Lrba (NM_001077688) Mouse Tagged ORF Clone
CAT#: MR222157
- TrueORF®
Lrba (Myc-DDK-tagged) - Mouse LPS-responsive beige-like anchor (Lrba), transcript variant 2
ORF Plasmid: tGFP
"NM_001077688" in other vectors (2)
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CNY 27,840.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | C80285; D3Ertd775e; Lab300; Lba |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR222157 representing NM_001077688
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCTAGTGAAGACAATCGTGCCCCTTCCCGGCCACCAACAGGTGATGACGGGGGAGGTGGAGGGAAAG AAGAAACCCCTACGGAAGGGGGTGCGCTGTCTCTGAAGCCGGGGCTCCCCATCAGGGGCATCAGAATGAA ATTCGCCGTGCTGACGGGGTTGGTTGAAGTTGGAGAAGTGTCCAATAGGGATATTGTAGAAACTGTCTTT AACCTGCTGGTAGGAGGCCAGTTTGATTTGGAGATGAACTTCATTATCCAGGAAGGTGAGAGCATTATGT GCATGGTGGAGCTACTGGAAAAGTGTGATGTCACTTGCCAAGCAGAAGTCTGGAGCATGTTTACAGCCAT TCTGAAGAAGAGCATACGAAATCTTCAAGTCTGCACAGAAGTAGGCCTCGTGGAAAAAGTACTTGGGAAA ATTGAGAAAGTTGACAGTATGATTGCAGATCTTCTCGTTGACATGTTGGGAGTGCTGGCCAGCTATAATT TGACAGTTAGAGAACTAAAGCTTTTCTTCAGTAAACTTCAAGGAGATAAAGGACAATGGCCTCCTCACGC TGGGAAGCTGCTGTCAGTGTTAAAGCACATGCCTCAGAAGTACGGTCCTGACGCCTTTTTCAACTTTCCA GGAAAGAGCGCTGCAGCTATTGCATTACCTCCTATAGCCAGATGGCCTTACCAGAATGGTTTTACATTTC ACACCTGGCTTAGAATGGATCCTGTAAATAATATTAATGTTGACAAGGATAAACCATATTTGTATTGTTT CAGAACCAGCAAAGGTCTTGGCTATTCTGCTCATTTTGTTGGAGGCTGTTTGATTATAACCTCAATAAAG TCAAAAGGAAAAGGCTTCCAACATTGTGTGAAATTTGATTTCAAGCCACAAAAGTGGTACATGGTAACTA TAGTACACATTTATAACCGGTGGAAGAACAGTGAGCTTCGCTGTTACGTGAATGGGGAACTTGCTTCCTA TGGAGAGATAACATGGTTTGTCAACACCAGTGATACCTTTGACAAATGCTTCCTGGGATCATCGGAGACA GCGGATGCGAATCGGGTGTTCTGTGGCCAGATGACTGCGGTTTACCTGTTCAGTGATGCTCTTAATGCAG CTCAGATTTTTGCCATTTATCAGTTGGGCCTGGGGTACAAGGGCACATTTAAATTTAAAGCAGAAAGTGA CCTTTTCCTCGCTGAGCACCATAAACTGTTACTGTATGACGGCAAGCTGTCCAGTGCCATTGCCTTCACG TACAACCCGCGGGCCACAGATGCCCAGCTGTGCCTGGAGTCGTCTCCCAAGGACAACCCCTCCATCTTCG TCCACTCGCCACACGCACTCATGCTCCAGGATGTAAAGGCAGTTTTGACACATTCCATCCAGAGCGCCAT GCACTCCATAGGAGGAGTACAAGTTCTGTTTCCGCTCTTCGCCCAGCTGGACTACAAGCAATATTTATCT GATGAGGTTGACTTGACTATCTGTACAACCTTGCTGGCCTTTATCATGGAGTTGCTGAAGAACTCAATTG