| Gene Symbol | CEP135 |
| Entrez Gene ID | 100225073 |
| Full Name | centrosomal protein 135 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
CEP135 cDNA ORF clone, Taeniopygia guttata(zebra finch)
-
Gene
-
Clones
gRNAs
The following CEP135 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CEP135 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.
-
Reference Sequences (Refseq)
CloneID OTd09667 Clone ID Related Accession (Same CDS sequence) XM_012573515.1 Accession Version XM_012573515.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3528bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product LOW QUALITY PROTEIN: centrosomal protein of 135 kDa Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198636.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTAC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AGAAGAATTC TTTTCTGGTA TTAATTTTTC AGACATTTTA ATTAGCAAAT
TTTAACATCA GTTTATTGAT CACTTTTCAG AGCGAAGAGC TTAAATCAAT CACTAGAGAA
AGAGATGAGC TGCGGTCTGT GTTAGACAGA TTTGAAAAAC ACATGATAGA AATTCAGTCC
AATGTCAAAT TATTGACTGC AGAAAGAGAT AGATTAAAAG TTCTTTATGA GCAGTCTCAG
AGTGAATTGA ACAGGATGAG AAGAGAAGCA AAACACAGTT TTCTTTCTCA AAGTCACACA
GAAGAAGAAC GTGACATTGC GCTGATTGAC TTTAAAATAC TAATGGCAGA AAAAGAAAGT
CTTGAAGAAA AATTAAAGAT GCATCAAGAA ACAGCAGACC ATGAAAAATC AAAGCTGCAG
CATGATGTTT CAGAACTGGA GAATAACATT AAGGGACTTC AGATTGAAAA GTGTGAACTA
AGGACTACAG TCTCTATCCT GAAAGAAAGA ATAAACTATT TGGAAAATGA GTTAAATCTG
AAGTCAAGTA AACTTGCCCA GACTTCTGAC GATTCTTCTC AATTTAAAGC TGAGATTTGC
TCACTTCAGC TCTTAAATGA CCAACACCAG AAGTCTATTG AAGATTTACA GCACAGATTG
TCCCTCAAAA AGGATGAACT GCTGACAGCT CAAGATGAAA TTATAAAGCT GAAAGAGATA
ATAGATAGGT TAAACCAGAG GAGCACATCA CAGGAAGAAG CAGTCAATGT GCTGAGAAGT
ACAATTAGTG TTTTGGACAA AGAAAAGGAC AGTCTTCAAG AAACCGTAGA TGAAAAAACA
GAAAGAATTG CATGCTTAGA TGACAACTTA GCTAACAGGG AGAAAACAAT TGCTCATTTA
CGTTTAACTC TCTCTGAGCT GGAGTCCTCA ACAGACCAGA TGCAGGACAT GCTGGGCAAC
AGAGACCGGG AGATATCCAC CTTACGTCGC CAGCTTGATA CATCCCAGAT AGAGCTTGCA
GAAATGGGAA GAGTGAAGGA AATGGCTCTG AAAGAAAACA GGCGACTGCA AGATGATCTG
GCTACAGTGG CCAGAGAAAA CCAGGCTATC AGTACCGAGC TTAAAGATGC AATACGTGAA
AAAGAAGAAA TGAAAACCAG GGTTCATAGT TATATAACTG AAGTCTCCAG ATTTGAGAAC
TTGATAGCTT CAAAGGAAAA AGAAAACCAA GAATTGTTAG AGAAGTTCCA GATGCTGCAT
ACACAAGCTG AAGGCTGGGA AATAAAGGCT CATCAAGCTG AAGGAGAAAG CAGCTCCATA
CGACTGGAAC TCCTTTCAGT AGATACAGAT CGGAAACATC TTCGAGAGAG AGTAGAACTT
CTGGAAAAAG AGATTCAAGG GCATATTGTT GCACATCAAG TATATGAATC TCAGATCTCC
TCCATAACCA AAAATATGTC CAGATTGGAA GAGGATCTTA AACGTGAAAA TCAGGATAAA
GCTTCTGTGT TGGCAGACCT CACTTCTGTG AGAGAACTCT GTGTGAAACT TGAGGCTAGC
AAAGAACTTT TAGCTCGACA GCTGACATCC AAAAGCATGG ATTATGAAAG GGTTCTAGGA
GAATTAGAAG ATACAAAATC AGAAGGAGAG TTGCTGAAAA AGCAGCTATC CAGTGAGAGA
