Csmd1 (NM_001037327) Rat Tagged ORF Clone

CAT#: RR208391

  • TrueORF®

Csmd1 (Myc-DDK-tagged ORF) - Rat CUB and Sushi multiple domains 1 (Csmd1), (10 ug)

Datasheet
SDS
Plasmid Map

  "NM_001037327" in other vectors (1)

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CNY 68,590.00

货期*
14周
规格
    • 10 ug

Product images

经常一起买 (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

CNY 5,420.00

添加到购物车
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00

暂停销售
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

CNY 300.00

添加到购物车

【特别福利】购一抗正装产品,免费领10ul抗体试用装

Specifications

Product Data
Type Rat Tagged ORF Clone
Tag Myc-DDK
Synonyms Mdcr1
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RR208391 representing NM_001037327
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACTGCGTGGAGGAAATTCAAGTCGCTGCTCCTGCCTCTGGTGCTGGCGGTTCTGTGCGCGGGGCTCC
TCACTGCAGCTAAGGGTCAGAACTGTGGTGGCCTGGTACAGGGACCCAATGGCACCATCGAAAGTCCTGG
ATTTCCCCATGGGTACCCTAATTATGCCAACTGCACCTGGATCATTATCACTGGGGAGCGCAACCGGATC
CAGCTATCCTTCCACACCTTTGCCCTAGAAGAGGACTTTGATATCTTATCTGTCTATGATGGACAGCCCC
AGCAAGGGAACTTGAAAGTGAGGCTGTCAGGATTCCAGCTGCCTTCTTCCATCGTGAGCACCGGGTCGCT
CCTCACGCTCTGGTTCACCACGGACTTCGCAGTGAGCGCACAGGGTTTCAAGGCCATGTATGAAGTTTTA
CCTAGTCACACGTGTGGAAACCCTGGGGAGATACTGAAAGGAGTTCTCCATGGAACGAGGTTCAACATAG
GCGACAAGATCAGATACAGCTGTCTCTCCGGCTACATCTTGGAAGGTCACGCCATTCTGACTTGCATCGT
CAGCCCAGGGAATGGTGCATCCTGGGACTTCCCAGCTCCTTTCTGCAGAGCTGAGGGAGCCTGCGGGGGA
ACCCTAAGGGGAACCAGCGCTTCCATATCCAGCCCTCACTTCCCCTCAGAGTACGACAACAATGCAGACT
GCACGTGGACCATCTTGGCTGAGCCTGGGGACACCATTGCTCTTGTTTTTACTGACTTCCAGCTGGAGGA
AGGATACGACTTTTTAGAGATCAGCGGGACAGAAGCGCCGTCCATATGGCTCACAGGCATGAACCTCCCA
TCCCCTGTGATCAGCAGTAAGAACTGGCTCCGTCTCCATTTCACGTCTGACAGCAACCATCGACGTAAGG
GCTTCAACGCTCAGTTCCAAGTGAAAAAGGCAATTGAGCTGAAGTCCAGAGGAGTCAAAATGCTACCAAG
CAAGGACAGCAGCCACAAAAACTCTGTCTTGACCCAAGGAGGTGTGTCTCTGGTCTCTGACATGTGTCCA
GATCCTGGAATTCCAGACAATGGCAGAAGAGCAGGCTCTGACTTCAGGGTTGGTGCAAACGTGCAGTTCT
