EYS (NM_001292009) Human Tagged ORF Clone
CAT#: RG240266
- TrueORF®
EYS (GFP-tagged) - Human eyes shut homolog (Drosophila) (EYS), transcript variant 4
Product Images
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Other products for "EYS"
Specifications
Product Data | |
Tag | TurboGFP |
Symbol | EYS |
Synonyms | bA74E24.1; bA166P24.2; bA307F22.3; C6orf178; C6orf179; C6orf180; dJ22I17.2; dJ303F19.1; dJ1018A4.2; EGFL10; EGFL11; RP25; SPAM |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG240266 representing NM_001292009.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGACTGACAAATCAATCGTCATTCTGAGCCTGATGGTTTTTCACAGCTCTTTCATAAATGGAAAAACA TGTAGACGGCAATTGGTGGAAGAATGGCATCCACAACCCTCATCATATGTGGTAAATTGGACACTAACA GAAAACATCTGCTTGGACTTCTACAGAGATTGCTGGTTTTTGGGTGTAAACACTAAAATAGATACTTCA GGCAATCAAGCTGTTCCCCAGATTTGCCCTTTGCAAATTCAATTAGGAGATATCCTTGTAATTTCTTCT GAACCATCTCTTCAATTTCCAGAAATAAATTTGATGAATGTTTCTGAAACATCTTTCGTTGGCTGTGTG CAAAATACCACAACGGAAGATCAGTTACTTTTTGGCTGCAGACTAAAAGGAATGCACACTGTTAATTCT AAGTGGCTGAGTGTTGGGACACATTATTTTATCACAGTTATGGCAAGTGGTCCATCACCTTGTCCACTG GGACTTCGACTAAATGTGACAGTGAAACAGCAGTTCTGCCAGGAATCTCTGAGTTCAGAATTTTGCTCT GGTCATGGTAAATGTCTTAGTGAAGCTTGGAGCAAGACATATAGCTGCCATTGCCAGCCTCCATTTTCT GGAAAATACTGCCAGGAACTTGATGCATGTTCTTTTAAACCATGTAAAAATAATGGCAGTTGCATTAAT AAAAGAGAAAATTGGGATGAGCAAGCATATGAATGTGTCTGTCACCCACCATTTACAGGAAAGAATTGC TCAGAAATAATTGGCCAGTGTCAACCACATGTCTGTTTCCATGGAAACTGCAGCAATATTACTTCAAAT AGTTTCATTTGTGAATGTGATGAGCAATTTTCAGGTCCATTCTGTGAGGTGTCAGCAAAACCTTGTGTT TCTCTGCTTTTTTGGAAAAGAGGAATTTGCCCAAATAGCAGTTCTGCTTATACTTATGAATGCCCAAAA GGATCTTCCAGCCAAAATGGTGAAACTGATGTCAGTGAGTTTTCATTAGTACCATGTCAGAATGGTACT GACTGCATCAAAATATCAAATGATGTTATGTGCATCTGTTCACCAATATTTACAGATTTGCTTTGTAAG AGCATTCAAACATCATGTGAGTCATTTCCTTTGAGGAATAATGCTACATGTAAGAAATGTGAGAAAGAT TATCCTTGCAGCTGTATATCAGGATTTACTGAAAAAAACTGTGAGAAAGCAATTGACCACTGTAAACTG CTCAGCATCAACTGTCTGAATGAAGAATGGTGTTTCAATATAATTGGAAGATTCAAATATGTATGCATT CCAGGGTGCACAAAAAATCCATGTTGGTTTTTGAAGAATGTTTACCTAATTCATCAACACCTCTGCTAC TGTGGAGTCACCTTCCATGGTATTTGCCAAGATAAAGGTCCTGCTCAATTTGAATATGTGTGGCAATTG