Gene:
Gene Symbol:
Gene Name:
Original Clone ID:
4306
Keyword:
None
Species:
Drosophila melanogaster
Type:
cDNA
Vector Name:
pDONR223
Format:
FUSION
Source:
The FlyBi Consortium: BDGP/Celniker, CCSB/Vidal, DRSC/Perrimon
Description:
None
Comments:
None
Mutation / Discrepancy:
No / No
Publications:
None
Authors:
The FlyBi Consortium: BDGP/Celniker, CCSB/Vidal, DRSC/Perrimon
DmCD00770021
Price:
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AVAILABLE
No restriction
Special MTA: None
Special MTA: None
Insert sequence: 5748nts
Open reading frame: 1 to 5748
ATGGCGAAGATGGCATCTGGAGATCTATCGCTGACTAGTACGAGTAGCCAGGAAGAAGAG
AGCTCGGAGTATGTGGGCTATGATAATACCCTACGACCGCCGTCCAATTCCAGCGGCAGC
ACCACAGCTGCCAACATGTCCAACAACAACGGGCCCTCGAAGGGCGTCAGTAGCGGTGTG
GGCGTGTCGGGCATTTCTGGTGGAAACGGCGCAAATTACGATATACTGCAGGCGCAGTAC
AAGTCCGCACTTTTGGAGCTAAATACCCTACGCCACCAGCATGCGAACACCAAGAGGCGA
TGCGATGAGTTAGCCACCGAGTTAACTCTGTACCAGGAGCATTACGTGGCCGATCGTAAC
AAGTTCACCGATATGGTGGAGGAGAGCGCCCGTTTCAAGCGTCTGCTATTGGAGACCCAA
AACCAACAGAGCCAGCAGGCCCAGAATGGAAATAGCCAAGTGCCGCCAGTCGGCAGTGGG
AATCCTTATTATTTTGGCAAGACGCAGGGATGCGATGGAAGCTGCAGTGAGAAGCTGGCC
GAACTGAAGAAAGAGCGAAATATGGTCGCCGTGGAGAGGGAGAAGTACAAGAAGTCCTAC
ATCGAGCTTGAAAAGGATCGCAACTACTACCGGGAGCGAGGCGATGAAAATCAGAAACTG
AAGGTTCTTCTCTCCCAGGAGAGTAAGAATGTGCTTTCCCTTACCGAGGAGCTTAATCAA
CTGCTCTCAGAGAAGGACAACGTGCTGCAGGAGCACCAGAAGATGTCCGACGATCTGGTT
CTGGCCAACAAAGAAATTGAGAGGCTCAAAAAGGACGAACAGCTTGCCAGGGCTGAAATC
AAGGTTCTACAGCTGGCCAATGCGGACCTTAAAAAGCGCGATCTTCTAAAGTCTCGCGAT
AGCTCGTGGTCCAAAGAATTTCCGAGTGGAAAGGAGCTGGAGAACAGCAAGGAACTGGAA
AAGCTGCGCAAGAGCTTAGAAAAGGCCCTCTCGGAGGTGGAGCGTTCAAGCCAGGATGCC
GAAGAAGCGAAGCGCGTAAGGGATTGGGCCATATCGCAACGTGAGAAGATCGTGCAGGAG
CGGGATTCGGTGAAGACGCTCTGTGATAAAATGCGCCACGAGAGAGATAAAGCCATCTCC
GACTCGCTGATGGCCATCCGGGATAGCGAAAAGATTAAAAAGCAGAAGGACGAAGCGCAG
AAAAAGATCGACTTGTTGAAAGAACAAATGGAGCAGCAAGAGCGCCAAAATCTTGACAGT
AACGCCTCCGGATCCCGACGCAGTTTCCGCCCAAGCAGTTACGAAGGTGAGGATCTCCTG
GAAGTAGAGCTGTCCGGCTACGAGCACACGTCCGACCTGGGCATCATCCTGGATGACAGC
AACAAGCGAAAATTAGTGTGTGGCGTTACCAGCAGTTCCCCCGCCTGCGGGAAGCTCAAG
ATTAACGATGTGATCTGCAAGGTGAACAACTTGGACTGCCAGTCTTTGTCGAAACGGATG
GTTCTTGATGAGATCCGCGCCTGTGCTCCTCGTTCCCTCCTGCTCGTTTCCCGAACTCGT