CCTGTGAGGATAATTATGTCCTCCAAGGGGCCAAGGGCATCACCTGTCAAAGAGTCACAGAGACCCTAGC
AGCATGGAGTGACCACCGACCCATCTGCCGAGCCAGGACATGTGGATCAAACCTGCGTGGGCCGAGTGGT
GTCATCACCTCCCCTAACTACCCAGTGCAGTATGAAGACAATGCTCACTGCGTGTGGGTCATCACAACCA
CTGATCCAGACAAGGTCATCAAACTTGCTTTTGAAGAGTTTGAGTTGGAACGAGGGTACGACACTCTGAC
AGTTGGGGATGCCGGGAAGGTGGGGGACACCAGATCCGTCTTGTACGTGCTTACAGGCTCCAGTGTCCCT
GACCTCATCGTGAGCATGAGCAATCAGATGTGGCTCCACCTGCAGTCAGACGACAGCATTGGTTCCCCAG
GATTTAAAGCTGTGTACCAAGAAATCGAGAAGGGAGGCTGCGGGGACCCTGGCATCCCAGCCTACGGGAA
GCGGACTGGCAGCAGCTTCTTGCACGGGGACACGCTCACCTTTGAGTGCCAGGCAGCTTTTGAGCTGGTA
GGAGAGAGAGTGATTACGTGCCAGAGAAACAACCAGTGGTCCGGCAACAAGCCAAGCTGTGTGTTTTCAT
GTTTCTTCAACTTCACGGCGTCCTCTGGGATCATCCTGTCGCCAAACTATCCTGAGGAATATGGCAACAA
CATGAATTGTGTGTGGTTGATTATATCTGAGCCCGGGAGCCGGATTCACCTCATCTTCAATGATTTCGAT
GTGGAGCCTCAGTTTGACTTCCTTGCGGTCAAAGATGATGGGATTTCTGACATCACAGTCCTCGGGACTT
TCTCTGGCAATGAGGTGCCTGCACAGCTGGCCRGCAGTGGACACATAGTACGCCTGGAGTTTCAGTCCGA
TCACTCTACCACGGGCAGAGGGTTCAACATCATATACACCACATTTGGTCAGAACGAGTGTCATGACCCT
GGGATCCCTGTGAATGGACGGCGCTTTGGAGACAGGTTTCTGCTGGGAAGTTCTGTGTCCTTCCACTGTG
ATGATGGCTTTGTGAAGACTCAGGGTTCTGAGTCTATCACATGCATCTTGCAAGATGGAAACGTGGTCTG
GAGCTCTACTGTCCCTCGCTGTGAAGCTCCTTGTGGTGGGCATCTGACAGCTTCTAGTGGGGTCATATTA
CCTCCAGGATGGCCAGGATATTACAAAGATTCTTTAAATTGCGAATGGGTCATTGAAGCCAAACCAGGAC
ATTCCATCAAAATAACATTTGACAGGTTCCAGACAGAAGTCAATTATGATACTCTGGAAGTCCGGGATGG
GCCAACCAGCTCATCCCCACTGATTGGGGAGTACCATGGCACCCAGGCTCCACAGTTCCTCATCAGCACA
GGGAACTACATGTACCTGCTGTTTACCACTGACAGCAGCCGCGCTAGTGTTGGCTTCCTCATCCACTATG
AGAGTGTGACTCTTGAATCTGACTCCTGTCTGGACCCGGGCATCCCTGTAAATGGTCATCGGCATGGCAG
TAACTTTGGTATCAGATCTACAGTGACCTTCAGCTGTGACCCTGGGTACACGCTCAGTGATGACGATCCC
CTCATCTGTGAGAAGAACCATCAGTGGAACCACGCCTTGCCCAGCTGTGATGCCCTGTGTGGAGGCTACA
TCCATGGAAAGAGTGGGACTGTTCTTTCACCAGGATTTCCAGACTTTTATCCAAACTCTCTGAACTGTAC
ATGGACCATTGAAGTCTCTCATGGCAAGGGAGTGCAGATGAATTTCCACACCTTTCACCTTGAAAGTTCC
CACGACTATTTGCTGATCACAGAGGATGGGAGTTTCTCAGAGCCGGTAGCCAGGCTCACTGGGTCGGTCC
TGCCTCACACCATTAAGGCTGGCTTGTTTGGAAACTTCACTGCGCAACTCAGGTTCATCTCTGACTTCTC
