Kalrn (NM_032062) Rat Tagged ORF Clone
CAT#: RR206024
- TrueORF®
Kalrn (Myc-DDK-tagged ORF) - Rat kalirin, RhoGEF kinase (Kalrn), (10 ug)
"NM_032062" in other vectors (1)
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CNY 56,910.00
CNY 300.00
Specifications
Product Data | |
Type | Rat Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | Duo; Hapip; Kalirin |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RR206024 representing NM_032062
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGACGGACCGCTTCTGGGACCAGTGGTATCTTTGGTATCTCCGCTTGCTTCGGCTTCTGGATCGAGGAT CTTTTCGGAATGATGGTTTGAAAGCTTCTGATGTCCTTCCTATCCTAAAGGAGAAAGTGGCCTTTGTGTC TGGGGGTCGTGATAAGCGAGGTGGACCCATCCTGACCTTCCCTGCCCGAACCAATCATGACAGAATAAGA CAGGAAGACCTACGGAAACTCGTGACGAATTTGGCCAGCGTGCCAAGCGAGGACGTTTGCAAACGTGGCT TCACCGTCATCATCGACATGCGGGGCTCCAAGTGGGACCTCATCAAGCCCCTCCTCAAGACGCTGCAGGA AGCCTTTCCCGCCGAGATCCATGTGGCCCTCATCATCAAGCCTGACAACTTCTGGCAGAAGCAGAAGACC AACTTTGGCAGCTCCAAATTCATCTTTGAGACGAGCATGGTGTCTGTGGAGGGCCTCACGAAGCTGGTGG ACCCCTCCCAGCTGACAGAAGAGTTTGACGGTTCCCTGGATTACAACCACGAGGAGTGGATTGAGTTGCG CCTCTCCCTGGAGGAGTTCTTCAACAGTGCGGTCCACCTGCTCTCACGCCTCGAGGACCTGCAGGAGATG CTGGCCCGGAAGGAGTTCCCTGTGGATGTGGAGGGCTCTCGGAGGCTTATCGACGAGCACACACAACTTA AGAAAAAGGTGCTGAAGGCCCCCGTGGAAGAGCTGGACCGGGAGGGGCAGCGGCTACTGCAGTGTATCCG CTGCAGTGATGGCTTCTCAGGGCGCAACTGCATCCCAGGAAGTGCCGACTTCCAGAGCCTTGTACCCAAG ATCACCAGCCTCCTGGACAAGCTGCATTCCACCCGACAACACCTGCACCAGATGTGGCACGTCCGAAAGC TCAAGCTGGATCAGTGCTTCCAGCTGCGGCTCTTCGAGCAGGATGCCGAGAAGATGTTCGACTGGATAAG CCACAACAAGGAGTTATTTCTTCAGAGCCACACAGAGATCGGAGTCAGCTACCAGCATGCACTAGACCTC CAGACACAGCACAATCACTTTGCCATGAACTCCATGAATGCCTATGTCAACATCAACCGCATCATGTCTG TCGCATCCCGCCTCTCAGAGGCTGGCCATTATGCCTCCCAGCAAATCAAGCAGATCTCCACGCAGCTAGA CCAGGAGTGGAAGAGCTTTGCTGCTGCCCTGGATGAACGCAGTACAATCCTGGCCATGTCTGCTGTGTTC CACCAGAAGGCAGAGCAGTTCCTGTCAGGAGTGGATGCCTGGTGTAAGATGTGCAGTGAAGGCGGCCTTC CTTCTGAGATGCAGGACCTGGAGCTGGCAATCCACCATCACCAGTCCTTGTATGAGCAGGTGACCCAGGC