CTATGCAGGAGCAGATGCTTGCTTGTAAGGGCTTTTTGGTAATAGGTTATAGCCTTGAAAAGTCTTCCAA ATCCCACGTCAGCAGAGCAGTACTTGAACTTTGCCTTGCGTTTTCAAAGTATTTGAGCAATCTGCAGAAT GGGATGCCCCTCCTGAAACAGCTGTGTGATCACATTCTTCTTAACCCTGCTGTATGGATCCACACTCCAG CCAAGGTTCAGTTGATGCTTTATACTTATCTATCCACTGAGTTCATTGGGACGGTCAACATCTATAACAC TATTCGGAGAGTTGGAACAGTGCTGCTCATCATGCACACGCTCAAGTACTACTACTGGGCAGTGAATCCT CAGGACCGAAGTGGTATCACCCCCAAAGGATTAGATGGACCAAGACCCAATCAGAAAGAAATACTTTCTC TGCGAGCATTCTTACTGATGTTCATTAAGCAGTTAGTGATGAAGGACTCTGGAGTGAAGGAAGATGAGCT ACAGGCCATTCTTAACTACCTGCTGACTATGCATGAGGACGACAATCTAATGGATGTCCTACAGCTGCTT GTTGCGTTGATGGCGGAGCATCCTAACTCCATGATTCCGGCTTTTGACCAAAGGAATGGGCTGCGTGTTA TCTATAAACTTCTGGCATCGAAGAGCGAAGGAATCCGAGTGCAGGCACTCAAGGCACTGGGATACTTTTT AAAGCATCTGGCGCCAAAGAGAAAAGCTGAAGTCATGCTTGGGCATGGATTGTTCTCGCTGCTAGCTGAG AGACTTATGCTTCAGACAAATCTAATCACAATGACCATGTATAATGTTCTGTTTGAGATTCTTATAGAAC AGATCTGTACTCAGGTGATCCACAAACAGCATCCAGATCCCGATTCTACAGTAAAAATACAAAACCCTCA GATACTAAAAGTAATTGCGACCCTACTTCGAAATTCTCCCCAGTGCCCAGAGAGCATGGAGGTTCGCCGA GCATTTCTTTCTGACATGATTAAACTTTTTAATAACAGTAGAGAAAACAGGAGGAGCTTGCTGCAGTGCT CTGTGTGGCAAGAATGGATGCTTTCTCTCTGCTATTTTAATCCTAAGAATTCAGATGAGCAAAAGATAAC AGAGATGGTGTACGCCATATTCAGAATTCTGCTTTACCATGCAGTCAAATACGAGTGGGGTGGCTGGCGA GTGTGGGTAGACACCTTATCCATCACACATTCAAAGGTTACTTTTGAAATACACAAAGAAAACCTTGCCA ATATATTTAGGGAAGAGCAGCGGAAAGGTGATGAAGAAACAGGACCGTGTTCTTCAAGCCTGGTTCCAGA AGGCACTGGTGCTACTAGGGGTGTTGATGTTTCAGTGGGGTCCCAGCACGAAGATCGGAAGGATTCTCCC ATCTCTCCTCATTTCACTAGAAATAGTGATGAGAACTCAAGTATTGGGAGGGCAAGTTCAATAGATTCTG CATCCAACACTGAACTGCAGACACATGATATGTCTAGTGATGAAAAGAAAGTAGAGCGAGAAAATCAAGA GTTACTGGATCAAGCCACCGTGGAAGAAACAGCTACAAATGGGGCAAAAGATGACTTAGAAACGTCTTCT GATGCAGCAGAGCCAGTGACTATTAACTCTAATTCTTTGGAACCAGGCAAAGATACAGTGACCATCAGTG AAGTAAGTGCTTCCATAAGTTCTCCCTCAGAAGAAGATGCTGCAGAGATGCCAGAATTACTGGAAAAGTC TGGAGTAGAGGAAGAAGAGGATGATGACTATGTGGAACTGAAGGTAGAAGGCAGCCCTACTGAGGAAGCT GGTCTGCCCACAGAGCTCCAAGGTGAGGGTTTGTCTGTAGCTGCCTCTGAAGGCAGAGAAGAACCAGATA TGTGTGGTCATGGCTGTGAAGTTCAAGTGGAAGCACCTATTACTAAAATTCATAATGATCCTGAAACTAC AGATTCTGAGGATTCTAGGTTTCCAACTGTGGCCACAGCAGGGTCTTTAGCTACCTCATCAGAAGTTCCT