Toggle Nav
My Cart
Search
Menu

Myo7b (NM_032394) Mouse Tagged ORF Clone

main product photo
SKU
MR215788
Myo7b (Myc-DDK-tagged) - Mouse myosin VIIB (Myo7b)
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: DDK tGFP
Be the first to review this product
Datasheet SDS Plasmid Map
NM_032394 in other vectors (2)
Reconstitution Protocol
Interest in protein/lysate? Submit request here!
$1,744.00
In Stock*
Size
Bulk Requests & Clone Modifications

Other products for "Myo7b"

Frequently Bought Together (5)

TA592569S DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags 30 ul
$200.00
CC100003 DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA) 5 x 200 ul
$160.00
PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
$59.00
PS100001 pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug 10 ug
$650.00
AR100028M DDKTrap Anti-DDK 8G6 affinity resin used for the purification of DDK, DYKDDDDK, or FLAG® tagged proteins , 5 mL 5 ml
$720.00
Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Myo7b
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR215788 representing NM_032394
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGTCCGTGTTCCGGCTGGGTGACCATGTGTGGCTGGACCCTCCCTCCAGCAGCAAGACTGGTGTGGCCA
TTGGGGGCATTGTCAAAGAAACAAAACTGGGAAAGACCTTGATTGAGGATGACGAGGGCAAGGAACACTG
GGTCCATGCAGAAGACCTCAGCACCCTCAGGCCTATGCACCCCAACTCAGCCCAAGGAGTGGATGACATG
ATCCGCCTAGGGGACCTGAATGAGGCTGGTGTGGTGCACAACCTCCTGATCCGGTACCAGCAGCACAAGA
TCTATACCTACACAGGCTCCATCCTGGTGGCTGTGAACCCATTCCAGATGCTGCCCCTGTACACCCTGGA
GCAGGTACAAATCTACTACAGCCGCCACATGGGCGAGCTGCCTCCCCACATCTTCGCCATTGCCAACAGC
TGCTACTTCAACATGAAGAAGAACAAGAGGGACCAGTGCTGTATCATCAGTGGCGAGTCTGGGGCCGGGA
AGACCGAGACCACCAAGCTTATCCTTCAGTTCCTCGCCACGGTCAGTGGCCAGCATTCGTGGATCGAGCA
ACAGGTCCTGGAGGCCAACCCCATCCTGGAAGCCTTTGGCAATGCCAAGACCATCCGCAATGACAACTCC
AGCCGCTTCGGGAAGTACATTGACATCCACTTCAATTCTAGTGGGGTGATTGAGGGCGCAAGCATTGAAC
ACTTCCTCCTGGAGAAGTCCAGAGTCTGCCGGCAGGCTCCAGAGGAACGCAACTACCACATCTTCTACTG
CATGCTGATGGGGATGAGCCCGGAAGAGAAGCAAATGCTGAGTCTGGGCATGCCCTCTGAGTACCATTAC
CTGACCATGGGGAGCTGCACATCCTCCGAGGGGCTCAGCGATGCCAAGGACTACGCACACGTCCGCTCGG
CCATGAAGATCCTCCAGTTCTCAGACTCAGAGAACTGGGACATCAGCAAGCTGCTGGCAGCCATCCTCCA
CCTGGGGAATGTGGGGTTCATGGCTGCAGTCTTTGAGAACCTGGATTCGTCTGATGTGATGGAAACTCCA
GCCTTCCCCTTGGCAATGAAGTTGCTAGAGGTGCAGCACCAGGCTCTCCGAGACTGTTTGATCAAACACA
CAATCCCTGTCCTTGGAGAGTTTGTCTCCAGGCCTGTGAACATCGCCCAGGCTACAGACCGGAGGGATGC
CTTTGTCAAGGGCATCTATGGGCGCCTCTTCCAGTGGATTGTCAAGAAAATCAATGCTGCGATCTTCACT
CCCCAAGCCCAGGATCCCCAAAATGTGCGGAGGGCCATCGGTCTCCTGGACATATTTGGCTTTGAAAACT
