Fbn1 (NM_007993) Mouse Tagged ORF Clone
CAT#: MR223028
- TrueORF®
Fbn1 (Myc-DDK-tagged) - Mouse fibrillin 1 (Fbn1)
ORF Plasmid: tGFP
"NM_007993" in other vectors (2)
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CNY 20,480.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | AI536462; B430209H23; Fib-; Fib-1; Tsk |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR223028 representing NM_007993
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCGGCGAGGAGGGCTGCTGGAGGTCGCGCTGGCGTTCGCCCTGCTCCTCGAGTCCTACACGAGCCATG GGGCGGACGCCAATTTGGAGGCTGGGAGCCTGAAGGAGACCAGAGCCAATCGGGCCAAGAGAAGAGGCGG CGGAGGACACGATGCGCTGAAAGGACCCAATGTCTGTGGATCACGTTATAATGCATACTGTTGTCCTGGA TGGAAAACCTTACCTGGTGGAAATCAGTGTATTGTTCCCATTTGCCGGCATTCCTGTGGGGATGGATTCT GCTCGAGGCCAAATATGTGCACTTGCCCGTCTGGTCAGATATCTCCTTCCTGTGGCTCCAGATCCATCCA ACACTGCAGCATCCGCTGTATGAATGGGGGCAGCTGCAGCGATGACCACTGTCTGTGCCAGAAAGGGTAC ATCGGCACTCACTGTGGACAGCCTGTCTGTGAAAGTGGCTGTCTCAACGGAGGGAGGTGTGTGGCCCCAA ATCGGTGTGCTTGCACGTACGGCTTTACTGGACCCCAGTGTGAAAGAGATTACAGAACAGGCCCATGTTT TACTGTGGTAAGCAACCAGATGTGCCAGGGACAGCTCAGCGGGATTGTCTGCACCAAAACACTTTGCTGT GCCACCGTGGGCCGAGCCTGGGGCCACCCCTGTGAGATGTGTCCTGCCCAGCCTCACCCCTGCCGCCGCG GCTTCATTCCCAACATCCGCACTGGAGCTTGTCAAGATGTGGATGAATGTCAGGCCATCCCAGGGATGTG TCAAGGAGGAAATTGCATTAATACCGTTGGATCTTTTGAGTGCAAATGCCCTGCTGGACACAAATTTAAT GAAGTGTCACAAAAATGTGAAGATATTGACGAGTGCAGCACCATTCCTGGAGTCTGCGATGGCGGGGAAT GTACAAACACTGTCAGCAGCTACTTCTGCAAATGTCCCCCTGGTTTTTACACCTCTCCTGATGGCACCAG ATGCGTAGATGTTCGCCCTGGTTACTGCTACACAGCTCTGGCAAACGGGCGCTGCTCTAACCAGCTGCCA CAGTCCATAACCAAAATGCAGTGCTGTTGCGATCTTGGCCGGTGCTGGTCTCCAGGGGTTACTGTTGCTC CCGAGATGTGTCCCATCAGGTCAACTGAGGATTTCAACAAGCTGTGCTCTGTCCCTCTGGTAATTCCCGG GAGACCAGAATATCCTCCCCCACCCATTGGCCCCCTTCCTCCAGTTCAGCCCGTTCCTCCTGGCTATCCT CCTGGGCCTGTGATTCCAGCCCCTCGGCCACCGCCAGAATATCCATATCCATCTCCGTCTCGGGAACCAC CAAGGGTGCTGCCTTTCAACGTTACTGACTACTGTCAACTGGTCCGCTATCTCTGTCAAAATGGGCGCTG