GTTCCCCAGGCAACTGTACAGTCAGACAGCCATGAGATGCTGGATGGAGGGATGAAAGCAACTAACCTTG CCGGAGAAACTGAGTCAGTTAGTGATTGTGCTGATAATGTCTCTGAGGCTCCTGCCACTTCTGAGCAGAA GATTACCAAACTGGATGTTTCTAGTGTGGCTTCAGATACTGAGAGGTTTGAATTGAAGGCCAGTACGAGC ACAGAAGCACCACAGCCTCAACGACATGGGCTTGAGATATCAAGGCAACAGGAGCAGACAGCACAAGGAA CAGCACCAGATGCAGTAGACCAACAAAGGAGGGACTCCAGATCCACCATGTTTCGCATTCCTGAGTTCAA GTGGTCTCAGATGCATCAACGTCTGCTCACTGATCTCTTATTTTCCATAGAAACAGATATACAGATGTGG AGAAGCCATTCAACAAAGACAGTTATGGACTTCGTGAATAGCAGTGATAATGTCATCTTTGTGCACAACA CAATTCATCTCATCTCTCAAGTGATGGACAATATGGTCATGGCTTGTGGGGGTATACTGCCATTACTCTC AGCTGCTACCTCGGCCACACATGAGCTGGAGAACATTGAGCCTACTCAAGGCCTTTCAATAGAAGCCTCA GTGACATTTCTTCAGAGGCTAATTAGCCTTGTGGATGTGCTTATATTTGCAAGTTCTCTTGGTTTTACTG AAATTGAAGCTGAAAAAAATATGTCATCTGGAGGAATTCTGCGACAGTGTCTCCGATTGGTGTGTGCAGT AGCTGTAAGGAATTGCTTAGAGTGTCAGCAACATTCACAGCTGAAAGCCAGAGGAGATACAGCAAAGAGC TCGAAAACAATACATAGCCTGATTCCCATGGGGAAATCTGCAGCAAAGAGCCCAGTAGACATTGTGACTG GTGGTATATCTCCGGTAAGAGATCTTGACAGGCTCCTGCAAGACATGGACATTAATCGGCTTCGAGCAGT TGTTTTCAGAGACATCGAGGACAGCAAGCAAGCTCAATTCTTGGCTTTGGCTGTTGTGTACTTTATCTCT GTTCTGATGGTCTCAAAGTACAGAGACATTTTGGAACCCCAAGATGAAAGACACAGTCAGTCTCTTAAGG AAACTAGTAGTGATAATGGGAATGCATCACTTCCTGATGCAGAAAACACACCAGCAGAATTTAGTTCTTT AACTCTGTCGTCGGTGGAAGAATCATTGGAAGGCACCTCATGCACTCGCAGGAGGGACTCAGGCCTTGGT GAGGAAACAGCCTCTGGCTTAGGAAGCGGTCTGTCTGTCGCTTCTCCAGCGGCGCCTCTGGGTGTCAGCG CGGGGCCAGATGCCATCAGCGAGGTGCTGTGCACTCTTTCTTTGGAAGTCAATAAATCTCAGGAAACAAG AATTGATGGAGGAAACGAGTTGGACAGGAAGGTGACACCATCAGTCCCAGTTTCAAAAAATGTCAACGTG AAGGACATTCTCCGGAGCTTGGTGAATATGCCAGCAGATGGAGTCACAGTGGATCCAGCCCTTCTGCCCC CAGCCTGCCTTGGTGCTCTTGGAGATCTGTCTGTTGACCCACCCATGCAGTTCAGATCCTTTGACAGAAG TGTCATCATTGCAACAAAGAAATCATCAGTCTTACCTTCCGCCCTTACTACAAGTGCACCTAGTAGCGCC GTCAGTGTGGTGTCTTCAGTAGATCCCACCCACGCCTCAGACACCGGAGGAGAGTCACCAGGAAGTAGAT CTCCTAATGCAAAACTGCCCTCAGTTGCAGCAGTTGGCTCCGTCCCACAAGACCCAGCTGCACACATGAG TATTACAGAAAGGCTAGAGCATGCACTGGAGAAGGCAGCTCCTCTGCTCCGAGAGATTTTTGTGGATTTT GCACCTTTCCTTTCTCGGACACTTTTAGGTAGTCATGGACAAGAACTGCTGATAGAAGGAACAAGCCTGG TCTGCATGAAGTCCAGCAGTTCAGTTGTGGAGCTGGTCATGCTGCTGTGTTCCCAGGAGTGGCAGAATTC TATTCAGAAGAATGCAGGCCTTGCTTTTATTGAACTTGTCAATGAAGGAAGGTTACTTAGCCAAACAATG