SBF1 (Homo sapiens) in pDONR221 (Gateway donor/master vector)

Explanation of Terms

Gene:
Gene Symbol:  SBF1
Gene Name:  SET binding factor 1
Original Clone ID:
FLH481971.01X
Keyword:
None
Species:
Homo sapiens
Type:
cDNA
Vector Name:
pDONR221
Format: 
FUSION
Source:
The ORFeome Collaboration
Description:
None
Comments:
None
Mutation / Discrepancy:
No / No
Publications:
None
Authors:
The ORFeome Collaboration
HsCD00295629
Price: 
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AVAILABLE
No restriction
Special MTA: None
Insert sequence: 5679nts
Open reading frame: 1 to 5679

ATGGCGCGGCTCGCGGACTACTTCGTGCTGGTGGCGTTCGGGCCGCACCCGCGCGGGAGT
GGGGAAGGCCAGGGCCAGATTCTGCAGCGCTTCCCAGAGAAGGACTGGGAGGACAACCCA
TTCCCCCAGGGCATCGAGCTGTTTTGCCAGCCCAGCGGGTGGCAGCTGTGTCCCGAGAGG
AATCCACCGACCTTCTTTGTTGCTGTCCTCACCGACATCAACTCCGAGCGCCACTACTGC
GCCTGCTTGACCTTCTGGGAGCCAGCGGAGCCTTCACAGGAAACGACGCGCGTGGAGGAT
GCCACAGAGAGGGAGGAAGAGGGGGATGAGGGAGGCCAGACCCACCTGTCTCCCACAGCA
CCTGCCCCATCTGCCCAGCTGTTTGCACCGAAGACGCTGGTACTGGTGTCGCGACTCGAC
CACACGGAGGTGTTCAGGAACAGCCTTGGCCTCATCTATGCCATCCACGTGGAGGGCCTG
AATGTGTGCCTGGAGAACGTGATTGGGAACCTGCTGACGTGCACTGTGCCCCTGGCTGGG
GGCTCGCAGAGGACGATCTCTTTGGGGGCTGGTGACCGGCAGGTCATCCAGACTCCACTG
GCCGACTCGCTGCCCGTCAGCCGCTGCAGCGTGGCCCTGCTCTTCCGCCAGCTAGGCATC
ACCAACGTGCTGTCTTTGTTCTGTGCCGCCCTCACGGAGCACAAGGTTCTCTTCCTGTCC
CGGAGCTACCAGCGGCTCGCCGATGCCTGTAGGGGCCTCCTGGCACTGCTGTTTCCTCTC
AGATACAGCTTCACCTATGTGCCCATCCTGCCGGCTCAGCTGCTGGAGGTCCTCAGCACA
CCCACGCCCTTCATCATTGGGGTCAACGCGGCCTTCCAGGCAGAGACCCAGGAGCTGCTC
GATGTGATTGTTGCTGATCTGGATGGAGGGACGGTCACCATTCCTGAGTGTGTGCACATT
CCACCCTTGCCAGAGCCACTGCAGAGTCAGACGCACAGTGTGCTGAGCATGGTCCTGGAC
CCGGAGCTGGAGTTGGCTGACCTCGCCTTCCCTCCGCCCACGACATCCACCTCCTCCCTG
AAGATGCAGGACAAGGAGCTGCGCGCGGTCTTCCTGCGGCTGTTCGCTCAGCTGCTGCAG
GGCTATCGCTGGTGCCTGCACGTCGTGCGCATCCACCCGGAGCCTGTCATCCGCTTCCAT
