Duox2 (Mus musculus) in pENTR223.1 (Gateway donor/master vector)

Explanation of Terms

Gene:
Gene Symbol:  Duox1
Gene Name:  dual oxidase 1
Original Clone ID:
FLH270334.01L
Keyword:
None
Species:
Mus musculus
Type:
cDNA
Vector Name:
pENTR223.1
Format: 
FUSION
Source:
The ORFeome Collaboration
Description:
None
Comments:
None
Mutation / Discrepancy:
No / No
Publications:
None
Authors:
The ORFeome Collaboration
MmCD00083260
Price: 
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AVAILABLE
No restriction
Special MTA: None
Insert sequence: 4551nts
Open reading frame: 1 to 4551

ATGCTTCCAACAAGTCCCAAGACTCTAGTTCTCCTGGGCGCTCTGCTGACTGGACCCCTG
GGCCCAGCAGGTGGCCAGGACGCACCCTCACTGCCCTGGGAAGTGCAGCGCTACGACGGC
TGGTTTAATAATCTGAAGTACCACCAGCGCGGTGCGGCTGGCTCGCGGCTGCGTCGCCTA
ATACCGGCTAATTATGCTGACGGTGTTTATCAGGCTCTGGAAGAGCCGCTACTGCCCAAC
CCTCGCCGGCTAAGCGATGCTGTCGCTAAGGGCAAAGCAGGGCTGCCCTCGGTCCACAAC
CGCACAGTGCTGGGGGTCTTCTTTGGCTACCACGTGCTCTCAGACCTGGTGAGTGTGGAA
ACACCAGGCTGCCCCGCAGAGTTCCTCAACATTTACATCCCACGTGGGGACCCGGTGTTC
GACCCTGACAAGCGCGGGAACGTGGTGCTGCCCTTTCAAAGGAGCCGCTGGGACCACAAC
ACTGGACAGAGCCCCAGCAACCCCCGGGACCAGAGCAACCAGGTGACCGGCTGGCTAGAT
GGCAGCGCCATCTATGGCTCCTCTCATTCCTGGAGTGACACTCTGAGGAGCTTCTCTGGA
GGACAGCTGGCTTCTGGGCCTGACCCTGCTTTCCCGCGGAACTCCCAGAGCTCTCTGCTC
ATGTGGATGGCGCCGGACCCCTCCACGGGGCGGGGCGGGCCACAAGGGGTGTATGCCTTT
GGGGCCCAGCGCGGGAACAGGGAGCCCTTTCTGCAGGCTCTGGGCTTGTTGTGGTTTCGC
TACCACAACCTGTGTGCCAGGAAGCTGGCGCAGGAGCACCCGCACTGGGGGGATGAGGAA
CTGTTCCAGCATGCTCGCAAGAGGGTCATTGCCACCTACCAGAACATTGCTCTATACCAA
TGGCTGCCCAGCTTCCTGCAGAAAACTCCTCCAGAGTATTCAGGGTACCGCCCTTTCATG
GACCCCAGCATCTCCCCGGAGTTCGTGGTGGCCTCTGAGCAGTTCCTCTCTACTATGGTG
CCCCCTGGGGTCTACATGAGAAACTCCAGCTGTCATTTCCGGAAATTCCCGAAGGAAGGT
TCAGACAGCTCTCCAGCTCTCAGAGTCTGCAACAGCTACTGGATTCGGGAGAACCCCAAT
