Plasmid
pBabe.puro GFP.DU mouse SLX4 D507A
Parent Plasmid
pBabeD puro GFP
Expressed
GFP-mouse SLX4 D507A
Genbank
NM_177472.4 2 with silent variations T>C 1315 bp T>C 4323 bp
Tag
GFP
Species
Mouse
Sequence of Insert
View Sequence
GAATTCATGGTTCCAGAGAGTGCTCCCAATGGCAACTCCCAGCCTCTTCCTTCCTGTTTCACGACAACTGGTGTACCAAGTCCCTCCAAACCCAGAGTCTCAGAGCTGGTTCTGCAACGGATGAAGCAGTTCAAGAGAGCAGACCCTGAGCGCCTGAGACACGCCTCAGAAGAATCCCCCCAAAAGACTGCACTGGGAGACGATGTCCCAAGGAGCCCTCCAGAGGAGACAGTGGGAGAAAATGAGTATAAACTTGATGCCACAGACAGTGATGCTGCAATGGCCCTGGCCTTACAGCAGGAGTTTAGAAGGGAGGAAGCATCCTCACACCATGACAGCCTGGAGGAGAAGGGGTTGTTCTTCTGTCAAATGTGTCAGAAAAACCTCTCAGCAATGAATGTAACCCGGAGGGAGCAACATGTGAACAGATGCCTAGATGAGGCAGAGAAGGCACAGAGACCTGCTTCACCTCGGATCCCTGATTGCCCAATATGTGGGAAACCGTTCCTCACCACCAAGAGCCGAATCAGTCACTTGAAGCAGTGTGCGGTGAGGATGGAAGTGGGTCCCCAACTCCTGCTTCAGGCTGTGAGGCTACAGACAGCTCAGCCAGAGGTGGATGGCAGCCCTCAGGTACCCAGTTTCAGCAACAACGTTGGAGGTTTGAAACGGAAAGGAGTCACCACCAAAAGGGAGCCAAGGAGGAGGAAAGTCAATAAGCCTGAGGCTCCGTCTGAAGATCTGTTGGTGGCCATGGCTCTGTCTCGCTCTGAGGTGGAGCACTGTCCAGTTGTGCCCCCGCTCAGACTGGAAAATGCTTTTTCTGAGAAGATAAGGCTAGGAGCAGAGAAGAAAAGTCGCAAGAAGAGACCCCCGGTGTGTCCCCCACAGTTGGTAACCCAAGACTCTGAGACCACAGGTAGACAGATTGAAGATCGTGTTGCCCAGCTTCTGTCAGAGGAAGCAGAACTATCTTGCACCCCACCACTTCTTGCCAGCAAGATTTCTAAGGAAGAATTGGAACCTGCAGGCTGGCGAGCACGGCTGCCTGAAGGGAAGCGGAACTTTCTGTGGGAACTCAGCGCTCTCACAGGAGCCTGGGCTGAGGAGTCCTTCTACACAGTGGGACTGTTTCCTCCAATTGTGTCCCAATGCCCTTCCAAGGAACCCCAGCTACCATTGGAGCTGCCCAAGCAAGGAGAGCCGAGTCCACGGCGGCCACCTGCTTCCCAGAGCAGCCTTCCTGTGAGCCACAGCCCCAAGATCCGGCTGCTGTCCTCCAGCCAGAGGGAGCGTCAAGCCCTTCAGGACCTTGTGGACCTGGCAGTGGAAGGGCTGAGCTCTAGCCCACAGCCCGGGAGTCGGGGCGTACCCACAGGGTTGGACCTGGTACCTAGCAGCCTTCCGCTGACGGGGTTTGTCCTTCCATGTAAGAAGACCCTGAAGAAGGATGACAGTGCCTCACTCTCTCTTGGGTTATTGGTGACAGACTTTGGGGCCATGGTCAATAATCCACACCTGAGTGCCGTCCAGTTCCAGCTTGACAGTGGAGAGGTGCTTTATGCACACAAGTTTGTTCTTTATGCGAGATGCCCACTTCTTATTCAGTATGTAAGCACTGAAAGCTTTTCTTCTGAAGAGGACGGGGATCTGACCCAGCGTGCTCTGCTGAGTGATGTGAGCTCGGAGGCCGCCCATGCATTTCTGAACTACCTCTACATGGCAGACACTGACATGCCTCCCAGCCTGGTTCCGGATCTGCGTTCCCTGGCCCTAAGGTTTGGTGTGAGTGACCTTGTTCAGCTGTGTGAACAAGTGCCCGCCGTGGTGGACTTAGAGGGAGAACAGCCAGAAGAGACCAGTGAGGACTGTGAAAGCCGAGCAGAGACTTTCCTGGAACTCCTGAGGTCGGTGTGGGTAGACAATGAGGAGGAAGTGGAGACTCTGCTGAAACCTGAGCTCTGTGAAGAAGAGAGAGAAAGAGTGAATGAAGCAGAAATGGAAGAGATATATGAATTTGCTGCTACGCAGAGGAAGCTTCTCCAGTGGGGGAGAGCAGCAGACCCAGATGGGAGCACTAACCCGCATGGGGAAGACGGTGCAGTTTCTGAGCCTTCCCTGGCAGGTGTCCAGAGTAACAGACAGCTAGAAAATACAGAGCACATGGAGTCATCTGGGTTAGAAAAAGAAGAGGCACTAGCCAGCTGGGAACAAGAAGGACATTCCACTCCACTGCAGGACCAGTGCCCAGACTGGGCAGGGAAAGCAGAGGCCCAGGATGCATTGGGGGAGGCAACTGACGACCCCAGCTTCTGCAGCCGCCACAGGAGGGGGAAAGAGTGCTTGCCTTTGCACCCAAACAAGGCCCATGGCTGCAAACAGCCCCTTCCATCAAATCCAAGAGTGTCATCTGAACTGTCACAAATAACAGTTGATCATGAAGAGCAGAGTGACCATGTCAGGGAGACGCAGGCAGACATGGCCCAGGCACCTACTCCACACTCCTGCAGCCTTGTGTCACAGTCTTCTGTGGATGGAAGTCCCAGCCAGTCATGGCTTCACCTATACCACACTAGTCATTTGTCCCCCTCAGTGTCCCAGTCACACAGTAGCATTTCCAGGGTGGCATCCCCAAGATCACTGTCTCCAACTACACCAACTAAGCAGAGGAGGGGCAGTAACATTGTCACATTACGGAAAGATGCTGGCCACCACAGAGGCCAACAAAGTAGCCCCATAGCGGGACACAGAAATAGGGGCATCCTGATTTCCCCAGCAAAGTCTCCACCCATTGACCTCACACAGTCAGTACCCGAGCCCCTGAGCCCCAGGGCCCAGGATCCTCTGCATTTCGTGAAAAAGGAGGATGAGGTCATCCTGTTACTGGACTCAGATGAGGAGCTGGAGCACACCAAGACAGAGTCAGTTTCTAAAGATTCCCCAGAAGGAAGGAAAGTTCCAGAATTTAGCCCCAGGTCCTCTGAACTGTTTTCAGTCATTGATGTTGAAGAAGATCATGAACATTTCCAAAGCCCACTGAAGAGAGAGGCCGGGCTACAGCACGGGGAGGAAGGACAGCTGGGAAACCAGTCTGCGCTGGGCTGCAGAGACATCCCCTGGCTGCTCTGCAGCCAGAAAACCAGCCTGGATGAGGACAGTGCTACAGACACCTCTTGGCTGGTGCCTGCCACTCCAGGGGTCAGCAGGAGTCGTGATTGCTCATCACAGACCCAAATCAAAAGCCTTAAGACCAGGATTCCGTCAGATGAGACTGCTCAGCAAACACCTAGACCTAACTTAGAACGCAGGACCATGCTGGAAACAGCCCAGCAGTTCTCTGTGATCATGCCACACACACAGCCTATTACTCTAGGAGCCTTTGACAGCGGAAGACAGGCCTACAGAAGCCCTTCCCATCCCTACCCCAGGCACCACAGACTCTCTTCTTCACAGCCATCATGTCCTGGCCCTGATTTTACCAGGTGGTCCCAGAAATCTTCCGCACCTAGACCATGCCTGCCAAATCTGCCTGCAGCTGATGATGTGGTAGAAGTTGGGGACAGTGATGATGAGGTGGCTTCCCATCAAGGAAACAGCAGCCCCGTGCTAGATGGTGACCCCCCAGGTCCCATGGGTGACTACTGTTGGAATGAGCCTCTCTCACCAATTCCAATTGACCACTTGAATCTGGAGCGGACCGGCCCCCTGACCACAAGCAGTCCCAGCAGTCAGGTCCTGGAGGCTTTGCACAGTGATGACTGCCACTCCCCGGGACTTGGTACCACCCCCATCCGAGGAAGCTGTGGTACGCTGAGAGAGTCTCAGGAACGGTCCTCACTGGCTGGCTCTCCAGAGGCTCTGTGGGACGACTGGAATGAGGAGGAAGGACAGTCTCCAGAGGCCCCACCTGTGGCTCAAATGCTGAGTACCAGAACTCGGAAGCCAGACAGGCCAGAGACACCAAAAGGTGCTAACCAGAAAAAGAACTTGCCTCCCAAAGTGCCTATAACTCCAATGCCAAGGTATTCGATCATGGAGACCCCGGTGCTGAAGAAAGAACTGGACAGGTTTGGAGTCCGTGCTCTGCCCAAACGCCAGATGGTTCTAAAACTGAAGGAGATTTTCCAGTACACTCACCAGACTCTGGAGTCGGACTCTGAGGATGAGGTCCAGTCCCCCCAGATACCCGCAGAACTACCTTGTCGCCAGGCATCTACCACTGAGACCTGCAACCCTTCAAGGTTGCCAACTGGGGAGCCTTCACATCCTGATGGTGACGCCCAGCTCCCAGCCTCCCAGGAATCCATGGCTACCTCTGTGGACGGCAGCGACAACTCCTTTAGCTCTAAAAGCTCCTCTGCTGAGTTTGGAGCTGCGTTTGAGTATTCAGATGAAGACAAGGATGAGGAGGTCGGGGTCACTGCATCACAGGCCGCAATCCAGGCCGCAGACACAGAGGAGGCAGTGAGGCGCTATATCCGCTCTAAGCCTGCCCTGCACAGGCAGGTCCTGAGGTACCAGCCTGTGGAGCTGGCCGAGCTGCAGGCTGAGCTGAAACAGAATGGCATCCCTGTGGCCATGGGCAAGCTGTCGGACATCCTGGACGCTCAGTGCATCACCTTCACCACTGCTGCAGCCCGAAAGGAGAAACTCAAACACAAGAGACGGCAGCCCTCAGGCCGAAAGAAAAAGGATCAGAAATGAGCGGCCGC
Amino Acid Sequence
View Sequence
MHVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFIC
TTGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTI
FFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSH
NVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDN
HYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSSEFMV
PESAPNGNSQPLPSCFTTTGVPSPSKPRVSELVLQRMKQFKRADPERLRH
ASEESPQKTALGDDVPRSPPEETVGENEYKLDATDSDAAMALALQQEFRR
EEASSHHDSLEEKGLFFCQMCQKNLSAMNVTRREQHVNRCLDEAEKAQRP
ASPRIPDCPICGKPFLTTKSRISHLKQCAVRMEVGPQLLLQAVRLQTAQP
EVDGSPQVPSFSNNVGGLKRKGVTTKREPRRRKVNKPEAPSEDLLVAMAL
SRSEVEHCPVVPPLRLENAFSEKIRLGAEKKSRKKRPPVCPPQLVTQDSE
TTGRQIEDRVAQLLSEEAELSCTPPLLASKISKEELEPAGWRARLPEGKR
NFLWELSALTGAWAEESFYTVGLFPPIVSQCPSKEPQLPLELPKQGEPSP
RRPPASQSSLPVSHSPKIRLLSSSQRERQALQDLVDLAVEGLSSSPQPGS
RGVPTGLDLVPSSLPLTGFVLPCKKTLKKDDSASLSLGLLVTDFGAMVNN
PHLSAVQFQLDSGEVLYAHKFVLYARCPLLIQYVSTESFSSEEDGDLTQR
ALLSDVSSEAAHAFLNYLYMADTDMPPSLVPDLRSLALRFGVSDLVQLCE
QVPAVVDLEGEQPEETSEDCESRAETFLELLRSVWVDNEEEVETLLKPEL
CEEERERVNEAEMEEIYEFAATQRKLLQWGRAADPDGSTNPHGEDGAVSE
PSLAGVQSNRQLENTEHMESSGLEKEEALASWEQEGHSTPLQDQCPDWAG
KAEAQDALGEATDDPSFCSRHRRGKECLPLHPNKAHGCKQPLPSNPRVSS
ELSQITVDHEEQSDHVRETQADMAQAPTPHSCSLVSQSSVDGSPSQSWLH
LYHTSHLSPSVSQSHSSISRVASPRSLSPTTPTKQRRGSNIVTLRKDAGH
HRGQQSSPIAGHRNRGILISPAKSPPIDLTQSVPEPLSPRAQDPLHFVKK
EDEVILLLDSDEELEHTKTESVSKDSPEGRKVPEFSPRSSELFSVIDVEE
DHEHFQSPLKREAGLQHGEEGQLGNQSALGCRDIPWLLCSQKTSLDEDSA
TDTSWLVPATPGVSRSRDCSSQTQIKSLKTRIPSDETAQQTPRPNLERRT
MLETAQQFSVIMPHTQPITLGAFDSGRQAYRSPSHPYPRHHRLSSSQPSC
PGPDFTRWSQKSSAPRPCLPNLPAADDVVEVGDSDDEVASHQGNSSPVLD
GDPPGPMGDYCWNEPLSPIPIDHLNLERTGPLTTSSPSSQVLEALHSDDC
HSPGLGTTPIRGSCGTLRESQERSSLAGSPEALWDDWNEEEGQSPEAPPV
AQMLSTRTRKPDRPETPKGANQKKNLPPKVPITPMPRYSIMETPVLKKEL
DRFGVRALPKRQMVLKLKEIFQYTHQTLESDSEDEVQSPQIPAELPCRQA
