FLT1 (Homo sapiens) in pDNR-Dual (Creator donor/master vector)

Explanation of Terms

Gene:
Gene Symbol:  FLT1
Gene Name:  fms-related tyrosine kinase 1
Original Clone ID:
FLH173793.01F
Keyword:
None
Species:
Homo sapiens
Type:
cDNA
Vector Name:
pDNR-Dual
Format: 
FUSION
Source:
HIP
Description:
None
Comments:
None
Mutation / Discrepancy:
No / Yes
Publications:
PMID: 15928075
Title: Building a human kinase gene repository: bioinformatics, molecular cloning, and functional validation.
Authors:
HIP
HsCD00021460
Price: 
Login for Pricing
AVAILABLE
No restriction
Special MTA: None
Insert sequence: 4017nts
Open reading frame: 1 to 4017

ATGGTCAGCTACTGGGACACCGGGGTCCTGCTGTGCGCGCTGCTCAGCTGTCTGCTTCTC
ACAGGATCTAGTTCAGGTTCAAAATTAAAAGATCCTGAACTGAGTTTAAAAGGCACCCAG
CACATCATGCAAGCAGGCCAGACACTGCATCTCCAATGCAGGGGGGAAGCAGCCCATAAA
TGGTCTTTGCCTGAAATGGTGAGTAAGGAAAGCGAAAGGCTGAGCATAACTAAATCTGCC
TGTGGAAGAAATGGCAAACAATTCTGCAGTACTTTAACCTTGAACACAGCTCAAGCAAAC
CACACTGGCTTCTACAGCTGCAAATATCTAGCTGTACCTACTTCAAAGAAGAAGGAAACA
GAATCTGCAATCTATATATTTATTAGTGATACAGGTAGACCTTTCGTAGAGATGTACAGT
GAAATCCCCGAAATTATACACATGACTGAAGGAAGGGAGCTCGTCATTCCCTGCCGGGTT
ACGTCACCTAACATCACTGTTACTTTAAAAAAGTTTCCACTTGACACTTTGATCCCTGAT
GGAAAACGCATAATCTGGGACAGTAGAAAGGGCTTCATCATATCAAATGCAACGTACAAA
GAAATAGGGCTTCTGACCTGTGAAGCAACAGTCAATGGGCATTTGTATAAGACAAACTAT
CTCACACATCGACAAACCAATACAATCATAGATGTCCAAATAAGCACACCACGCCCAGTC
AAATTACTTAGAGGCCATACTCTTGTTCTCAATTGTACTGCTACCACTCCCTTGAACACG
AGAGTTCAAATGACCTGGAGTTACCCTGATGAAAAAAATAAGAGAGCTTCCGTAAGGCGA
CGAATTGACCAAAGCAATTCCCATGCCAACATATTCTACAGTGTTCTTACTATTGACAAA
ATGCAGAACAAAGACAAAGGACTTTATACTTGTCGTGTAAGGAGTGGACCATCATTCAAA
TCTGTTAACACCTCAGTGCATATATATGATAAAGCATTCATCACTGTGAAACATCGAAAA
CAGCAGGTGCTTGAAACCGTAGCTGGCAAGCGGTCTTACCGGCTCTCTATGAAAGTGAAG
GCATTTCCCTCGCCGGAAGTTGTATGGTTAAAAGATGGGTTACCTGCGACTGAGAAATCT
GCTCGCTATTTGACTCGTGGCTACTCGTTAATTATCAAGGACGTAACTGAAGAGGATGCA
GGGAATTATACAATCTTGCTGAGCATAAAACAGTCAAATGTGTTTAAAAACCTCACTGCC
ACTCTAATTGTCAATGTGAAACCCCAGATTTACGAAAAGGCTGTGTCATCGTTTCCAGAC
CCGGCTCTCTACCCACTGGGCAGCAGACAAATCCTGACTTGTACCGCATATGGTATCCCT
CAACCTACAATCAAGTGGTTCTGGCACCCCTGTAACCATAATCATTCCGAAGCAAGGTGT
GACTTTTGTTCCAATAATGAAGAGTCCTTTATCCTGGATGCTGACAGCAACATGGGAAAC
AGAATTGAGAGCATCACTCAGCGCATGGCAATAATAGAAGGAAAGAATAAGATGGCTAGC
ACCTTGGTTGTGGCTGACTCTAGAATTTCTGGAATCTACATTTGCATAGCTTCCAATAAA
GTTGGGACTGTGGGAAGAAACATAAGCTTTTATATCACAGATGTGCCAAATGGGTTTCAT
