| Gene Symbol | RET |
| Entrez Gene ID | 100994039 |
| Full Name | ret proto-oncogene |
| Gene Type | protein-coding |
| Organism | Pan paniscus(pygmy chimpanzee) |
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RET cDNA ORF clone, Pan paniscus(pygmy chimpanzee)
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Gene
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Clones
gRNAs
The following RET gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RET 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.
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Reference Sequences (Refseq)
CloneID OPa449845 Clone ID Related Accession (Same CDS sequence) XM_024930504.1 Accession Version XM_024930504.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2583bp)
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 1525017600000 Organism Pan paniscus(pygmy chimpanzee) Product proto-oncogene tyrosine-protein kinase receptor Ret Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_027878.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan paniscus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
2581ATGGTGCCCT TCCCGGTGAC CGTGTACGAC GAGGACGACT CGGCGCCCAC CTTCCCCGCG
GGCGTCGACA CCGCCAGCGC CGTGGTGGAG TTCAAGCGGA AGGAGGACAC CGTGGTGGCC
ACGCTGCGTG TCTTCGATGC AGACGTGGTA CCTGCATCAG GGGAGCTGGT GAGGCGGTAC
ACAAGCACGC TGCTCCCCGG GGACACCTGG GCCCAGCAGA CCTTCCGGGT GGAGCACTGG
CCCAACGAGA CCTCGGTCCA GGCCAACGGC AGCTTCGTGC GGGCGACCGT ACATGACTAT
AGGCTGGTTC TCAACCGGAA CCTCTCCATC TCGGAGAACC GCACCATGCA GCTGGTGGTG
CTGGTCAATG ACTCAGACTT CCAGGGCCCA GGAGCGGGCG TCCTCTTGCT CCACTTCAAC
GTGTCGGTGC TGCCGGTCAG CCTGCATCTG CCCAGTACCT ACTCCCTCTC CGTGAGCAGG
AGGGCTCGCC GATTTGCCCA GATCGGGAAA GTCTGTGTGG AAAACTGCCA GGCGTTCAGT
GGCATCAACG TCCAGTACGA GCTGCATTCC TCTGGCGCCA ACTGCAGCAC GCTAGGGGTG
GTCACCTCAG CCGAGGACAC CTCGGGGATC CTGTTTGTGA ATGACACCAA GGCCCTGCGG
CGGCCCAAGT GTGCCGAACT TCACTACATG GTGGTGGCCA CCGACCAGCA GACCTCCAGA
CAGGCCCAGG GCCAGCTGCT TGTAACGGTG GAGGGGTCAT ATGTGGCCGA GGAGGCGGGC
TGCCCCCTGT CCTGTGCAGT CAGCAAGAGA CGGCTGGAGT GTGAGGAGTG TGGCGGCCTG
GGCTCCCCAA CAGGCAGGTG TGAGTGGAGG CAAGGAGATG GCAAAGGGAT CACCAGGAAC
TTCTCCACTT GCTCTCCCAG CACCAAGACC TGCCCCGACG GCCACTGCGA TGTTGTGGAG
ACCCAAGACA TCAACATTTG CCCTCAGGAC TGCCTCCGGG GCAGCATTGT CGGGGGACAC