GGATTTGCAGGATCTGAAGGCGAAAAGTGCCAAGGGGTTATTGATGCCTATTTCTTTCTGGCTGCAAAC TGCACTGAAGATGCAACCTATGTGAACGATCCTGAAGATAATAATTCTTCATGTTGGTTCCCACATGAA GGCACAAAAGAGATTTGTGCAAATGGATGCAGTTGTTTGAGTGAAGAAGACAGTCAGGAATATCGGTAT CTATGTTTTCTCAGATGGGCTGGCAACATGTATCTGGAAAATACAACTGATGATCAAGAAAATGAGTGT CAACATGAAGCTGTTTGTAAAGATGAAATTAATAGACCCAGATGCAGCTGTTCTCTTAGTTACATTGGC AGATTGTGTGTTGTCAATGTTGACTATTGCTTAGGGAACCACAGTATATCAGTGCATGGCCTCTGCCTG GCCCTTTCGCACAATTGTAACTGTAGCGGTCTGCAAAGATATGAAAGGAACATCTGTGAGATAGATACT GAAGACTGCAAATCTGCGTCCTGCAAAAATGGAACAACTAGTACACATTTAAGGGGATATTTCTTCCGC AAGTGTGTCCCAGGATTTAAAGGTACGCAATGTGAAATTGATATAGATGAGTGTGCTTCACATCCCTGC AAAAATGGAGCCACCTGCATTGACCAACCTGGTAATTACTTCTGCCAGTGTGTGCCTCCATTTAAAGTG GTTGATGGCTTTTCCTGCTTATGCAATCCAGGCTATGTTGGGATAAGATGTGAACAGGACATTGATGAC TGCATCCTGAATGCCTGTGAGCACAATTCTACCTGCAAAGACCTGCATCTCAGCTACCAGTGTGTGTGC CTATCTGATTGGGAAGGAAATTTTTGTGAACAAGAATCCAATGAGTGTAAAATGAATCCTTGCAAGAAC AATTCCACCTGTACTGACCTTTACAAAAGCTATCGATGTGAGTGTACATCTGGATGGACTGGACAGAAC TGTAGTGAAGAAATAAATGAATGCGACTCTGATCCATGCATGAATGGAGGTCTTTGTCATGAATCTACC ATCCCTGGACAATTTGTATGTCTGTGCCCACCCCTTTATACTGGACAATTTTGCCACCAACGCTATAAC CTTTGTGACCTACTTCATAACCCTTGCAGAAACAACTCAACATGCTTAGCTTTGGTAGACGCAAATCAG CATTGTATTTGTAGAGAAGAATTTGAAGGTAAAAACTGTGAAATTGATGTGAAAGACTGCCTCTTCCTT TCCTGCCAGGATTATGGTGACTGTGAAGATATGGTCAACAATTTCAGGTGTATTTGCAGACCTGGGTTT TCTGGATCTCTGTGTGAAATTGAAATTAATGAATGTTCCTCTGAACCTTGCAAAAATAATGGAACATGT GTGGATCTGACAAACAGATTTTTTTGTAATTGTGAACCTGAGTACCATGGGCCCTTCTGTGAACTTGAT GTAAATAAATGTAAAATCTCACCTTGTCTAGATGAAGAAAATTGTGTCTACAGGACTGATGGATACAAC TGCCTCTGTGCCCCTGGTTATACAGGCATCAACTGTGAAATAAATCTAGATGAATGCCTATCAGAGCCC TGTCTCCATGATGGAGTTTGTATCGATGGCATCAATCATTATACCTGTGACTGCAAGAGTGGGTTTTTT GGAACACACTGTGAAACAAACGCCAATGATTGCCTTTCAAATCCTTGTCTACATGGAAGGTGCACAGAA CTTATTAATGAATATCCATGTTCATGTGATGCAGATGGGACTAGCACACAATGTAAGATCAAAATTAAT GACTGCACATCAATCCCTTGTATGAATGAAGGCTTCTGTCAGAAGTCAGCACATGGATTTACTTGCATT TGCCCACGTGGATACACTGGTGCATACTGTGAAAAAAGCATTGATAATTGTGCTGAGCCTGAACTTAAT TCAGTCATCTGTCTTAATGGAGGGATCTGTGTTGATGGGCCTGGACATACTTTTGACTGCAGATGTCTT CCTGGATTTTCTGGTCAATTTTGTGAAATTAATATAAATGAATGCTCTTCATCACCATGTCTACATGGT