| Gene Symbol | PIGO |
| Entrez Gene ID | 100028427 |
| Full Name | phosphatidylinositol glycan anchor biosynthesis class O |
| Gene Type | protein-coding |
| Organism | Monodelphis domestica(gray short-tailed opossum) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Products
-
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
-
Online Shop
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![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
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
PIGO cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)
-
Gene
-
Clones
gRNAs
The following PIGO gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PIGO 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 OMc27904 Clone ID Related Accession (Same CDS sequence) XM_007498824.2 Accession Version XM_007498824.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2913bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007498824.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581
2641
2701
2761
2821
2881ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGGAG ACGAGTGGTC
TTCATGGGGG ATGACACTTG GGAAGGCTTG TTCCCAGGAG CTTTCTCTCA AGCCTTCTTC
TTCCCCTCCT TCAATGTCAA AGATTTACAC ACTGTGGACA ATGGCATTCT GGAGCACCTG
TACCCAACCA TGGACAGAGA TGACTGGGAC CTGCTGATTG CTCATTTCCT GGGTGTGGAT
CATTGTGGTC ACAAACATGG TCCCCACCAC CCTGAGATGG CCAAGAAGCT CAACCAGATG
GACCAGATGC TTCAGACCCT TGTGGAGCAA CTTGAGAATG ATACCCTGCT GGTGGTGGCT
GGAGATCATG GCATGACAGA GACAGGAGAC CATGGTGGGG ACAGCAAGCC AGAAGTCATG
GCTGCACTCT TTCTCTATAG CCCTTTGCCC CTTTTTCCCG GGGCTTCCCT AAAGGATCCA
GAAGTGGTTC CCCAGGTGAA CTTGGTGCCA ACGCTGGCCC TTCTACTTGG CCTGCCCATA
CCTTTTGGAA ATATTGGAGA GGTGATGGTG GACCTGTTTT CAGGGGAAGG AGATACCCAG
CCTCTTGCTA CAGCTCTTGC CCAGGCCTCT GCCTACCATC TCAATGCCCA GCAGGTATCC
CGATTTCTTC ATGCTTACTC ATTAGCTGCC CAGGACTTGC CCCCTGAGGA ACTGCAGCAC
CTTCAGAACC TCTTCTCCTC TGCATCCTCT GAATATGAAC AATTGCTGGA TCAGCTGAAG
ACTGGAGAGG TCAGAGAGGC TGACATACAG GCTCTGATCT CCCAGCTGAG ATTGTTCTTG
CGGGGGGCAC GGACAGCCTG TACAGAGACG TGGGCTCGAT TCCGCCCAGC CCGAATGATA
GGGGGCACCA TACTTCTGGC CTCCACCTGC CTCCTTTGCT TAATAACCTC TAGGCTTACC
AGCTCCCCTG ACTTCCCTTT CCACTGCTTA CTTCTCAGGG CTGTGGTCTG GGGTCTGGCA
GGGGCTGTTT TGCTAGCTGG GGGACTCATG GCAGCTGGAA TAGGGTTAGA GCCATCTCTG
TTATGTGCAG GGAGTGCAGC TACCTCCCTC ATAGCCTTCC TGTGGGCTTT AAAGTCAAGG
GAGAGTTCAT CAATGACAGT CTTCCTCCCA GGCCCTTTGC CCATCCTGGT GCTCCTGTTC
CTCCGTTCTG CTGCCCTTTT CTCTGATAGC TTTGTCGTGG CTGAGGCATG GGCAGCCCCC
TTCCTTCTGC GTTCACTGTC CCTGTTTCTT GTGGCTCAGT TGCACTGGGA AGGCCGGCTC
CTTGTGGGGG TCTCCACAGC TTGCCTCAGC TCCCCCACAG CATCTCTGGC ACGGCGGGAG
GGTCCACGGG CCCTAGGGCT ACTGGTTGGC CTACTCCTCT GTGTACGTCT CTCCATTCTC
TTCCATCGCT GCCCAGAAGA GACACCTGTT TGCCAGTCAT CACCCTGGTT AGCTCCTCTA
GCCACAATGG CTGGTGGCCA GGCCAAGAAC CTCTGGTATG GGGCATGTCT AGGGACATTA
GGGGTGCTGG TCCTAGCCGT ACGATTTTGG CTGCGCCGCT GTGGGAATCT TAATAGCCCT
GCACCTCCAG TCCTCTTTGT GCGCTGGGGA CTGCCCCTGA TGGCACTGGG TACTGCTGCC
CATTGGGCAT TGGCTTCAGG CACAGATGAG GCACCCCCCC GGCTGCAAGC CCTGGTGTCT
GGGGCTGTGG TTGGTTTGCC CCGGGCTGTC CTGGCTCTGG CAGCCATAGG TCTAGGGCTA
CTGCTTTGGC AGCCTGTCAC AGTATTGGTC AAGACTGGAG CAAGCAGCTC CAACCACATC
ATTGTCCCTT TTGTGGGACC TCCGGCCTCC CAAGCTGACT TGGACTATGT GGTCCCTCAG
ATCTACCGTC GAATGCAGGA GGCACTGAGG GGGAAGCTAG CCAGGGGTGG GGGCCAGACA
CCACTGGCAC TGGCTGCCTA CGGGCTGGGG AGTGTGTACT CTGCCGCCGT GGTGACCGCT
CTTGCCCTGC TGGCCTTCCC ACTGCTGCTG CTGCACACTG AGCGGATCAG CCTCGCCTTC
CTGATCCTCT TCCTGCAGAG TTTCTTACTC TTGCAGCTGC TCGCCACTGC TGTCGGGACC
CCTGCTGGAA GCCCTGGTCC CTTCTCTGTG CCATGGCTAG CCATCTCTGC TTGGGCTCTC
ACAGCCACAC AGACCTTTTA CTCCACTGGC CATCAGCCTG TCTTTCCAGC TATCCATTGG
AATGCTGCCT TTGTGGGCTT CACTGAAGGG CATGGTTCAT CCCCTGTGCT GCCTGCTCTG
CTTGTAGGGG CAAATACCTT TGCCTCCCAC CTTCTTTTTT CAGTTGGCTG CCCATTGCTC