STTETCNPSRLPTGEPSHPDGDAQLPASQESMATSVDGSDNSFSSKSSSA
EFGAAFEYSDEDKDEEVGVTASQAAIQAADTEEAVRRYIRSKPALHRQVL
RYQPVELAELQAELKQNGIPVAMGKLSDILDAQCITFTTAAARKEKLKHK
RRQPSGRKKKDQK*
TTGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTI
FFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSH
NVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDN
HYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSSEFMV
PESAPNGNSQPLPSCFTTTGVPSPSKPRVSELVLQRMKQFKRADPERLRH
ASEESPQKTALGDDVPRSPPEETVGENEYKLDATDSDAAMALALQQEFRR
EEASSHHDSLEEKGLFFCQMCQKNLSAMNVTRREQHVNRCLDEAEKAQRP
ASPRIPDCPICGKPFLTTKSRISHLKQCAVRMEVGPQLLLQAVRLQTAQP
EVDGSPQVPSFSNNVGGLKRKGVTTKREPRRRKVNKPEAPSEDLLVAMAL
SRSEVEHCPVVPPLRLENAFSEKIRLGAEKKSRKKRPPVCPPQLVTQDSE
TTGRQIEDRVAQLLSEEAELSCTPPLLASKISKEELEPAGWRARLPEGKR
NFLWELSALTGAWAEESFYTVGLFPPIVSQCPSKEPQLPLELPKQGEPSP
RRPPASQSSLPVSHSPKIRLLSSSQRERQALQDLVDLAVEGLSSSPQPGS
RGVPTGLDLVPSSLPLTGFVLPCKKTLKKDDSASLSLGLLVTDFGAMVNN
PHLSAVQFQLDSGEVLYAHKFVLYARCPLLIQYVSTESFSSEEDGDLTQR
ALLSDVSSEAAHAFLNYLYMADTDMPPSLVPDLRSLALRFGVSDLVQLCE
QVPAVVDLEGEQPEETSEDCESRAETFLELLRSVWVDNEEEVETLLKPEL
CEEERERVNEAEMEEIYEFAATQRKLLQWGRAADPDGSTNPHGEDGAVSE
PSLAGVQSNRQLENTEHMESSGLEKEEALASWEQEGHSTPLQDQCPDWAG
KAEAQDALGEATDDPSFCSRHRRGKECLPLHPNKAHGCKQPLPSNPRVSS
ELSQITVDHEEQSDHVRETQADMAQAPTPHSCSLVSQSSVDGSPSQSWLH
LYHTSHLSPSVSQSHSSISRVASPRSLSPTTPTKQRRGSNIVTLRKDAGH
HRGQQSSPIAGHRNRGILISPAKSPPIDLTQSVPEPLSPRAQDPLHFVKK
EDEVILLLDSDEELEHTKTESVSKDSPEGRKVPEFSPRSSELFSVIDVEE
DHEHFQSPLKREAGLQHGEEGQLGNQSALGCRDIPWLLCSQKTSLDEDSA
TDTSWLVPATPGVSRSRDCSSQTQIKSLKTRIPSDETAQQTPRPNLERRT
MLETAQQFSVIMPHTQPITLGAFDSGRQAYRSPSHPYPRHHRLSSSQPSC
PGPDFTRWSQKSSAPRPCLPNLPAADDVVEVGDSDDEVASHQGNSSPVLD
GDPPGPMGDYCWNEPLSPIPIDHLNLERTGPLTTSSPSSQVLEALHSDDC
HSPGLGTTPIRGSCGTLRESQERSSLAGSPEALWDDWNEEEGQSPEAPPV
AQMLSTRTRKPDRPETPKGANQKKNLPPKVPITPMPRYSIMETPVLKKEL
DRFGVRALPKRQMVLKLKEIFQYTHQTLESDSEDEVQSPQIPAELPCRQA
STTETCNPSRLPTGEPSHPDGDAQLPASQESMATSVDGSDNSFSSKSSSA
EFGAAFEYSDEDKDEEVGVTASQAAIQAADTEEAVRRYIRSKPALHRQVL
RYQPVELAELQAELKQNGIPVAMGKLSDILDAQCITFTTAAARKEKLKHK
RRQPSGRKKKDQK*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU45410
Unit Source
Location
PPU
MTA
Notes
All BTBD12 (SLX4) plasmids MUST be grown at 30 degrees C or less to prevent recombination.
Price
£125.00
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