AAGGCAGCCTTCCTGGGCCAGCGTGGGCTGGTAGAGGACGATTTCCTGATGAAGGTGCTG
GAGGGCATGGCCTTTGCTGGCTTTGTGTCAGAGCGTGGGGTCCCATACCGCCCTACGGAC
CTGTTCGATGAGCTGGTGGCCCACGAGGTGGCAAGGATGCGGGCGGATGAGAACCACCCC
CAGCGTGTCCTGCGTCACGTCCAGGAACTGGCAGAGCAGCTCTACAAGAACGAGAACCCG
TACCCAGCCGTGGCGATGCACAAGGTACAGAGGCCCGGTGAGAGCAGCCACCTGCGACGG
GTGCCCCGACCCTTCCCCCGGCTGGATGAGGGCACCGTGCAGTGGATCGTGGACCAGGCT
GCAGCCAAGATGCAGGGTGCACCCCCAGCTGTGAAGGCCGAGAGGAGGACCACCGTGCCC
TCAGGGCCCCCCATGACTGCCATACTGGAGCGGTGCAGTGGGCTGCATGTCAACAGCGCC
CGGCGGCTGGAGGTTGTGCGCAACTGCATCTCCTACGTGTTTGAGGGGAAAATGCTTGAG
GCCAAGAAGCTGCTCCCAGCCGTGTTGAGGGCCCTGAAGGGGCGAGCTGCCCGCCGCTGC
CTCGCCCAGGAGCTGCACCTGCATGTGCAGCAGAACCGTGCGGTCCTGGACCACCAGCAG
TTTGACTTTGTCGTCCGTATGATGAACTGCTGCCTGCAGGACTGCACTTCTCTGGACGAG
CATGGCATTGCGGCGGCTCTGCTGCCTCTGGTCACAGCCTTCTGCCGGAAGCTGAGCCCG
GGGGTGACGCAGTTTGCATACAGCTGTGTGCAGGAGCACGTGGTGTGGAGCACGCCACAG
TTCTGGGAGGCCATGTTCTATGGGGATGTGCAGACTCACATCCGGGCCCTCTACCTGGAG
CCCACGGAGGACCTGGCCCCCGCCCAGGAGGTTGGGGAGGCACCTTCCCAGGAGGACGAG
CGCTCTGCCCTAGACGTGGCTTCTGAGCAGCGGCGCTTGTGGCCAACTCTGAGTCGTGAG
AAGCAGCAGGAGCTGGTGCAGAAGGAGGAGAGCACGGTGTTCAGCCAGGCCATCCACTAT
GCCAACCGCATGAGCTACCTCCTCCTGCCCCTGGACAGCAGCAAGAGCCGCCTACTTCGG
GAGCGTGCCGGGCTGGGCGACCTGGAGAGCGCCAGCAACAGCCTGGTCACCAACAGCATG
GCTGGCAGTGTGGCCGAGAGCTATGACACGGAGAGCGGCTTCGAGGATGCAGAGACCTGC
GACGTAGCTGGGGCTGTGGTCCGCTTCATCAACCGCTTTGTGGACAAGGTCTGCACGGAG
AGTGGGGTCACCAGCGACCACCTCAAGGGGCTGCATGTCATGGTGCCAGACATTGTCCAG
ATGCACATCGAGACCCTGGAGGCCGTGCAGCGGGAGAGCCGGAGGCTGCCGCCCATCCAG
AAGCCCAAGCTGCTGCGGCCGCGCCTGCTGCCGGGTGAGGAGTGTGTGCTGGACGGCCTG
CGCGTCTACCTGCTGCCGGATGGGCGTGAGGAGGGCGCGGGGGGCAGTGCTGGGGGACCA
GCATTGCTCCCAGCTGAGGGCGCCGTCTTCCTCACCACGTACCGGGTCATCTTCACGGGG
ATGCCCACGGACCCCCTGGTTGGGGAGCAGGTGGTGGTCCGCTCCTTCCCGGTGGCTGCG
CTGACCAAGGAGAAGCGCATCAGCGTCCAGACCCCTGTGGACCAGCTCCTGCAGGACGGG