TCCAGAACAATAGCTTTGAGCAACTCTGCATCAACTTTGCCAACGAGCACCTTCAGCAATTCTTCGTGAA
GCACGTGTTCACGATGGAGCAGGAAGAGTACCTGTCTGAGAACATCACCTGGAACTACATCCACTACACC
GACAACCAGCCCATCCTGGACATGCTGGCCCTCAAGCCCATGAGCATCATCTCTCTCCTAGATGAGGAGA
GCCGCTTCCCACAGGGGACAGATGTCACTATGCTGCAGAAACTGAACAGTATCCATGCCAACAACAAGTC
CTTCCTGAGCCCCAGGAGCATCCATGACACCCGATTTGGGATCGCACACTTCGCGGGCGATGTATACTAC
CAGGCAGAAGGCTTTCTGGAGAAGAATCGAGATGTGCTGAGCACAGATATCCTAATCCTGATTCATTCCT
CGAAAAACAAGTTTCTGAAGGAGATATTTAACGTGGACTCATCACAGACTAAGCTGGGGCACGGCACCAT
CTGCCAGGTGAAGGCAGGAAGCCAGCTCTTCAAGTCATCAGACTCCATCAAGCGCCCCGTCACCCTCGCG
AGCCAGTTCAAGCAGTCTCTGGACCAGCTGATGAGAATCCTGACCAACTGCCAGCCCTATTTTGTCCGCT
GCATTAAACCCAATGAGTACAAGAAGCCACTGCTGTTTGACCGAGAGCTGTGCATTCAGCAGCTGCGTTA
TTCCGGCATGATGGAGACTGTGCACATCCGCAAGTCAGGTTTTCCCATCCGCTACACATTTGATGAGTTC
TCACAGAGATTCCGTGTGCTGCTGCCCAGCCCGGAGCGTATGCAGTTTCAGAACAAGCCCCGCCAGATGA
CCTTGCACATTGCTGACCTATGCCTGGGGACAGACAAAGACTGGAAAGTCGGAAAGACCAAAATCTTCCT
GAAGGATCATCAGGACACAGTGCTGGAGATCCGCAGGAGCCAGGCCCTGGACGGAGCAGCGATCCGGATC
CAGAGAGTCCTCCGGGGACACAAGTACAGGAAGGAGTTCCTGAGGCAGAGACGTGCAGCTGTGACCCTCC
AGGCAGGGTGGCGAGGCTATAGCCAAAGAAAGAATTTCAAGCTGATCCTAGTGGGCTTTGAACGCCTGCA
GGCCATCGCCCGGAGCCACCTGCTGATGAGACAGTTCCAGGCCATGCGACAGAGGATAGTGCAGCTGCAG
GCCCGATGCAGGGGCTACCTGGTGCGACAGCAAGTCCAGGCCAAGAGGAGGGCAGTGGTGATCATTCAAG
CACATGCCAGGGGCATGGTTGTCCGGAAGAGCTACTGGCAACAGAAAAGCACTGGGCCTCAGGTCATTCT
GGCTAAGGAACCAAAGGCTCAAGTTGCGGTCCATGAGAGGAAGCGTAAGTCCATCTATGACACTGTCACT
GACACAGCGATGGTGGAGAAAGTGTTTGGCTTCCTCCCAGCCATGATTGGAGGTCAGGAGGGTCCAGCCC
CAACACGCTTTGAGGATCTGGAAGTAAAGACCCAGAAACTTCATGAGGTTGATCTGGATACAGTGCCCAT
GATGGCGATGCCAGAAGAGGAGGTGGACAGCCTGGCTGAGTATACCTTCCCCAAGTTTGCTGTGACTTAC
TTCCAGAAGTCAGCCAGCCACACCCACATCCAGAAGCCCCTTCGATACCCACTCCTCTACCATGAAAATG
ACACTGACCACTCGGCTGCTCTAGATGTTTGGATTATCATCCTGAGGTTCATGGGTGACCTTCCAGAGCC
AGTGGTCTATGGCAGGAACAGCCTGACTGGCAGCTCAGTGATGCGGCAGATCCATGACAAACTGGGCAAG
GACAGTGTCACTCAGCACAACAGATCCTCACAGGTGGCCAGCCAGCTGAACTTTGGTGAAGAGGCATTCA
AGTTTGATGGCCCTATCTCAGACAGACCCATGTCTAACCTAGAGAAGGTGCACTTCATTGTGGGCTACGC
CATCATGCGTCCTGGACTCAGAGATGAAATCTACTGTCAGATCTGCAAGCAGCTCTCCGAGAACTACAAA
ACAAGTAGCCGGGCCCGGGGCTGGATCCTGCTCAGCCTCTGTCTGGGATGCTTCCCACCCTCAGAGAGGT
TCATGAAGTATCTGCTGAATTTCATTAGTCAAGGGCCACCCAGCTATGGGCCCTTCTGTGCTGAACGGCT
GCAACGCACCTTCGCCAATGGGGTGCGCGCAGAACCCCCCACCTGGCTGGAGCTGCAGGCTGTCAAGTCC
AAGAAGCACATCCCGATCCAGGTCATCCTGGCAACCGGAAGGAGCCTGACCATCTCTGTGGACTCCGCCT
CCACATCACGAGAAATCTGCCAGCACGTCGCTCAGAAACAGGGTCTCAGGGACAATCTGGGCTTCTCCCT
CCAGGTCGCTGTATATGATAAGTTCTGGTCCTTGGGCAGCGGCTGTGACCATTTGATGGATGCTGTGGCC
CAGTGTGAGCAACTGGCCCGAGAGAGGGGAGAGAGCCAGCGGCAGGCCCCCTGGCGTATCTACTTCCGGA