CACAGCAAACGGCACGCCTATTCTGTTCAGCTAAAGACTAGGGATAGGGATTGCCCGCAT
GGCCTGCAACTGGACATGGGAGTGTTCATTGCAAAGATCGAGCAAAATTCGCTAGCCTTC
TACGAACCAGAGCTGGACGTTGGCGACCGAGTGTTAAGCATTAACAACAAGTCTATGGAC
TCAGTGCAGTCAATCGAGGAAGTGATGCAGTTGATGAATGATCCCCGAAGCGATGGGCTC
AATCTGTTTGCCCTTAAATACGTACAGGATCAGTTACCCCCGGGAATGACCACCTCGTCG
GCGCAGACAGATTCCATTGACTCCATGCAGCATGTCTCAAGTGCCGGGGGAGGTGGAGGA
AGTGGGCCCAGTAGCGCCACCAAACATCCGTCCAGGTTCGCGGAATTTTTCTTCCGAAAG
CTTAAGTTCAGCAAACCAGGCACACCAGAGGATAACTTTGAGCAGGAGCACGACGACGCC
ATCGCTGCTTTGGATTCTGTGCTCAGTGAAAACAGCTCTGAGAAGAGCAAGGAGAATCTG
TTCAACCGCAAGAAGCGGACCAAGAAGGAGAAAGAGGCCTCCAAGAGCATGGGTACCTGG
CCGCGGACCAACATCTCGCATGAAAACCCAACGGGCACCATGCGCGGCAATGAGAAGAAG
CGTGCTCTGATGTCGCTTTTTACAGCCGGTCCCATAAATGTGGACAAGGATGACGAGCTG
ATGGGCGAGGTTGGAGTGCCAGAAAAGCAGCCAGCAGCGTTGATCCAGGATCAGTTGCCT
CCACCGCTGCCCCCGCAAATGTCCAAGCCACTGGCCCACATTCGGGGATCGAACGGAGGA
GCTATAAAGACGCATCCAAACCGCAATTCTAATCCGGTGAGCTCGGGAGTCTCGGCACTG
TTTCCCCCCGGACCACCCAATGGAATGCCCAACACTAGTTATCCCACACATCCGAGGCAT
TCGCTATACGGTGTGACTGCCGAGGAGATTAACCAAAAGCCGATCCAGCGAGCCCCTCTG
ATGGGCGCCAATGCCAGGGTTAAAATGCCTTCACAGGAGCGCTACGGAACCAGGCCGCAT
AGTAACCATCGCCTGTCGTTAAATATCACGCCCAGCGGAGATTTTTATCAGCCCAAGACC
AGTGGTCAGCAGGCCCAGCAGCAAGTAATGAACGCCTCATCGACATCGGCGGGCTTTGGA
GTAGGATCGGGATCAATGGTCGGTGGTACGGGTCCGGCGGCCGGAGAGTTTCCAGTGCGC
AAACAGCAGGTCTATGACGTCTTCCATCCGCCTCCACTGCCCAAAAACAGCTCCGGATCC
AATATGTTCATGCCGCTTCATCCGACCAGGGGCAGTCACCCGCCGCCCGTTGGACAACCG
CCGGACGTTGTGTCCCTGAAATCGCAGAATTCTATAGAGTCAATACTGTCTGCTAAGAGT
CCCGCTATCAGCGAATACGGGATGTACGCCAAGCGCCATGTGCCACAGGCGGTAAGGCAT
GTGCCGAAGTACCCGAGTGATAGCGAGAGCATTGGTTCCGGTGTTCACGGAGGATATGGT
GGATTTCTTCAGTCCAACCATATGCCGGGAAATAGACACACGCAGCTCTTCCCCACTTTT
GGACCCGGTGGTCGGGGTAACCGGAGATCCAGTCCATTAACCCTACCTTCACCACCGCCT
CAGCAGCAGTTGCAACAGCTACCTGCGGCGACGGCACCGCACGACAGCGTTGGAATACCC
ACTGATCTGGACTACCATCCGCACCATCACACGCAGACCAACGCAATGCCACATCCACAT
CCCCATCCCCATGCTCCTTACTTGGATTACGGGCACGGTCTAGGGATAGGTCCCTATATG
GGGGTGGGCGGTGGAGTCTCGGGAGTTGGCGGAGCTATCTATGAAGGCGGAACATTCCCG
CGCAAGAAAGACAATCAGCGATTAAGGATTCCATCTAATCCCAGTGTGGCTAGCAAAAGC
AGCAGTATGGTGAAGAATAGCTCTGGCAGCATCGACCATCATTATGTGACGAGCACGGGG