AAGGATCATTTAGTAAGAGTAGCAAATGAAGCCGAATTTATCCTGAGCAGGCAGAGAGCAGAGGATATTC ACAGACATGCAGAATTTGAGTCATTGTGTGCTCAATACTCTGCAGACAAAAGAGAAGAGGAGAAGATGTG TGATCATTTGATAAGAGCAGCTAAATATCGAGACCATGTGACCGCAACTCAGTTAATCCAGAAAATTATC AACCTCCTCACAGACAAGCATGGAGCCTGGGGGAGCTCTGCAGTAAGTCGTCCTCGTGAGTTCTGGCGCC TTGACTACTGGGAAGATGACTTGAGGCGCCGGCGACGATTTGTGCGTAACCCTCTAGGATCGACACATCC TGAAGCGACACTAAAAACAGCCGTGGAACATGCTGCAGATGAAGACATCCTTGCTAAAGGAAAACAGTCC ATCAAGAGTCAGGCTTTAGGAAATCAGAACTCTGAAAACGAGGCCCTCCTGGAAGGCGACGACGATACTC TGTCATCCGTGGATGAGAAAGATTTAGAGAATCTTGCCGGTCCTGTTAGCCTGAGCACCCCAGCTCAGCT TGTGGCCCCCTCTGTTGTAGTAAAAGGCACTCTCTCTGTCACTTCCTCTGAACTCTATTTTGAGGTGGAT GAAGAGGATCCCAACTTCAAGAAAATTGACCCAAAGATCTTGGCATATACAGAAGGTCTGCATGGAAAAT GGCTGTTCACAGAGATAAGATCAATCTTTTCTCGCCGTTATCTTTTGCAAAATACAGCTCTGGAGATCTT TATGGCAAACAGAGTTGCTGTAATGTTCAACTTCCCAGACCCTGCCACAGTAAAGAAAGTGGTGAACTAT CTACCTCGTGTTGGTGTGGGAACCAGTTTTGGATTACCTCAGACCAGGCGTATTTCATTAGCCACTCCAC GTCAGCTATTCAAAGCTTCAAATATGACTCAGCGGTGGCAGCACAGAGAGATTTCAAACTTCGAGTACTT GATGTTTCTCAACACAATAGCAGGGCGGAGTTATAATGACCTAAATCAGTATCCTGTGTTTCCCTGGGTC ATCACTAATTATGAGTCAGAAGAATTAGATCTTACCTTGCCAAGCAATTTCAGAGATTTGTCCAAGCCAA TAGGAGCTTTGAATCCCAAACGAGCAGCATTCTTTGCAGAGCGATTTGAGTCATGGGAAGATGATCAAGT TCCAAAGTTCCACTATGGTACTCATTACTCAACTGCAAGTTTTGTTCTTGCGTGGCTTCTAAGAATAGAA CCTTTTACAACTTACTTTCTAAATTTACAAGGAGGGAAATTTGATCATGCAGATAGGACGTTCTCCTCAG TCTCCAGAGCATGGCGAAACAGTCAGCGCGACACATCTGACATTAAGGAATTGATTCCTGAATTTTATTA TCTCCCTGAGATGTTTGTCAACTTCAATAATTATAACCTTGGAGTGATGGATGATGGGACAGTGGTGTCT GATGTTGAACTTCCTCCTTGGGCCAAAACCTCGGAAGAATTCGTTCGCATAAACAGACTGGCCCTGGAGA GTGAATTTGTTTCCTGCCAGCTTCACCAATGGATTGATCTTATTTTTGGCTATAAACAACAAGGACCAGA GGCAGTGCGAGCCCTCAATGTGTTCTATTACCTAACCTATGAAGGAGCTGTCAACCTGAACTCAATAACT GATCCTGTGCTGAGAGAGGCTGTGGAAGCTCAGATCCGAAGTTTTGGACAGACGCCTTCGCAACTGCTCA TAGAGCCCCACCCTCCCCGAGGTTCGGCCATGCAGGCGAGTCCATTGATGTTCACAGACCAAGCCCAGCA AGATGTCATCATGGTCCTAAAGTTCCCTTCGAATTCTCCAGTCACCCACGTTGCGGCCAACACCCAGCCA GGCCTGGCAATGCCTGCTGTCATCACTGTCACTGCTAACAGGCTCTTTGCCGTGAACAAGTGGCACAACC TTCCTGCTCACCAAGGTGCTGTACAAGACCAGCCATACCAGCTGCCAGTGGAAATCGATCCTCTCATAGC