CATTCCAACTCCCGGTAGCTACCGCTGCGAGTGCAACAAGGGCTTCCAGCTGGATATCCGTGGCGAATGC ATCGACGTGGATGAGTGTGAGAAGAACCCATGCACTGGTGGCGAGTGCATCAACAACCAGGGCTCCTACA CCTGTCACTGCAGAGCTGGCTACCAGAGCACACTCACCAGAACTGAGTGCAGAGACATAGATGAGTGTCT TCAGAATGGCCGGATCTGCAACAATGGTCGCTGTATCAACACAGACGGCAGCTTCCACTGCGTATGCAAT GCGGGCTTTCATGTCACGCGGGACGGAAAGAACTGTGAAGATATGGATGAGTGCAGCATCCGAAACATGT GCCTAAACGGAATGTGTATTAATGAAGATGGCAGTTTCAAGTGTATTTGCAAACCTGGGTTCCAACTGGC ATCAGATGGCCGCTACTGCAAAGATATCAATGAGTGTGAGACACCTGGGATCTGCATGAACGGACGCTGT GTGAACACGGATGGCTCCTACAGATGCGAATGCTTCCCCGGATTGGCTGTGGGTCTAGACGGACGTGTGT GTGTTGACACACACATGCGGAGCACATGCTATGGAGGATACAGGAGAGGCCAGTGCGTGAAGCCGTTGTT TGGTGCTGTTACCAAATCGGAATGCTGTTGTGCCAGCACTGAGTATGCCTTTGGGGAACCCTGCCAGCCG TGTCCTGCACAGAATTCAGCGGAATATCAGGCACTCTGCAGCAGTGGACCGGGAATGACATCAGCAGGCA CTGATATAAACGAATGTGCATTAGATCCTGATATTTGCCCAAATGGAATTTGTGAAAATCTCCGTGGGAC CTACAAATGTATATGCAACTCGGGATATGAAGTAGACATAACTGGGAAAAACTGTGTCGATATTAATGAG TGTGTGCTGAACAGTCTACTTTGTGACAATGGACAATGTCGAAACACACCTGGAAGTTTTGTCTGCACCT GCCCCAAAGGATTTGTGTACAAACCTGACCTAAAAACCTGTGAAGACATTGATGAATGTGAATCGAGTCC TTGCATTAATGGAGTCTGCAAGAACAGCCCTGGCTCCTTCATTTGTGAATGTTCTCCTGAAAGTACTCTG GACCCAACAAAAACCATCTGCATAGAAACCATCAAGGGCACTTGCTGGCAGACTGTCATCGACGGGCGCT GTGAGATCAACATCAACGGAGCCACCTTGAAGTCCGAGTGCTGCTCCTCCCTTGGTGCTGCGTGGGGGAG CCCGTGCACCATCTGTCAACTTGATCCCATTTGTGGTAAAGGGTTCTCAAGAATTAAAGGCACGCAATGT GAAGATATCAATGAGTGTGAAGTGTTCCCGGGAGTATGCAAGAACGGCCTGTGTGTCAACTCCAGGGGTT CATTCAAGTGCGAGTGTCCCAATGGAATGACTTTGGATGCTACAGGAAGAATCTGTCTTGACATCCGCCT GGAGACCTGCTTCCTCAAGTATGACGATGAAGAGTGCACCTTGCCCATCGCTGGCCGCCACCGAATGGAT GCCTGCTGCTGCTCTGTTGGGGCAGCCTGGGGAACGGAAGAGTGTGAGGAGTGTCCATTGAGAAACAGCC GGGAGTATGAGGAACTCTGTCCCCGAGGACCTGGGTTTGCCACAAAAGACATTACAAATGGGAAACCTTT CTTCAAAGATATCAATGAGTGCAAGATGATACCCAGCCTCTGTACCCACGGCAAGTGCAGGAACACCATT GGCAGCTTCAAGTGTAGGTGTGACAGTGGCTTTGCTCTGGATTCTGAAGAGAGGAACTGTACAGACATTG ATGAGTGCCGCATATCTCCTGACCTCTGTGGCCGAGGCCAGTGTGTGAACACCCCGGGGGACTTTGAATG