TTGCTCTGGC CCTTTGTGTG TGAAGGCCAA GGCTCTACAA AGAGGAAGAA AACCTTGGCC
AGTGGGACTG AGGTAGGAGG AGAGAAGGAA GAAGAGCCTT TGATGGAGAT GCGTCTCCGG
GATTCCCCTC ACCATTTCAA TGCTGCTCTT CTGCAGCTGG GCCTCAAGTA CCTCTTCATC
CTAGGTGTAC AGGTCTTAGC TTGTGTTCTG GCAGCTTCTA TACTCCGAAG GCATCTCATG
GTGTGGAAGG TGTTTGCTCC CAAGTTCATC TTTGAAGCTG TGGGTTTTGT GGTGAGCAGC
CTAGGGCTCC TCCTGGGTGT GGCCCTGGTG ATGTGGGTAG ACAGAGCTGT AGGGTCCTGG
TTCAAGCAGC TCATCCTTTC CCAAGAGAGG TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007498886.1 CDS 92..3004 Translation 
Target ORF information:
RefSeq Version XM_007498824.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_007498824.2
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
2881ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGGAG ACGAGTGGTC
TTCATGGGGG ATGACACTTG GGAAGGCTTG TTCCCAGGAG CTTTCTCTCA AGCCTTCTTC
TTCCCCTCCT TCAATGTCAA AGATTTACAC ACTGTGGACA ATGGCATTCT GGAGCACCTG
TACCCAACCA TGGACAGAGA TGACTGGGAC CTGCTGATTG CTCATTTCCT GGGTGTGGAT
CATTGTGGTC ACAAACATGG TCCCCACCAC CCTGAGATGG CCAAGAAGCT CAACCAGATG
GACCAGATGC TTCAGACCCT TGTGGAGCAA CTTGAGAATG ATACCCTGCT GGTGGTGGCT
GGAGATCATG GCATGACAGA GACAGGAGAC CATGGTGGGG ACAGCAAGCC AGAAGTCATG
GCTGCACTCT TTCTCTATAG CCCTTTGCCC CTTTTTCCCG GGGCTTCCCT AAAGGATCCA
GAAGTGGTTC CCCAGGTGAA CTTGGTGCCA ACGCTGGCCC TTCTACTTGG CCTGCCCATA
CCTTTTGGAA ATATTGGAGA GGTGATGGTG GACCTGTTTT CAGGGGAAGG AGATACCCAG
CCTCTTGCTA CAGCTCTTGC CCAGGCCTCT GCCTACCATC TCAATGCCCA GCAGGTATCC
CGATTTCTTC ATGCTTACTC ATTAGCTGCC CAGGACTTGC CCCCTGAGGA ACTGCAGCAC
CTTCAGAACC TCTTCTCCTC TGCATCCTCT GAATATGAAC AATTGCTGGA TCAGCTGAAG
ACTGGAGAGG TCAGAGAGGC TGACATACAG GCTCTGATCT CCCAGCTGAG ATTGTTCTTG
CGGGGGGCAC GGACAGCCTG TACAGAGACG TGGGCTCGAT TCCGCCCAGC CCGAATGATA
GGGGGCACCA TACTTCTGGC CTCCACCTGC CTCCTTTGCT TAATAACCTC TAGGCTTACC
AGCTCCCCTG ACTTCCCTTT CCACTGCTTA CTTCTCAGGG CTGTGGTCTG GGGTCTGGCA
GGGGCTGTTT TGCTAGCTGG GGGACTCATG GCAGCTGGAA TAGGGTTAGA GCCATCTCTG
TTATGTGCAG GGAGTGCAGC TACCTCCCTC ATAGCCTTCC TGTGGGCTTT AAAGTCAAGG
GAGAGTTCAT CAATGACAGT CTTCCTCCCA GGCCCTTTGC CCATCCTGGT GCTCCTGTTC
CTCCGTTCTG CTGCCCTTTT CTCTGATAGC TTTGTCGTGG CTGAGGCATG GGCAGCCCCC
TTCCTTCTGC GTTCACTGTC CCTGTTTCTT GTGGCTCAGT TGCACTGGGA AGGCCGGCTC
CTTGTGGGGG TCTCCACAGC TTGCCTCAGC TCCCCCACAG CATCTCTGGC ACGGCGGGAG
GGTCCACGGG CCCTAGGGCT ACTGGTTGGC CTACTCCTCT GTGTACGTCT CTCCATTCTC
TTCCATCGCT GCCCAGAAGA GACACCTGTT TGCCAGTCAT CACCCTGGTT AGCTCCTCTA
GCCACAATGG CTGGTGGCCA GGCCAAGAAC CTCTGGTATG GGGCATGTCT AGGGACATTA
GGGGTGCTGG TCCTAGCCGT ACGATTTTGG CTGCGCCGCT GTGGGAATCT TAATAGCCCT
GCACCTCCAG TCCTCTTTGT GCGCTGGGGA CTGCCCCTGA TGGCACTGGG TACTGCTGCC
CATTGGGCAT TGGCTTCAGG CACAGATGAG GCACCCCCCC GGCTGCAAGC CCTGGTGTCT
GGGGCTGTGG TTGGTTTGCC CCGGGCTGTC CTGGCTCTGG CAGCCATAGG TCTAGGGCTA
CTGCTTTGGC AGCCTGTCAC AGTATTGGTC AAGACTGGAG CAAGCAGCTC CAACCACATC
ATTGTCCCTT TTGTGGGACC TCCGGCCTCC CAAGCTGACT TGGACTATGT GGTCCCTCAG
ATCTACCGTC GAATGCAGGA GGCACTGAGG GGGAAGCTAG CCAGGGGTGG GGGCCAGACA
CCACTGGCAC TGGCTGCCTA CGGGCTGGGG AGTGTGTACT CTGCCGCCGT GGTGACCGCT
CTTGCCCTGC TGGCCTTCCC ACTGCTGCTG CTGCACACTG AGCGGATCAG CCTCGCCTTC
CTGATCCTCT TCCTGCAGAG TTTCTTACTC TTGCAGCTGC TCGCCACTGC TGTCGGGACC
CCTGCTGGAA GCCCTGGTCC CTTCTCTGTG CCATGGCTAG CCATCTCTGC TTGGGCTCTC
ACAGCCACAC AGACCTTTTA CTCCACTGGC CATCAGCCTG TCTTTCCAGC TATCCATTGG
AATGCTGCCT TTGTGGGCTT CACTGAAGGG CATGGTTCAT CCCCTGTGCT GCCTGCTCTG
CTTGTAGGGG CAAATACCTT TGCCTCCCAC CTTCTTTTTT CAGTTGGCTG CCCATTGCTC
TTGCTCTGGC CCTTTGTGTG TGAAGGCCAA GGCTCTACAA AGAGGAAGAA AACCTTGGCC
AGTGGGACTG AGGTAGGAGG AGAGAAGGAA GAAGAGCCTT TGATGGAGAT GCGTCTCCGG
GATTCCCCTC ACCATTTCAA TGCTGCTCTT CTGCAGCTGG GCCTCAAGTA CCTCTTCATC
CTAGGTGTAC AGGTCTTAGC TTGTGTTCTG GCAGCTTCTA TACTCCGAAG GCATCTCATG
GTGTGGAAGG TGTTTGCTCC CAAGTTCATC TTTGAAGCTG TGGGTTTTGT GGTGAGCAGC