CTACACAGAGGTCAGCCAGGATGGGAAAGCACTCCTGGATGTCCTGCAGCGTCCCCTGAGCCCTGGGAAC TCCGAGTCCCTCACAGCCACAGCCAACTACTCCAAGGCGGTACACCAGGTGCTGGATGTGGTACATGAGG TGCTGCACCACCAGCGGCGGCTCGAGAGCATCTGGCAGCACCGTAAAGTGCGGCTTCACCAGCGGCTGCA GCTGTGCGTCTTCCAGCAGGATGTGCAGCAGGTGCTGGACTGGATTGAAAACCACGGTGAGGCCTTTCTC AGCAAACACACTGGGGTCGGCAAGTCCCTGCATCGGGCACGGGCATTGCAGAAGAGGCATGATGACTTTG AAGAGGTGGCTCAGAATACATACACCAATGCGGACAAGCTCCTAGAGGCAGCAGAGCAGCTGGCTCAGAC TGGGGAATGTGACCCGGAAGAGATCTACAAGGCTGCCCGACACCTGGAGGTGCGCATCCAAGACTTCGTG CGCAGAGTGGAGCAGCGGAAGCTTCTTCTGGACATGTCCGTCTCTTTCCACACGCACACCAAAGAGCTGT GGACATGGATGGAAGACCTTCAGAAGGAGGTGCTGGAGGATGTCTGTGCAGACTCTGTGGATGCGGTCCA GGAACTGATCAAGCAGTTCCAGCAGCAGCAGACCGCTACCCTGGACGCCACTCTCAACGTCATCAAGGAA GGCGAAGACCTTATCCAGCAGCTCAGGTCAGCGCCTCCCTCCCTGGGGGAGCCCACCGAGGCCAGGGACT CAGCTGTATCCAACAACAAGACGCCCCACAGTAGTTCCATCAGCCATATCGAGTCTGTCCTCCAGCAGCT GGACGATGCTCAGGTACAGATGGAGGAGCTGTTTCACGAGCGGAAGATCAAGCTGGACATCTTCCTGCAG CTGCGCATCTTCGAACAGTACACCATTGAGGTCACCGCAGAGCTGGATGCCTGGAATGAGGACTTGCTCC GGCAGATGAATGACTTCAACACAGAGGACCTGACCCTGGCAGAGCAGCGGCTACAGCGCCACACAGAACG GAAGCTTGCCATGAACAACATGACATTCGAGGTCATCCAGCAGGGCCAGGACCTGCACCAATATATCATG GAAGTCCAAGCCTCAGGAATCGAGTTAATCTGTGAGAAGGACGTTGACCTGGCAGCTCAGGTGCAAGAGC TACTGGAATTTCTCCATGAGAAGCAGCACGAACTGGAGCTCAATGCGGAGCAGACGCACAAGCGGCTAGA GCAGTGTCTCCAGCTGCGGCACCTCCAGGCTGAGGTCAAACAGGTTCTGGGATGGATCCGCAATGGAGAG TCCATGCTCAACGCCAGCCTGGTCAATGCCAGCTCTTTGTCTGAGGCAGAGCAGCTACAGCGGGAGCACG AACAGTTCCAGCTAGCCATCGAGAAGACGCACCAGAGCGCCCTGCAGGTACAGCAGAAGGCAGAGGCACT GCTCCAGGCCGGCCACTATGACGCCGATGCTATCCGGGAATGTGCGGAGAAGGTGGCCCTCCACTGGCAA CAGCTCATGCTAAAGATGGAGGACCGGCTGAAACTCGTCAATGCCTCTGTGGCCTTTTACAAGACCTCTG AGCAGGTGTGCAGCGTTCTGGAGAGCTTAGAGCAGGAGTACCGGAGAGACGAAGACTGGTGCGGCGGGAG AGACAAGCTGGGGCCGGCGGCAGAGATGGACCACGTCATTCCACTCCTCAGCAAGCATCTGGAGCAGAAG GAGGCCTTCCTGAAGGCCTGCACTCTGGCACGGCGGAATGCCGAGGTGTTCCTCAAGTACATCCACAGGA ACAATGTGAGCATGCCCAGTGTTGCCAGCCACACCAGGGGACCCGAACAGCAAGTAAAAGCCATCTTGAG