CTCCAGCTGCGCTCCTGCACATTCCAGCTGCTGAAAATGGCCTTTGACGAGGAGGTGGGG
TCTGACAGCGCCGAGCTCTTCCGTAAGCAGCTGCATAAGCTGCGGTACCCGCCGGACATC
AGGGCCACCTTTGCGTTCACCTTGGGCTCTGCCCACACACCTGGCCGGCCACCGCGAGTC
ACCAAGGACAAGGGTCCTTCCCTCAGAACCCTGTCCCGGAACCTGGTCAAGAACGCCAAG
AAGACCATCGGGCGGCAGCATGTCACTCGCAAGAAGTACAACCCCCCCAGCTGGGAGCAC
CGGGGCCAGCCGCCCCCTGAGGACCAGGAGGACGAGATCTCAGTGTCGGAGGAGCTGGAG
CCCAGCACGCTGACCCCGTCCTCAGCCCTGAAGCCCTCCGACCGCATGACCATGAGCAGC
CTGGTGGAAAGGGCTTGCTGTCGCGACTACCAGCGCCTCGGTCTGGGCACCCTGAGCAGC
AGCCTGAGCCGGGCCAAGTCTGAGCCCTTCCGCATTTCTCCGGTCAACCGCATGTATGCC
ATCTGCCGCAGCTACCCAGGGCTGCTGATCGTGCCCCAGAGTGTCCAGGACAACGCCCTG
CAGCGCGTGTCCCGCTGCTACCGCCAGAACCGCTTCCCCGTGGTCTGCTGGCGCAGCGGG
CGGTCCAAGGCGGTGCTGCTGCGCTCTGGAGGCCTGCATGGCAAAGGTGTCGTCGGCCTC
TTCAAGGCCCAGAACGCACCTTCTCCAGGCCAGTCCCAGGCGGACTCGAGTAGCCTGGAG
CAGGAGAAGTACCTGCAGGCTGTGGTCAGCTCCATGCCCCGCTACGCCGACGCGTCGGGA
CGCAACACGCTTAGCGGCTTCTCCTCAGCCCACATGGGCAGTCACGTTCCCAGCCCCAGA
GCCAGGGTCACCACGCTGTCCAACCCCATGGCGGCCTCGGCCTCCAGACGGACCGCACCC
CGAGGTAAGTGGGGCAGTGTCCGGACCAGTGGACGCAGCAGTGGCCTTGGCACCGATGTG
GGCTCCCGGCTAGCTGGCAGAGACGCGCTGGCCCCACCCCAGGCCAACGGGGGCCCTCCC
GACCCGGGCTTCCTGCGTCCGCAGCGAGCAGCCCTCTATATCCTTGGGGACAAAGCCCAG
CTCAAGGGTGTGCGGTCAGACCCCCTGCAGCAGTGGGAGCTGGTGCCCATTGAGGTATTC
GAGGCACGGCAGGTGAAGGCTAGCTTCAAGAAGCTGCTGAAAGCATGTGTCCCAGGCTGC
CCCGCTGCTGAGCCCAGCCCAGCCTCCTTCCTGCGCTCACTGGAGGACTCAGAGTGGCTG
ATCCAGATCCACAAGCTGCTGCAGGTGTCTGTGCTGGTGGTGGAGCTCCTGGATTCAGGC
TCCTCCGTGCTGGTGGGCCTGGAGGATGGCTGGGACATCACCACCCAGGTGGTATCCTTG
GTGCAGCTGCTCTCAGACCCCTTCTACCGCACGCTGGAGGGCTTTCGCCTGCTGGTGGAG
AAGGAGTGGCTGTCCTTCGGCCATCGCTTCAGCCACCGTGGAGCTCACACCCTGGCCGGG
CAGAGCAGCGGCTTCACACCCGTCTTCCTGCAGTTCCTGGACTGCGTACACCAGGTCCAC
CTGCAGTTCCCCATGGAGTTTGAGTTCAGCCAGTTCTACCTCAAGTTCCTCGGCTACCAC
CATGTGTCCCGCCGTTTCCGGACCTTCCTGCTCGACTCTGACTATGAGCGCATTGAGCTG