CTGAAGACTGCTCAAGATGTGGATCAGTTGCTGCTGGGAATGGCTTCCCAGATCTCAGAG
CTGGAGGACAGGATAGTGATTGAAGACCTGAGAGATTACTGGCCTGGCCCAGAGAGATTC
TCTCGCACAGACTACGTGGCTAGCAGTATCCAGCGTGGCCGAGATATGGGGCTCCCCAGT
TATAGCCAGGCTCTGCTGGCCTTGGGACTGGAGCCTCCTAAGAACTGGAGTGCTCTCAAC
CCCCAAGTAGAACCCCAGGTGCTGGAGGCCACAGCTGCTCTGTACAACCAGGACCTGTCC
CAGTTGGAACTACTCCTGGGTGGACTCCTGGAGAGCCATGGGGACCCTGGACCTCTATTC
AGCAACATCATTCTTGACCAGTTTGTGAGGCTCCGGGATGGTGATCGCTACTGGTTTGAG
AACACTAGGAATGGGCTGTTCTCCAAAGAGGAGATTGCAGAAATCAGAAACACCACCTTG
CGGGATGTACTGGTAGCTGTCTCCAATGTGGACCCCAGTGCCTTGCAACCCAACGTTTTC
TTCTGGCAGGAAGGTGCACCCTGCCCACAGCCTCGGCAACTCACAACGGACGGCTTGCCC
CAGTGTGCGCCTGTTACTGTGATTGACTACTTTGAGGGCAGTGGTGCTGGCTATGGTGTC
ACGCTTGTAGCTGTCTGCTGCTTTCCATTAGTGAGTCTGATTGTCGCTGGGGTGGTGGCT
CATTTCCGGAACCGAGAACACAAGATGCTACTAAAGAAAGGCAAAGAGAGTCTGAAGAAA
CAACCAGCCAGTGATGGGGTACCAGCAATGGAGTGGCCGGGCCCCAAGGAGAAGAGCTAT
CCAGTCACTCTCCAGTTGCTTCCAGACAGAAGTCTGCAGGTCCTTGACAAACGGTTCACT
GTGCTCCGGACCATCCAACTGCAGTCCCCACAGCAGGTTAACCTCATCCTGTCCAGCAAC
AGTGGACGTCGCACCCTGCTGCTCAAGATCCCCAAGGAGTATGACCTGGTGCTGATGTTT
AACTCTGAAGAGGACCGGGGTGCCTTCGTGCGGCTGTTGCAAGACCTCTGTATCTGCTGC
ACTCCCGGCCTCCACATAGCTGAGGTGGATGAGAAGGAGCTATTGAGAAAGGCTGTGACC
AAGCAGCAACGGGCAGGCATCTTGGAGATCTTCTTCAGACAGCTTTTTGCTCAGGTGCTG
GACATCAACCAGGCTGATGCAGGGACTCTGCCCCTGGACTCATCCCAGCAAGTGCGTGAG
GCTCTGACCTGTGAGCTGAGCAGAGCTGAGTTTGCTGACTCCCTAGGCCTCAAGCCCCAG
GACATGTTTGTGGAGTCCATGTTTTCTCTGGCTGACAAGGATGGCAATGGCTACATATCC
TTCCGGGAGTTCCTGGACATCCTGGTGGTCTTCATGAAAGGCTCCTCAGAGGATAAGTCC
CGCCTGATGTTTACCATGTATGACCTGGATGGGAATGGCTTCCTCTCCAAGGACGAGTTC
TTCACCATGATGCGGTCCTTCATTGAGATCTCCAACAACTGCCTGTCCAAGGCCCAGCTG
GCTGAGGTGGTTGAGTCTATGTTCCGGGAGTCTGGGTTCCAGGACAAGGAGGAGCTGACC
TGGGAGGACTTCCACTTCATGCTGCGGGACCACGACAGTGATCTCCGATTCACACAGCTC