CAAGTGTGATGAAGGCTATGAAAGTGGCTTCATGATGATGAAGAACTGCATGGATATTGATGAATGTCAG AGAGATCCTCTCCTGTGTCGAGGAGGCATTTGCCACAACACAGAGGGAAGCTATCGCTGCGAATGTCCTC CTGGTCACCAATTGTCCCCAAACATCTCTGCATGCATTGACATCAACGAGTGTGAGCTGAGTGCGAATCT CTGTCCCCATGGGCGTTGTGTGAACCTCATAGGGAAGTACCAGTGTGCCTGCAACCCTGGCTACCACCCC ACTCATGACAGGCTCTTCTGTGTCGATATTGATGAATGCAGCATAATGAACGGTGGTTGTGAGACCTTCT GCACAAACTCTGACGGGAGCTATGAATGTAGCTGTCAGCCAGGCTTCGCGCTAATGCCAGACCAGCGATC GTGCACAGACATTGATGAGTGTGAAGACAACCCCAATATCTGTGATGGTGGCCAGTGCACAAACATACCT GGGGAGTACAGGTGCCTGTGCTATGATGGGTTCATGGCATCTGAAGACATGAAGACTTGTGTGGATGTCA ATGAGTGTGACCTGAATCCAAACATCTGCCTTAGTGGGACCTGTGAAAATACTAAAGGCTCGTTCATCTG CCACTGTGATATGGGATATTCAGGGAAGAAAGGAAAAACGGGCTGTACAGATATCAATGAATGTGAGATC GGAGCACACAACTGTGGCAGACATGCTGTATGCACAAATACAGCCGGGAGCTTCAAGTGCAGCTGCAGTC CCGGCTGGATTGGAGACGGCATTAAGTGCACAGATCTGGATGAATGCTCTAATGGAACCCACATGTGCAG CCAACACGCGGACTGCAAGAACACCATGGGGTCATATCGCTGTCTCTGTAAGGATGGCTATACAGGGGAT GGCTTCACCTGTACAGACCTCGACGAGTGCTCCGAGAACCTGAACCTCTGTGGCAATGGCCAGTGCCTCA ACGCCCCTGGCGGGTACCGCTGTGAATGCGACATGGGCTTCGTGCCCAGTGCTGACGGGAAGGCCTGTGA AGATATCGATGAGTGCTCCCTTCCAAACATCTGTGTCTTTGGAACTTGCCACAACCTCCCGGGCCTCTTC CGTTGCGAGTGTGAGATTGGCTATGAACTGGACCGAAGTGGTGGAAACTGCACAGATGTTAATGAGTGTC TGGATCCCACCACCTGCATCAGTGGAAACTGTGTCAACACTCCCGGTAGTTACACATGCGATTGTCCTCC GGATTTTGAGCTGAATCCAACTCGTGTCGGCTGTGTCGATACTCGCTCTGGAAACTGCTATCTGGATATC CGACCCCGGGGAGACAATGGAGATACAGCCTGCAGCAATGAAATTGGAGTTGGTGTCTCTAAGGCTTCCT GCTGTTGTTCACTGGGTAAAGCTTGGGGAACCCCATGTGAGCTGTGTCCTTCTGTGAACACATCTGAGTA TAAAATTCTTTGCCCTGGAGGAGAAGGTTTTCGTCCAAATCCCATCACCGTTATATTGGAAGACATCGAT GAGTGCCAGGAGCTTCCAGGGCTGTGCCAAGGGGGGAAGTGCATCAATACCTTTGGCAGCTTCCAGTGTC GCTGTCCAACTGGTTACTACCTGAATGAAGACACTCGAGTGTGTGATGATGTGAACGAATGTGAGACTCC TGGAATCTGTGGTCCGGGGACCTGTTACAACACCGTTGGCAACTATACCTGCATTTGTCCTCCAGACTAC ATGCAAGTGAACGGGGGAAATAATTGCATGGACATGAGAAGAAGTCTATGCTACAGAAACTATTACGCTG ACAACCAGACCTGCGATGGAGAACTCCTGTTCAACATGACCAAGAAGATGTGCTGTTGCTCCTACAACAT