GGGCTGCTGTATGAGGAGAAGGGGGAACGCAGGGGCCAGGTGCCGTGCAGGTCTGTGTGG
GAGTATGTGGACCGGCTGAGCAAGAGGACGCCTGTGTTCCACAATTACATGTATGCGCCC
GAGGACGCAGAGGTCCTGCGGCCCTACAGCAACGTGTCCAACCTGAAGGTGTGGGACTTC
TACACTGAGGAGACGCTGGCCGAGGGCCCTCCCTATGACTGGGAACTGGCCCAGGGGCCC
CCTGAACCCCCAGAGGAAGAACGGTCTGATGGAGGCGCTCCCCAGAGCAGGCGCCGCGTG
GTGTGGCCCTGTTACGACAGCTGCCCGCGGGCCCAGCCTGACGCCATCTCACGCCTGCTG
GAGGAGCTGCAGAGGCTGGAGACAGAGTTGGGCCAACCCGCTGAGCGCTGGAAGGACACC
TGGGACCGGGTGAAGGCTGCACAGCGCCTCGAGGGCCGGCCAGACGGCCGTGGCACCCCT
AGCTCCCTCCTTGTGTCCACCGCACCCCACCACCGTCGCTCGCTGGGTGTGTACCTGCAG
GAGGGGCCCGTGGGCTCCACCCTGAGCCTCAGCCTGGACAGCGACCAGAGTAGTGGCTCA
ACCACATCCGGCTCCCGTCAGGCTGCCCGCCGCAGCACCAGCACCCTGTACAGCCAGTTC
CAGACAGCAGAGAGTGAGAACAGGTCCTACGAGGGCACTCTGTACAAGAAGGGGGCCTTC
ATGAAGCCTTGGAAGGCCCGCTGGTTCGTGCTGGACAAGACCAAGCACCAGCTGCGCTAC
TACGACCACCGTGTGGACACAGAGTGCAAGGGTGTCATCGACTTGGCGGAGGTGGAGGCT
GTGGCACCTGGCACGCCCACTATGGGTGCCCCTAAGACTGTGGACGAGAAGGCCTTCTTT
GACGTGAAGACAACGCGTCGCGTTTACAACTTCTGTGCCCAGGACGTGCCCTCGGCCCAG
CAGTGGGTGGACCGGATCCAGAGCTGCCTGTCGGACGCC

Protein sequence predicted based on nucleotide sequence

MARLADYFVLVAFGPHPRGSGEGQGQILQRFPEKDWEDNPFPQGIELFCQPSGWQLCPER
NPPTFFVAVLTDINSERHYCACLTFWEPAEPSQETTRVEDATEREEEGDEGGQTHLSPTA
PAPSAQLFAPKTLVLVSRLDHTEVFRNSLGLIYAIHVEGLNVCLENVIGNLLTCTVPLAG
GSQRTISLGAGDRQVIQTPLADSLPVSRCSVALLFRQLGITNVLSLFCAALTEHKVLFLS
RSYQRLADACRGLLALLFPLRYSFTYVPILPAQLLEVLSTPTPFIIGVNAAFQAETQELL
DVIVADLDGGTVTIPECVHIPPLPEPLQSQTHSVLSMVLDPELELADLAFPPPTTSTSSL
KMQDKELRAVFLRLFAQLLQGYRWCLHVVRIHPEPVIRFHKAAFLGQRGLVEDDFLMKVL
EGMAFAGFVSERGVPYRPTDLFDELVAHEVARMRADENHPQRVLRHVQELAEQLYKNENP
YPAVAMHKVQRPGESSHLRRVPRPFPRLDEGTVQWIVDQAAAKMQGAPPAVKAERRTTVP
SGPPMTAILERCSGLHVNSARRLEVVRNCISYVFEGKMLEAKKLLPAVLRALKGRAARRC
LAQELHLHVQQNRAVLDHQQFDFVVRMMNCCLQDCTSLDEHGIAAALLPLVTAFCRKLSP
GVTQFAYSCVQEHVVWSTPQFWEAMFYGDVQTHIRALYLEPTEDLAPAQEVGEAPSQEDE