CATCTCCTATGAAGGCTTCAACATTACGTTTGCAGAATATGACCTAGAACCCTGTGATGACCCTGGAGTC
CCTGCCTACAGTCGCAGAATTGGGTTCCAGTTCGGTGTGGGTGACACCCTGGCTTTCACCTGCTTCCAGG
GATACCGCTTAGAAGGTGCAACCAAGCTTACCTGCCTGGGTGGGGGACGCCGAGTGTGGAGTGCACCTCT
GCCAAGGTGTGTGGCTGAATGTGGAGCAAGCGTCAAAGGAAATGAAGGAACATTACTCTCTCCAAATTTC
CCATCCAATTATGATAATAACCATGAGTGTATCTATAAAATAGAAACAGAAGCCGGAAAGGGGATCCATC
TCAGAGCCCGAACCTTCCAACTCTTCGAAGGAGACACTCTAAAGGTTTATGATGGAAAGGACAGCTCCTC
GAGGTCACTGGGAGTCTTCACAAGAAGTGAACTGATGGGGCTGGTGCTAAACAGCACCTCCAACCACCTG
AGGCTGGAGTTCAACTCTAACGGGTCAGATACCGCCCAAGGCTTCCAGCTCACCTACACCAGTTTTGACC
TAGTGAAATGTGAGGATCCAGGCATCCCTAACTATGGCTACAGGATCCGAGATGATGGTCACTTCACAGA
CACTGTGGTTCTCTACAGCTGCAACCCAGGCTACGCAATGCATGGCAGCAGTACCCTGACCTGCCTGAGT
GGGGACCGAAGGGTGTGGGACAAACCTATGCCTTCCTGTGTGGCGGAATGTGGTGGTCTCGTCCATGCAG
CCACATCAGGACGCATACTCTCTCCTGGCTACCCTGCCCCATATGACAACAACCTTCATTGCACTTGGAC
CATAGAGGCTGATCCTGGCAAGACCAYCAGCCTCCATTTCATTGTGTTTGACACTGAAACGGCGCACGAC
ATCCTCAAGGTCTGGGATGGTCCAGTGGACAGCAACATCCTGCTGAAGGAGTGGAGCGGCTCGGCCCTTC
CTGAGGACATCCACAGCACCTTCAACTCGCTCACCCTGCAGTTCGATAGTGACTTCTTCATCAGCAAGTC
CGGCTTCTCCATCCAGTTCTCTACTTCCATTGCATCCACCTGCAATGACCCTGGGATGCCTCAGAATGGA
ACCCGCTATGGTGACAGCCGGGAACCTGGAGACACCATCACCTTCCAGTGTGACCCTGGATACCAGCTCC
AAGGGCAAGCCAAGATCACTTGTGTGCAGCTTAACAACCGCTTCTTCTGGCAACCAGACCCTCCGTCATG
CATAGCTGCTTGTGGTGGGAATCTGACAGGCCCTGCTGGAGTGATTTTATCCCCAAACTACCCACAGCCA
TACCCTCCTGGGAAGGAGTGTGACTGGAGAATTAAGGTGAACCCAGACTTTGTCATTGCCTTAATATTCA
AAAGTTTTAGCATGGAGCCAAGTTACGACTTCCTGCATATCTATGAAGGGAAGGACTCCAACAGCCCACT
GATCGGAAGCTTCCAGGGTTCTCAAGCCCCAGAGAGGATTGAGAGCAGTGGTAACAGCCTCTTCCTGGCA
TTCAGGAGTGATGCCTCTGTTGGCCTGTCCGGGTTTGCCATTGAATTTAAAGAGAAACCACGGGAAGCTT
GCTTTGACCCTGGGAACATAATGAACGGGACAAGGATTGGAACGGACTTTAAGCTGGGCTCTACAGTTAC
CTATCAATGTGACTCTGGTTACAAGATTGTGGATCCCTCATCCATTGAGTGTGTGACAGGGGCTGATGGG
AAGCCGTCCTGGGACCGGGCACTGCCTGCCTGCCAAGCACCCTGTGGAGGCCAATACATGGGCTCGGAGG
GGGTAGTTTTGTCACCAAACTACCCTCATAACTACACGGCTGGGCAGATATGCATCTATTCCATCACGGT
GCCCAAGGAATTTGTGGTGTTTGGACAGTTTGCCTATTTCCAGACTGCGCTGAACGACTTGGCAGAATTG
