signaling cascade that mediates responses to lysophosphatidic acid (LPA), a signaling molecule that activates G-protein coupled receptors and potentiates transcriptional activation of the glucocorticoid receptor NR3C1 (By similarity). Part of a signaling cascade that stimulates MEF2C-dependent gene expression in response to lysophosphatidic acid (LPA) (By similarity). Part of a signaling pathway that activates MAPK11 and/or MAPK14 and leads to increased transcription activation of the estrogen receptors ESR1 and ESR2. Part of a signaling cascade that links cAMP and EGFR signaling to BRAF signaling and to PKA-mediated phosphorylation of KSR1, leading to the activation of downstream MAP kinases, such as MAPK1 or MAPK3 (By similarity). Functions as scaffold protein that anchors cAMP-dependent protein kinase (PKA) and PRKD1. This promotes activation of PRKD1, leading to increased phosphorylation of HDAC5 and ultimately cardiomyocyte hypertrophy (PubMed:24161911). Has no guanine nucleotide exchange activity on CDC42, Ras or Rac (By similarity). Required for normal embryonic heart development, and in particular for normal sarcomere formation in the developing cardiomyocytes (PubMed:20139090). Plays a role in cardiomyocyte growth and cardiac hypertrophy in response to activation of the beta-adrenergic receptor by phenylephrine or isoproterenol (PubMed:23658642, PubMed:24161911). Required for normal adaptive cardiac hypertrophy in response to pressure overload (PubMed:17537920, PubMed:24161911). Plays a role in osteogenesis (PubMed:25892096).[UniProtKB/Swiss-Prot Function] |
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