TGTGTCAAAGGTGGAGCTGGAGGCACCAAGGACATCTTTAAACAAAGCAGTGCCTGTCGA
GTCTCGTTCATCAACCGGACTCCTGGGAACAGGGTAATGGGGCCCTCTCCCCGGCTGTAC
ACGGAGGCACTGCAGGAGAAAAAACAGAGTGGCTTCCTGGCCCAGAAGTTCAAGCAGTAC
AAGCGATTTGTGGAAAACTACCGGCGCCACATTGTGTGTGTTACAATCTTCTCAGCCATC
TGCATAGGCCTGTTTGCAGACCGTGCCTACTACTATGGCTTTGCCTCACCACCCACGGAC
ATCGAAGAAACCACCTATGTGGGCATCATCCTGTCCCGGGGCACGGCGGCCAGCATCTCC
TTCATGTTCTCCTACATCCTGCTCACCATGTGCCGCAACCTCATCACCTTCTTGCGGGAG
ACCTTCCTCAACCGCTACATCCCCTTTGATGCCGCTGTGGACTTCCATCGCTGGATTGCT
ATGGCTGCAGTTGTCCTAGCTGTTCTGCACAGTGCTGGACATGCAGTCAATGTGTACATT
TTCTCAGTCAGTCCCCTCAGCCTGATGGCCTGCGTCTTCCCTAACGTCTTTGTGAATGAC
GGGTCCAAGTTTCCCCCAAAGTACTACTGGTGGTTCTTTGAGACAGTTCCAGGTATGACA
GGAGTCCTCCTGCTCCTGGTCCTGGCCATCATGTACGTCTTCGCCTCCCACCACTTCCGC
CGCCACAGTTTCCGGGGCTTCTGGCTGACCCACCACCTCTATGTTGTGCTTTATGTCCTG
ATCATCATCCATGGCAGCTATGCCCTCATCCAATTACCCAGCTTCCACATCTACTTCCTG
GTCCCAGCAATTATCTATGGAGGGGACAAGCTAGTGAGCCTGAGCCGGAAGAAGGTGGAG
ATCAGTGTGGTGAAGGCGGAGCTGCTGCCTTCAGGGGTGACCTACTTGCAGTTCCAGAGA
CCCAAGACATTTGAGTACAAATCAGGGCAGTGGGTGCGAATCGCGTGCCTGGATCTGGGT
ACCAATGAGTATCACCCCTTCACGCTGACCTCTGCACCCCATGAGGACACACTCAGCCTG
CACATCAGGGCTGTGGGACCTTGGACTACTCGCCTCAGAGAGATCTACTCACCCCCAGTG
GGTGGCACCTGTGCCAGATACCCAAAGCTGTACCTCGATGGACCATTTGGAGAGGGCCAT
CAGGAGTGGCATAAGTTTGAGGTGTCAGTGCTGGTAGGAGGGGGCATTGGAGTCACCCCC
TTTGCCTCCATCCTCAAAGACCTGGTCTTCAAATCGTCCATGGGCAGCCAGATGCTCTGT
AAGAAGATCTACTTCATCTGGGTGACAAGGACTCAGAGGCAGTTTGAGTGGCTGGCTGAC
ATCATCCGGGAGGTGGAGGAGAATGACTGCCAGGACCTGGTGTCTGTGCACATCTACATT
ACTCAGCTGGCTGAGAAGTTCGACCTCAGGACCACCATGCTGTACATCTGTGAGAGGCAC
TTCCAGAAGGCGCTGAACAGGAGTTTGTTCACGGGCCTGCGTTCCATCACCCACTTTGGT
CGCCCTCCCTTTGAGCTCTTCTTCAACTCTCTACAGGAAGTCCATCCACAGGTACGTAAG
ATTGGAGTCTTCAGCTGTGGTCCTCCAGGGATGACCAAGAATGTGGAGAAGGCCTGCCAG
CTCATCAACAGGCAGGACCGGGCCCACTTTGTGCATCATTATGAGAACTTC