TTTGATGGAACCCATCCTCAGGCCAGGCTTCTCAGTTCTCTCTCTGGTTCCCATTCAGGTGAAACACTCC
CGCTGGCTACATCCAATCAGATTCTGCTTCGCTTCAGCGCAAAGAGCGGAGCTTCTGCACGGGGTTTCCA
CTTCGTCTACCAAGCCGTCCCACGCACCAGTGACACGCAGTGCAGCTCCGTCCCTGAGCCCAGATATGGG
AGAAGGATTGGTTCTGAGTTCTCTGCAGGCTCCATCGTCCGATTCGAGTGCAACCCAGGTTACCTGCTGC
AAGGCTCCACAGCCATCCGTTGTCAGTCTGTGCCAAACGCTTTGGCCCAGTGGAATGACACCATCCCAAG
CTGTGTAGTTCCATGCAGTGGCAATTTCACTCAGAGAAGAGGGACAATCTTATCTCCAGGCTACCCTGAG
CCCTATGGGAACAACCTGAACTGTGTATGGAAGATCATAGTATCGGAGGGCTCAGGGATCCAGATCCAAG
TGATTAGCTTTGCCACGGAGCAGAACTGGGACTCCCTGGAGATCCATGACGGAGGAGACATGACGGCCCC
CAGACTGGGCAGCTTCTCAGGTACCACAGTGCCCGCACTGCTGAATAGCACCTCCAACCAGCTCTGCCTG
CACTTCCAGTCGGACATCAGTGTTGCCGCTGCGGGCTTTCACCTGGAATACAAAACGGTGGGTCTGGCTG
CGTGCCAGGAACCTGCTCTCCCGAGCAACGGCATCAAGATAGGAGACCGCTATATGGTGAACGATGTGCT
GTCCTTCCAGTGCGAGCCTGGGTACACCTTGCAGGGCCGCTCACACATTTCTTGTATGCCGGGAACTGTA
CGTCGCTGGAACTATCCTTCCCCTCTGTGCATTGCCACCTGTGGTGGGACACTGACCAGCATGAGTGGAG
TGATCCTGAGCCCAGGCTTCCCAGGGTCATACCCCAACAACCTGGACTGCACCTGGAAGATATCCCTGCC
CATTGGCTATGGTGCACATATCCAATTTCTGAATTTCTCAACTGAAGCCAACCATGACTACCTGGAGATC
CAGAATGGCCCTTACCACAGTAGTCCAATGATGGGACAGTTCAGTGGCCCTGACCTGCCTGCGTCACTGC
TGAGCACCACACATGAAACCCTCATCCGCTTCTATAGTGACCACTCACAGAACCGACAAGGATTTAAACT
CAGTTACCAAGCTTATGAGTTACAGAACTGCCCGGACCCACCCGCATTCCAGAATGGGTTCATGATCAAC
TCCGATTACAGCGTGGGCCAGTCGATCTCATTTGAGTGCTACCCGGGCTACATCTTGCTAGGCCACCCTG
TGCTCACCTGCCAGCATGGCACTGACAGGAACTGGAACTACCCTTTCCCACGGTGTGACGCTCCCTGTGG
GTATAATGTGACATCACAGAATGGCACCATTTATTCCCCTGGGTTCCCAGACGAGTATCCAATTCTGAAG
GACTGCCTGTGGCTGGTCACTGTCCCTCCAGGACATGGAGTGTACATCAACTTCACCTTGCTGCAGACTG
AGGCTGTAAATGACTACATCGCTGTGTGGGATGGTCCTGACCAGAACTCGCCTCAGCTCGGGGTCTTCAG
TGGAAACACTGCCCTCGAGACAGCATACAGCTCCACCAACCAGGTCTTGCTCAAATTCCACAGCGATTTC
TCCAATGGAGGCTTCTTTGTCCTCAATTTTCATGCATTTCAACTGAAGAGGTGCCCGCCTCCTCCAGTAG
TGCCGCAGGCTGACCTGCTTACAGAAGATGAAGACTTTGAAATAGGGGACTTCGTAAAGTACCAGTGCCA
TCCAGGGTACACGCTGTTGGGAAGTGACACCCTGACATGCAAGCTCAGCTCACAGCTATTGTTCCAAGGC