GAGCCTGGGG AGCCCCGGGG GATTAAAGCT GGCTATGGCA CCTGCAACTG CTTCCCTGAG
GAGGAGAAGT GCTTCTGCGA GCCCGAAGAC ATCCAGGATC CACTGTGCGA CGAGCTGTGC
CGCACAGTGA TCGCAGCCGC CGTCCTCTTC TCCTTCATCG TCTCGGTGCT GCTGTCTGCC
TTCTGCATCC ACCGCTACCA CAAGTTTGCC CACAAGCCAC CCATCCCCTC AGCTGAGATG
ACCTTCCGGA GGCCCGCCCA GGCCTTCCCG GTCAGCTACT CCTCTTCCGG TGCCCGCCGG
CCCTCGCTGG ACTCCATGGA GAACCAGGTC TCTGTGGATG CCTTCAAGAT TCCGGAGGAT
CCAAAGTGGG AATTCCCTCG GAAGAACTTG GTTCTTGGAA AAACTCTAGG AGAAGGCGAA
TTTGGAAAAG TGGTCAAGGC AACGGCCTTC CGTCTGAAAG GCAGAGCAGG GTACACCACG
GTGGCCGTGA AGATGCTGAA AGAGAACGCC TCCCCGAGTG AGCTGCGAGA CCTGCTGTCA
GAGTTCAACC TCCTGAAGCA GGTCAACCAC CCACATGTCA TCAAATTGTA TGGGGCCTGC
AGCCAGGATG GCCCGCTCCT CCTCATCGTG GAGTACGCCA AATACGGCTC CCTGCGGGGC
TTCCTCCGCG AGAGCCGCAA AGTGGGGCCT GGCTACCTGG GCAGTGGAGG CAGCCGCAAC
TCCAGCTCCC TGGACCACCC GGATGAGCGG GCCCTCACCA TGGGCGACCT CATCTCATTT
GCCTGGCAGA TCTCACGGGG GATGCAGTAT CTGGCCGAGA TGAAGCTCGT TCATCGGGAC
TTGGCAGCCA GAAACATCCT GGTAGCTGAG GGGCGGAAGA TGAAGATTTC GGATTTCGGC
TTGTCCCGAG ATGTTTATGA AGAGGATTCC TACGTGAAGA GGAGCAAGGG TCGGATTCCA
GTTAAATGGA TGGCAATTGA ATCCCTTTTT GATCATATCT ACACCACGCA AAGTGATGTA
TGGTCTTTTG GTGTCCTGCT GTGGGAGATT GTGACCCTAG GGGGAAACCC CTATCCTGGG
ATTCCTCCTG AGCGGCTCTT CAACCTTCTG AAGACCGGCC ACCGGATGGA GAGGCCAGAC
AACTGCAGCG AGGAGATGTA CCGCCTGATG CTGCAATGCT GGAAGCAGGA GCCGGACAAA
AGGCCGGTGT TTGCGGACAT CAGCAAAGAC CTGGAGAAGA TGATGGTTAA GAGCAGAGAC
TACTTGGACC TTGCGGCGTC CACTCCGTCT GACTCCCTGC TTTATGACGA CGGCCTCTCA
GAGGAGGAGA CACCGCTGGT GGACTGTAAT AATGCCCCCC TCCCTCGAGC CCTCCCTTCC
ACATGGATTG AAAACAAACT CTATGGCATG TCAGACCCGA ACTGGCCTGG AGAGAGTCCT
GTACCACTCA CGAGAGCTGA TGGCACTAAC ACTGGGTTTC CAAGATATGC AAATGATAGT
GTATATGCTA ACTGGATGCT TTCACCCTCA GCGGCAAAAT TAATGGACAC GTTTGATAGT
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024786272.1 CDS 557..3139 Translation 
Target ORF information:
RefSeq Version XM_024930504.1 Organism Pan paniscus(pygmy chimpanzee) Definition Pan paniscus ret proto-oncogene (RET), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_024930504.1
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
2581ATGGTGCCCT TCCCGGTGAC CGTGTACGAC GAGGACGACT CGGCGCCCAC CTTCCCCGCG
GGCGTCGACA CCGCCAGCGC CGTGGTGGAG TTCAAGCGGA AGGAGGACAC CGTGGTGGCC
ACGCTGCGTG TCTTCGATGC AGACGTGGTA CCTGCATCAG GGGAGCTGGT GAGGCGGTAC