CTTACAGTTC AGAATCTTGA AACGTTATTG GCTACTAGTA GAGACAAAGA ATTTCAGAAT
CAATTAATGT CCCAAGACAA AGATACCGAA ATTCAGTTAC TGAAAGACAA GCTAACACTG
GCTGAGAGCA AACTAAGCAG CAATAATAGA GAGGTTTCCA TGCTTCGAAG TAAACTTGCA
CAGATGCAGA CTGACACAGA TGTTTTAAAA AGGAAACTGA CCACTGAGCG ATTTGAACGG
GAGCGAGCGA TCCAGGAGAT GCGTCGGCAC GGCCTCTCCA CCTCCTCGCT CCGGGCTTCG
CCTCCGCTCA GCTCCACGCT GAGGTCGCCC TCGCGTTCTC CAGAGCGCAG CGCTGCAGGA
ACAACTGAGC AAGCAGCAGC TGAAAAAAAT GTGACCTTCA AGGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012428969.1 CDS 53..3580 Translation 
Target ORF information:
RefSeq Version XM_012573515.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135kDa (CEP135), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012573515.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTAC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AGAAGAATTC TTTTCTGGTA TTAATTTTTC AGACATTTTA ATTAGCAAAT
TTTAACATCA GTTTATTGAT CACTTTTCAG AGCGAAGAGC TTAAATCAAT CACTAGAGAA
AGAGATGAGC TGCGGTCTGT GTTAGACAGA TTTGAAAAAC ACATGATAGA AATTCAGTCC
AATGTCAAAT TATTGACTGC AGAAAGAGAT AGATTAAAAG TTCTTTATGA GCAGTCTCAG
AGTGAATTGA ACAGGATGAG AAGAGAAGCA AAACACAGTT TTCTTTCTCA AAGTCACACA
GAAGAAGAAC GTGACATTGC GCTGATTGAC TTTAAAATAC TAATGGCAGA AAAAGAAAGT
CTTGAAGAAA AATTAAAGAT GCATCAAGAA ACAGCAGACC ATGAAAAATC AAAGCTGCAG
CATGATGTTT CAGAACTGGA GAATAACATT AAGGGACTTC AGATTGAAAA GTGTGAACTA
AGGACTACAG TCTCTATCCT GAAAGAAAGA ATAAACTATT TGGAAAATGA GTTAAATCTG
AAGTCAAGTA AACTTGCCCA GACTTCTGAC GATTCTTCTC AATTTAAAGC TGAGATTTGC
TCACTTCAGC TCTTAAATGA CCAACACCAG AAGTCTATTG AAGATTTACA GCACAGATTG
TCCCTCAAAA AGGATGAACT GCTGACAGCT CAAGATGAAA TTATAAAGCT GAAAGAGATA
ATAGATAGGT TAAACCAGAG GAGCACATCA CAGGAAGAAG CAGTCAATGT GCTGAGAAGT
ACAATTAGTG TTTTGGACAA AGAAAAGGAC AGTCTTCAAG AAACCGTAGA TGAAAAAACA
GAAAGAATTG CATGCTTAGA TGACAACTTA GCTAACAGGG AGAAAACAAT TGCTCATTTA
CGTTTAACTC TCTCTGAGCT GGAGTCCTCA ACAGACCAGA TGCAGGACAT GCTGGGCAAC
AGAGACCGGG AGATATCCAC CTTACGTCGC CAGCTTGATA CATCCCAGAT AGAGCTTGCA
GAAATGGGAA GAGTGAAGGA AATGGCTCTG AAAGAAAACA GGCGACTGCA AGATGATCTG
GCTACAGTGG CCAGAGAAAA CCAGGCTATC AGTACCGAGC TTAAAGATGC AATACGTGAA
AAAGAAGAAA TGAAAACCAG GGTTCATAGT TATATAACTG AAGTCTCCAG ATTTGAGAAC
TTGATAGCTT CAAAGGAAAA AGAAAACCAA GAATTGTTAG AGAAGTTCCA GATGCTGCAT
ACACAAGCTG AAGGCTGGGA AATAAAGGCT CATCAAGCTG AAGGAGAAAG CAGCTCCATA
CGACTGGAAC TCCTTTCAGT AGATACAGAT CGGAAACATC TTCGAGAGAG AGTAGAACTT
CTGGAAAAAG AGATTCAAGG GCATATTGTT GCACATCAAG TATATGAATC TCAGATCTCC
TCCATAACCA AAAATATGTC CAGATTGGAA GAGGATCTTA AACGTGAAAA TCAGGATAAA
GCTTCTGTGT TGGCAGACCT CACTTCTGTG AGAGAACTCT GTGTGAAACT TGAGGCTAGC
AAAGAACTTT TAGCTCGACA GCTGACATCC AAAAGCATGG ATTATGAAAG GGTTCTAGGA
GAATTAGAAG ATACAAAATC AGAAGGAGAG TTGCTGAAAA AGCAGCTATC CAGTGAGAGA