TGAGCTCTTGCAGAGAGAGAATCGCGTCCTGCACTTCTGGACCTTGAAGAAGCGGCGGTTAGACCAGTGT CAGCAATATGTGGTGTTTGAACGCAGTGCTAAACAGGCACTAGACTGGATCCAAGAAACAGGAGAATATT ACCTCTCAACCCATACCTCCACTGGAGAGACCACAGAGGAGACTCAGGAGCTGCTGAAAGAGTATGGAGA ATTCAGGGTGCCTGCCAAGCAAACAAAAGAGAAGGTGAAGCTTCTGATCCAGCTAGCAGACAGCTTTGTG GAAAAGGGCCACATCCATGCCACAGAGATACGGAAATGGGTGACCACGGTGGACAAGCACTACCGGGATT TCTCCCTGAGGATGGGGAAGTACCGGTACACCCTGGAGAAAGCCCTGGGAGTCAACACGGAGGATAACAA GGACCTAGAGCTGGACATTATCCCAGCAAGCCTTTCAGACCGGGAGGTCAAGCTCCGGGATGCTAACCAC GAGGTCAATGAAGAGAAACGGAAGTCAGCTCGAAAGAAAGAATTCATTATGGCTGAACTGCTCCAGACCG AGAAGGCTTATGTAAGAGACCTACACGAGTGCTTGGAGACCTACCTGTGGGAAATGACCAGTGGTGTGGA AGAGATACCACCTGGGATCCTCAATAAGGAGCACATCATCTTCGGCAACATCCAGGAGATCTATGACTTC CACAACAACATCTTCCTCAAAGAGCTGGAGAAGTACGAGCAGCTGCCTGAGGATGTGGGACACTGCTTTG TTACCTGGGCAGACAAATTTCAGATGTATGTCACCTACTGTAAAAACAAGCCTGATTCCAACCAGCTGAT CCTGGAGCACGCAGGCACCTTCTTTGATGAGATCCAGCAGCGGCACGGGCTGGCCAACTCCATCTCTTCC TACTTAATTAAGCCTGTCCAGAGAGTTACGAAGTACCAGCTGCTCCTGAAGGAACTTTTAACTTGCTGTG AAGAAGGGAAAGGGGAGCTCAAGGATGGCCTGGAGGTGATGCTCAGTGTCCCCAAGAAAGCCAATGATGC CATGCATGTCAGCATGCTTGAAGGGTTCGATGAGAACTTGGATGTACAGGGGGAGTTGATTCTCCAGGAT GCCTTTCAAGTGTGGGACCCAAAGTCGCTGATCCGGAAGGGGCGGGAACGGCATCTGTTCCTCTTTGAGA TCTCCTTGGTGTTTAGCAAAGAGATCAAAGACTCTTCAGGACACACGAAATATGTTTACAAGAACAAGCT ACTGACCTCAGAGCTGGGTGTGACCGAGCACGTAGAAGGTGACCCCTGCAAATTCGCCTTGTGGTCTGGG CGCACCCCATCCTCAGACAATAAAACAGTGCTCAAAGCTTCCAACATCGAAACCAAGCAGGAATGGATCA AGAACATTCGGGAAGTGATTCAGGAAAGGATCATTCATCTTAAAGGAGCTTTAAAGGAGCCAATCCAGCT CCCCAAAACACCAGCCAAACTGAGGAACAATAGTAAGAGGGATGGGGTAGAGGATGGTGACAGCCAGGGG GACGGGAGCAGCCAGCCCGATACCATATCCATTGCCTCCAGGACCTCTCAGAACACAGTGGAGAGTGACA AGCTCTCAGGTGGATGTGAGCTGACCGTGGTCCTCCAGGACTTCAGCGCGGCCCACAGCAGTGAGCTGAG CATCCAGGTGGGGCAGACTGTGGAGCTGTTGGAACGACCCAGTGAGAGACCCGGCTGGTGTCTGGTCCGC ACCACAGAGCGGAGCCCCCCACAGGAAGGCCTGGTCCCCAGCAGCACCTTGTGCATCTCACACTCGAGAA GCAGCGTGGAAATGGACTGCTTCTTCCCCCTGGTGAAAGATTCATACTCTCATTCCTCCGGTGAGAATGG