RSALDVASEQRRLWPTLSREKQQELVQKEESTVFSQAIHYANRMSYLLLPLDSSKSRLLR
ERAGLGDLESASNSLVTNSMAGSVAESYDTESGFEDAETCDVAGAVVRFINRFVDKVCTE
SGVTSDHLKGLHVMVPDIVQMHIETLEAVQRESRRLPPIQKPKLLRPRLLPGEECVLDGL
RVYLLPDGREEGAGGSAGGPALLPAEGAVFLTTYRVIFTGMPTDPLVGEQVVVRSFPVAA
LTKEKRISVQTPVDQLLQDGLQLRSCTFQLLKMAFDEEVGSDSAELFRKQLHKLRYPPDI
RATFAFTLGSAHTPGRPPRVTKDKGPSLRTLSRNLVKNAKKTIGRQHVTRKKYNPPSWEH
RGQPPPEDQEDEISVSEELEPSTLTPSSALKPSDRMTMSSLVERACCRDYQRLGLGTLSS
SLSRAKSEPFRISPVNRMYAICRSYPGLLIVPQSVQDNALQRVSRCYRQNRFPVVCWRSG
RSKAVLLRSGGLHGKGVVGLFKAQNAPSPGQSQADSSSLEQEKYLQAVVSSMPRYADASG
RNTLSGFSSAHMGSHVPSPRARVTTLSNPMAASASRRTAPRGKWGSVRTSGRSSGLGTDV
GSRLAGRDALAPPQANGGPPDPGFLRPQRAALYILGDKAQLKGVRSDPLQQWELVPIEVF
EARQVKASFKKLLKACVPGCPAAEPSPASFLRSLEDSEWLIQIHKLLQVSVLVVELLDSG
SSVLVGLEDGWDITTQVVSLVQLLSDPFYRTLEGFRLLVEKEWLSFGHRFSHRGAHTLAG
QSSGFTPVFLQFLDCVHQVHLQFPMEFEFSQFYLKFLGYHHVSRRFRTFLLDSDYERIEL
GLLYEEKGERRGQVPCRSVWEYVDRLSKRTPVFHNYMYAPEDAEVLRPYSNVSNLKVWDF
YTEETLAEGPPYDWELAQGPPEPPEEERSDGGAPQSRRRVVWPCYDSCPRAQPDAISRLL
EELQRLETELGQPAERWKDTWDRVKAAQRLEGRPDGRGTPSSLLVSTAPHHRRSLGVYLQ
EGPVGSTLSLSLDSDQSSGSTTSGSRQAARRSTSTLYSQFQTAESENRSYEGTLYKKGAF
MKPWKARWFVLDKTKHQLRYYDHRVDTECKGVIDLAEVEAVAPGTPTMGAPKTVDEKAFF
DVKTTRRVYNFCAQDVPSAQQWVDRIQSCLSDA

Coding Sequence Details

Insert Sequence Verified?:
Y
Verification Method:
Sequence Verification
Reference Sequence Annotations:
Start on reference sequence 171
End on reference sequence 5852
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:  kanamycin
Bacterial Selection Condition: 50ug/mL kanamycin
Growth Condition: Growth with the single antibiotic in LB at 37 degrees is recommended.
Comments: Conditions for Gateway-type vectors in recombined (with insert) form and other kanamycin resistant vectors.
Protein Expression Results:
None
Recommended expression in:
Not Applicable