CTTACAGTTC AGAATCTTGA AACGTTATTG GCTACTAGTA GAGACAAAGA ATTTCAGAAT
CAATTAATGT CCCAAGACAA AGATACCGAA ATTCAGTTAC TGAAAGACAA GCTAACACTG
GCTGAGAGCA AACTAAGCAG CAATAATAGA GAGGTTTCCA TGCTTCGAAG TAAACTTGCA
CAGATGCAGA CTGACACAGA TGTTTTAAAA AGGAAACTGA CCACTGAGCG ATTTGAACGG
GAGCGAGCGA TCCAGGAGAT GCGTCGGCAC GGCCTCTCCA CCTCCTCGCT CCGGGCTTCG
CCTCCGCTCA GCTCCACGCT GAGGTCGCCC TCGCGTTCTC CAGAGCGCAG CGCTGCAGGA
ACAACTGAGC AAGCAGCAGC TGAAAAAAAT GTGACCTTCA AGGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271119.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126979.1 CDS 1128..4580 Translation
Target ORF information:
RefSeq Version XM_030271119.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271119.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271124.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126984.1 CDS 948..4400 Translation
Target ORF information:
RefSeq Version XM_030271124.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271124.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271122.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126982.1 CDS 506..3958 Translation
Target ORF information:
RefSeq Version XM_030271122.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271122.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271125.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126985.1 CDS 180..3632 Translation
Target ORF information:
RefSeq Version XM_030271125.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271125.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271120.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126980.1 CDS 503..3955 Translation
Target ORF information:
RefSeq Version XM_030271120.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271120.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271123.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126983.1 CDS 490..3942 Translation
Target ORF information:
RefSeq Version XM_030271123.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271123.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271117.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126977.1 CDS 1141..4593 Translation
Target ORF information:
RefSeq Version XM_030271117.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271117.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44411 Clone ID Related Accession (Same CDS sequence) XM_030271119.1 , XM_030271124.1 , XM_030271122.1 , XM_030271125.1 , XM_030271120.1 , XM_030271123.1 , XM_030271117.1 , XM_030271118.1 Accession Version XM_030271118.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126978.1 CDS 877..4329 Translation