AGGAGTTCTTCACCCCCTGGCATGACTCCCAGGAGGACCCTGTGAGCACTGAGCTCATTTACCACCAAGT
CCTCCGTGGGGTGTGGTCTGGCGAGTATAACTTTGAGAAGGAGGAGGAGCTTGTGGAGCTGCTGGCCCGG
CACTGCTATGTGCAGCTTGGGGCCACGGTGAAGAGTAACGCTGTCCAGGAGCTGTTGCCCAGCTGTGTTC
CCTCCAAACTGTACCGGACCAAGTCTCCAGAGAAGTGGGCTAGCCTTGTCACCGCTGCCCATGCCAAGGC
CCAGTATACCCAGTCGAAAGCCACGCCACTGGCGGTGAGGGAGCAGACAGTGGAGGCTGCCCGTCTTCTG
TGGCCCCTGCTCTTCTCCCGGCTATTTGAAGTCACCACACTCTCTGGTCCCCGCCTTCCCAAGACGCAGC
TGGTTTTAGCCATTAACTGGAAGGGGATGTACTTCCTGGATCAGAAGGAGAGGACACTGCTGGGGTTGTC
CTTCGCAGAGGTCATGGGTCTGGTCGCCAACAGGGACGCCCCAGGAGGGAAGAAGCTGCTTCTCGCCACA
CTCCAGGAAGAGTACGAGTTCGTCTCCCCCAGCAGCGTGGCTATTGCAGAGATGGTGGCCTTGTTCTTGG
GAGGCTTGAAGGAGAGATCTGTGTTCGCCATGGCCCTGCAGGACAGAAGGGCCACAGACGATATCACCCT
TCTGCCCTTCAAGAAAGGTGACTTACTGATCCTGACCAAGAAACAAGGACTGTTGGCCTCAGAGAACTGG
GCTCTGGGTCAGAATGACAGAACTGGCAAGACAGGGCTGGTGCCTACTGCCTGTCTCTACACCATCCCCT
CGGTCACCAAGCCCTCAACCCAGCTGCTGAGCTTGCTGGCCATGTCACCAGAGAAACGGAAGCTGGCAGC
CCAGGAGGTGCGGGCTCTGGAGCCACCACTGGAGGATCAGCTCACAGAGTCGCCATACACCCTGGAGGAA
TTCTCCTACCAGTTCTTCAGGGCTCCGGAGAAAGAGACTATCAGCAGGGCTGCGATGCCCATGGCCCGAA
GCCGGGGTCATCTCTGGGCCTACTCCCCAGAGCCGCTGCGCCAGCCACTGCTCAAATCTGTCCACGACAA
AGCCAAACTGCGGGATGCAGCCTGCCAGATCTTCCTTGCCATCCTCAAGTACACAGGTGACTACCCTTCC
CGCCAGTCCTGGCACAGCCTGGAGCTCACAGACCAGATGTTCTCGTTAGCCCTGCAGGACCCAGCCCTGC
AGGATGAGCTGTACTGCCAGATCCTGAAGCAGCTGACCCACAACTCCATCAGGTTCAGTGAAGAGCGAGC
TTGGCAGCTACTCTGGCTCTGCACAGGTCTCTTCCCACCTGGGAAGACATTGCTGCCCCACGCTCAGAAG
TTCATAGACTCCCGGAAGAAGAAGCCGCTGGCTCTCGACTGTAGCCGCAGGCTCCACAGGGTTCTAAGGG
TGGGACCTCGGAAGCAGCCCCCACATGATGTAGAGGTGAAAGCGGCTGAGCAGAATGTCTCCAAATTACA
CCATGAGGTCTACCTCCCCAATGACACCAGCAAGTCCATGGAAGTGGGCAGCAGTAGTCGGGTGAGAGAC
CTATGTGAGGGCATAGGCACCAGGCTCCAGCTGGCCTCCTGGGATGGCTGCAGCCTCTTCATCAAGATCA
CAGACAAGGTCATCAGTCTGAAGGAAGGAGACTTCTTTTTTGACAGCTTGAGGCAGGTATCTGACTGGGT
GAAGAAGAACAGGCCCCAGAAAGAAGGGGCCTCCGTGACACTTCCCTATCAGGTGTTCTTCATGCGGAAA
CTGTGGCTCAACGTGACCCCTGGGAAGGACGTGAATGCAGACACCATACTCCATTACCACCAGGAACTAC
CCAAGTACCTCCGCGGGTTTCACAAGTGCTCCCGGGAAGATGCCATCCACCTGGGAGGTCTCATCTGTAA
AATCCAGTTTGGTAGTGACAGCTCGCAACTGGCTAGTGTCTCAAAGGTCCTGAAGGAGCTGGTACCTCAG
AACCTCACACGCCTGATGTCCTCAGAAGAATGGAAAAAGAGCCTCCTTCTGGAATGTGACAAAAACAAGC
GCAAGACAGTGGCAGAGGCCAAAGTGGAGTTCTTGAAGTACATGTACAGGTGGCCCACCTTTGGGTCTGC
CTTCTTTGAGGTGAAGCAAACCTCTGAGCCTTCCTACCCAGACATTCTCCTCATCGCCATCAACCGACAT
GGGTTACTGCTCATCCACCCCAAGACCAAGGAGCTGCTGAACACCTACCCTTTCACCAAGATCTCCAGCT
GGAGTAGTGGCAACACCTATTTCCACATGGCACTGGGGAGCCTGGGCCAGGGCAGCCGTTTGCTGTGTGA
GACCTCTCTGGGTTACAAGATGGACGACCTGCTGACCTCATATGTACAGCAGCTCCTGAATACAGTGAAC
AAACAGCGGGGCTTCAGGGCTCCCGCCCCGGCCAACCCC