GCAGACTGTGAAGATCACATCAATGGATATGTTTGCAAATGCCAACCAGGATGGTCTGGACACCACTGT GAGAATGAGCTTGAGTGCATTCCCAACTCATGTGTTCATGAACTCTGCATGGAGAATGAACCTGGCTCG ACATGTTTATGCACACCTGGATTTATGACCTGCTCCATTGGGCTTCTTTGTGGTGATGAAATAAGGAGA ATTACCTGTTTAACTCCCATCTTTCAAAGAACAGATCCCATTTCCACACAGACATATACAATTCCCCCT TCTGAGACTTTGGTCAGCAGCTTTCCATCTATAAAGGCTACTAGAATACCAGCCATAATGGACACTTAC CCAGTTGATCAAGGTCCAAAACAGACAGGCATTGTCAAGCACGACATTCTCCCAACCACTGGTTTGGCA ACATTAAGAATTAGCACACCCTTGGAAAGCTACTTACTCCAAGAACTGATTGTCACTAGAGAGCTTTCA GCAAAACACAGTCTTCTTTCTTCCGCAGATGTTTCCTCTTCTCGATTCCTGAATTTTGGTATTCGTGAC CCAGCACAAATTGTCCAGGACAAAACATCGGTATCACATATGCCTATTCGAACTTCAGCAGCCACACTA GGTTTCTTTTTTCCTGATAGGAGAGCAAGGACCCCATTTATCATGTCTTCCTTAATGTCAGATTTTATT TTTCCTACACAATCTTTATTATTTGAGAACTGTCAGACTGTTGCTTTATCTGCTACCCCAACGACTTCA GTAATTAGAAGCATTCCAGGGGCTGATATTGAGCTAAACAGGCAGTCATTACTCTCCCGTGGATTCCTG CTTATAGCTGCCTCCATAAGTGCAACTCCAGTTGTCTCTAGGGGGGCTCAAGAGGATATTGAAGAATAT TCAGCTGATTCTTTAATTTCAAGAAGAGAGCACTGGAGATTGCTCAGCCCCTCGATGTCTCCCATTTTT CCTGCTAAGGTAATTATATCTAAACAGGTAACCATCTTAAACTCATCAGCTCTGCACCGGTTCAGTACA AAAGCCTTCAATCCCAGTGAATATCAGGCTATTACTGAGGCTTCAAGCAACCAGAGACTCACAAACATC AAATCACAGGCTGCTGATTCTTTAAGAGAATTAAGCCAAACATGTGCAACATGTTCTATGACTGAAATA AAATCCTCTCGTGAATTCTCAGATCAAGTTTTGCATAGCAAACAGTCCCACTTTTATGAGACATTCTGG ATGAACTCAGCGATATTAGCCAGCTGGTATGCACTAATGGGAGCTCAAACTATCACTTCTGGGCATTCA TTTTCTTCTGCTACTGAAATAACACCATCAGTGGCATTCACAGAAGTGCCATCTTTATTTCCTTCTAAA AAGAGTGCAAAAAGAACAATTTTATCCTCATCCTTGGAAGAATCCATTACCCTATCAAGTAATTTGGAT GTTAATTTATGTTTGGATAAGACTTGTTTATCCATTGTCCCTTCACAAACTATCTCTTCAGACTTGATG AATTCTGATTTGACTTCAAAAATGACTACTGATGAACTGTCAGTATCAGAAAACATTTTAAAACTATTG AAAATAAGACAATATGGCATAACTATGGGACCCACTGAGGTACTAAATCAAGAGAGCTTATTGGACATG GAAAAAAGTAAAGGATCTCATACACTGTTCAAACTTCACCCAAGTGATAGTTCTCTGGATTTTGAGTTA AACTTACAAATTTATCCGGATGTTACTTTAAAGACATATTCAGAAATTACACATGCAAATGACTTCAAA AATAATCTGCCACCATTGACAGGCTCAGTGCCTGATTTTTCAGAAGTCACCACCAATGTTGCATTTTAT ACAGTTTCAGCAACTCCAGCACTTTCAATACAGACGTCTTCCTCCATGTCTGTAATTAGGCCAGATTGG CCATATTTTACAGATTATATGACCTCTCTTAAAAAAGAGGTCAAGACTTCTTCAGAATGGTCCAAATGG GAACTTCAGCCTAGTGTGCAATATCAGGAATTTCCCACTGCAAGCCGGCATCTTCCCTTCACTAGATCT