Protein sequence predicted based on nucleotide sequence

MLPTSPKTLVLLGALLTGPLGPAGGQDAPSLPWEVQRYDGWFNNLKYHQRGAAGSRLRRL
IPANYADGVYQALEEPLLPNPRRLSDAVAKGKAGLPSVHNRTVLGVFFGYHVLSDLVSVE
TPGCPAEFLNIYIPRGDPVFDPDKRGNVVLPFQRSRWDHNTGQSPSNPRDQSNQVTGWLD
GSAIYGSSHSWSDTLRSFSGGQLASGPDPAFPRNSQSSLLMWMAPDPSTGRGGPQGVYAF
GAQRGNREPFLQALGLLWFRYHNLCARKLAQEHPHWGDEELFQHARKRVIATYQNIALYQ
WLPSFLQKTPPEYSGYRPFMDPSISPEFVVASEQFLSTMVPPGVYMRNSSCHFRKFPKEG
SDSSPALRVCNSYWIRENPNLKTAQDVDQLLLGMASQISELEDRIVIEDLRDYWPGPERF
SRTDYVASSIQRGRDMGLPSYSQALLALGLEPPKNWSALNPQVEPQVLEATAALYNQDLS
QLELLLGGLLESHGDPGPLFSNIILDQFVRLRDGDRYWFENTRNGLFSKEEIAEIRNTTL
RDVLVAVSNVDPSALQPNVFFWQEGAPCPQPRQLTTDGLPQCAPVTVIDYFEGSGAGYGV
TLVAVCCFPLVSLIVAGVVAHFRNREHKMLLKKGKESLKKQPASDGVPAMEWPGPKEKSY
PVTLQLLPDRSLQVLDKRFTVLRTIQLQSPQQVNLILSSNSGRRTLLLKIPKEYDLVLMF
NSEEDRGAFVRLLQDLCICCTPGLHIAEVDEKELLRKAVTKQQRAGILEIFFRQLFAQVL
DINQADAGTLPLDSSQQVREALTCELSRAEFADSLGLKPQDMFVESMFSLADKDGNGYIS
FREFLDILVVFMKGSSEDKSRLMFTMYDLDGNGFLSKDEFFTMMRSFIEISNNCLSKAQL
AEVVESMFRESGFQDKEELTWEDFHFMLRDHDSDLRFTQLCVKGGAGGTKDIFKQSSACR
VSFINRTPGNRVMGPSPRLYTEALQEKKQSGFLAQKFKQYKRFVENYRRHIVCVTIFSAI
CIGLFADRAYYYGFASPPTDIEETTYVGIILSRGTAASISFMFSYILLTMCRNLITFLRE
TFLNRYIPFDAAVDFHRWIAMAAVVLAVLHSAGHAVNVYIFSVSPLSLMACVFPNVFVND
GSKFPPKYYWWFFETVPGMTGVLLLLVLAIMYVFASHHFRRHSFRGFWLTHHLYVVLYVL
IIIHGSYALIQLPSFHIYFLVPAIIYGGDKLVSLSRKKVEISVVKAELLPSGVTYLQFQR
PKTFEYKSGQWVRIACLDLGTNEYHPFTLTSAPHEDTLSLHIRAVGPWTTRLREIYSPPV
GGTCARYPKLYLDGPFGEGHQEWHKFEVSVLVGGGIGVTPFASILKDLVFKSSMGSQMLC
KKIYFIWVTRTQRQFEWLADIIREVEENDCQDLVSVHIYITQLAEKFDLRTTMLYICERH
FQKALNRSLFTGLRSITHFGRPPFELFFNSLQEVHPQVRKIGVFSCGPPGMTKNVEKACQ
LINRQDRAHFVHHYENF

Coding Sequence Details

Insert Sequence Verified?:
Y
Verification Method:
Sequence Verification
Reference Sequence Annotations:
Start on reference sequence 1
End on reference sequence 4554
Mutations:
None
Discrepancy:
None
5' Linker Sequence:
None
3' Linker Sequence:
None

Recommended Growth Condition:

Distributed in bacterial strain:
DH5-alpha T1 phage resistant
Antibiotic Selection:
Host Type:  bacterial    Marker:  spectinomycin
Bacterial Selection Condition: 100 ug/mL spectinomycin
Growth Condition: Growth at 37 degrees C in LB supplemented with 100 ug/mL spectinomycin.
Comments: None
Protein Expression Results:
None
Recommended expression in:
Not Applicable