ACAAGCACGC TGCTCCCCGG GGACACCTGG GCCCAGCAGA CCTTCCGGGT GGAGCACTGG
CCCAACGAGA CCTCGGTCCA GGCCAACGGC AGCTTCGTGC GGGCGACCGT ACATGACTAT
AGGCTGGTTC TCAACCGGAA CCTCTCCATC TCGGAGAACC GCACCATGCA GCTGGTGGTG
CTGGTCAATG ACTCAGACTT CCAGGGCCCA GGAGCGGGCG TCCTCTTGCT CCACTTCAAC
GTGTCGGTGC TGCCGGTCAG CCTGCATCTG CCCAGTACCT ACTCCCTCTC CGTGAGCAGG
AGGGCTCGCC GATTTGCCCA GATCGGGAAA GTCTGTGTGG AAAACTGCCA GGCGTTCAGT
GGCATCAACG TCCAGTACGA GCTGCATTCC TCTGGCGCCA ACTGCAGCAC GCTAGGGGTG
GTCACCTCAG CCGAGGACAC CTCGGGGATC CTGTTTGTGA ATGACACCAA GGCCCTGCGG
CGGCCCAAGT GTGCCGAACT TCACTACATG GTGGTGGCCA CCGACCAGCA GACCTCCAGA
CAGGCCCAGG GCCAGCTGCT TGTAACGGTG GAGGGGTCAT ATGTGGCCGA GGAGGCGGGC
TGCCCCCTGT CCTGTGCAGT CAGCAAGAGA CGGCTGGAGT GTGAGGAGTG TGGCGGCCTG
GGCTCCCCAA CAGGCAGGTG TGAGTGGAGG CAAGGAGATG GCAAAGGGAT CACCAGGAAC
TTCTCCACTT GCTCTCCCAG CACCAAGACC TGCCCCGACG GCCACTGCGA TGTTGTGGAG
ACCCAAGACA TCAACATTTG CCCTCAGGAC TGCCTCCGGG GCAGCATTGT CGGGGGACAC
GAGCCTGGGG AGCCCCGGGG GATTAAAGCT GGCTATGGCA CCTGCAACTG CTTCCCTGAG
GAGGAGAAGT GCTTCTGCGA GCCCGAAGAC ATCCAGGATC CACTGTGCGA CGAGCTGTGC
CGCACAGTGA TCGCAGCCGC CGTCCTCTTC TCCTTCATCG TCTCGGTGCT GCTGTCTGCC
TTCTGCATCC ACCGCTACCA CAAGTTTGCC CACAAGCCAC CCATCCCCTC AGCTGAGATG
ACCTTCCGGA GGCCCGCCCA GGCCTTCCCG GTCAGCTACT CCTCTTCCGG TGCCCGCCGG
CCCTCGCTGG ACTCCATGGA GAACCAGGTC TCTGTGGATG CCTTCAAGAT TCCGGAGGAT
CCAAAGTGGG AATTCCCTCG GAAGAACTTG GTTCTTGGAA AAACTCTAGG AGAAGGCGAA
TTTGGAAAAG TGGTCAAGGC AACGGCCTTC CGTCTGAAAG GCAGAGCAGG GTACACCACG
GTGGCCGTGA AGATGCTGAA AGAGAACGCC TCCCCGAGTG AGCTGCGAGA CCTGCTGTCA
GAGTTCAACC TCCTGAAGCA GGTCAACCAC CCACATGTCA TCAAATTGTA TGGGGCCTGC
AGCCAGGATG GCCCGCTCCT CCTCATCGTG GAGTACGCCA AATACGGCTC CCTGCGGGGC
TTCCTCCGCG AGAGCCGCAA AGTGGGGCCT GGCTACCTGG GCAGTGGAGG CAGCCGCAAC
TCCAGCTCCC TGGACCACCC GGATGAGCGG GCCCTCACCA TGGGCGACCT CATCTCATTT
GCCTGGCAGA TCTCACGGGG GATGCAGTAT CTGGCCGAGA TGAAGCTCGT TCATCGGGAC
TTGGCAGCCA GAAACATCCT GGTAGCTGAG GGGCGGAAGA TGAAGATTTC GGATTTCGGC
TTGTCCCGAG ATGTTTATGA AGAGGATTCC TACGTGAAGA GGAGCAAGGG TCGGATTCCA
GTTAAATGGA TGGCAATTGA ATCCCTTTTT GATCATATCT ACACCACGCA AAGTGATGTA
TGGTCTTTTG GTGTCCTGCT GTGGGAGATT GTGACCCTAG GGGGAAACCC CTATCCTGGG
ATTCCTCCTG AGCGGCTCTT CAACCTTCTG AAGACCGGCC ACCGGATGGA GAGGCCAGAC
AACTGCAGCG AGGAGATGTA CCGCCTGATG CTGCAATGCT GGAAGCAGGA GCCGGACAAA