CTTACTTTGTCTTCACTGGAATCCATTCTGGCACCTCAACGGCTGATGATTTCTGATTTCAGTTGTGTT CGTTATTATGGAGATTCTTATCTAGAATTTCAGAATGTGGCTTTAAATCCACAAAATAACATCTCCCTA GAATTTCAGACCTTCAGCTCCTATGGACTTCTGCTGTATGTCAAGCAAGACTCAAATTTAGTAGATGGA TTTTTTATTCAATTGTTTATTGAAAATGGTACTTTAAAGTACCACTTTTACTGTCCTGGTGAAGCAAAA TTTAAAAGCATTAATACTACTGTTAGAGTGGACAACGGGCAAAAGTATACACTGCTTATCAGGCAAGAA TTGGATCCATGTAACGCTGAGCTGACTATTTTAGGGAGGAATACACAAATATGCGAATCTATCAATCAT GTACTCGGAAAACCCCTGCCAAAATCAGGATCTGTCTTCATTGGTGGATTTCCAGACCTTCATGGGAAA ATCCAGATGCCTGTACCAGTCAAGAATTTTACTGGCTGCATAGAAGTTATAGAAATAAATAACTGGAGA TCTTTCATTCCATCCAAGGCAGTGAAAAACTATCACATTAACAATTGCAGATCCCAGGGATTTATGCTG TCTCCAACAGCCTCCTTTGTTGATGCTTCTGATGTGACACAAGGGGTTGATACCATGTGGACTTCTGTC AGCCCCTCTGTTGCAGCACCCTCTGTGTGCCAGCAGGATGTATGCCACAATGGAGGCACATGCCATGCC ATCTTCCTCTCCAGTGGCATAGTGTCATTCCAATGTGACTGTCCACTACATTTCACTGGCCGCTTCTGT GAAAAAGATGCAGGTTTATTCTTTCCATCTTTCAATGGGAATTCCTATTTAGAACTGCCCTTTTTGAAG TTTGTCCTGGAGAAGGAACATAACAGAACTGTTACCATCTACTTGACTATAAAAACAAACAGTTTAAAT GGAACTATTCTTTACAGTAATGGGAATAATTGTGGAAAGCAGTTTCTTCATTTATTTCTTGTGGAAGGA AGGCCATCAGTTAAATATGGGTGTGGAAATTCTCAAAATATTTTGACTGTTTCTGCTAATTACAGCATT AACACAAATGCATTCACCCCTATCACAATACGCTACACAACGCCTGTTGGCAGCCCTGGAGTTGTTTGT ATGATTGAAATGACTGCAGATGGAAAACCTCCAGTACAGAAGAAAGACACAGAGATTTCCCATGCCTCT CAGGCATATTTTGAATCAATGTTCCTTGGCCATATTCCTGCAAATGTTCAAATTCATAAGAAAGCAGGT CCTGTTTATGGGTTCAGGGGCTGCATTCTAGACCTTCAAGTAAACAACAAAGAATTCTTCATCATCGAT GAAGCACGACATGGAAAGAATATTGAGAACTGCCACGTCCCTTGGTGTGCTCATCATCTGTGCCGCAAC AATGGCACCTGCATCAGTGATAATGAAAATCTGTTTTGTGAGTGTCCAAGGCTGTATTCAGGCAAGCTG TGCCAGTTTGCAAGTTGTGAAAACAACCCATGTGGAAATGGTGCCACCTGTGTTCCAAAATCCGGAACA GATATTGTCTGCCTCTGCCCATATGGGAGGTCTGGACCCCTCTGCACTGATGCTATTAATATTACTCAG CCAAGGTTCAGTGGCACAGATGCCTTTGGATACACCTCATTCCTGGCTTATTCACGGATCTCAGACATC AGCTTCCATTATGAATTCCACCTGAAGTTTCAGCTGGCAAACAACCACTCAGCACTGCAAAATAACTTG ATATTTTTTACTGGACAGAAAGGCCATGGGTTGAATGGCGATGACTTCCTGGCTGTGGGCCTGCTCAAT GGCAGTGTGGTTTATAGTTATAACCTGGGGTCTGGCATAGCAAGCATCAGGAGCGAGCCCCTCAATCTG AGCCTTGGAGTCCACACTGTTCATCTGGGCAAGTTCTTCCAAGAGGGCTGGCTGAAGGTAGATGATCAT