TCTCCACCTACCTGTGAAGCACAATGCCCAGCCAATGAAGTGCGAACAGAGTCTTCTGGGGTGATTCTCA
GTCCTGGGTACCCAGGCAACTATTTTAACTCCCAGACATGTGCTTGGAGTATTAAAGTGGAGCCAAACTT
TAACATTACGCTCTTTGTGGACACCTTTCAAAGTGAAAAGCAATTTGATGCACTGGAAGTATTTGATGGT
TCTTCTGGGCAAAGTCCTTTGTTAGTGGTCTTAAGTGGGAACCACACTGAACAGTCCAATTTTACCAGCA
GAAGTAACCATCTGTACCTCCGCTGGTCCACAGATCATGCAACCAGCAAGAAAGGATTCAAGATTCGCTA
TGCAGCTCCTTACTGCAGCCTCACCTCTACACTCAAGAATGGTGGCGTTTTAAATAAAACCGCAGGCGCC
CTGGGGAGCAAGGTGCAGTATTTCTGCAAGCCTGGATATCGAATGATTGGCCACAGCAACGCCACCTGCA
GGCGGAACCCAGTGGGCGTGTACCAGTGGGACTCGATGGCACCGCTTTGCCAGGCTGTGTCCTGTGGAAT
TCCAGAGGCTCCAGGAAATGGCTCGTTCACAGGCAATGAGTTCACCTTAGACAGTAAAGTGACTTATGAA
TGTAATGAAGGCTTCAAGCTGGATGCCAGTCAGCAAGCCACTGCTGTGTGTCAAGAAGATGGCCTGTGGA
GCAACAGAGGAAAGCCACCCACGTGCAAACCGGTGCCCTGCCCCAGCATCGAAGGCCAGCTGTCAGAGCA
CGTGCTCTGGAGGCTGGTTTCGGGATCATTGAATGAATATGGAGCTCAAGTTCTCCTCAGCTGTAGTCCT
GGCTACTTCTTGCAGGGTCAGAGGCTGTTGCAGTGCCAAGCCAATGGGACCTGGAACACTGAGGAGGACA
GACCCAGATGTAAAGTCATCTCCTGTGGAAGCCTGTCCTTTCCCCCAAATGGTAACAAGATAGGGACGCT
CACTATGTATGGAGCCACCGCCATCTTTACCTGCAATACCGGCTACACACTTGTAGGCTCCCATGTCCGG
GAGTGCTTGGCCAATGGTCTCTGGAGCGGATCTGAAACAAGGTGCCTGGCGGGTCATTGTGGCTCTCCAG
ACCCCATTGTGAATGGCCATATCAGTGGCGATGGCTTCAGCTACAGGGACACAGTGGTCTACCAATGCAA
CCCTGGGTTTCGACTCGTAGGCACGTCTGTGAGGATTTGCCTGCAGGACCACAAGTGGTCGGGGCAGACC
CCCGTTTGCGTCCCCATCACATGTGGACACCCTGGAAACCCTGCCCATGGCCTCACCAACGGCAGCGAGT
TCAACCTGAATGACCTTGTGAATTTCACCTGCCATACGGGCTACCTGCTGCAGGGTGCCTCCCGAGCCCA
ATGTCGGAGCAACGGCCAGTGGAGCAGCCCCTTGCCTATCTGCCGAGTGGTGAACTGTTCCGATCCTGGA
TTTGTGGAAAATGCAGTTCGCCACGGGCAACAGAACTTTCCAGAGAGTTTCGAGTATGGGACAAGTGTGA
TGTATCACTGCAAGAAGGGGTTCTACCTACTGGGCTCTTCTGCCCTGACCTGCATGGCAAGTGGCTTGTG
GGACCGCTCCTTACCCAAGTGTCTGGCTATATCATGTGGGCATCCTGGGGTCCCCGCTAATGCTGTCCTG
ACTGGAGAATTGTTTACATTTGGAGCCACAGTTCAGTACTCCTGCAAAGGGGGCCAGATTCTCACAGGCA
ATAGCACAAGAGTCTGCCAAGAAGACAGTCACTGGAGTGGATCCCTTCCCCATTGTTCAGGAAATAGTCC
TGGATTTTGTGGTGATCCAGGGACCCCAGCACATGGGTCTCGTCTTGGGGATGAGTTTAAGACAAAGAGT
CTTTTGCGATTCTCCTGTGAGATGGGCCACCAGCTGCGGGGTTCTGCAGAGCGCACATGCCTGGTGAATG