GTTAACTTGGAAAAAATGCCGACGGAAGGAGAGGACCTGAAACTGTCTTGCACAGTTAAC
AAGTTCTTATACAGAGACGTTACTTGGATTTTACTGCGGACAGTTAATAACAGAACAATG
CACTACAGTATTAGCAAGCAAAAAATGGCCATCACTAAGGAGCACTCCATCACTCTTAAT
CTTACCATCATGAATGTTTCCCTGCAAGATTCAGGCACCTATGCCTGCAGAGCCAGGAAT
GTATACACAGGGGAAGAAATCCTCCAGAAGAAAGAAATTACAATCAGAGATCAGGAAGCA
CCATACCTCCTGCGAAACCTCAGTGATCACACAGTGGCCATCAGCAGTTCCACCACTTTA
GACTGTCATGCTAATGGTGTCCCCGAGCCTCAGATCACTTGGTTTAAAAACAACCACAAA
ATACAACAAGAGCCTGGAATTATTTTAGGACCAGGAAGCAGCACGCTGTTTATTGAAAGA
GTCACAGAAGAGGATGAAGGTGTCTATCACTGCAAAGCCACCAACCAGAAGGGCTCTGTG
GAAAGTTCAGCATACCTCACTGTTCAAGGAACCTCGGACAAGCCTAATCTGGAGCTGATC
ACTCTAACATGCACCTGTGTGGCTGCGACTCTCTTCTGGCTCCTATTAACCCTCTTTATC
CGAAAAATGAAAAGGTCTTCTTCTGAAATAAAGACTGACTACCTATCAATTATAATGGAC
CCAGATGAAGTTCCTTTGGATGAGCAGTGTGAGCGGCTCCCTTATGATGCCAGCAAGTGG
GAGTTTGCCCGGGAGAGACTTAAACTGGGCAAATCACTTGGAAGAGGGGCTTTTGGAAAA
GTGGTTCAAGCATCAGCATTTGGCATTAAGAAATCACCTACGTGCCGGACTGTGGCTGTG
AAAATGCTGAAAGAGGGGGCCACGGCCAGCGAGTACAAAGCTCTGATGACTGAGCTAAAA
ATCTTGACCCACATTGGCCACCATCTGAACGTGGTTAACCTGCTGGGAGCCTGCACCAAG
CAAGGAGGGCCTCTGATGGTGATTGTTGAATACTGCAAATATGGAAATCTCTCCAACTAC
CTCAAGAGCAAACGTGACTTATTTTTTCTCAACAAGGATGCAGCACTACACATGGAGCCT
AAGAAAGAAAAAATGGAGCCAGGCCTGGAACAAGGCAAGAAACCAAGACTAGATAGCGTC
ACCAGCAGCGAAAGCTTTGCGAGCTCCGGCTTTCAGGAAGATAAAAGTCTGAGTGATGTT
GAGGAAGAGGAGGATTCTGACGGTTTCTACAAGGAGCCCATCACTATGGAAGATCTGATT
TCTTACAGTTTTCAAGTGGCCAGAGGCATGGAGTTCCTGTCTTCCAGAAAGTGCATTCAT
CGGGACCTGGCAGCGAGAAACATTCTTTTATCTGAGAACAACGTGGTGAAGATTTGTGAT
TTTGGCCTTGCCCGGGATATTTATAAGAACCCCGATTATGTGAGAAAAGGAGATACTCGA
CTTCCTCTGAAATGGATGGCTCCTGAATCTATCTTTGACAAAATCTACAGCACCAAGAGC
GACGTGTGGTCTTACGGAGTATTGCTGTGGGAAATCTTCTCCTTAGGTGGGTCTCCATAC
CCAGGAGTACAAATGGATGAGGACTTTTGCAGTCGCCTGAGGGAAGGCATGAGGATGAGA
GCTCCTGAGTACTCTACTCCTGAAATCTATCAGATCATGCTGGACTGCTGGCACAGAGAC
CCAAAAGAAAGGCCAAGATTTGCAGAACTTGTGGAAAAACTAGGTGATTTGCTTCAAGCA
AATGTACAACAGGATGGTAAAGACTACATCCCAATCAATGCCATACTGACAGGAAATAGT
GGGTTTACATACTCAACTCCTGCCTTCTCTGAGGACTTCTTCAAGGAAAGTATTTCAGCT
CCGAAGTTTAATTCAGGAAGCTCTGATGATGTCAGATACGTAAATGCTTTCAAGTTCATG
AGCCTGGAAAGAATCAAAACCTTTGAAGAACTTTTACCGAATGCCACCTCCATGTTTGAT
GACTACCAGGGCGACAGCAGCACTCTGTTGGCCTCTCCCATGCTGAAGCGCTTCACCTGG
ACTGACAGCAAACCCAAGGCCTCGCTCAAGATTGACTTGAGAGTAACCAGTAAAAGTAAG
GAGTCGGGGCTGTCTGATGTCAGCAGGCCCAGTTTCTGCCATTCCAGCTGTGGGCACGTC
AGCGAAGGCAAGCGCAGGTTCACCTACGACCACGCTGAGCTGGAAAGGAAAATCGCGTGC
TGCTCCCCGCCCCCAGACTACAACTCGGTGGTCCTGTACTCCACCCCACCCATCTTG