AAAAATAAATCCATTATCGCCCCAGGAAGACTGGTTGGTCTCAATGTCTTCAGTCAGTTTTATGTAGGT GGCTACAGTGAATACACTCCAGATCTCTTACCAAATGGAGCAGATTTTAAAAATGGTTTTCAAGGCTGT ATTTTCACTCTTCAAGTTCGCACTGAGAAGGATGGCCATTTCAGAGGACTGGGAAATCCTGAGGGCCAC CCAAATGCTGGACGCAGTGTTGGCCAGTGTCATGCTTCTCCCTGCAGTTTAATGAAATGTGGCAATGGT GGGACATGCATAGAGAGTGGAACTAGTGTTTACTGCAATTGTACCACTGGGTGGAAAGGATCATTCTGC ACAGAGACAGTTTCTACCTGTGATCCTGAACATGACCCTCCACACCACTGTAGCAGAGGAGCAACCTGC ATTTCATTACCTCATGGATACACCTGTTTCTGTCCTCTAGGAACCACTGGAATCTACTGTGAACAAGCA CTTATCCTCATTGTGATCTTGGAAAAGCCAAAACCAGCAGAACGGAAAGTGAAGAAGGAGGCTTTATCC ATAAGTGATCCATCTTTCAGAAGCAATGAGTTATCCTGGATGTCTTTTGCTTCCTTTCATGTTCGAAAA AAGACACATATTCAATTGCAGTTTCAGCCTCTCGCTGCAGATGGTATCCTATTTTATGCTGCACAACAC TTAAAAGCCCAATCAGGTGATTTTTTATGCATCTCTTTAGTAAATAGTTCCGTTCAACTTCGCTACAAC CTTGGCGACAGAACTATCATTCTAGAAACTCTCCAAAAAGTAACTATAAACGGAAGTACTTGGCATATA ATAAAAGCAGGAAGAGTTGGTGCAGAAGGCTACCTGGATCTAGATGGGATAAATGTAACAGAAAAGGCC TCCACTAAAATGAGTTCTCTGGACACAAATACAGACTTCTATATTGGAGGAGTATCTTCTTTAAATCTT GTAAATCCCATGGCAATAGAAAATGAACCTGTAGGTTTTCAAGGCTGTATCCGACAAGTTATCATAAAT AATCAAGAATTACAATTAACTGAATTTGGAGCAAAAGGTGGCTCAAATGTAGGTGACTGTGATGGGACA GCCTGTGGGTACAACACATGCAGAAATGGAGGTGAATGTACAGTAAATGGCACAACTTTTTCTTGCAGA TGTTTGCCAGATTGGGCTGGAAATACATGTAACCAGTCTGTGTCCTGTTTGAATAATCTTTGCCTCCAC CAATCTTTATGTATACCTGACCAATCATTTTCTTACAGTTGCCTGTGTACTTTGGGTTGGGTGGGAAGG TATTGTGAAAACAAAACTTCATTTTCAACTGCAAAATTTATGGGTAATTCTTACATTAAATACATTGAT CCAAATTATAGAATGAGAAACCTCCAGTTCACTACTATATCCTTAAATTTCAGTACCACTAAAACAGAA GGTCTAATTGTATGGATGGGAATAGCTCAAAATGAAGAAAATGATTTTCTGGCAATTGGTCTCCATAAT CAGACCTTGAAAATAGCAGTTAACTTGGGAGAAAGAATCTCTGTGCCTATGAGCTATAACAATGGCACA TTCTGTTGTAATAAATGGCACCATGTAGTTGTAATTCAAAATCAGACTCTTATCAAGGCCTACATAAAT AACAGTCTAATTCTTTCCGAGGATATTGATCCACATAAAAACTTTGTGGCTCTAAACTATGATGGCATT TGTTATCTAGGGGGCTTTGAATATGGTAGAAAGGTAAATATCGTTACTCAAGAGATTTTTAAAACCAAT TTTGTTGGCAAAATTAAAGATGTTGTATTTTTTCAGGAACCAAAAAACATTGAACTAATTAAATTAGAA GGATACAATGTTTATGATGGAGATGAACAAAATGAGGTTACA ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC >Peptide sequence encoded by RG240266