CTAGGGCTCC TCCTGGGTGT GGCCCTGGTG ATGTGGGTAG ACAGAGCTGT AGGGTCCTGG
TTCAAGCAGC TCATCCTTTC CCAAGAGAGG TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27905 Clone ID Related Accession (Same CDS sequence) XM_007498825.2 Accession Version XM_007498825.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2880bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007498825.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581
2641
2701
2761
2821ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGGTAG TTGGCTGCCC ATTGCTCTTG CTCTGGCCCT TTGTGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007498887.1 CDS 92..2971 Translation
Target ORF information:
RefSeq Version XM_007498825.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007498825.2
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
2821ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGGTAG TTGGCTGCCC ATTGCTCTTG CTCTGGCCCT TTGTGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27906 Clone ID Related Accession (Same CDS sequence) XM_007498826.1 Accession Version XM_007498826.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2613bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) 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 Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581ATGCAAAAAG TGGACAGAGA TGACTGGGAC CTGCTGATTG CTCATTTCCT GGGTGTGGAT
CATTGTGGTC ACAAACATGG TCCCCACCAC CCTGAGATGG CCAAGAAGCT CAACCAGATG
GACCAGATGC TTCAGACCCT TGTGGAGCAA CTTGAGAATG ATACCCTGCT GGTGGTGGCT
GGAGATCATG GCATGACAGA GACAGGAGAC CATGGTGGGG ACAGCAAGCC AGAAGTCATG
GCTGCACTCT TTCTCTATAG CCCTTTGCCC CTTTTTCCCG GGGCTTCCCT AAAGGATCCA
GAAGTGGTTC CCCAGGTGAA CTTGGTGCCA ACGCTGGCCC TTCTACTTGG CCTGCCCATA
CCTTTTGGAA ATATTGGAGA GGTGATGGTG GACCTGTTTT CAGGGGAAGG AGATACCCAG
CCTCTTGCTA CAGCTCTTGC CCAGGCCTCT GCCTACCATC TCAATGCCCA GCAGGTATCC
CGATTTCTTC ATGCTTACTC ATTAGCTGCC CAGGACTTGC CCCCTGAGGA ACTGCAGCAC
CTTCAGAACC TCTTCTCCTC TGCATCCTCT GAATATGAAC AATTGCTGGA TCAGCTGAAG
ACTGGAGAGG TCAGAGAGGC TGACATACAG GCTCTGATCT CCCAGCTGAG ATTGTTCTTG
CGGGGGGCAC GGACAGCCTG TACAGAGACG TGGGCTCGAT TCCGCCCAGC CCGAATGATA
GGGGGCACCA TACTTCTGGC CTCCACCTGC CTCCTTTGCT TAATAACCTC TAGGCTTACC
AGCTCCCCTG ACTTCCCTTT CCACTGCTTA CTTCTCAGGG CTGTGGTCTG GGGTCTGGCA
GGGGCTGTTT TGCTAGCTGG GGGACTCATG GCAGCTGGAA TAGGGTTAGA GCCATCTCTG
TTATGTGCAG GGAGTGCAGC TACCTCCCTC ATAGCCTTCC TGTGGGCTTT AAAGTCAAGG
GAGAGTTCAT CAATGACAGT CTTCCTCCCA GGCCCTTTGC CCATCCTGGT GCTCCTGTTC
CTCCGTTCTG CTGCCCTTTT CTCTGATAGC TTTGTCGTGG CTGAGGCATG GGCAGCCCCC
TTCCTTCTGC GTTCACTGTC CCTGTTTCTT GTGGCTCAGT TGCACTGGGA AGGCCGGCTC
CTTGTGGGGG TCTCCACAGC TTGCCTCAGC TCCCCCACAG CATCTCTGGC ACGGCGGGAG
GGTCCACGGG CCCTAGGGCT ACTGGTTGGC CTACTCCTCT GTGTACGTCT CTCCATTCTC
TTCCATCGCT GCCCAGAAGA GACACCTGTT TGCCAGTCAT CACCCTGGTT AGCTCCTCTA
GCCACAATGG CTGGTGGCCA GGCCAAGAAC CTCTGGTATG GGGCATGTCT AGGGACATTA
GGGGTGCTGG TCCTAGCCGT ACGATTTTGG CTGCGCCGCT GTGGGAATCT TAATAGCCCT
GCACCTCCAG TCCTCTTTGT GCGCTGGGGA CTGCCCCTGA TGGCACTGGG TACTGCTGCC
CATTGGGCAT TGGCTTCAGG CACAGATGAG GCACCCCCCC GGCTGCAAGC CCTGGTGTCT
GGGGCTGTGG TTGGTTTGCC CCGGGCTGTC CTGGCTCTGG CAGCCATAGG TCTAGGGCTA
CTGCTTTGGC AGCCTGTCAC AGTATTGGTC AAGACTGGAG CAAGCAGCTC CAACCACATC
ATTGTCCCTT TTGTGGGACC TCCGGCCTCC CAAGCTGACT TGGACTATGT GGTCCCTCAG
ATCTACCGTC GAATGCAGGA GGCACTGAGG GGGAAGCTAG CCAGGGGTGG GGGCCAGACA
CCACTGGCAC TGGCTGCCTA CGGGCTGGGG AGTGTGTACT CTGCCGCCGT GGTGACCGCT
CTTGCCCTGC TGGCCTTCCC ACTGCTGCTG CTGCACACTG AGCGGATCAG CCTCGCCTTC
CTGATCCTCT TCCTGCAGAG TTTCTTACTC TTGCAGCTGC TCGCCACTGC TGTCGGGACC
CCTGCTGGAA GCCCTGGTCC CTTCTCTGTG CCATGGCTAG CCATCTCTGC TTGGGCTCTC
ACAGCCACAC AGACCTTTTA CTCCACTGGC CATCAGCCTG TCTTTCCAGC TATCCATTGG
AATGCTGCCT TTGTGGGCTT CACTGAAGGG CATGGTTCAT CCCCTGTGCT GCCTGCTCTG