Protein sequence predicted based on nucleotide sequence

MVSYWDTGVLLCALLSCLLLTGSSSGSKLKDPELSLKGTQHIMQAGQTLHLQCRGEAAHK
WSLPEMVSKESERLSITKSACGRNGKQFCSTLTLNTAQANHTGFYSCKYLAVPTSKKKET
ESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPD
GKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQTNTIIDVQISTPRPV
KLLRGHTLVLNCTATTPLNTRVQMTWSYPDEKNKRASVRRRIDQSNSHANIFYSVLTIDK
MQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFITVKHRKQQVLETVAGKRSYRLSMKVK
AFPSPEVVWLKDGLPATEKSARYLTRGYSLIIKDVTEEDAGNYTILLSIKQSNVFKNLTA
TLIVNVKPQIYEKAVSSFPDPALYPLGSRQILTCTAYGIPQPTIKWFWHPCNHNHSEARC
DFCSNNEESFILDADSNMGNRIESITQRMAIIEGKNKMASTLVVADSRISGIYICIASNK
VGTVGRNISFYITDVPNGFHVNLEKMPTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTM
HYSISKQKMAITKEHSITLNLTIMNVSLQDSGTYACRARNVYTGEEILQKKEITIRDQEA
PYLLRNLSDHTVAISSSTTLDCHANGVPEPQITWFKNNHKIQQEPGIILGPGSSTLFIER
VTEEDEGVYHCKATNQKGSVESSAYLTVQGTSDKPNLELITLTCTCVAATLFWLLLTLFI
RKMKRSSSEIKTDYLSIIMDPDEVPLDEQCERLPYDASKWEFARERLKLGKSLGRGAFGK
VVQASAFGIKKSPTCRTVAVKMLKEGATASEYKALMTELKILTHIGHHLNVVNLLGACTK
QGGPLMVIVEYCKYGNLSNYLKSKRDLFFLNKDAALHMEPKKEKMEPGLEQGKKPRLDSV
TSSESFASSGFQEDKSLSDVEEEEDSDGFYKEPITMEDLISYSFQVARGMEFLSSRKCIH
RDLAARNILLSENNVVKICDFGLARDIYKNPDYVRKGDTRLPLKWMAPESIFDKIYSTKS
DVWSYGVLLWEIFSLGGSPYPGVQMDEDFCSRLREGMRMRAPEYSTPEIYQIMLDCWHRD
PKERPRFAELVEKLGDLLQANVQQDGKDYIPINAILTGNSGFTYSTPAFSEDFFKESISA
PKFNSGSSDDVRYVNAFKFMSLERIKTFEELLPNATSMFDDYQGDSSTLLASPMLKRFTW
TDSKPKASLKIDLRVTSKSKESGLSDVSRPSFCHSSCGHVSEGKRRFTYDHAELERKIAC
CSPPPDYNSVVLYSTPPIL

Coding Sequence Details

Insert Sequence Verified?:
Y
Verification Method:
Sequence Verification
Reference Sequence Annotations:
Start on reference sequence 250
End on reference sequence 4266
Mutations:
None
Discrepancy:
c747t; c1302t;
 t2263c,S755P; c2335t,L779F;
 c3204t; t3639c
                                                    

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:  ampicillin
Bacterial Selection Condition: 100 ug/mL ampicillin
Growth Condition: Growth with the single antibiotic in LB at 37 degrees is recommended.
Comments: Commonly used conditions for ampicillin resistant plasmid clones.
Protein Expression Results:
None
Recommended expression in:
Not Applicable