CCAGTCTCTGGTGGATCCATGTCAGCCTCGTCTTCAGATCGTGCACCTATGTCACTGATG
AGCTCTAGTATTCACAACAGTTACGGTGCAAATATTGCAGGAGGAAATGGAACTGGATCG
AGCATAGGAGTTGGAGGAGGCGGTGGAGGAGGAAGTGGCCGCGGTTCGCCCATGCCGCAG
GTCCATGTGGAAGTCCTTAGCCATGGAGGCGGCGGAAGTGGCAAGCGCAACTCCAATGTG
CCTGCGGATTTTCTCTGCCCCGGAGACCTTAGAAGAGTCACCATCGACAAGCGCGACAAG
TCGCTAGGTATCACCATTCAGTGCAACAACAACGGCGGCGGAATATTTGTGTCAACCGTC
GCTGACAAAAGCACGGCGATGCGTGCCGGTCTCCAGGTGGGCGATCAACTCTTGGAAGTA
TGTGGCATTAACATGCGGGCGGCCACGCAGGAGATTGCTGCCAATGTGCTGCGGCAGTGC
GGCGACTCCTTTACAATGCTCGTTCAGTACAATCCGGAGAAGTTCCCTTCAATTGAGTAC
GAGGGAGCGCACAATTTGGAACCAGAATCTCCCATCAATCATTCGGGCTCCCCGACTCCG
CGCAACTCTCCCCGTCCTCCTGCCCGCAACTCGCTTTTCCCGTTGCCGATGCAGCCGCAG
GCTCCTTCAACGAGACCCGGCTCAAGGGCTCCGCTGTCGCATCAGTCGATTAAGGACCAG
AGCTTCACCGATAGCCTTGAGAACCAGTCGGATATCAGCAGCAGCCAGGACATGCCTTCA
TCGGCGGCCACCACCACCACAACGACTGCCTCAGCCACGTCAACGGTGTATGATGAGGAA
CCTAAGCCATCCTTGCCGCCGCCACCTGCATCCGTTCCAGCAGAGACTCTAAGGTATGTG
ACTCTGCACATGGACAAGTCAAAGAACCTGGGCATCAAGCTATTTGGGGGCAATAAAGTT
GGCATATATGTGCATGACGTCGCGGTGGGATCGCCTTCTGATCATGCTGGAATTCGCAAA
GGCGATCAAATACTGGAATACAATGGTGTAGATTTGAGCGGAGTCACCGCTGAGCAGGCG
GCCAATGAGATTTCAAAGCTTACGGATACGGTCACCATGTTGGTACAGAATAAGTTACAC
ACCCTAAAGCAAATTAAAGACGAGCCTGGCGACTCCTTTTATATTCGCGTGGGGTTTGAC
CGGACTGGTGAGTTGAACGAGGACGATTTGCGCTTTGTTAAGGACGAGGTGCTCTACGTG
GACAATACGGTTTTTAATGGCACCTTTGGCTTGTGGCGAGCCTGGAAGCTGGATGCCATG
GGCCATCGGAAGGAGTGCGGCATAATACCCAGTCAAATGAAGGTGGAGGAGGAACTGCGT
TCGGGTGAGGTGGTCGACTGTGATACGGGAACGGCCAGACGCGGCAGCACTTCGGCCAGA
AGATCATTTTTTCGTCGCAAGAAAAACCAGCGCAGCTCGTCCCGCGACTCCACGGAGATT
GCCAGTTTCAGCAACACACAGCTTAGCTTCTTTCCAGACTTAGGTCTGCTCAACGATGAT
GGTGGAGCCCTTAGCTACCAGCGTGTAGAGCTTTTAGATTCACCCATTCGCCGGCCCGTG
CTGATTATCGGACCGTTGTCCGAGTGTCTGATGGTTCGCCTTACAATTGACTTCTCCAAC
CTCTTCAAACTGTGCGAGGTGACGGCCATGGACTGTTCGCAGGAGGCCATGGAGGAGGGT
CTAAAAGAAAACATCTTTGTGGATTATCGGCGGAGGGGCAACAAGTTTGAATGCACCACC
GTTGAGGCGATTAGCAATGCCTGCAAAAATGATCGACGCCACTGCATCCTTGACGTTTCC
ATTTCCGCCGTGGAGCGTCTGCAGCGCCTACAAATCTATCCAATTGTCCTCCTGCTGCGC
TTTAAGTCTGCCAAACAAATCCGAGATATTCGCGACTTTGGCACCGACAAAATCTCAGCC
AAGGCGGCCAAGGAGATGTACGAGCGGGCCATGAAGCTCGAGACCGACTATAAGCAATAC
ATATCAGCCGTAATCCCCGGCGTCAGTATCAAGCACATGTGCACCCAAATTAAGGATGCC