CTTGTAGGGG CAAATACCTT TGCCTCCCAC CTTCTTTTTT CAGTTGGCTG CCCATTGCTC
TTGCTCTGGC CCTTTGTGTG TGAAGGCCAA GGCTCTACAA AGAGGAAGAA AACCTTGGCC
AGTGGGACTG AGGTAGGAGG AGAGAAGGAA GAAGAGCCTT TGATGGAGAT GCGTCTCCGG
GATTCCCCTC ACCATTTCAA TGCTGCTCTT CTGCAGCTGG GCCTCAAGTA CCTCTTCATC
CTAGGTGTAC AGGTCTTAGC TTGTGTTCTG GCAGCTTCTA TACTCCGAAG GCATCTCATG
GTGTGGAAGG TGTTTGCTCC CAAGTTCATC TTTGAAGCTG TGGGTTTTGT GGTGAGCAGC
CTAGGGCTCC TCCTGGGTGT GGCCCTGGTG ATGTGGGTAG ACAGAGCTGT AGGGTCCTGG
TTCAAGCAGC TCATCCTTTC CCAAGAGAGG TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007498888.1 CDS 260..2872 Translation
Target ORF information:
RefSeq Version XM_007498826.1 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007498826.1
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
2581ATGCAAAAAG TGGACAGAGA TGACTGGGAC CTGCTGATTG CTCATTTCCT GGGTGTGGAT
CATTGTGGTC ACAAACATGG TCCCCACCAC CCTGAGATGG CCAAGAAGCT CAACCAGATG
GACCAGATGC TTCAGACCCT TGTGGAGCAA CTTGAGAATG ATACCCTGCT GGTGGTGGCT
GGAGATCATG GCATGACAGA GACAGGAGAC CATGGTGGGG ACAGCAAGCC AGAAGTCATG
GCTGCACTCT TTCTCTATAG CCCTTTGCCC CTTTTTCCCG GGGCTTCCCT AAAGGATCCA
GAAGTGGTTC CCCAGGTGAA CTTGGTGCCA ACGCTGGCCC TTCTACTTGG CCTGCCCATA
CCTTTTGGAA ATATTGGAGA GGTGATGGTG GACCTGTTTT CAGGGGAAGG AGATACCCAG
CCTCTTGCTA CAGCTCTTGC CCAGGCCTCT GCCTACCATC TCAATGCCCA GCAGGTATCC
CGATTTCTTC ATGCTTACTC ATTAGCTGCC CAGGACTTGC CCCCTGAGGA ACTGCAGCAC
CTTCAGAACC TCTTCTCCTC TGCATCCTCT GAATATGAAC AATTGCTGGA TCAGCTGAAG
ACTGGAGAGG TCAGAGAGGC TGACATACAG GCTCTGATCT CCCAGCTGAG ATTGTTCTTG
CGGGGGGCAC GGACAGCCTG TACAGAGACG TGGGCTCGAT TCCGCCCAGC CCGAATGATA
GGGGGCACCA TACTTCTGGC CTCCACCTGC CTCCTTTGCT TAATAACCTC TAGGCTTACC
AGCTCCCCTG ACTTCCCTTT CCACTGCTTA CTTCTCAGGG CTGTGGTCTG GGGTCTGGCA
GGGGCTGTTT TGCTAGCTGG GGGACTCATG GCAGCTGGAA TAGGGTTAGA GCCATCTCTG
TTATGTGCAG GGAGTGCAGC TACCTCCCTC ATAGCCTTCC TGTGGGCTTT AAAGTCAAGG
GAGAGTTCAT CAATGACAGT CTTCCTCCCA GGCCCTTTGC CCATCCTGGT GCTCCTGTTC
CTCCGTTCTG CTGCCCTTTT CTCTGATAGC TTTGTCGTGG CTGAGGCATG GGCAGCCCCC
TTCCTTCTGC GTTCACTGTC CCTGTTTCTT GTGGCTCAGT TGCACTGGGA AGGCCGGCTC
CTTGTGGGGG TCTCCACAGC TTGCCTCAGC TCCCCCACAG CATCTCTGGC ACGGCGGGAG
GGTCCACGGG CCCTAGGGCT ACTGGTTGGC CTACTCCTCT GTGTACGTCT CTCCATTCTC
TTCCATCGCT GCCCAGAAGA GACACCTGTT TGCCAGTCAT CACCCTGGTT AGCTCCTCTA
GCCACAATGG CTGGTGGCCA GGCCAAGAAC CTCTGGTATG GGGCATGTCT AGGGACATTA
GGGGTGCTGG TCCTAGCCGT ACGATTTTGG CTGCGCCGCT GTGGGAATCT TAATAGCCCT
GCACCTCCAG TCCTCTTTGT GCGCTGGGGA CTGCCCCTGA TGGCACTGGG TACTGCTGCC
CATTGGGCAT TGGCTTCAGG CACAGATGAG GCACCCCCCC GGCTGCAAGC CCTGGTGTCT
GGGGCTGTGG TTGGTTTGCC CCGGGCTGTC CTGGCTCTGG CAGCCATAGG TCTAGGGCTA
CTGCTTTGGC AGCCTGTCAC AGTATTGGTC AAGACTGGAG CAAGCAGCTC CAACCACATC
ATTGTCCCTT TTGTGGGACC TCCGGCCTCC CAAGCTGACT TGGACTATGT GGTCCCTCAG
ATCTACCGTC GAATGCAGGA GGCACTGAGG GGGAAGCTAG CCAGGGGTGG GGGCCAGACA
CCACTGGCAC TGGCTGCCTA CGGGCTGGGG AGTGTGTACT CTGCCGCCGT GGTGACCGCT
CTTGCCCTGC TGGCCTTCCC ACTGCTGCTG CTGCACACTG AGCGGATCAG CCTCGCCTTC
CTGATCCTCT TCCTGCAGAG TTTCTTACTC TTGCAGCTGC TCGCCACTGC TGTCGGGACC
CCTGCTGGAA GCCCTGGTCC CTTCTCTGTG CCATGGCTAG CCATCTCTGC TTGGGCTCTC
ACAGCCACAC AGACCTTTTA CTCCACTGGC CATCAGCCTG TCTTTCCAGC TATCCATTGG
AATGCTGCCT TTGTGGGCTT CACTGAAGGG CATGGTTCAT CCCCTGTGCT GCCTGCTCTG
CTTGTAGGGG CAAATACCTT TGCCTCCCAC CTTCTTTTTT CAGTTGGCTG CCCATTGCTC
TTGCTCTGGC CCTTTGTGTG TGAAGGCCAA GGCTCTACAA AGAGGAAGAA AACCTTGGCC
AGTGGGACTG AGGTAGGAGG AGAGAAGGAA GAAGAGCCTT TGATGGAGAT GCGTCTCCGG
GATTCCCCTC ACCATTTCAA TGCTGCTCTT CTGCAGCTGG GCCTCAAGTA CCTCTTCATC
CTAGGTGTAC AGGTCTTAGC TTGTGTTCTG GCAGCTTCTA TACTCCGAAG GCATCTCATG
GTGTGGAAGG TGTTTGCTCC CAAGTTCATC TTTGAAGCTG TGGGTTTTGT GGTGAGCAGC
CTAGGGCTCC TCCTGGGTGT GGCCCTGGTG ATGTGGGTAG ACAGAGCTGT AGGGTCCTGG