AGGCCGGTGT TTGCGGACAT CAGCAAAGAC CTGGAGAAGA TGATGGTTAA GAGCAGAGAC
TACTTGGACC TTGCGGCGTC CACTCCGTCT GACTCCCTGC TTTATGACGA CGGCCTCTCA
GAGGAGGAGA CACCGCTGGT GGACTGTAAT AATGCCCCCC TCCCTCGAGC CCTCCCTTCC
ACATGGATTG AAAACAAACT CTATGGCATG TCAGACCCGA ACTGGCCTGG AGAGAGTCCT
GTACCACTCA CGAGAGCTGA TGGCACTAAC ACTGGGTTTC CAAGATATGC AAATGATAGT
GTATATGCTA ACTGGATGCT TTCACCCTCA GCGGCAAAAT TAATGGACAC GTTTGATAGT
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPa57937 Clone ID Related Accession (Same CDS sequence) XM_003816717.2 Accession Version XM_003816717.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3390bp)
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 1443456000000 Organism Pan paniscus(pygmy chimpanzee) Product proto-oncogene tyrosine-protein kinase receptor Ret Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014014114.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 2, 2014 this sequence version replaced XM_003816717.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan paniscus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##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
3361ATGGAGATGC CCAGGCTGCT GATCAGCATG CTGCACACCA GCATAGAGAC AGGATTAACA
GCCCAGGGCC TGGATATGGC TGGCGAAAAT GCAGCACCCC CCTCCCACCC CGAGGGCACT
GTCATGGGAG CAGTGTTCCT GATGTGTGTC CTGGAGGAGC CCAGCGGCCC TGGGGGTGTT
CTCAACTGCT GCTGCAGGCC CCGCCCTCCG GACCCCTCAG CAACCTCAAG CAGCAACCGT
CTGGTGGCAT TGGGCCTCTA CTTCTCGAGG GATGCTTACT GGGAGAAGCT GTATGTGGAC
CAGCCGGCCG GCACGCCCTT GCTGTACGTC CATGCCCTGC GGGACGCCCC TGAGGAGGTG
CCCAGCTTCC GCCTGGGCCA GCATCTCTAC GGCACATACC GCACACGGCT GCATGAGAAC
AACTGGATCT GCATCCAGGA GGACACCGGC CTCCTCTACC TTAACCGGAG CCTGGACCAT
AGCTCCTGGG AGAAGCTCAG TGTCCGCAAC CGCGGCTTTC CCCTGCTCAC CGTCTACCTC
AAGGTCTTCC TGTCACCCAC ATCCCTTCGT GAGGGCGAGT GCCAGTGGCC AGGCTGTGCC
CGCGTATACT TCTCCTTCTT CAACACCTCC TTTCCAGCCT GCAGCTCCCT CAAGCCCCGG
GAGCTCTGCT TCCCAGAGAC AAGGCCCTCC TTCCGCATTC GGGAGAACCG ACCCCCAGGC
ACCTTCCACC AGTTCCGCCT GCTGCCTGTG CAGTTCTTGT GCCCCAACAT CAGCGTGGCC
TACAGGCTCC TGGAGGGTGA GGGTCTGCCC TTCCGCTGCG CCCCGGACAG CCTGGAGGTG
AGCACGCGCT GGGCCCTGGA CCGCGAGCAG CGGGAGAAGT ACGAGCTGGT GGCCGTGTGC
ACCGTGCACG CCGGCGCGCG CGAGGAGGTG GTGATGGTGC CCTTCCCGGT GACCGTGTAC
GACGAGGACG ACTCGGCGCC CACCTTCCCC GCGGGCGTCG ACACCGCCAG CGCCGTGGTG
GAGTTCAAGC GGAAGGAGGA CACCGTGGTG GCCACGCTGC GTGTCTTCGA TGCAGACGTG
GTACCTGCAT CAGGGGAGCT GGTGAGGCGG TACACAAGCA CGCTGCTCCC CGGGGACACC
TGGGCCCAGC AGACCTTCCG GGTGGAGCAC TGGCCCAACG AGACCTCGGT CCAGGCCAAC
GGCAGCTTCG TGCGGGCGAC CGTACATGAC TATAGGCTGG TTCTCAACCG GAACCTCTCC
ATCTCGGAGA ACCGCACCAT GCAGCTGGTG GTGCTGGTCA ATGACTCAGA CTTCCAGGGC
CCAGGAGCGG GCGTCCTCTT GCTCCACTTC AACGTGTCGG TGCTGCCGGT CAGCCTGCAT
CTGCCCAGTA CCTACTCCCT CTCCGTGAGC AGGAGGGCTC GCCGATTTGC CCAGATCGGG
AAAGTCTGTG TGGAAAACTG CCAGGCGTTC AGTGGCATCA ACGTCCAGTA CGAGCTGCAT
TCCTCTGGCG CCAACTGCAG CACGCTAGGG GTGGTCACCT CAGCCGAGGA CACCTCGGGG
ATCCTGTTTG TGAATGACAC CAAGGCCCTG CGGCGGCCCA AGTGTGCCGA ACTTCACTAC
ATGGTGGTGG CCACCGACCA GCAGACCTCC AGACAGGCCC AGGGCCAGCT GCTTGTAACG
GTGGAGGGGT CATATGTGGC CGAGGAGGCG GGCTGCCCCC TGTCCTGTGC AGTCAGCAAG
AGACGGCTGG AGTGTGAGGA GTGTGGCGGC CTGGGCTCCC CAACAGGCAG GTGTGAGTGG
AGGCAAGGAG ATGGCAAAGG GATCACCAGG AACTTCTCCA CTTGCTCTCC CAGCACCAAG
ACCTGCCCCG ACGGCCACTG CGATGTTGTG GAGACCCAAG ACATCAACAT TTGCCCTCAG
GACTGCCTCC GGGGCAGCAT TGTCGGGGGA CACGAGCCTG GGGAGCCCCG GGGGATTAAA
GCTGGCTATG GCACCTGCAA CTGCTTCCCT GAGGAGGAGA AGTGCTTCTG CGAGCCCGAA
GACATCCAGG ATCCACTGTG CGACGAGCTG TGCCGCACAG TGATCGCAGC CGCCGTCCTC
TTCTCCTTCA TCGTCTCGGT GCTGCTGTCT GCCTTCTGCA TCCACCGCTA CCACAAGTTT
GCCCACAAGC CACCCATCCC CTCAGCTGAG ATGACCTTCC GGAGGCCCGC CCAGGCCTTC
CCGGTCAGCT ACTCCTCTTC CGGTGCCCGC CGGCCCTCGC TGGACTCCAT GGAGAACCAG
GTCTCTGTGG ATGCCTTCAA GATTCCGGAG GATCCAAAGT GGGAATTCCC TCGGAAGAAC
TTGGTTCTTG GAAAAACTCT AGGAGAAGGC GAATTTGGAA AAGTGGTCAA GGCAACGGCC
TTCCGTCTGA AAGGCAGAGC AGGGTACACC ACGGTGGCCG TGAAGATGCT GAAAGAGAAC
GCCTCCCCGA GTGAGCTGCG AGACCTGCTG TCAGAGTTCA ACCTCCTGAA GCAGGTCAAC
CACCCACATG TCATCAAATT GTATGGGGCC TGCAGCCAGG ATGGCCCGCT CCTCCTCATC
GTGGAGTACG CCAAATACGG CTCCCTGCGG GGCTTCCTCC GCGAGAGCCG CAAAGTGGGG
CCTGGCTACC TGGGCAGTGG AGGCAGCCGC AACTCCAGCT CCCTGGACCA CCCGGATGAG
CGGGCCCTCA CCATGGGCGA CCTCATCTCA TTTGCCTGGC AGATCTCACG GGGGATGCAG
TATCTGGCCG AGATGAAGCT CGTTCATCGG GACTTGGCAG CCAGAAACAT CCTGGTAGCT
GAGGGGCGGA AGATGAAGAT TTCGGATTTC GGCTTGTCCC GAGATGTTTA TGAAGAGGAT
TCCTACGTGA AGAGGAGCAA GGGTCGGATT CCAGTTAAAT GGATGGCAAT TGAATCCCTT
TTTGATCATA TCTACACCAC GCAAAGTGAT GTATGGTCTT TTGGTGTCCT GCTGTGGGAG
ATTGTGACCC TAGGGGGAAA CCCCTATCCT GGGATTCCTC CTGAGCGGCT CTTCAACCTT