Blue=ORF Red=Cloning site Green=Tag(s) MTDKSIVILSLMVFHSSFINGKTCRRQLVEEWHPQPSSYVVNWTLTENICLDFYRDCWFLGVNTKIDTS GNQAVPQICPLQIQLGDILVISSEPSLQFPEINLMNVSETSFVGCVQNTTTEDQLLFGCRLKGMHTVNS KWLSVGTHYFITVMASGPSPCPLGLRLNVTVKQQFCQESLSSEFCSGHGKCLSEAWSKTYSCHCQPPFS GKYCQELDACSFKPCKNNGSCINKRENWDEQAYECVCHPPFTGKNCSEIIGQCQPHVCFHGNCSNITSN SFICECDEQFSGPFCEVSAKPCVSLLFWKRGICPNSSSAYTYECPKGSSSQNGETDVSEFSLVPCQNGT DCIKISNDVMCICSPIFTDLLCKSIQTSCESFPLRNNATCKKCEKDYPCSCISGFTEKNCEKAIDHCKL LSINCLNEEWCFNIIGRFKYVCIPGCTKNPCWFLKNVYLIHQHLCYCGVTFHGICQDKGPAQFEYVWQL GFAGSEGEKCQGVIDAYFFLAANCTEDATYVNDPEDNNSSCWFPHEGTKEICANGCSCLSEEDSQEYRY LCFLRWAGNMYLENTTDDQENECQHEAVCKDEINRPRCSCSLSYIGRLCVVNVDYCLGNHSISVHGLCL ALSHNCNCSGLQRYERNICEIDTEDCKSASCKNGTTSTHLRGYFFRKCVPGFKGTQCEIDIDECASHPC KNGATCIDQPGNYFCQCVPPFKVVDGFSCLCNPGYVGIRCEQDIDDCILNACEHNSTCKDLHLSYQCVC LSDWEGNFCEQESNECKMNPCKNNSTCTDLYKSYRCECTSGWTGQNCSEEINECDSDPCMNGGLCHEST IPGQFVCLCPPLYTGQFCHQRYNLCDLLHNPCRNNSTCLALVDANQHCICREEFEGKNCEIDVKDCLFL SCQDYGDCEDMVNNFRCICRPGFSGSLCEIEINECSSEPCKNNGTCVDLTNRFFCNCEPEYHGPFCELD VNKCKISPCLDEENCVYRTDGYNCLCAPGYTGINCEINLDECLSEPCLHDGVCIDGINHYTCDCKSGFF GTHCETNANDCLSNPCLHGRCTELINEYPCSCDADGTSTQCKIKINDCTSIPCMNEGFCQKSAHGFTCI CPRGYTGAYCEKSIDNCAEPELNSVICLNGGICVDGPGHTFDCRCLPGFSGQFCEININECSSSPCLHG ADCEDHINGYVCKCQPGWSGHHCENELECIPNSCVHELCMENEPGSTCLCTPGFMTCSIGLLCGDEIRR ITCLTPIFQRTDPISTQTYTIPPSETLVSSFPSIKATRIPAIMDTYPVDQGPKQTGIVKHDILPTTGLA TLRISTPLESYLLQELIVTRELSAKHSLLSSADVSSSRFLNFGIRDPAQIVQDKTSVSHMPIRTSAATL GFFFPDRRARTPFIMSSLMSDFIFPTQSLLFENCQTVALSATPTTSVIRSIPGADIELNRQSLLSRGFL LIAASISATPVVSRGAQEDIEEYSADSLISRREHWRLLSPSMSPIFPAKVIISKQVTILNSSALHRFST KAFNPSEYQAITEASSNQRLTNIKSQAADSLRELSQTCATCSMTEIKSSREFSDQVLHSKQSHFYETFW MNSAILASWYALMGAQTITSGHSFSSATEITPSVAFTEVPSLFPSKKSAKRTILSSSLEESITLSSNLD VNLCLDKTCLSIVPSQTISSDLMNSDLTSKMTTDELSVSENILKLLKIRQYGITMGPTEVLNQESLLDM EKSKGSHTLFKLHPSDSSLDFELNLQIYPDVTLKTYSEITHANDFKNNLPPLTGSVPDFSEVTTNVAFY TVSATPALSIQTSSSMSVIRPDWPYFTDYMTSLKKEVKTSSEWSKWELQPSVQYQEFPTASRHLPFTRS LTLSSLESILAPQRLMISDFSCVRYYGDSYLEFQNVALNPQNNISLEFQTFSSYGLLLYVKQDSNLVDG FFIQLFIENGTLKYHFYCPGEAKFKSINTTVRVDNGQKYTLLIRQELDPCNAELTILGRNTQICESINH VLGKPLPKSGSVFIGGFPDLHGKIQMPVPVKNFTGCIEVIEINNWRSFIPSKAVKNYHINNCRSQGFML