TTCAAGCAGC TCATCCTTTC CCAAGAGAGG TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27907 Clone ID Related Accession (Same CDS sequence) XM_007498827.2 Accession Version XM_007498827.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2115bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007498827.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2101ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGATCTACCG TCGAATGCAG
GAGGCACTGA GGGGGAAGCT AGCCAGGGGT GGGGGCCAGA CACCACTGGC ACTGGCTGCC
TACGGGCTGG GGAGTGTGTA CTCTGCCGCC GTGGTGACCG CTCTTGCCCT GCTGGCCTTC
CCACTGCTGC TGCTGCACAC TGAGCGGATC AGCCTCGCCT TCCTGATCCT CTTCCTGCAG
AGTTTCTTAC TCTTGCAGCT GCTCGCCACT GCTGTCGGGA CCCCTGCTGG AAGCCCTGGT
CCCTTCTCTG TGCCATGGCT AGCCATCTCT GCTTGGGCTC TCACAGCCAC ACAGACCTTT
TACTCCACTG GCCATCAGCC TGTCTTTCCA GCTATCCATT GGAATGCTGC CTTTGTGGGC
TTCACTGAAG GGCATGGTTC ATCCCCTGTG CTGCCTGCTC TGCTTGTAGG GGCAAATACC
TTTGCCTCCC ACCTTCTTTT TTCAGTTGGC TGCCCATTGC TCTTGCTCTG GCCCTTTGTG
TGTGAAGGCC AAGGCTCTAC AAAGAGGAAG AAAACCTTGG CCAGTGGGAC TGAGGTAGGA
GGAGAGAAGG AAGAAGAGCC TTTGATGGAG ATGCGTCTCC GGGATTCCCC TCACCATTTC
AATGCTGCTC TTCTGCAGCT GGGCCTCAAG TACCTCTTCA TCCTAGGTGT ACAGGTCTTA
GCTTGTGTTC TGGCAGCTTC TATACTCCGA AGGCATCTCA TGGTGTGGAA GGTGTTTGCT
CCCAAGTTCA TCTTTGAAGC TGTGGGTTTT GTGGTGAGCA GCCTAGGGCT CCTCCTGGGT
GTGGCCCTGG TGATGTGGGT AGACAGAGCT GTAGGGTCCT GGTTCAAGCA GCTCATCCTT
TCCCAAGAGA GGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007498889.1 CDS 91..2205 Translation
Target ORF information:
RefSeq Version XM_007498827.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007498827.2
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
2101ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGATCTACCG TCGAATGCAG
GAGGCACTGA GGGGGAAGCT AGCCAGGGGT GGGGGCCAGA CACCACTGGC ACTGGCTGCC
TACGGGCTGG GGAGTGTGTA CTCTGCCGCC GTGGTGACCG CTCTTGCCCT GCTGGCCTTC
CCACTGCTGC TGCTGCACAC TGAGCGGATC AGCCTCGCCT TCCTGATCCT CTTCCTGCAG
AGTTTCTTAC TCTTGCAGCT GCTCGCCACT GCTGTCGGGA CCCCTGCTGG AAGCCCTGGT
CCCTTCTCTG TGCCATGGCT AGCCATCTCT GCTTGGGCTC TCACAGCCAC ACAGACCTTT
TACTCCACTG GCCATCAGCC TGTCTTTCCA GCTATCCATT GGAATGCTGC CTTTGTGGGC
TTCACTGAAG GGCATGGTTC ATCCCCTGTG CTGCCTGCTC TGCTTGTAGG GGCAAATACC
TTTGCCTCCC ACCTTCTTTT TTCAGTTGGC TGCCCATTGC TCTTGCTCTG GCCCTTTGTG
TGTGAAGGCC AAGGCTCTAC AAAGAGGAAG AAAACCTTGG CCAGTGGGAC TGAGGTAGGA
GGAGAGAAGG AAGAAGAGCC TTTGATGGAG ATGCGTCTCC GGGATTCCCC TCACCATTTC
AATGCTGCTC TTCTGCAGCT GGGCCTCAAG TACCTCTTCA TCCTAGGTGT ACAGGTCTTA
GCTTGTGTTC TGGCAGCTTC TATACTCCGA AGGCATCTCA TGGTGTGGAA GGTGTTTGCT
CCCAAGTTCA TCTTTGAAGC TGTGGGTTTT GTGGTGAGCA GCCTAGGGCT CCTCCTGGGT
GTGGCCCTGG TGATGTGGGT AGACAGAGCT GTAGGGTCCT GGTTCAAGCA GCTCATCCTT
TCCCAAGAGA GGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27902 Clone ID Related Accession (Same CDS sequence) XM_016424040.1 , XM_001378425.4 Accession Version XM_016424040.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3246bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) 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 Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGTTGG CTGCCCATTG CTCTTGCTCT GGCCCTTTGT GTGTGAAGGC
CAAGGCTCTA CAAAGAGGAA GAAAACCTTG GCCAGTGGGA CTGAGGTAGG AGGAGAGAAG
GAAGAAGAGC CTTTGATGGA GATGCGTCTC CGGGATTCCC CTCACCATTT CAATGCTGCT
CTTCTGCAGC TGGGCCTCAA GTACCTCTTC ATCCTAGGTG TACAGGTCTT AGCTTGTGTT
CTGGCAGCTT CTATACTCCG AAGGCATCTC ATGGTGTGGA AGGTGTTTGC TCCCAAGTTC
ATCTTTGAAG CTGTGGGTTT TGTGGTGAGC AGCCTAGGGC TCCTCCTGGG TGTGGCCCTG
GTGATGTGGG TAGACAGAGC TGTAGGGTCC TGGTTCAAGC AGCTCATCCT TTCCCAAGAG
AGGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_016279526.1 CDS 179..3424 Translation
Target ORF information:
RefSeq Version XM_016424040.1 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_016424040.1
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