GGTCCTGGTCAGGAGTCCAGCCTGTGTGTGAGGCCGTGTCCTGTGGAAACCCTGGCACCCCTACCAATGG
GATGATCCTCAGCAGCGATGGAATCCTCTTCTCCAGCTCTGTCATCTATGCCTGCTGGGAAGGCTACAAG
ACCTCGGGGCTCATGACGCGGCACTGCACAGCGAACGGGACATGGACAGGCACAGCCCCTGACTGTACAA
TCATCAGCTGTGGTGATCCTGGCACACTGCCCAATGGCATCCAGTTTGGGACAGACTTCACTTTCAACAA
GACCGTGAGCTATCAGTGCAACCCTGGCTACCTGATGGAGCCCCCAACATCACCCACCATCCGCTGCACC
AAAGATGGTACATGGAATCAGACCCGGCCCCTCTGCAAAGCTGTTCTATGCAGCCAGCCTCCCTCAGTGC
CAAACGGAAAGGTGGAGGGGTCAGACTTCCGATGGGGTGCCAGCATAAGCTACAGTTGTGTGGATGGCTA
CCAGCTCTCCCACTCGGCCATCCTGTCCTGTGAAGGGCGTGGAGTATGGAAAGGAGAAGTCCCTCAGTGC
TTGCCTGTGTTCTGTGGCGATCCAGGCACTCCAGCAGAGGGACGGCTCAGTGGGAAAAGCTTCACCTTTA
AGTCTGAGGTCTTCATCCAGTGCAAACCCCCATTTGTGTTAGTGGGTTCCTCGAGGAGAACCTGCCAGGC
CGATGGGATGTGGAGTGGCATCCAGCCCACTTGTATAGATCCAGCCCACACCGCTTGCCCAGACCCCGGC
ACTCCCCACTTTGGAATACAGAATAGCTCGAAAGGATACGAGGTTGGAAGCACTGTGTTCTTCAGATGTA
GAAAAGGTTACCACATCCAAGGCTCCACTACCCGGACCTGTCTTGCCAACCTCACGTGGAGTGGAATCCA
GACAGAGTGCATCCCCCATGCCTGCCGGCAGCCAGAGACCCCAGCGCATGCAGATGTGAGAGCCATCGAT
CTTCCAGCTTTTGGCTACACCTTAGTCTACACCTGTCATCCAGGATTTTTCCTTGCTGGCGGATCTGAGC
ACAGGACGTGTAAAGCAGACATGAAATGGACAGGAAAGTCACCTGTTTGTAAAAGTAAAGGAGTGAGAGA
AGTTAATGAAACAGTTACTAAAACTCCAGTTCCTTCTGATGTATTTTTCATCAACTCGGTGTGGAAGGGA
TATTATGAATATTTAGGCAAGAGACAGCCGGCGACTCTCACTGTGGACTGGTTTAATGCAACCAGCAGCA
AGGTCAATGCGACCTTCACCGCAGCCTCACAGGTGCAGCTGGAGCTGACAGGGGTCTACAAGAAGGAAGA
GGCCCACCTGCTTCTGAAAGCCTTTCATATCAAAGGCCCAGCAGATATTTTTGTAAGCAAGTTTGAAAAT
GACAACTGGGGACTCGATGGTTATGTATCCTCAGGACTTGAGAGAGGAGGATTCTCCTTTCAGGGTGATA
TACATGGAAAAGACTTCGGGAAGTTCAAGCTGGAAAGACAAGATCCTTCCAACTCTGATGCAGATTCTTC
AAATCATTACCAGGGCACCAGCAGTGGCTCTGTGGCAGCTGCGATTCTCGTCCCCTTCTTCGCTCTAATT
CTATCAGGGTTTGCATTTTACCTCTACAAACACAGAACAAGACCAAAAGTTCAATACAATGGCTATGCTG
GCCATGAAAACAGTAATGGACAAGCTTCATTTGAAAACCCCATGTATGATACAAACTTAAAACCCACAGA
GGCCAAGGCTGTGAGGTTTGACACGACTCTGAACACAGTGTGTACAGTGGTA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
>RR208391 representing NM_001037327
Red=Cloning site Green=Tags(s)