CGGCAGAGCCTGGAACAAACCCTGTGAACAGTGCCCCATCCCAAGCACAGATGAGTTTGCTACCCTCTGT GGGAGCCAGAGGCCCGGCTTCGTGATTGACATTTATACGGGTTTACCCGTGGATATTGATGAATGCCGGG AGATCCCTGGGGTCTGTGAAAATGGAGTGTGCATCAACATGGTTGGCAGCTTCCGGTGTGAGTGTCCCGT GGGATTCTTCTATAACGACAAGTTACTGGTTTGTGAAGATATCGACGAGTGTCAGAATGGCCCTGTGTGC CAGCGAAATGCGGAATGCATCAACACTGCAGGCAGCTACCGCTGTGACTGTAAGCCCGGCTACCGCCTTA CCTCCACAGGTCAATGCAACGATCGAAACGAGTGCCAAGAAATCCCGAACATATGCAGTCATGGCCAGTG CATCGACACCGTGGGAAGCTTCTACTGCCTTTGTCACACTGGCTTCAAAACAAATGTGGATCAGACCATG TGCTTAGACATAAATGAGTGTGAGAGAGACGCCTGTGGGAACGGGACTTGCAGAAACACGATTGGCTCCT TCAACTGTCGCTGTAACCATGGCTTCATACTGTCTCACAACAATGACTGCATAGATGTTGATGAGTGTGC AACTGGAAACGGGAACCTTTGCAGAAATGGCCAGTGTGTCAATACCGTGGGCTCCTTTCAGTGCAGGTGC AATGAAGGCTATGAGGTGGCTCCGGACGGCAGGACCTGTGTGGATATCAACGAGTGTGTTCTGGATCCTG GGAAATGTGCACCTGGAACCTGTCAGAACCTGGATGGCTCCTACAGATGCATTTGCCCGCCTGGGTATAG TCTACAGAATGACAAGTGTGAAGATATTGATGAGTGTGTTGAAGAGCCAGAAATCTGTGCCTTGGGGACC TGCAGCAACACTGAGGGTAGCTTCAAATGTCTGTGTCCAGAGGGGTTCTCCCTGTCCTCCACTGGAAGAA GGTGCCAAGATTTGCGAATGAGCTACTGCTATGCGAAGTTTGAAGGTGGGAAGTGTTCATCACCCAAATC CAGAAACCATTCCAAGCAGGAGTGCTGCTGTGCTTTGAAGGGAGAAGGCTGGGGAGATCCTTGTGAGTTG TGCCCCACTGAGCCAGATGAGGCTTTCCGCCAGATCTGCCCCTTTGGAAGTGGGATCATTGTGGGCCCTG ATGACTCAGCAGTTGATATGGACGAATGCAAAGAACCTGATGTCTGTAGACATGGGCAGTGCATTAACAC AGACGGCTCCTATCGATGCGAGTGTCCTTTTGGTTATATTCTGGAAGGGAATGAGTGTGTGGATACCGAT GAATGCTCTGTGGGCAATCCTTGTGGAAATGGGACCTGCAAGAATGTGATTGGAGGTTTTGAATGTACCT GTGAGGAGGGGTTCGAGCCTGGCCCAATGATGACTTGTGAAGATATAAATGAATGTGCCCAGAATCCTCT GCTCTGCGCCTTCCGCTGTGTAAATACCTACGGGTCCTATGAATGCAAATGCCCTGTTGGATACGTTCTC CGAGAAGACAGGAGGATGTGTAAAGATGAGGATGAGTGTGCAGAGGGAAAACACGACTGTACTGAGAAGC AAATGGAGTGTAAGAACCTCATTGGTACCTACATGTGCATCTGCGGCCCTGGGTACCAGCGCAGACCCGA TGGAGAGGGCTGCATAGATGAGAATGAGTGTCAGACCAAGCCCGGGATCTGTGAGAATGGGCGTTGCCTC AACACCCTGGGTAGCTACACTTGTGAGTGTAACGATGGCTTCACAGCCAGCCCCACTCAGGATGAGTGCT TGGACAACCGGGAAGGGTACTGCTTTTCGGAGGTCTTGCAAAACATGTGCCAGATTGGCTCAAGCAACAG