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR215788 representing NM_032394
Red=Cloning site Green=Tags(s)

MSVFRLGDHVWLDPPSSSKTGVAIGGIVKETKLGKTLIEDDEGKEHWVHAEDLSTLRPMHPNSAQGVDDM
IRLGDLNEAGVVHNLLIRYQQHKIYTYTGSILVAVNPFQMLPLYTLEQVQIYYSRHMGELPPHIFAIANS
CYFNMKKNKRDQCCIISGESGAGKTETTKLILQFLATVSGQHSWIEQQVLEANPILEAFGNAKTIRNDNS
SRFGKYIDIHFNSSGVIEGASIEHFLLEKSRVCRQAPEERNYHIFYCMLMGMSPEEKQMLSLGMPSEYHY
LTMGSCTSSEGLSDAKDYAHVRSAMKILQFSDSENWDISKLLAAILHLGNVGFMAAVFENLDSSDVMETP
AFPLAMKLLEVQHQALRDCLIKHTIPVLGEFVSRPVNIAQATDRRDAFVKGIYGRLFQWIVKKINAAIFT
PQAQDPQNVRRAIGLLDIFGFENFQNNSFEQLCINFANEHLQQFFVKHVFTMEQEEYLSENITWNYIHYT
DNQPILDMLALKPMSIISLLDEESRFPQGTDVTMLQKLNSIHANNKSFLSPRSIHDTRFGIAHFAGDVYY
QAEGFLEKNRDVLSTDILILIHSSKNKFLKEIFNVDSSQTKLGHGTICQVKAGSQLFKSSDSIKRPVTLA
SQFKQSLDQLMRILTNCQPYFVRCIKPNEYKKPLLFDRELCIQQLRYSGMMETVHIRKSGFPIRYTFDEF
SQRFRVLLPSPERMQFQNKPRQMTLHIADLCLGTDKDWKVGKTKIFLKDHQDTVLEIRRSQALDGAAIRI
QRVLRGHKYRKEFLRQRRAAVTLQAGWRGYSQRKNFKLILVGFERLQAIARSHLLMRQFQAMRQRIVQLQ
ARCRGYLVRQQVQAKRRAVVIIQAHARGMVVRKSYWQQKSTGPQVILAKEPKAQVAVHERKRKSIYDTVT
DTAMVEKVFGFLPAMIGGQEGPAPTRFEDLEVKTQKLHEVDLDTVPMMAMPEEEVDSLAEYTFPKFAVTY
FQKSASHTHIQKPLRYPLLYHENDTDHSAALDVWIIILRFMGDLPEPVVYGRNSLTGSSVMRQIHDKLGK
DSVTQHNRSSQVASQLNFGEEAFKFDGPISDRPMSNLEKVHFIVGYAIMRPGLRDEIYCQICKQLSENYK
TSSRARGWILLSLCLGCFPPSERFMKYLLNFISQGPPSYGPFCAERLQRTFANGVRAEPPTWLELQAVKS
KKHIPIQVILATGRSLTISVDSASTSREICQHVAQKQGLRDNLGFSLQVAVYDKFWSLGSGCDHLMDAVA
QCEQLARERGESQRQAPWRIYFRKEFFTPWHDSQEDPVSTELIYHQVLRGVWSGEYNFEKEEELVELLAR
HCYVQLGATVKSNAVQELLPSCVPSKLYRTKSPEKWASLVTAAHAKAQYTQSKATPLAVREQTVEAARLL
WPLLFSRLFEVTTLSGPRLPKTQLVLAINWKGMYFLDQKERTLLGLSFAEVMGLVANRDAPGGKKLLLAT
LQEEYEFVSPSSVAIAEMVALFLGGLKERSVFAMALQDRRATDDITLLPFKKGDLLILTKKQGLLASENW
ALGQNDRTGKTGLVPTACLYTIPSVTKPSTQLLSLLAMSPEKRKLAAQEVRALEPPLEDQLTESPYTLEE
FSYQFFRAPEKETISRAAMPMARSRGHLWAYSPEPLRQPLLKSVHDKAKLRDAACQIFLAILKYTGDYPS
RQSWHSLELTDQMFSLALQDPALQDELYCQILKQLTHNSIRFSEERAWQLLWLCTGLFPPGKTLLPHAQK
FIDSRKKKPLALDCSRRLHRVLRVGPRKQPPHDVEVKAAEQNVSKLHHEVYLPNDTSKSMEVGSSSRVRD
LCEGIGTRLQLASWDGCSLFIKITDKVISLKEGDFFFDSLRQVSDWVKKNRPQKEGASVTLPYQVFFMRK
LWLNVTPGKDVNADTILHYHQELPKYLRGFHKCSREDAIHLGGLICKIQFGSDSSQLASVSKVLKELVPQ
NLTRLMSSEEWKKSLLLECDKNKRKTVAEAKVEFLKYMYRWPTFGSAFFEVKQTSEPSYPDILLIAINRH
GLLLIHPKTKELLNTYPFTKISSWSSGNTYFHMALGSLGQGSRLLCETSLGYKMDDLLTSYVQQLLNTVN
KQRGFRAPAPANP