AGGCAAGTCTGAGTCCGTGGCCAACCTGCAGTCTCAGCCCTCCCTGAACTCCATCCACAGTTCCCCTGGT CCCAAGCGCTCCACCAACACCCTTAAGAAGTGGCTGACGAGCCCTGTGCGTCGGCTCAACAGCGGGAAAG CAGACGGAAACATCAAAAAGCAGAAGAAAGTACGGGATGGGCGGAAGAGCTTCGACCTGGGCTCACCCAA GCCAGGGGACGAGACAACCCCTCAGGGAGACAGCGCTGATGAGAAGAGCAAGAAAGGTTGGGGAGAAGAT GAGCCAGATGAAGAGTCACACACACCTCTCCCCCCGCCCATGAAGATCTTTGACAACGACCCCACCCAGG ATGAGATGTCCTCTTTGCTAGCAGCCCGGCAGGCTCCCACTGACGTGCCTACTGCTGCAGACCTTGTCAG TGCAATAGAAAAGTTGGTCAAAAGTAAGCTGACTCTGGAAGGAGGCTCTTACCGGGGGAGCTTGAAGGAC CCTACAGTCTGCCTGAATGAGGGGATGGCCCCTCCCACACCTCCTAGAAACCTGGAAGAAGAACAGAAAG CCAAGGCTCTAAGAGGCAGGATGTTTGTCCTGAATGAGTTGGTGCAGACAGAGAAGGACTACGTCAAGGA CCTGGGGATTGTGGTGGAGGGCTTCATGAAAAGAATAGAAGAGAAGGGGGTCCCCGAGGACATGCGAGGG AAGGAAAAGATCGTGTTTGGAAACATCCACCAGATTTACGACTGGCATAAAGATTTTTTCCTGGCTGAAC TGGAAAAATGCATCCAAGAGCAAGACAGATTGGCCCAGCTCTTCATTAAACATGAGCGGAAGCTGCACAT CTATGTGTGGTACTGCCAGAACAAACCACGTTCCGAATACATCGTGGCTGAATATGATGCCTACTTTGAG GAGGTTAAACAAGAGATCAATCAAAGGCTGACCCTTAGTGACTTCCTCATCAAGCCCATTCAGAGAATAA CAAAGTACCAGCTGCTACTCAAGGACTTCCTGCGGTACAGCGAGAAGGCTGGTTTGGAGTGTTCTGATAT TGAGAAAGCAGTGGAGTTAATGTGCCTTGTCCCCAAGCGCTGTAATGACATGATGAATCTGGGACGCCTG CAGGGCTTTGAGGGCACCCTGACCGCCCAGGGCAAGCTTCTACAGCAGGACACGTTCTATGTGATTGAGC TGGATGCTGGCATGCAGTCCCGGACCAAGGAGAGGCGTGTGTTTCTCTTTGAGCAGATTGTCATCTTTAG TGAACTGCTCCGAAAGGGATCCCTCACCCCAGGCTACATGTTCAAGAGGAGCATCAAGATGAATTACTTG GTTCTGGAAGAAGATGTGGATGATGACCCCTGCAAATTTGCACTTATGAACAGGGAGACTTCAGAAAGGG TCATTCTGCAGGCCGCCAACTCAGACATCCAGCAGGCCTGGGTGCAGGACATCAACCAAGTCCTAGAAAC ACAGAGGGACTTCTTAAATGCTCTGCAGTCACCCATCGAGTATCAGCGGAAGGAGAGGAGCACAGCTGTG ATCCGGTCCCAGCCCCCTAGGGTTCCTCAAGCCAGCCCCAGGCCCTATTCGTCTGTCCCAGTGGGCTCAG AGAAACCCCCCAAGGGCTCCAGCTACAACCCGCCCCTGCCACCCCTGAAAATATCTACCTCGAATGGCAG TCCAGGGTTCGACTACCACCAGCCTGGGGACAAGTTTGACGCTAGCAAGCAGAACGACCTGGGAGGCTGC AATGGGACCTCAACCATGGCCGTAATTAAAGATTACTATGCACTGAAGGAGAACGAAATCTGTGTGAGCC AAGGTGAGGTGGTCCAGGTCCTCGCCGTCAACCAGCAGAACATGTGTCTGGTGTACCAGCCTGCCAGCGA CCATTCCCCAGCAGCGGAGGGCTGGGTCCCAGGCAGCATCCTGGCACCCCTCACCAAAGCCACAGCGCCG GCCGAGAGTAGTGATGAGAGCATCAAGAAGTCATGCTCATGGCACACTCTACGCATGAGAAAGCGGGCAG ACGTGGAGAACACGGGTAAAAATGAAGCCACAGGGCCTCGTAAACCCAAGGATATTCTGGGCAACAAAGC CTCTGTTAAAGAGACGAACAGTTCCGAGGAGTCAGAGTGTGATGATCTTGACCCTAATACTAGTATGGAG ATCTTGAATCCGAATTTCATCCAGGAAGTGGCTCCGGAATTCCTTGTGCCCTTGGTAGATGTGACCTGCT TGCTCGGAGACACAGTACTGCTACAGTGCAAAGCCTGTGGGCGGCCAAAGCCTACCATCACCTGGAAGGG TCCAGATCAGAACATCCTAGACACCGACAACAGTTCAGCCACATACACCATCTCCTCCTGTGATTCTGGG GAAAGCACCCTCAAGATCTGCAACCTGATGCCCCAAGACAGCGGGATTTATACCTGCATAGCAACAAATG ACCACGGAACCGCATCCACGTCTGCTACAGTTAAGGTGCAAGGTGTACCCGCAGCCCCCAATCGCCCAAT CGCACAGGAGAGGAGCTGCACCTCCGTCATCCTCCGCTGGCTGCCCCCAGCCAGCACCGGAAACTGCACT ATTTCGGGGTACACAGTGGAGTACCGCGAGGAAGGTTCGCAGGTCTGGCAGCAGTCGGTAGCTTCAACCT TGGACACTTACCTAGTCATTGAAGATCTTAGTCCAGGGTGCCCTTATCAGTTCAGGGTCAGCGCCAGCAA CCCCTGGGGAATCAGCCTTCCCAGTGAGCCCTCGGAGTTTGTGCACCTTCCAGAGTACGATGCAGCTGCT GATGGTGCCACCATTTCTTGGAAGGAAAATTTTGATTCTGCTTACACCGAACTGAACGAGATTGGCAGAG GCCGTTTCTCTATTGTAAAGAAATGCATTCACAAAGCTACCCGCAAAGACGTTGCTGTGAAATTTGTGAG CAAGAAAATGAAAAAGAAGGAACAGGCTGCGCACGAGGCCGCCCTGCTCCAGCACCTGCAGCACCCCCAG TACGTCACCCTCCACGACACCTACGAGTCCCCCACATCCTACATCCTGATTTTGGAACTGATGGATGACG GCCGACTCTTGGACTACCTAATGAATCACGATGAGCTGATGGAAGAAAAGGTAGCTTTCTACATTCGAGA CATCATGGAAGCTCTGCAGTACCTTCACAACTGCAGGGTGGCACATTTGGACATAAAGCCTGAAAACCTC CTCATTGACCTCCGGATCCCAGTGCCTCGAGTGAAACTCATCGACTTGGAAGATGCTGTCCAGATCTCAG GCCACTTCCACATCCACCATCTGCTGGGGAACCCTGAGTTTGCTGCCCCGGAAGTGATCCAAGGCATCCC TGTCTCCCTGGGCACAGACATCTGGAGCATCGGGGTTCTGACCTACGTCATGCTTAGCGGGGTCTCCCCC TTCTTAGATGAGAGCAAAGAGGAGACCTGCATCAACGTGTGCAGGGTGGACTTCAGCTTCCCCCACGAAT ACTTCTGCGGTGTAAGCAATGCTGCCAGGGACTTCATCAACGTCATCTTACAGGAAGACTTCCGGAGGCG GCCCACAGCAGCCACGTGCCTGCAGCATCCGTGGCTGCAGCCCCACAACGGCAGCTACTCCAAGATCCCC TTGGATACCTCCCGCCTGGCCTGCTTCATAGAGCGCCGCAAGCACCAGAATGACGTGCGGCCCATTCCCA ATGTCAAAAGTTACATCGTCAACAGGGTGAACCAGGGGACCATGTCAAAAGTTACATCGTCAACAGGGTG AACCAGGGGACC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RR206024 representing NM_032062