Target ORF information:
RefSeq Version XM_030271118.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271118.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTA
AGCAGCAATA ATAGAGAGGT TTCCATGCTT CGAAGTAAAC TTGCACAGAT GCAGACTGAC
ACAGATGTTT TAAAAAGGAA ACTGACCACT GAGCGATTTG AACGGGAGCG AGCGATCCAG
GAGATGCGTC GGCACGGCCT CTCCACCTCC TCGCTCCGGG CTTCGCCTCC GCTCAGCTCC
ACGCTGAGGT CGCCCTCGCG TTCTCCAGAG CGCAGCGCTG CAGGAACAAC TGAGCAAGCA
GCAGCTGAAA AAAATGTGAC CTTCAAGGAA TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44412 Clone ID Related Accession (Same CDS sequence) XM_030271126.1 Accession Version XM_030271126.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3207bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product centrosomal protein of 135 kDa isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTC
ATATGCCTGT CTTTGAAGGA TATATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030126986.1 CDS 1141..4347 Translation
Target ORF information:
RefSeq Version XM_030271126.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata centrosomal protein 135 (CEP135), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271126.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAGTACAA ATGCAGAGCG AAGGTTTGTT AATCTCAGGA AACGCCTGAA TCAGCTGGGC
TATCGGCACC CACTGGGAGT GGACAGTTTA CCTTTGGTGG AAAAGCTTTT CAGTGACTTA
GTTCATACAA CTGAGAGCTT GCGCAAAGCA AAGTTTTCTT CTGGAAAAAC TGAGAAAGAA
TGCAGCAATT ATGATACTAT TTTGGAACCT TATAAAACAG AGAATGCTAG ACTTACTAGG
GAAAATAATG ATCTACATTT AGAAATATTA AAACTGAAAG AGCAGTCTGA TCGTCATGTT
AAAGATTTGA AAGCCTCCTT AAGGAGGATT GAACATGAAA CAACTGACTT GAAATTTTTG
AATAACCAGT ATATACATAA AATTAAAATG CTGGAAAAAG AGACCAAAGC CAAGACTGAA
AAAATTCAGC AGCTTCAGGA GAAGAATCTG CAAGCAGTGG TGCAAACACC TGGTGGCAGG
AGGAAAAGCA TTCCCTTCAG GCGTCAGCGC ATGCAGATAG ACCAGTTTGT GCCCCCCTCA
GGTGTCAGTG CCTACCCAGT GCCTCAGCCA GAGGACCCGT ACATCGCAGA CCTTCTCCAG
GTGGCTGATA ATCGAATTCA AGAACTGCAG TCAGAAGTAA CAGAGCTACA GGAAAAACTG
GAGACATCTG AAAGTGGAAT GAAAAAATAT AGCAAACAGG TTGAGATACG AGACAAAGAA
ATTGAGCGCT TAATGCTGGC ATTGGGTGGT GGGCGTTCTC ATGAGGTTCT CTCTCTGGAA
TCAAGAACTA AAAGTAATGA GAAGCTTATT TCCCACTTGA ATATACAGGT TGATTATCTT
CAGAAAAAAA ACAAAGAACT TGAAAATCAC ATTCAAGATC TCTTGGATAC TAAACAAAAT
GTGACTAGTG AGGTAGTGGA TTTAAGCAAT AAAAATGAAG AACTGTGTCA AGAACTGAAT
GAAATAGATC ACTTGGCACA GCAGTTGGAA AGACACAAAG AAATAGTGCT TGAGACTGCA
GATAAGGAAA TAGGAGAAGC AAAGAAAGAA ATTGAAAGAC AATTCAGTGA AATACAGGAT
CTACAAGAAA CGATAACAAG GCTTAAATCA GAGTTGTGCT CATGTCATAA GGAGAATGAG
AGACTGAATG AAGAACTCTT TGGGAAAACA GATGAAAAAG GGAATCTTGA GCTGTTGTTA
AACCAGCTTC AACAAGAGAA GCAAAGGCTG ACAGAAAAAA CAGAGAACTT AGAAAGAAAA
GAACGAGAAC TTGTCCTAGA AATTGAAAGA ATGAGATTGG ACTATGGTAT TGCCCTAGGA