3241ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGTTGG CTGCCCATTG CTCTTGCTCT GGCCCTTTGT GTGTGAAGGC
CAAGGCTCTA CAAAGAGGAA GAAAACCTTG GCCAGTGGGA CTGAGGTAGG AGGAGAGAAG
GAAGAAGAGC CTTTGATGGA GATGCGTCTC CGGGATTCCC CTCACCATTT CAATGCTGCT
CTTCTGCAGC TGGGCCTCAA GTACCTCTTC ATCCTAGGTG TACAGGTCTT AGCTTGTGTT
CTGGCAGCTT CTATACTCCG AAGGCATCTC ATGGTGTGGA AGGTGTTTGC TCCCAAGTTC
ATCTTTGAAG CTGTGGGTTT TGTGGTGAGC AGCCTAGGGC TCCTCCTGGG TGTGGCCCTG
GTGATGTGGG TAGACAGAGC TGTAGGGTCC TGGTTCAAGC AGCTCATCCT TTCCCAAGAG
AGGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27902 Clone ID Related Accession (Same CDS sequence) XM_016424040.1 , XM_001378425.4 Accession Version XM_001378425.4 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3246bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001378425.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGTTGG CTGCCCATTG CTCTTGCTCT GGCCCTTTGT GTGTGAAGGC
CAAGGCTCTA CAAAGAGGAA GAAAACCTTG GCCAGTGGGA CTGAGGTAGG AGGAGAGAAG
GAAGAAGAGC CTTTGATGGA GATGCGTCTC CGGGATTCCC CTCACCATTT CAATGCTGCT
CTTCTGCAGC TGGGCCTCAA GTACCTCTTC ATCCTAGGTG TACAGGTCTT AGCTTGTGTT
CTGGCAGCTT CTATACTCCG AAGGCATCTC ATGGTGTGGA AGGTGTTTGC TCCCAAGTTC
ATCTTTGAAG CTGTGGGTTT TGTGGTGAGC AGCCTAGGGC TCCTCCTGGG TGTGGCCCTG
GTGATGTGGG TAGACAGAGC TGTAGGGTCC TGGTTCAAGC AGCTCATCCT TTCCCAAGAG
AGGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001378462.1 CDS 92..3337 Translation
Target ORF information:
RefSeq Version XM_001378425.4 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_001378425.4
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
3241ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGG GAGACGAGTG GTCTTCATGG GGGATGACAC TTGGGAAGGC
TTGTTCCCAG GAGCTTTCTC TCAAGCCTTC TTCTTCCCCT CCTTCAATGT CAAAGATTTA
CACACTGTGG ACAATGGCAT TCTGGAGCAC CTGTACCCAA CCATGGACAG AGATGACTGG
GACCTGCTGA TTGCTCATTT CCTGGGTGTG GATCATTGTG GTCACAAACA TGGTCCCCAC
CACCCTGAGA TGGCCAAGAA GCTCAACCAG ATGGACCAGA TGCTTCAGAC CCTTGTGGAG
CAACTTGAGA ATGATACCCT GCTGGTGGTG GCTGGAGATC ATGGCATGAC AGAGACAGGA
GACCATGGTG GGGACAGCAA GCCAGAAGTC ATGGCTGCAC TCTTTCTCTA TAGCCCTTTG
CCCCTTTTTC CCGGGGCTTC CCTAAAGGAT CCAGAAGTGG TTCCCCAGGT GAACTTGGTG
CCAACGCTGG CCCTTCTACT TGGCCTGCCC ATACCTTTTG GAAATATTGG AGAGGTGATG
GTGGACCTGT TTTCAGGGGA AGGAGATACC CAGCCTCTTG CTACAGCTCT TGCCCAGGCC
TCTGCCTACC ATCTCAATGC CCAGCAGGTA TCCCGATTTC TTCATGCTTA CTCATTAGCT
GCCCAGGACT TGCCCCCTGA GGAACTGCAG CACCTTCAGA ACCTCTTCTC CTCTGCATCC
TCTGAATATG AACAATTGCT GGATCAGCTG AAGACTGGAG AGGTCAGAGA GGCTGACATA
CAGGCTCTGA TCTCCCAGCT GAGATTGTTC TTGCGGGGGG CACGGACAGC CTGTACAGAG
ACGTGGGCTC GATTCCGCCC AGCCCGAATG ATAGGGGGCA CCATACTTCT GGCCTCCACC
TGCCTCCTTT GCTTAATAAC CTCTAGGCTT ACCAGCTCCC CTGACTTCCC TTTCCACTGC
TTACTTCTCA GGGCTGTGGT CTGGGGTCTG GCAGGGGCTG TTTTGCTAGC TGGGGGACTC
ATGGCAGCTG GAATAGGGTT AGAGCCATCT CTGTTATGTG CAGGGAGTGC AGCTACCTCC
CTCATAGCCT TCCTGTGGGC TTTAAAGTCA AGGGAGAGTT CATCAATGAC AGTCTTCCTC
CCAGGCCCTT TGCCCATCCT GGTGCTCCTG TTCCTCCGTT CTGCTGCCCT TTTCTCTGAT
AGCTTTGTCG TGGCTGAGGC ATGGGCAGCC CCCTTCCTTC TGCGTTCACT GTCCCTGTTT
CTTGTGGCTC AGTTGCACTG GGAAGGCCGG CTCCTTGTGG GGGTCTCCAC AGCTTGCCTC
AGCTCCCCCA CAGCATCTCT GGCACGGCGG GAGGGTCCAC GGGCCCTAGG GCTACTGGTT
GGCCTACTCC TCTGTGTACG TCTCTCCATT CTCTTCCATC GCTGCCCAGA AGAGACACCT
GTTTGCCAGT CATCACCCTG GTTAGCTCCT CTAGCCACAA TGGCTGGTGG CCAGGCCAAG
AACCTCTGGT ATGGGGCATG TCTAGGGACA TTAGGGGTGC TGGTCCTAGC CGTACGATTT
TGGCTGCGCC GCTGTGGGAA TCTTAATAGC CCTGCACCTC CAGTCCTCTT TGTGCGCTGG
GGACTGCCCC TGATGGCACT GGGTACTGCT GCCCATTGGG CATTGGCTTC AGGCACAGAT
GAGGCACCCC CCCGGCTGCA AGCCCTGGTG TCTGGGGCTG TGGTTGGTTT GCCCCGGGCT
GTCCTGGCTC TGGCAGCCAT AGGTCTAGGG CTACTGCTTT GGCAGCCTGT CACAGTATTG
GTCAAGACTG GAGCAAGCAG CTCCAACCAC ATCATTGTCC CTTTTGTGGG ACCTCCGGCC
TCCCAAGCTG ACTTGGACTA TGTGGTCCCT CAGATCTACC GTCGAATGCA GGAGGCACTG