MTAWRKFKSLLLPLVLAVLCAGLLTAAKGQNCGGLVQGPNGTIESPGFPHGYPNYANCTWIIITGERNRI
QLSFHTFALEEDFDILSVYDGQPQQGNLKVRLSGFQLPSSIVSTGSLLTLWFTTDFAVSAQGFKAMYEVL
PSHTCGNPGEILKGVLHGTRFNIGDKIRYSCLSGYILEGHAILTCIVSPGNGASWDFPAPFCRAEGACGG
TLRGTSASISSPHFPSEYDNNADCTWTILAEPGDTIALVFTDFQLEEGYDFLEISGTEAPSIWLTGMNLP
SPVISSKNWLRLHFTSDSNHRRKGFNAQFQVKKAIELKSRGVKMLPSKDSSHKNSVLTQGGVSLVSDMCP
DPGIPDNGRRAGSDFRVGANVQFSCEDNYVLQGAKGITCQRVTETLAAWSDHRPICRARTCGSNLRGPSG
VITSPNYPVQYEDNAHCVWVITTTDPDKVIKLAFEEFELERGYDTLTVGDAGKVGDTRSVLYVLTGSSVP
DLIVSMSNQMWLHLQSDDSIGSPGFKAVYQEIEKGGCGDPGIPAYGKRTGSSFLHGDTLTFECQAAFELV
GERVITCQRNNQWSGNKPSCVFSCFFNFTASSGIILSPNYPEEYGNNMNCVWLIISEPGSRIHLIFNDFD
VEPQFDFLAVKDDGISDITVLGTFSGNEVPAQLAXSGHIVRLEFQSDHSTTGRGFNIIYTTFGQNECHDP
GIPVNGRRFGDRFLLGSSVSFHCDDGFVKTQGSESITCILQDGNVVWSSTVPRCEAPCGGHLTASSGVIL
PPGWPGYYKDSLNCEWVIEAKPGHSIKITFDRFQTEVNYDTLEVRDGPTSSSPLIGEYHGTQAPQFLIST
GNYMYLLFTTDSSRASVGFLIHYESVTLESDSCLDPGIPVNGHRHGSNFGIRSTVTFSCDPGYTLSDDDP
LICEKNHQWNHALPSCDALCGGYIHGKSGTVLSPGFPDFYPNSLNCTWTIEVSHGKGVQMNFHTFHLESS
HDYLLITEDGSFSEPVARLTGSVLPHTIKAGLFGNFTAQLRFISDFSISYEGFNITFAEYDLEPCDDPGV
PAYSRRIGFQFGVGDTLAFTCFQGYRLEGATKLTCLGGGRRVWSAPLPRCVAECGASVKGNEGTLLSPNF
PSNYDNNHECIYKIETEAGKGIHLRARTFQLFEGDTLKVYDGKDSSSRSLGVFTRSELMGLVLNSTSNHL
RLEFNSNGSDTAQGFQLTYTSFDLVKCEDPGIPNYGYRIRDDGHFTDTVVLYSCNPGYAMHGSSTLTCLS
GDRRVWDKPMPSCVAECGGLVHAATSGRILSPGYPAPYDNNLHCTWTIEADPGKTXSLHFIVFDTETAHD
ILKVWDGPVDSNILLKEWSGSALPEDIHSTFNSLTLQFDSDFFISKSGFSIQFSTSIASTCNDPGMPQNG
TRYGDSREPGDTITFQCDPGYQLQGQAKITCVQLNNRFFWQPDPPSCIAACGGNLTGPAGVILSPNYPQP
YPPGKECDWRIKVNPDFVIALIFKSFSMEPSYDFLHIYEGKDSNSPLIGSFQGSQAPERIESSGNSLFLA
FRSDASVGLSGFAIEFKEKPREACFDPGNIMNGTRIGTDFKLGSTVTYQCDSGYKIVDPSSIECVTGADG
KPSWDRALPACQAPCGGQYMGSEGVVLSPNYPHNYTAGQICIYSITVPKEFVVFGQFAYFQTALNDLAEL
FDGTHPQARLLSSLSGSHSGETLPLATSNQILLRFSAKSGASARGFHFVYQAVPRTSDTQCSSVPEPRYG
RRIGSEFSAGSIVRFECNPGYLLQGSTAIRCQSVPNALAQWNDTIPSCVVPCSGNFTQRRGTILSPGYPE
PYGNNLNCVWKIIVSEGSGIQIQVISFATEQNWDSLEIHDGGDMTAPRLGSFSGTTVPALLNSTSNQLCL
HFQSDISVAAAGFHLEYKTVGLAACQEPALPSNGIKIGDRYMVNDVLSFQCEPGYTLQGRSHISCMPGTV
RRWNYPSPLCIATCGGTLTSMSGVILSPGFPGSYPNNLDCTWKISLPIGYGAHIQFLNFSTEANHDYLEI