GAACCCCGTCACCAAGTCCGAGTGCTGCTGTGATGGAGGGAGAGGCTGGGGACCCCACTGTGAGATCTGC CCTTTCGAGGGCACAGTGGCTTACAAGAAGCTCTGTCCCCACGGCCGAGGATTCATGACCAACGGAGCAG ATATTGATGAGTGCAAGGTTATTCATGATGTTTGCCGAAATGGGGAGTGTGTCAACGACAGAGGGTCCTA TCACTGCATCTGTAAAACTGGCTACACTCCGGATATAACAGGGACCGCCTGTGTAGATCTGAATGAATGC AACCAGGCTCCCAAACCCTGCAATTTTATATGCAAAAACACAGAAGGGAGTTACCAGTGTTCCTGCCCGA AGGGCTACATTCTGCAAGAGGATGGAAGGAGCTGCAAAGATCTTGACGAGTGTGCAACCAAGCAGCATAA CTGTCAGTTCCTGTGTGTTAACACCATCGGTGGCTTCACATGCAAATGCCCTCCTGGGTTTACCCAGCAT CACACTGCCTGCATTGATAACAATGAGTGCACGTCTGATATCAACCTGTGTGGGTCCAAGGGTGTTTGCC AGAACACTCCAGGAAGCTTCACCTGTGAATGCCAACGGGGGTTCTCACTCGATCAGAGTGGTGCCAGCTG TGAAGATGTGGACGAGTGTGAGGGTAACCACCGCTGTCAACATGGCTGCCAGAACATCATCGGAGGCTAT AGGTGTAGCTGCCCCCAGGGCTACCTCCAGCACTACCAATGGAACCAGTGTGTAGATGAAAACGAGTGCC TGAGTGCACATGTCTGTGGAGGAGCCTCCTGCCACAACACCCTGGGGAGTTACAAGTGCATGTGTCCCAC CGGCTTCCAGTACGAACAGTTCAGTGGAGGCTGCCAAGACATCAATGAGTGTGGCTCATCCCAGGCCCCC TGCAGTTACGGTTGCTCTAATACTGAGGGTGGCTACCTGTGTGGCTGTCCACCAGGATACTTCCGGATAG GCCAAGGGCATTGTGTTTCTGGAATGGGCATGGGCCGAGGCGGCCCAGAGCCACCTGCCAGCAGCGAGAT GGACGACAACTCACTGTCCCCAGAGGCCTGCTATGAGTGTAAGATCAACGGCTACCCAAAACGAGGCCGG AAACGGAGAAGCACGAACGAAACGGATGCCTCCGACATCCAGGACGGGTCTGAGATGGAAGCCAACGTGA GCCTCGCCAGCTGGGATGTGGAGAAGCCGGCTAGCTTTGCTTTCAATATTTCCCATGTCAATAACAAGGT CCGAATCCTAGAGCTCCTGCCGGCCCTCACAACTCTGATGAACCACAACAGATACTTGATTGAATCTGGA AATGAAGATGGCTTCTTTAAAATCAACCAGAAAGAAGGGGTCAGCTACCTCCACTTCACGAAGAAGAAGC CGGTGGCTGGGACCTACTCCTTACAAATCAGCAGCACCCCACTTTATAAAAAGAAAGAACTTAACCAGTT AGAAGACAGATATGACAAAGACTACCTCAGTGGTGAACTGGGCGATAACCTGAAGATGAAAATTCAGATC TTGCTGCAT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR223028 representing NM_007993