CTGAAGACCG GCCACCGGAT GGAGAGGCCA GACAACTGCA GCGAGGAGAT GTACCGCCTG
ATGCTGCAAT GCTGGAAGCA GGAGCCGGAC AAAAGGCCGG TGTTTGCGGA CATCAGCAAA
GACCTGGAGA AGATGATGGT TAAGAGCAGA GACTACTTGG ACCTTGCGGC GTCCACTCCG
TCTGACTCCC TGCTTTATGA CGACGGCCTC TCAGAGGAGG AGACACCGCT GGTGGACTGT
AATAATGCCC CCCTCCCTCG AGCCCTCCCT TCCACATGGA TTGAAAACAA ACTCTATGGT
AGAATTTCCC ATGCATTTAC TAGATTCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_003816765.2 CDS 1..3390 Translation
Target ORF information:
RefSeq Version XM_003816717.2 Organism Pan paniscus(pygmy chimpanzee) Definition Pan paniscus ret proto-oncogene (RET), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_003816717.2
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
3361ATGGAGATGC CCAGGCTGCT GATCAGCATG CTGCACACCA GCATAGAGAC AGGATTAACA
GCCCAGGGCC TGGATATGGC TGGCGAAAAT GCAGCACCCC CCTCCCACCC CGAGGGCACT
GTCATGGGAG CAGTGTTCCT GATGTGTGTC CTGGAGGAGC CCAGCGGCCC TGGGGGTGTT
CTCAACTGCT GCTGCAGGCC CCGCCCTCCG GACCCCTCAG CAACCTCAAG CAGCAACCGT
CTGGTGGCAT TGGGCCTCTA CTTCTCGAGG GATGCTTACT GGGAGAAGCT GTATGTGGAC
CAGCCGGCCG GCACGCCCTT GCTGTACGTC CATGCCCTGC GGGACGCCCC TGAGGAGGTG
CCCAGCTTCC GCCTGGGCCA GCATCTCTAC GGCACATACC GCACACGGCT GCATGAGAAC
AACTGGATCT GCATCCAGGA GGACACCGGC CTCCTCTACC TTAACCGGAG CCTGGACCAT
AGCTCCTGGG AGAAGCTCAG TGTCCGCAAC CGCGGCTTTC CCCTGCTCAC CGTCTACCTC
AAGGTCTTCC TGTCACCCAC ATCCCTTCGT GAGGGCGAGT GCCAGTGGCC AGGCTGTGCC
CGCGTATACT TCTCCTTCTT CAACACCTCC TTTCCAGCCT GCAGCTCCCT CAAGCCCCGG
GAGCTCTGCT TCCCAGAGAC AAGGCCCTCC TTCCGCATTC GGGAGAACCG ACCCCCAGGC
ACCTTCCACC AGTTCCGCCT GCTGCCTGTG CAGTTCTTGT GCCCCAACAT CAGCGTGGCC
TACAGGCTCC TGGAGGGTGA GGGTCTGCCC TTCCGCTGCG CCCCGGACAG CCTGGAGGTG
AGCACGCGCT GGGCCCTGGA CCGCGAGCAG CGGGAGAAGT ACGAGCTGGT GGCCGTGTGC
ACCGTGCACG CCGGCGCGCG CGAGGAGGTG GTGATGGTGC CCTTCCCGGT GACCGTGTAC
GACGAGGACG ACTCGGCGCC CACCTTCCCC GCGGGCGTCG ACACCGCCAG CGCCGTGGTG
GAGTTCAAGC GGAAGGAGGA CACCGTGGTG GCCACGCTGC GTGTCTTCGA TGCAGACGTG
GTACCTGCAT CAGGGGAGCT GGTGAGGCGG TACACAAGCA CGCTGCTCCC CGGGGACACC
TGGGCCCAGC AGACCTTCCG GGTGGAGCAC TGGCCCAACG AGACCTCGGT CCAGGCCAAC
GGCAGCTTCG TGCGGGCGAC CGTACATGAC TATAGGCTGG TTCTCAACCG GAACCTCTCC
ATCTCGGAGA ACCGCACCAT GCAGCTGGTG GTGCTGGTCA ATGACTCAGA CTTCCAGGGC
CCAGGAGCGG GCGTCCTCTT GCTCCACTTC AACGTGTCGG TGCTGCCGGT CAGCCTGCAT
CTGCCCAGTA CCTACTCCCT CTCCGTGAGC AGGAGGGCTC GCCGATTTGC CCAGATCGGG