SPTASFVDASDVTQGVDTMWTSVSPSVAAPSVCQQDVCHNGGTCHAIFLSSGIVSFQCDCPLHFTGRFC EKDAGLFFPSFNGNSYLELPFLKFVLEKEHNRTVTIYLTIKTNSLNGTILYSNGNNCGKQFLHLFLVEG RPSVKYGCGNSQNILTVSANYSINTNAFTPITIRYTTPVGSPGVVCMIEMTADGKPPVQKKDTEISHAS QAYFESMFLGHIPANVQIHKKAGPVYGFRGCILDLQVNNKEFFIIDEARHGKNIENCHVPWCAHHLCRN NGTCISDNENLFCECPRLYSGKLCQFASCENNPCGNGATCVPKSGTDIVCLCPYGRSGPLCTDAINITQ PRFSGTDAFGYTSFLAYSRISDISFHYEFHLKFQLANNHSALQNNLIFFTGQKGHGLNGDDFLAVGLLN GSVVYSYNLGSGIASIRSEPLNLSLGVHTVHLGKFFQEGWLKVDDHKNKSIIAPGRLVGLNVFSQFYVG GYSEYTPDLLPNGADFKNGFQGCIFTLQVRTEKDGHFRGLGNPEGHPNAGRSVGQCHASPCSLMKCGNG GTCIESGTSVYCNCTTGWKGSFCTETVSTCDPEHDPPHHCSRGATCISLPHGYTCFCPLGTTGIYCEQA LILIVILEKPKPAERKVKKEALSISDPSFRSNELSWMSFASFHVRKKTHIQLQFQPLAADGILFYAAQH LKAQSGDFLCISLVNSSVQLRYNLGDRTIILETLQKVTINGSTWHIIKAGRVGAEGYLDLDGINVTEKA STKMSSLDTNTDFYIGGVSSLNLVNPMAIENEPVGFQGCIRQVIINNQELQLTEFGAKGGSNVGDCDGT ACGYNTCRNGGECTVNGTTFSCRCLPDWAGNTCNQSVSCLNNLCLHQSLCIPDQSFSYSCLCTLGWVGR YCENKTSFSTAKFMGNSYIKYIDPNYRMRNLQFTTISLNFSTTKTEGLIVWMGIAQNEENDFLAIGLHN QTLKIAVNLGERISVPMSYNNGTFCCNKWHHVVVIQNQTLIKAYINNSLILSEDIDPHKNFVALNYDGI CYLGGFEYGRKVNIVTQEIFKTNFVGKIKDVVFFQEPKNIELIKLEGYNVYDGDEQNEVT TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV |
Chromatograms |
CHROMATOGRAMS
![]() Sequencher program is needed, download here. |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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ACCN | NM_001292009 |
ORF Size | 9495 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, transfection-ready dried plasmid DNA, and shipped with 2 vector sequencing primers. |
Reference Data | |
RefSeq | NM_001292009.1, NP_001278938.1 |
RefSeq Size | 10652 bp |
RefSeq ORF | 9498 bp |
Locus ID | 346007 |
Cytogenetics | 6q12 |
Protein Families | Druggable Genome |
MW | 351.2 kDa |
Gene Summary | The product of this gene contains multiple epidermal growth factor (EGF)-like and LamG domains. The protein is expressed in the photoreceptor layer of the retina, and the gene is mutated in autosomal recessive retinitis pigmentosa. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Dec 2008] |
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