Red=Cloning site Green=Tags(s) MRRGGLLEVALAFALLLESYTSHGADANLEAGSLKETRANRAKRRGGGGHDALKGPNVCGSRYNAYCCPG WKTLPGGNQCIVPICRHSCGDGFCSRPNMCTCPSGQISPSCGSRSIQHCSIRCMNGGSCSDDHCLCQKGY IGTHCGQPVCESGCLNGGRCVAPNRCACTYGFTGPQCERDYRTGPCFTVVSNQMCQGQLSGIVCTKTLCC ATVGRAWGHPCEMCPAQPHPCRRGFIPNIRTGACQDVDECQAIPGMCQGGNCINTVGSFECKCPAGHKFN EVSQKCEDIDECSTIPGVCDGGECTNTVSSYFCKCPPGFYTSPDGTRCVDVRPGYCYTALANGRCSNQLP QSITKMQCCCDLGRCWSPGVTVAPEMCPIRSTEDFNKLCSVPLVIPGRPEYPPPPIGPLPPVQPVPPGYP PGPVIPAPRPPPEYPYPSPSREPPRVLPFNVTDYCQLVRYLCQNGRCIPTPGSYRCECNKGFQLDIRGEC IDVDECEKNPCTGGECINNQGSYTCHCRAGYQSTLTRTECRDIDECLQNGRICNNGRCINTDGSFHCVCN AGFHVTRDGKNCEDMDECSIRNMCLNGMCINEDGSFKCICKPGFQLASDGRYCKDINECETPGICMNGRC VNTDGSYRCECFPGLAVGLDGRVCVDTHMRSTCYGGYRRGQCVKPLFGAVTKSECCCASTEYAFGEPCQP CPAQNSAEYQALCSSGPGMTSAGTDINECALDPDICPNGICENLRGTYKCICNSGYEVDITGKNCVDINE CVLNSLLCDNGQCRNTPGSFVCTCPKGFVYKPDLKTCEDIDECESSPCINGVCKNSPGSFICECSPESTL DPTKTICIETIKGTCWQTVIDGRCEININGATLKSECCSSLGAAWGSPCTICQLDPICGKGFSRIKGTQC EDINECEVFPGVCKNGLCVNSRGSFKCECPNGMTLDATGRICLDIRLETCFLKYDDEECTLPIAGRHRMD ACCCSVGAAWGTEECEECPLRNSREYEELCPRGPGFATKDITNGKPFFKDINECKMIPSLCTHGKCRNTI GSFKCRCDSGFALDSEERNCTDIDECRISPDLCGRGQCVNTPGDFECKCDEGYESGFMMMKNCMDIDECQ RDPLLCRGGICHNTEGSYRCECPPGHQLSPNISACIDINECELSANLCPHGRCVNLIGKYQCACNPGYHP THDRLFCVDIDECSIMNGGCETFCTNSDGSYECSCQPGFALMPDQRSCTDIDECEDNPNICDGGQCTNIP GEYRCLCYDGFMASEDMKTCVDVNECDLNPNICLSGTCENTKGSFICHCDMGYSGKKGKTGCTDINECEI GAHNCGRHAVCTNTAGSFKCSCSPGWIGDGIKCTDLDECSNGTHMCSQHADCKNTMGSYRCLCKDGYTGD GFTCTDLDECSENLNLCGNGQCLNAPGGYRCECDMGFVPSADGKACEDIDECSLPNICVFGTCHNLPGLF RCECEIGYELDRSGGNCTDVNECLDPTTCISGNCVNTPGSYTCDCPPDFELNPTRVGCVDTRSGNCYLDI RPRGDNGDTACSNEIGVGVSKASCCCSLGKAWGTPCELCPSVNTSEYKILCPGGEGFRPNPITVILEDID ECQELPGLCQGGKCINTFGSFQCRCPTGYYLNEDTRVCDDVNECETPGICGPGTCYNTVGNYTCICPPDY MQVNGGNNCMDMRRSLCYRNYYADNQTCDGELLFNMTKKMCCCSYNIGRAWNKPCEQCPIPSTDEFATLC GSQRPGFVIDIYTGLPVDIDECREIPGVCENGVCINMVGSFRCECPVGFFYNDKLLVCEDIDECQNGPVC QRNAECINTAGSYRCDCKPGYRLTSTGQCNDRNECQEIPNICSHGQCIDTVGSFYCLCHTGFKTNVDQTM CLDINECERDACGNGTCRNTIGSFNCRCNHGFILSHNNDCIDVDECATGNGNLCRNGQCVNTVGSFQCRC NEGYEVAPDGRTCVDINECVLDPGKCAPGTCQNLDGSYRCICPPGYSLQNDKCEDIDECVEEPEICALGT CSNTEGSFKCLCPEGFSLSSTGRRCQDLRMSYCYAKFEGGKCSSPKSRNHSKQECCCALKGEGWGDPCEL