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms Chromatograms
Sequencher program is needed, download here
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_032394
ORF Size 6339 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.
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 Method 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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_032394.3, NP_115770.2
RefSeq Size 6591 bp
RefSeq ORF 6342 bp
Locus ID 17922
UniProt ID Q99MZ6
Cytogenetics 18 17.89 cM
MW 240.9 kDa
Summary Myosins are actin-based motor molecules with ATPase activity. Their highly divergent tails are presumed to bind to membranous compartments, which would be moved relative to actin filaments. As part of the intermicrovillar adhesion complex/IMAC plays a role in epithelial brush border differentiation, controlling microvilli organization and length. May link the complex to the actin core bundle of microvilli.[UniProtKB/Swiss-Prot Function]
Reviews
Write Your Own Review
You're reviewing:Myo7b (NM_032394) Mouse Tagged ORF Clone
Your Rating
Documents
Product Manuals
FAQs
SDS
Resources
cDNA Clone Resources
"NM_032394" in other vectors (2)
SKU Description Size Price
MC225173 Myo7b (untagged) - Mouse myosin VIIB (Myo7b), (10ug) 10 ug
$1,919.00
MG215788 Myo7b (tGFP-tagged) - Mouse myosin VIIB (Myo7b), (10ug) 10 ug
$1,944.00
Related Products
Check items to add to the cart or
  1. pCMV6-Entry Mammalian Expression Vector
    pCMV6-Entry Mammalian Expression Vector
    $650.00
    Add to Compare
  2. Myo7b (NM_032394) Mouse Tagged ORF Clone
    Myo7b (NM_032394) Mouse Tagged ORF Clone
    $1,944.00
    Add to Compare
  3. Myo7b (NM_032394) Mouse Untagged Clone
    Myo7b (NM_032394) Mouse Untagged Clone
    $1,919.00
    Add to Compare

Citations

*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.