Red=Cloning site Green=Tags(s) MTDRFWDQWYLWYLRLLRLLDRGSFRNDGLKASDVLPILKEKVAFVSGGRDKRGGPILTFPARTNHDRIR QEDLRKLVTNLASVPSEDVCKRGFTVIIDMRGSKWDLIKPLLKTLQEAFPAEIHVALIIKPDNFWQKQKT NFGSSKFIFETSMVSVEGLTKLVDPSQLTEEFDGSLDYNHEEWIELRLSLEEFFNSAVHLLSRLEDLQEM LARKEFPVDVEGSRRLIDEHTQLKKKVLKAPVEELDREGQRLLQCIRCSDGFSGRNCIPGSADFQSLVPK ITSLLDKLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAEKMFDWISHNKELFLQSHTEIGVSYQHALDL QTQHNHFAMNSMNAYVNINRIMSVASRLSEAGHYASQQIKQISTQLDQEWKSFAAALDERSTILAMSAVF HQKAEQFLSGVDAWCKMCSEGGLPSEMQDLELAIHHHQSLYEQVTQAYTEVSQDGKALLDVLQRPLSPGN SESLTATANYSKAVHQVLDVVHEVLHHQRRLESIWQHRKVRLHQRLQLCVFQQDVQQVLDWIENHGEAFL SKHTGVGKSLHRARALQKRHDDFEEVAQNTYTNADKLLEAAEQLAQTGECDPEEIYKAARHLEVRIQDFV RRVEQRKLLLDMSVSFHTHTKELWTWMEDLQKEVLEDVCADSVDAVQELIKQFQQQQTATLDATLNVIKE GEDLIQQLRSAPPSLGEPTEARDSAVSNNKTPHSSSISHIESVLQQLDDAQVQMEELFHERKIKLDIFLQ LRIFEQYTIEVTAELDAWNEDLLRQMNDFNTEDLTLAEQRLQRHTERKLAMNNMTFEVIQQGQDLHQYIM EVQASGIELICEKDVDLAAQVQELLEFLHEKQHELELNAEQTHKRLEQCLQLRHLQAEVKQVLGWIRNGE SMLNASLVNASSLSEAEQLQREHEQFQLAIEKTHQSALQVQQKAEALLQAGHYDADAIRECAEKVALHWQ QLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYRRDEDWCGGRDKLGPAAEMDHVIPLLSKHLEQK EAFLKACTLARRNAEVFLKYIHRNNVSMPSVASHTRGPEQQVKAILSELLQRENRVLHFWTLKKRRLDQC QQYVVFERSAKQALDWIQETGEYYLSTHTSTGETTEETQELLKEYGEFRVPAKQTKEKVKLLIQLADSFV EKGHIHATEIRKWVTTVDKHYRDFSLRMGKYRYTLEKALGVNTEDNKDLELDIIPASLSDREVKLRDANH EVNEEKRKSARKKEFIMAELLQTEKAYVRDLHECLETYLWEMTSGVEEIPPGILNKEHIIFGNIQEIYDF HNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSNQLILEHAGTFFDEIQQRHGLANSISS YLIKPVQRVTKYQLLLKELLTCCEEGKGELKDGLEVMLSVPKKANDAMHVSMLEGFDENLDVQGELILQD AFQVWDPKSLIRKGRERHLFLFEISLVFSKEIKDSSGHTKYVYKNKLLTSELGVTEHVEGDPCKFALWSG RTPSSDNKTVLKASNIETKQEWIKNIREVIQERIIHLKGALKEPIQLPKTPAKLRNNSKRDGVEDGDSQG DGSSQPDTISIASRTSQNTVESDKLSGGCELTVVLQDFSAAHSSELSIQVGQTVELLERPSERPGWCLVR