CPTEPDEAFRQICPFGSGIIVGPDDSAVDMDECKEPDVCRHGQCINTDGSYRCECPFGYILEGNECVDTD ECSVGNPCGNGTCKNVIGGFECTCEEGFEPGPMMTCEDINECAQNPLLCAFRCVNTYGSYECKCPVGYVL REDRRMCKDEDECAEGKHDCTEKQMECKNLIGTYMCICGPGYQRRPDGEGCIDENECQTKPGICENGRCL NTLGSYTCECNDGFTASPTQDECLDNREGYCFSEVLQNMCQIGSSNRNPVTKSECCCDGGRGWGPHCEIC PFEGTVAYKKLCPHGRGFMTNGADIDECKVIHDVCRNGECVNDRGSYHCICKTGYTPDITGTACVDLNEC NQAPKPCNFICKNTEGSYQCSCPKGYILQEDGRSCKDLDECATKQHNCQFLCVNTIGGFTCKCPPGFTQH HTACIDNNECTSDINLCGSKGVCQNTPGSFTCECQRGFSLDQSGASCEDVDECEGNHRCQHGCQNIIGGY RCSCPQGYLQHYQWNQCVDENECLSAHVCGGASCHNTLGSYKCMCPTGFQYEQFSGGCQDINECGSSQAP CSYGCSNTEGGYLCGCPPGYFRIGQGHCVSGMGMGRGGPEPPASSEMDDNSLSPEACYECKINGYPKRGR KRRSTNETDASDIQDGSEMEANVSLASWDVEKPASFAFNISHVNNKVRILELLPALTTLMNHNRYLIESG NEDGFFKINQKEGVSYLHFTKKKPVAGTYSLQISSTPLYKKKELNQLEDRYDKDYLSGELGDNLKMKIQI LLH TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_007993 |
ORF Size | 8619 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_007993.2, NP_032019.2 |
RefSeq Size | 9900 bp |
RefSeq ORF | 8622 bp |
Locus ID | 14118 |
UniProt ID | Q61554 |
MW | 312.3 kDa |
Gene Summary | This gene encodes a member of the fibrillin family of proteins. The encoded preproprotein is proteolytically processed to generate two proteins including the extracellular matrix component fibrillin-1 and the protein hormone asprosin. Fibrillin-1 is an extracellular matrix glycoprotein that serves as a structural component of calcium-binding microfibrils. Asprosin, secreted by white adipose tissue, has been shown to regulate glucose homeostasis. Homozygous knockout mice for this gene exhibit impaired aortic development and early postnatal death, which was attributed to a deficiency in the fibrillin-1 protein. Mice with a hypomorphic allele of this gene exhibit impaired glucose homeostasis, likely due to a reduction in serum asprosin levels. [provided by RefSeq, Apr 2016] |
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