GACAAATCTC CATCTCGTCT AGATGCATTT GTAAAGACCT TAGAAGATGA CAGAGACTTC
TATAAGCGAG AATTAGACTA TCTTCAGAAA ATGGTAAAAC TAAGGCCTAG CCCAAGCCGC
AGGACTGCAG AAAAGAGCGA AGAGCTTAAA TCAATCACTA GAGAAAGAGA TGAGCTGCGG
TCTGTGTTAG ACAGATTTGA AAAACACATG ATAGAAATTC AGTCCAATGT CAAATTATTG
ACTGCAGAAA GAGATAGATT AAAAGTTCTT TATGAGCAGT CTCAGAGTGA ATTGAACAGG
ATGAGAAGAG AAGCAAAACA CAGTTTTCTT TCTCAAAGTC ACACAGAAGA AGAACGTGAC
ATTGCACTGA TTGACTTTAA AATACTAATG GCAGAAAAAG AAAGTCTTGA AGAAAAATTA
AAGATGCATC AAGAAACAGC AGACCATGAA AAATCAAAGC TGCAGCATGA TGTTTCAGAA
CTGGAGAATA ACATTAAAGG ACTTCAGATT GAAAAGTGTG AACTAAGGAC TACAGTCTCT
ATCCTGAAAG AAAGAATAAA CTATTTGGAA AATGAGTTAA ATCTGAAGTC AAGTAAACTT
GCCCAGACTT CTGACGATTC TTCTCAATTT AAAGCTGAGA TTTGCTCACT TCAGCTCTTA
AATGACCAAC ACCAGAAGTC TATTGAAGAT TTACAGCACA GATTGTCCCT CAAAAAGGAT
GAACTGCTGA CAGCTCAAGA TGAAATTATA AAGCTGAAAG AGATAATAGA TAGGTTAAAC
CAGAGGAGCA CATCACAGGA AGAAGCAGTC AATGTGCTGA GAAGTACAAT TAGTGTTTTG
GACAAAGAAA AGGACAGTCT TCAAGAAACC GTAGATGAAA AAACAGAAAG AATTGCATGC
TTAGATGACA ACTTAGCTAA CAGGGAGAAA ACAATTGCTC ATTTACGTTT AACTCTCTCT
GAGCTGGAGT CCTCAACAGA CCAGATGCAG GACATGCTGG GCAACAGAGA CCGGGAGATA
TCCACCTTAC GTCGCCAGCT TGATACATCC CAGATAGAGC TTGCAGAAAT GGGAAGAGTG
AAGGAAATGG CTCTGAAAGA AAACAGGCGA CTGCAAGATG ATCTGGCTAC AGTGGCCAGA
GAAAACCAGG CTATCAGTAC CGAGCTTAAA GATGCAATAC GTGAAAAAGA AGAAATGAAA
ACCAGGGTTC ATAGTTATAT AACTGAAGTC TCCAGATTTG AGAACTTGAT AGCTTCAAAG
GAAAAAGAAA ACCAAGAATT GTTAGAGAAG TTCCAGATGC TGCATACACA AGCTGAAGGC
TGGGAAATAA AGGCTCATCA AGCTGAAGGA GAAAGCAGCT CCATACGACT GGAACTCCTT
TCAGTAGATA CAGATCGGAA ACATCTTCGA GAGAGAGTAG AACTTCTGGA AAAAGAGATT
CAAGGGCATA TTGTTGCACA TCAAGTATAT GAATCTCAGA TCTCCTCCAT AACCAAAAAT
ATGTCCAGAT TGGAAGAGGA TCTTAAACGT GAAAATCAGG ATAAAGCTTC TGTGTTAGCA
GACCTCACTT CTGTGAGAGA ACTCTGTGTG AAACTTGAGG CTAGCAAAGA ACTTTTAGCT
CGACAGCTGA CATCCAAAAG CATGGATTAT GAAAGGGTTC TAGGAGAATT AGAAGATACA
AAATCAGAAG GAGAGTTGCT GAAAAAGCAG CTATCCAGTG AGAGACTTAC AGTTCAGAAT
CTTGAAACGT TATTGGCTAC TAGTAGAGAC AAAGAATTTC AGAATCAATT AATGTCCCAA
GACAAAGATA CCGAAATTCA GTTACTGAAA GACAAGCTAA CACTGGCTGA GAGCAAACTC
ATATGCCTGT CTTTGAAGGA TATATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Challenges in Neoantigen Peptide Manufacturing | GenScript
- Potential Monoclonal Antibody Drugs for Seasonal Influenza
- Delving into the World of Cyclic Peptides: Harnessing the Power of Circular Molecules for Innovative Therapeutic Solutions
- A New Peptide Anti-Inflammatory Strategy in Treating Heart Disease
- Empowering Dendritic Cells for Improved Oncotherapy
- CRISPR for Human Embryo Editing
- Engineering E. coli to Fight Viral Infections
- Using mathematics, scientists predict the start of a sixth mass extinction in 2100
-
-
-
PubMed
-