AAAGTCTGTG TGGAAAACTG CCAGGCGTTC AGTGGCATCA ACGTCCAGTA CGAGCTGCAT
TCCTCTGGCG CCAACTGCAG CACGCTAGGG GTGGTCACCT CAGCCGAGGA CACCTCGGGG
ATCCTGTTTG TGAATGACAC CAAGGCCCTG CGGCGGCCCA AGTGTGCCGA ACTTCACTAC
ATGGTGGTGG CCACCGACCA GCAGACCTCC AGACAGGCCC AGGGCCAGCT GCTTGTAACG
GTGGAGGGGT CATATGTGGC CGAGGAGGCG GGCTGCCCCC TGTCCTGTGC AGTCAGCAAG
AGACGGCTGG AGTGTGAGGA GTGTGGCGGC CTGGGCTCCC CAACAGGCAG GTGTGAGTGG
AGGCAAGGAG ATGGCAAAGG GATCACCAGG AACTTCTCCA CTTGCTCTCC CAGCACCAAG
ACCTGCCCCG ACGGCCACTG CGATGTTGTG GAGACCCAAG ACATCAACAT TTGCCCTCAG
GACTGCCTCC GGGGCAGCAT TGTCGGGGGA CACGAGCCTG GGGAGCCCCG GGGGATTAAA
GCTGGCTATG GCACCTGCAA CTGCTTCCCT GAGGAGGAGA AGTGCTTCTG CGAGCCCGAA
GACATCCAGG ATCCACTGTG CGACGAGCTG TGCCGCACAG TGATCGCAGC CGCCGTCCTC
TTCTCCTTCA TCGTCTCGGT GCTGCTGTCT GCCTTCTGCA TCCACCGCTA CCACAAGTTT
GCCCACAAGC CACCCATCCC CTCAGCTGAG ATGACCTTCC GGAGGCCCGC CCAGGCCTTC
CCGGTCAGCT ACTCCTCTTC CGGTGCCCGC CGGCCCTCGC TGGACTCCAT GGAGAACCAG
GTCTCTGTGG ATGCCTTCAA GATTCCGGAG GATCCAAAGT GGGAATTCCC TCGGAAGAAC
TTGGTTCTTG GAAAAACTCT AGGAGAAGGC GAATTTGGAA AAGTGGTCAA GGCAACGGCC
TTCCGTCTGA AAGGCAGAGC AGGGTACACC ACGGTGGCCG TGAAGATGCT GAAAGAGAAC
GCCTCCCCGA GTGAGCTGCG AGACCTGCTG TCAGAGTTCA ACCTCCTGAA GCAGGTCAAC
CACCCACATG TCATCAAATT GTATGGGGCC TGCAGCCAGG ATGGCCCGCT CCTCCTCATC
GTGGAGTACG CCAAATACGG CTCCCTGCGG GGCTTCCTCC GCGAGAGCCG CAAAGTGGGG
CCTGGCTACC TGGGCAGTGG AGGCAGCCGC AACTCCAGCT CCCTGGACCA CCCGGATGAG
CGGGCCCTCA CCATGGGCGA CCTCATCTCA TTTGCCTGGC AGATCTCACG GGGGATGCAG
TATCTGGCCG AGATGAAGCT CGTTCATCGG GACTTGGCAG CCAGAAACAT CCTGGTAGCT
GAGGGGCGGA AGATGAAGAT TTCGGATTTC GGCTTGTCCC GAGATGTTTA TGAAGAGGAT
TCCTACGTGA AGAGGAGCAA GGGTCGGATT CCAGTTAAAT GGATGGCAAT TGAATCCCTT
TTTGATCATA TCTACACCAC GCAAAGTGAT GTATGGTCTT TTGGTGTCCT GCTGTGGGAG
ATTGTGACCC TAGGGGGAAA CCCCTATCCT GGGATTCCTC CTGAGCGGCT CTTCAACCTT
CTGAAGACCG GCCACCGGAT GGAGAGGCCA GACAACTGCA GCGAGGAGAT GTACCGCCTG
ATGCTGCAAT GCTGGAAGCA GGAGCCGGAC AAAAGGCCGG TGTTTGCGGA CATCAGCAAA
GACCTGGAGA AGATGATGGT TAAGAGCAGA GACTACTTGG ACCTTGCGGC GTCCACTCCG
TCTGACTCCC TGCTTTATGA CGACGGCCTC TCAGAGGAGG AGACACCGCT GGTGGACTGT
AATAATGCCC CCCTCCCTCG AGCCCTCCCT TCCACATGGA TTGAAAACAA ACTCTATGGT
AGAATTTCCC ATGCATTTAC TAGATTCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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