AGGGGGAAGC TAGCCAGGGG TGGGGGCCAG ACACCACTGG CACTGGCTGC CTACGGGCTG
GGGAGTGTGT ACTCTGCCGC CGTGGTGACC GCTCTTGCCC TGCTGGCCTT CCCACTGCTG
CTGCTGCACA CTGAGCGGAT CAGCCTCGCC TTCCTGATCC TCTTCCTGCA GAGTTTCTTA
CTCTTGCAGC TGCTCGCCAC TGCTGTCGGG ACCCCTGCTG GAAGCCCTGG TCCCTTCTCT
GTGCCATGGC TAGCCATCTC TGCTTGGGCT CTCACAGCCA CACAGACCTT TTACTCCACT
GGCCATCAGC CTGTCTTTCC AGCTATCCAT TGGAATGCTG CCTTTGTGGG CTTCACTGAA
GGGCATGGTT CATCCCCTGT GCTGCCTGCT CTGCTTGTAG GGGCAAATAC CTTTGCCTCC
CACCTTCTTT TTTCAGTTGG CTGCCCATTG CTCTTGCTCT GGCCCTTTGT GTGTGAAGGC
CAAGGCTCTA CAAAGAGGAA GAAAACCTTG GCCAGTGGGA CTGAGGTAGG AGGAGAGAAG
GAAGAAGAGC CTTTGATGGA GATGCGTCTC CGGGATTCCC CTCACCATTT CAATGCTGCT
CTTCTGCAGC TGGGCCTCAA GTACCTCTTC ATCCTAGGTG TACAGGTCTT AGCTTGTGTT
CTGGCAGCTT CTATACTCCG AAGGCATCTC ATGGTGTGGA AGGTGTTTGC TCCCAAGTTC
ATCTTTGAAG CTGTGGGTTT TGTGGTGAGC AGCCTAGGGC TCCTCCTGGG TGTGGCCCTG
GTGATGTGGG TAGACAGAGC TGTAGGGTCC TGGTTCAAGC AGCTCATCCT TTCCCAAGAG
AGGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc27903 Clone ID Related Accession (Same CDS sequence) XM_007498823.2 Accession Version XM_007498823.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3102bp)
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 1461600000000 Organism Monodelphis domestica(gray short-tailed opossum) Product GPI ethanolamine phosphate transferase 3 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007498823.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGT GGACAGAGAT GACTGGGACC TGCTGATTGC TCATTTCCTG
GGTGTGGATC ATTGTGGTCA CAAACATGGT CCCCACCACC CTGAGATGGC CAAGAAGCTC
AACCAGATGG ACCAGATGCT TCAGACCCTT GTGGAGCAAC TTGAGAATGA TACCCTGCTG
GTGGTGGCTG GAGATCATGG CATGACAGAG ACAGGAGACC ATGGTGGGGA CAGCAAGCCA
GAAGTCATGG CTGCACTCTT TCTCTATAGC CCTTTGCCCC TTTTTCCCGG GGCTTCCCTA
AAGGATCCAG AAGTGGTTCC CCAGGTGAAC TTGGTGCCAA CGCTGGCCCT TCTACTTGGC
CTGCCCATAC CTTTTGGAAA TATTGGAGAG GTGATGGTGG ACCTGTTTTC AGGGGAAGGA
GATACCCAGC CTCTTGCTAC AGCTCTTGCC CAGGCCTCTG CCTACCATCT CAATGCCCAG
CAGGTATCCC GATTTCTTCA TGCTTACTCA TTAGCTGCCC AGGACTTGCC CCCTGAGGAA
CTGCAGCACC TTCAGAACCT CTTCTCCTCT GCATCCTCTG AATATGAACA ATTGCTGGAT
CAGCTGAAGA CTGGAGAGGT CAGAGAGGCT GACATACAGG CTCTGATCTC CCAGCTGAGA
TTGTTCTTGC GGGGGGCACG GACAGCCTGT ACAGAGACGT GGGCTCGATT CCGCCCAGCC
CGAATGATAG GGGGCACCAT ACTTCTGGCC TCCACCTGCC TCCTTTGCTT AATAACCTCT
AGGCTTACCA GCTCCCCTGA CTTCCCTTTC CACTGCTTAC TTCTCAGGGC TGTGGTCTGG
GGTCTGGCAG GGGCTGTTTT GCTAGCTGGG GGACTCATGG CAGCTGGAAT AGGGTTAGAG
CCATCTCTGT TATGTGCAGG GAGTGCAGCT ACCTCCCTCA TAGCCTTCCT GTGGGCTTTA
AAGTCAAGGG AGAGTTCATC AATGACAGTC TTCCTCCCAG GCCCTTTGCC CATCCTGGTG
CTCCTGTTCC TCCGTTCTGC TGCCCTTTTC TCTGATAGCT TTGTCGTGGC TGAGGCATGG
GCAGCCCCCT TCCTTCTGCG TTCACTGTCC CTGTTTCTTG TGGCTCAGTT GCACTGGGAA
GGCCGGCTCC TTGTGGGGGT CTCCACAGCT TGCCTCAGCT CCCCCACAGC ATCTCTGGCA
CGGCGGGAGG GTCCACGGGC CCTAGGGCTA CTGGTTGGCC TACTCCTCTG TGTACGTCTC
TCCATTCTCT TCCATCGCTG CCCAGAAGAG ACACCTGTTT GCCAGTCATC ACCCTGGTTA
GCTCCTCTAG CCACAATGGC TGGTGGCCAG GCCAAGAACC TCTGGTATGG GGCATGTCTA
GGGACATTAG GGGTGCTGGT CCTAGCCGTA CGATTTTGGC TGCGCCGCTG TGGGAATCTT
AATAGCCCTG CACCTCCAGT CCTCTTTGTG CGCTGGGGAC TGCCCCTGAT GGCACTGGGT
ACTGCTGCCC ATTGGGCATT GGCTTCAGGC ACAGATGAGG CACCCCCCCG GCTGCAAGCC
CTGGTGTCTG GGGCTGTGGT TGGTTTGCCC CGGGCTGTCC TGGCTCTGGC AGCCATAGGT
CTAGGGCTAC TGCTTTGGCA GCCTGTCACA GTATTGGTCA AGACTGGAGC AAGCAGCTCC
AACCACATCA TTGTCCCTTT TGTGGGACCT CCGGCCTCCC AAGCTGACTT GGACTATGTG
GTCCCTCAGA TCTACCGTCG AATGCAGGAG GCACTGAGGG GGAAGCTAGC CAGGGGTGGG
GGCCAGACAC CACTGGCACT GGCTGCCTAC GGGCTGGGGA GTGTGTACTC TGCCGCCGTG
GTGACCGCTC TTGCCCTGCT GGCCTTCCCA CTGCTGCTGC TGCACACTGA GCGGATCAGC
CTCGCCTTCC TGATCCTCTT CCTGCAGAGT TTCTTACTCT TGCAGCTGCT CGCCACTGCT
GTCGGGACCC CTGCTGGAAG CCCTGGTCCC TTCTCTGTGC CATGGCTAGC CATCTCTGCT