CTGCGGCACAGGGACACACAGGAGGCAGGTAACAGACCTCCTGGACCAGAGCATCCAAGTGCACTCCCAG TGCTTCGTCATCACTTCCGACAACCGCTACATTCTCGTCTGTGGCTTCTGGGATAAGAGTTTCCGGGTCT ACTCCACAGATACAGGAAAATTGATCCAAGTGGTGTTTGGCCATTGGGATGTTGTCACTTGCCTAGCTCG CTCTGAGTCGTACATAGGGGGAAATTGTTACATCCTCTCGGGGTCACGTGACGCAACTCTTCTTCTGTGG TACTGGAATGGGAAGAGCAGCGGGATTGGAGATAACCCTGGCGGTGAAACTGCCACCCCTCGGGCCATTC TCACAGGCCATGACTACGAGATCACCTGTGCTGCTGTCTGCGCTGAGCTGGGCCTGGTGTTAAGTGGTTC CCAAGAAGGGCCGTGTCTCATACACTCCATGAATGGAGACCTGTTAAGGACTTTGGAGGGTCCCGAAAAT TGCCTGAAACCAAAACTCATCCAAGCATCGAGAGAGGGTCACTGTGTCATCTTCTATGAAAACGGCTGCT TCTGCACCTTCAGTGTGAACGGGAAGCTGCAGGCCACCGTGGAGACGGATGATCACATAAGGGTGAGTGC CGTAGGCTCCACCTTGTTCCTTTTACTGGGAAGCTCTAAG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR222157 representing NM_001077688
Red=Cloning site Green=Tags(s) MASEDNRAPSRPPTGDDGGGGGKEETPTEGGALSLKPGLPIRGIRMKFAVLTGLVEVGEVSNRDIVETVF NLLVGGQFDLEMNFIIQEGESIMCMVELLEKCDVTCQAEVWSMFTAILKKSIRNLQVCTEVGLVEKVLGK IEKVDSMIADLLVDMLGVLASYNLTVRELKLFFSKLQGDKGQWPPHAGKLLSVLKHMPQKYGPDAFFNFP GKSAAAIALPPIARWPYQNGFTFHTWLRMDPVNNINVDKDKPYLYCFRTSKGLGYSAHFVGGCLIITSIK SKGKGFQHCVKFDFKPQKWYMVTIVHIYNRWKNSELRCYVNGELASYGEITWFVNTSDTFDKCFLGSSET ADANRVFCGQMTAVYLFSDALNAAQIFAIYQLGLGYKGTFKFKAESDLFLAEHHKLLLYDGKLSSAIAFT YNPRATDAQLCLESSPKDNPSIFVHSPHALMLQDVKAVLTHSIQSAMHSIGGVQVLFPLFAQLDYKQYLS DEVDLTICTTLLAFIMELLKNSIAMQEQMLACKGFLVIGYSLEKSSKSHVSRAVLELCLAFSKYLSNLQN GMPLLKQLCDHILLNPAVWIHTPAKVQLMLYTYLSTEFIGTVNIYNTIRRVGTVLLIMHTLKYYYWAVNP QDRSGITPKGLDGPRPNQKEILSLRAFLLMFIKQLVMKDSGVKEDELQAILNYLLTMHEDDNLMDVLQLL VALMAEHPNSMIPAFDQRNGLRVIYKLLASKSEGIRVQALKALGYFLKHLAPKRKAEVMLGHGLFSLLAE RLMLQTNLITMTMYNVLFEILIEQICTQVIHKQHPDPDSTVKIQNPQILKVIATLLRNSPQCPESMEVRR AFLSDMIKLFNNSRENRRSLLQCSVWQEWMLSLCYFNPKNSDEQKITEMVYAIFRILLYHAVKYEWGGWR VWVDTLSITHSKVTFEIHKENLANIFREEQRKGDEETGPCSSSLVPEGTGATRGVDVSVGSQHEDRKDSP ISPHFTRNSDENSSIGRASSIDSASNTELQTHDMSSDEKKVERENQELLDQATVEETATNGAKDDLETSS DAAEPVTINSNSLEPGKDTVTISEVSASISSPSEEDAAEMPELLEKSGVEEEEDDDYVELKVEGSPTEEA GLPTELQGEGLSVAASEGREEPDMCGHGCEVQVEAPITKIHNDPETTDSEDSRFPTVATAGSLATSSEVP VPQATVQSDSHEMLDGGMKATNLAGETESVSDCADNVSEAPATSEQKITKLDVSSVASDTERFELKASTS