GTCGACAAGGAGCAGGACAAGCTACTTTGGGTGCCCGTATCGAGTGGC
Protein sequence predicted based on nucleotide sequence
MAKMASGDLSLTSTSSQEEESSEYVGYDNTLRPPSNSSGSTTAANMSNNNGPSKGVSSGV GVSGISGGNGANYDILQAQYKSALLELNTLRHQHANTKRRCDELATELTLYQEHYVADRN KFTDMVEESARFKRLLLETQNQQSQQAQNGNSQVPPVGSGNPYYFGKTQGCDGSCSEKLA ELKKERNMVAVEREKYKKSYIELEKDRNYYRERGDENQKLKVLLSQESKNVLSLTEELNQ LLSEKDNVLQEHQKMSDDLVLANKEIERLKKDEQLARAEIKVLQLANADLKKRDLLKSRD SSWSKEFPSGKELENSKELEKLRKSLEKALSEVERSSQDAEEAKRVRDWAISQREKIVQE RDSVKTLCDKMRHERDKAISDSLMAIRDSEKIKKQKDEAQKKIDLLKEQMEQQERQNLDS NASGSRRSFRPSSYEGEDLLEVELSGYEHTSDLGIILDDSNKRKLVCGVTSSSPACGKLK INDVICKVNNLDCQSLSKRMVLDEIRACAPRSLLLVSRTRHSKRHAYSVQLKTRDRDCPH GLQLDMGVFIAKIEQNSLAFYEPELDVGDRVLSINNKSMDSVQSIEEVMQLMNDPRSDGL NLFALKYVQDQLPPGMTTSSAQTDSIDSMQHVSSAGGGGGSGPSSATKHPSRFAEFFFRK LKFSKPGTPEDNFEQEHDDAIAALDSVLSENSSEKSKENLFNRKKRTKKEKEASKSMGTW PRTNISHENPTGTMRGNEKKRALMSLFTAGPINVDKDDELMGEVGVPEKQPAALIQDQLP PPLPPQMSKPLAHIRGSNGGAIKTHPNRNSNPVSSGVSALFPPGPPNGMPNTSYPTHPRH SLYGVTAEEINQKPIQRAPLMGANARVKMPSQERYGTRPHSNHRLSLNITPSGDFYQPKT SGQQAQQQVMNASSTSAGFGVGSGSMVGGTGPAAGEFPVRKQQVYDVFHPPPLPKNSSGS NMFMPLHPTRGSHPPPVGQPPDVVSLKSQNSIESILSAKSPAISEYGMYAKRHVPQAVRH VPKYPSDSESIGSGVHGGYGGFLQSNHMPGNRHTQLFPTFGPGGRGNRRSSPLTLPSPPP QQQLQQLPAATAPHDSVGIPTDLDYHPHHHTQTNAMPHPHPHPHAPYLDYGHGLGIGPYM GVGGGVSGVGGAIYEGGTFPRKKDNQRLRIPSNPSVASKSSSMVKNSSGSIDHHYVTSTG PVSGGSMSASSSDRAPMSLMSSSIHNSYGANIAGGNGTGSSIGVGGGGGGGSGRGSPMPQ VHVEVLSHGGGGSGKRNSNVPADFLCPGDLRRVTIDKRDKSLGITIQCNNNGGGIFVSTV ADKSTAMRAGLQVGDQLLEVCGINMRAATQEIAANVLRQCGDSFTMLVQYNPEKFPSIEY EGAHNLEPESPINHSGSPTPRNSPRPPARNSLFPLPMQPQAPSTRPGSRAPLSHQSIKDQ SFTDSLENQSDISSSQDMPSSAATTTTTTASATSTVYDEEPKPSLPPPPASVPAETLRYV TLHMDKSKNLGIKLFGGNKVGIYVHDVAVGSPSDHAGIRKGDQILEYNGVDLSGVTAEQA ANEISKLTDTVTMLVQNKLHTLKQIKDEPGDSFYIRVGFDRTGELNEDDLRFVKDEVLYV DNTVFNGTFGLWRAWKLDAMGHRKECGIIPSQMKVEEELRSGEVVDCDTGTARRGSTSAR RSFFRRKKNQRSSSRDSTEIASFSNTQLSFFPDLGLLNDDGGALSYQRVELLDSPIRRPV LIIGPLSECLMVRLTIDFSNLFKLCEVTAMDCSQEAMEEGLKENIFVDYRRRGNKFECTT VEAISNACKNDRRHCILDVSISAVERLQRLQIYPIVLLLRFKSAKQIRDIRDFGTDKISA KAAKEMYERAMKLETDYKQYISAVIPGVSIKHMCTQIKDAVDKEQDKLLWVPVSSG
Coding Sequence Details
Insert Sequence Verified?:
Y
Verification Method:
NGS Verification
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
Vector Name:
pDONR223
Synonyms:
''
Description:
Gateway®, donor (entry), recombinational cloning clone, bacterial expression expression with rrnB T2 and rrnB T1 and M13 forward and attP1 and ccdB and CmR and cat_promoter-var002 and attP2 and T7 promoter and M13 reverse and SpectR and ori; spectinomycin resistance in bacterial;
Comments:
pDONR223 contains several improvements over the original Donor vector pDONR201. In pDONR223, the universal Forward (Fwd) and Reverse (Rev) sequencing primer sites flank the attP1 and attP2 recombination sites, the replication origin has been improved to increase copy number, and the selectable marker is spectinomycin resistance (instead of kanamycin resistance in pDONR201), which permits the use of either ampicillin or kanamycin resistance markers in Destination vectors.
Size (bp):
5005
Parent Vector:
None
Properties:
Gateway, bacterial expression, donor (entry), recombinational cloning
Author Name:
Invitrogen
Publications:
None
Vector Map:
Vector Sequence:
Sequence:
Vector Features:
Type
Name
Description
Start
End
CDS
ccdB
CcdB, a bacterial toxin that poisons DNA gyrase
1197
1502
CDS
SmR
confers resistance to spectinomycin and streptomycin
3471
4262
CDS
CmR
confers resistance to chloramphenicol
1844
2503
Terminator
rrnB T2
transcription terminator T2 from the E. coli rrnB gene
268
295
Terminator
rrnB T1
transcription terminator T1 from the E. coli rrnB gene
387
473
primer_bind
M13 forward
common sequencing primer, one of multiple similar variants
537
553
primer_bind
M13 reverse
common sequencing primer, one of multiple similar variants
3024
3040
promoter
cat_promoter-var002
promoter of the E. coli cat gene encoding chloramphenicol acetyltransferase
2504
2606
promoter
T7 promoter
promoter for bacteriophage T7 RNA polymerase
3001
3019
protein binding site
attP1
recombination site for the Gateway BP reaction
570
801
protein binding site
attP2
recombination site for the Gateway BP reaction
2751
2982
rep_origin
ori
high-copy-number ColE1/pMB1/pBR322/pUC origin of replication
4355
4943