TTERSPPQEGLVPSSTLCISHSRSSVEMDCFFPLVKDSYSHSSGENGGKSESVANLQSQPSLNSIHSSPG PKRSTNTLKKWLTSPVRRLNSGKADGNIKKQKKVRDGRKSFDLGSPKPGDETTPQGDSADEKSKKGWGED EPDEESHTPLPPPMKIFDNDPTQDEMSSLLAARQAPTDVPTAADLVSAIEKLVKSKLTLEGGSYRGSLKD PTVCLNEGMAPPTPPRNLEEEQKAKALRGRMFVLNELVQTEKDYVKDLGIVVEGFMKRIEEKGVPEDMRG KEKIVFGNIHQIYDWHKDFFLAELEKCIQEQDRLAQLFIKHERKLHIYVWYCQNKPRSEYIVAEYDAYFE EVKQEINQRLTLSDFLIKPIQRITKYQLLLKDFLRYSEKAGLECSDIEKAVELMCLVPKRCNDMMNLGRL QGFEGTLTAQGKLLQQDTFYVIELDAGMQSRTKERRVFLFEQIVIFSELLRKGSLTPGYMFKRSIKMNYL VLEEDVDDDPCKFALMNRETSERVILQAANSDIQQAWVQDINQVLETQRDFLNALQSPIEYQRKERSTAV IRSQPPRVPQASPRPYSSVPVGSEKPPKGSSYNPPLPPLKISTSNGSPGFDYHQPGDKFDASKQNDLGGC NGTSTMAVIKDYYALKENEICVSQGEVVQVLAVNQQNMCLVYQPASDHSPAAEGWVPGSILAPLTKATAP AESSDESIKKSCSWHTLRMRKRADVENTGKNEATGPRKPKDILGNKASVKETNSSEESECDDLDPNTSME ILNPNFIQEVAPEFLVPLVDVTCLLGDTVLLQCKACGRPKPTITWKGPDQNILDTDNSSATYTISSCDSG ESTLKICNLMPQDSGIYTCIATNDHGTASTSATVKVQGVPAAPNRPIAQERSCTSVILRWLPPASTGNCT ISGYTVEYREEGSQVWQQSVASTLDTYLVIEDLSPGCPYQFRVSASNPWGISLPSEPSEFVHLPEYDAAA DGATISWKENFDSAYTELNEIGRGRFSIVKKCIHKATRKDVAVKFVSKKMKKKEQAAHEAALLQHLQHPQ YVTLHDTYESPTSYILILELMDDGRLLDYLMNHDELMEEKVAFYIRDIMEALQYLHNCRVAHLDIKPENL LIDLRIPVPRVKLIDLEDAVQISGHFHIHHLLGNPEFAAPEVIQGIPVSLGTDIWSIGVLTYVMLSGVSP FLDESKEETCINVCRVDFSFPHEYFCGVSNAARDFINVILQEDFRRRPTAATCLQHPWLQPHNGSYSKIP LDTSRLACFIERRKHQNDVRPIPNVKSYIVNRVNQGTMSKVTSSTG*TRG TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_032062 |
ORF Size | 8931 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 Size | 8980 bp |
RefSeq ORF | 8934 bp |
Locus ID | 84009 |
UniProt ID | P97924 |
MW | 339.2 kDa |
Gene Summary | binds the human huntingtin associated protein Hap1 in vitro; has GDP/GTP exchange factor activity for Rho subfamily GTP-binding proteins [RGD, Feb 2006] |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RN206024 | Kalrn (untagged ORF) - Rat kalirin, RhoGEF kinase (Kalrn), (10 ug) |
CNY 56,910.00 |