TEAPQPQRHGLEISRQQEQTAQGTAPDAVDQQRRDSRSTMFRIPEFKWSQMHQRLLTDLLFSIETDIQMW RSHSTKTVMDFVNSSDNVIFVHNTIHLISQVMDNMVMACGGILPLLSAATSATHELENIEPTQGLSIEAS VTFLQRLISLVDVLIFASSLGFTEIEAEKNMSSGGILRQCLRLVCAVAVRNCLECQQHSQLKARGDTAKS SKTIHSLIPMGKSAAKSPVDIVTGGISPVRDLDRLLQDMDINRLRAVVFRDIEDSKQAQFLALAVVYFIS VLMVSKYRDILEPQDERHSQSLKETSSDNGNASLPDAENTPAEFSSLTLSSVEESLEGTSCTRRRDSGLG EETASGLGSGLSVASPAAPLGVSAGPDAISEVLCTLSLEVNKSQETRIDGGNELDRKVTPSVPVSKNVNV KDILRSLVNMPADGVTVDPALLPPACLGALGDLSVDPPMQFRSFDRSVIIATKKSSVLPSALTTSAPSSA VSVVSSVDPTHASDTGGESPGSRSPNAKLPSVAAVGSVPQDPAAHMSITERLEHALEKAAPLLREIFVDF APFLSRTLLGSHGQELLIEGTSLVCMKSSSSVVELVMLLCSQEWQNSIQKNAGLAFIELVNEGRLLSQTM KDHLVRVANEAEFILSRQRAEDIHRHAEFESLCAQYSADKREEEKMCDHLIRAAKYRDHVTATQLIQKII NLLTDKHGAWGSSAVSRPREFWRLDYWEDDLRRRRRFVRNPLGSTHPEATLKTAVEHAADEDILAKGKQS IKSQALGNQNSENEALLEGDDDTLSSVDEKDLENLAGPVSLSTPAQLVAPSVVVKGTLSVTSSELYFEVD EEDPNFKKIDPKILAYTEGLHGKWLFTEIRSIFSRRYLLQNTALEIFMANRVAVMFNFPDPATVKKVVNY LPRVGVGTSFGLPQTRRISLATPRQLFKASNMTQRWQHREISNFEYLMFLNTIAGRSYNDLNQYPVFPWV ITNYESEELDLTLPSNFRDLSKPIGALNPKRAAFFAERFESWEDDQVPKFHYGTHYSTASFVLAWLLRIE PFTTYFLNLQGGKFDHADRTFSSVSRAWRNSQRDTSDIKELIPEFYYLPEMFVNFNNYNLGVMDDGTVVS DVELPPWAKTSEEFVRINRLALESEFVSCQLHQWIDLIFGYKQQGPEAVRALNVFYYLTYEGAVNLNSIT DPVLREAVEAQIRSFGQTPSQLLIEPHPPRGSAMQASPLMFTDQAQQDVIMVLKFPSNSPVTHVAANTQP GLAMPAVITVTANRLFAVNKWHNLPAHQGAVQDQPYQLPVEIDPLIACGTGTHRRQVTDLLDQSIQVHSQ CFVITSDNRYILVCGFWDKSFRVYSTDTGKLIQVVFGHWDVVTCLARSESYIGGNCYILSGSRDATLLLW YWNGKSSGIGDNPGGETATPRAILTGHDYEITCAAVCAELGLVLSGSQEGPCLIHSMNGDLLRTLEGPEN CLKPKLIQASREGHCVIFYENGCFCTFSVNGKLQATVETDDHIRVSAVGSTLFLLLGSSK TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001077688 |
ORF Size | 8370 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_001077688.1, NP_001071156.1 |
RefSeq Size | 9387 bp |
RefSeq ORF | 8373 bp |
Locus ID | 80877 |
UniProt ID | Q9ESE1 |
MW | 309.8 kDa |
Gene Summary | May be involved in coupling signal transduction and vesicle trafficking to enable polarized secretion and/or membrane deposition of immune effector molecules.[UniProtKB/Swiss-Prot Function] |
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SDS |