QNGPYHSSPMMGQFSGPDLPASLLSTTHETLIRFYSDHSQNRQGFKLSYQAYELQNCPDPPAFQNGFMIN
SDYSVGQSISFECYPGYILLGHPVLTCQHGTDRNWNYPFPRCDAPCGYNVTSQNGTIYSPGFPDEYPILK
DCLWLVTVPPGHGVYINFTLLQTEAVNDYIAVWDGPDQNSPQLGVFSGNTALETAYSSTNQVLLKFHSDF
SNGGFFVLNFHAFQLKRCPPPPVVPQADLLTEDEDFEIGDFVKYQCHPGYTLLGSDTLTCKLSSQLLFQG
SPPTCEAQCPANEVRTESSGVILSPGYPGNYFNSQTCAWSIKVEPNFNITLFVDTFQSEKQFDALEVFDG
SSGQSPLLVVLSGNHTEQSNFTSRSNHLYLRWSTDHATSKKGFKIRYAAPYCSLTSTLKNGGVLNKTAGA
LGSKVQYFCKPGYRMIGHSNATCRRNPVGVYQWDSMAPLCQAVSCGIPEAPGNGSFTGNEFTLDSKVTYE
CNEGFKLDASQQATAVCQEDGLWSNRGKPPTCKPVPCPSIEGQLSEHVLWRLVSGSLNEYGAQVLLSCSP
GYFLQGQRLLQCQANGTWNTEEDRPRCKVISCGSLSFPPNGNKIGTLTMYGATAIFTCNTGYTLVGSHVR
ECLANGLWSGSETRCLAGHCGSPDPIVNGHISGDGFSYRDTVVYQCNPGFRLVGTSVRICLQDHKWSGQT
PVCVPITCGHPGNPAHGLTNGSEFNLNDLVNFTCHTGYLLQGASRAQCRSNGQWSSPLPICRVVNCSDPG
FVENAVRHGQQNFPESFEYGTSVMYHCKKGFYLLGSSALTCMASGLWDRSLPKCLAISCGHPGVPANAVL
TGELFTFGATVQYSCKGGQILTGNSTRVCQEDSHWSGSLPHCSGNSPGFCGDPGTPAHGSRLGDEFKTKS
LLRFSCEMGHQLRGSAERTCLVNGSWSGVQPVCEAVSCGNPGTPTNGMILSSDGILFSSSVIYACWEGYK
TSGLMTRHCTANGTWTGTAPDCTIISCGDPGTLPNGIQFGTDFTFNKTVSYQCNPGYLMEPPTSPTIRCT
KDGTWNQTRPLCKAVLCSQPPSVPNGKVEGSDFRWGASISYSCVDGYQLSHSAILSCEGRGVWKGEVPQC
LPVFCGDPGTPAEGRLSGKSFTFKSEVFIQCKPPFVLVGSSRRTCQADGMWSGIQPTCIDPAHTACPDPG
TPHFGIQNSSKGYEVGSTVFFRCRKGYHIQGSTTRTCLANLTWSGIQTECIPHACRQPETPAHADVRAID
LPAFGYTLVYTCHPGFFLAGGSEHRTCKADMKWTGKSPVCKSKGVREVNETVTKTPVPSDVFFINSVWKG
YYEYLGKRQPATLTVDWFNATSSKVNATFTAASQVQLELTGVYKKEEAHLLLKAFHIKGPADIFVSKFEN
DNWGLDGYVSSGLERGGFSFQGDIHGKDFGKFKLERQDPSNSDADSSNHYQGTSSGSVAAAILVPFFALI
LSGFAFYLYKHRTRPKVQYNGYAGHENSNGQASFENPMYDTNLKPTEAKAVRFDTTLNTVCTVV

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_001037327
ORF Size 10692 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

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_001037327.1, NP_001032404.1
RefSeq Size 13200 bp
RefSeq ORF 10695 bp
Locus ID 364634
MW 387.9 kDa
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

Other Versions

SKU Description Size Price
RN208391 Csmd1 (untagged ORF) - Rat CUB and Sushi multiple domains 1 (Csmd1), (10 ug)
    • 10 ug

CNY 68,590.00

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