TGGGCTCTCA CAGCCACACA GACCTTTTAC TCCACTGGCC ATCAGCCTGT CTTTCCAGCT
ATCCATTGGA ATGCTGCCTT TGTGGGCTTC ACTGAAGGGC ATGGTTCATC CCCTGTGCTG
CCTGCTCTGC TTGTAGGGGC AAATACCTTT GCCTCCCACC TTCTTTTTTC AGTTGGCTGC
CCATTGCTCT TGCTCTGGCC CTTTGTGTGT GAAGGCCAAG GCTCTACAAA GAGGAAGAAA
ACCTTGGCCA GTGGGACTGA GGTAGGAGGA GAGAAGGAAG AAGAGCCTTT GATGGAGATG
CGTCTCCGGG ATTCCCCTCA CCATTTCAAT GCTGCTCTTC TGCAGCTGGG CCTCAAGTAC
CTCTTCATCC TAGGTGTACA GGTCTTAGCT TGTGTTCTGG CAGCTTCTAT ACTCCGAAGG
CATCTCATGG TGTGGAAGGT GTTTGCTCCC AAGTTCATCT TTGAAGCTGT GGGTTTTGTG
GTGAGCAGCC TAGGGCTCCT CCTGGGTGTG GCCCTGGTGA TGTGGGTAGA CAGAGCTGTA
GGGTCCTGGT TCAAGCAGCT CATCCTTTCC CAAGAGAGGT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007498885.1 CDS 92..3193 Translation
Target ORF information:
RefSeq Version XM_007498823.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica phosphatidylinositol glycan anchor biosynthesis class O (PIGO), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007498823.2
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
3061ATGCTGAAGG CCCTGGTACT GCTTTTCCTG GCCTGGGTCT GCTTCCTCTT TTATGCTGGC
ATTGGTCTCT TCACCAGTGG CTTCTTGCTT ACCCGTCTGG AGCTTACCAA TCACAGCAGC
TGTCAGGAGC TGCCTGGAAA GGGAACTCTG GTGGGAAGTG GCAGAGGTGA GCCAGGGGCC
TGCTGGACAG TTCCCCGATT TTCCCGAGCT GTGATTGTGC TGATAGATGC ACTTCGATTC
GATTTTGTGC ATCCCTGGCC AGCTGGCCCT CCTGCCCCAC AACCTTTCCT AGGAAGGCTG
AGCTTCATAC AGCACCTTCT GGAAGCCCAG CCACAACATG CTCGCCTCTA CCGGTTCCTG
GCTGACCCAC CCACCACTAC CATGCAACGG CTCAAGGCCC TCACCACAGG CTCTTTACCT
ACCTTTGTTG ATGCTGGGAG CAACTTTGCT AGCTATGCCA TCCAAGAGGA TAACCTTATT
GCTCAGCTCA ACAACACCGT GGACAGAGAT GACTGGGACC TGCTGATTGC TCATTTCCTG
GGTGTGGATC ATTGTGGTCA CAAACATGGT CCCCACCACC CTGAGATGGC CAAGAAGCTC
AACCAGATGG ACCAGATGCT TCAGACCCTT GTGGAGCAAC TTGAGAATGA TACCCTGCTG
GTGGTGGCTG GAGATCATGG CATGACAGAG ACAGGAGACC ATGGTGGGGA CAGCAAGCCA
GAAGTCATGG CTGCACTCTT TCTCTATAGC CCTTTGCCCC TTTTTCCCGG GGCTTCCCTA
AAGGATCCAG AAGTGGTTCC CCAGGTGAAC TTGGTGCCAA CGCTGGCCCT TCTACTTGGC
CTGCCCATAC CTTTTGGAAA TATTGGAGAG GTGATGGTGG ACCTGTTTTC AGGGGAAGGA
GATACCCAGC CTCTTGCTAC AGCTCTTGCC CAGGCCTCTG CCTACCATCT CAATGCCCAG
CAGGTATCCC GATTTCTTCA TGCTTACTCA TTAGCTGCCC AGGACTTGCC CCCTGAGGAA
CTGCAGCACC TTCAGAACCT CTTCTCCTCT GCATCCTCTG AATATGAACA ATTGCTGGAT
CAGCTGAAGA CTGGAGAGGT CAGAGAGGCT GACATACAGG CTCTGATCTC CCAGCTGAGA
TTGTTCTTGC GGGGGGCACG GACAGCCTGT ACAGAGACGT GGGCTCGATT CCGCCCAGCC
CGAATGATAG GGGGCACCAT ACTTCTGGCC TCCACCTGCC TCCTTTGCTT AATAACCTCT
AGGCTTACCA GCTCCCCTGA CTTCCCTTTC CACTGCTTAC TTCTCAGGGC TGTGGTCTGG
GGTCTGGCAG GGGCTGTTTT GCTAGCTGGG GGACTCATGG CAGCTGGAAT AGGGTTAGAG
CCATCTCTGT TATGTGCAGG GAGTGCAGCT ACCTCCCTCA TAGCCTTCCT GTGGGCTTTA
AAGTCAAGGG AGAGTTCATC AATGACAGTC TTCCTCCCAG GCCCTTTGCC CATCCTGGTG
CTCCTGTTCC TCCGTTCTGC TGCCCTTTTC TCTGATAGCT TTGTCGTGGC TGAGGCATGG
GCAGCCCCCT TCCTTCTGCG TTCACTGTCC CTGTTTCTTG TGGCTCAGTT GCACTGGGAA
GGCCGGCTCC TTGTGGGGGT CTCCACAGCT TGCCTCAGCT CCCCCACAGC ATCTCTGGCA
CGGCGGGAGG GTCCACGGGC CCTAGGGCTA CTGGTTGGCC TACTCCTCTG TGTACGTCTC
TCCATTCTCT TCCATCGCTG CCCAGAAGAG ACACCTGTTT GCCAGTCATC ACCCTGGTTA
GCTCCTCTAG CCACAATGGC TGGTGGCCAG GCCAAGAACC TCTGGTATGG GGCATGTCTA
GGGACATTAG GGGTGCTGGT CCTAGCCGTA CGATTTTGGC TGCGCCGCTG TGGGAATCTT
AATAGCCCTG CACCTCCAGT CCTCTTTGTG CGCTGGGGAC TGCCCCTGAT GGCACTGGGT
ACTGCTGCCC ATTGGGCATT GGCTTCAGGC ACAGATGAGG CACCCCCCCG GCTGCAAGCC
CTGGTGTCTG GGGCTGTGGT TGGTTTGCCC CGGGCTGTCC TGGCTCTGGC AGCCATAGGT
CTAGGGCTAC TGCTTTGGCA GCCTGTCACA GTATTGGTCA AGACTGGAGC AAGCAGCTCC
AACCACATCA TTGTCCCTTT TGTGGGACCT CCGGCCTCCC AAGCTGACTT GGACTATGTG
GTCCCTCAGA TCTACCGTCG AATGCAGGAG GCACTGAGGG GGAAGCTAGC CAGGGGTGGG
GGCCAGACAC CACTGGCACT GGCTGCCTAC GGGCTGGGGA GTGTGTACTC TGCCGCCGTG
GTGACCGCTC TTGCCCTGCT GGCCTTCCCA CTGCTGCTGC TGCACACTGA GCGGATCAGC
CTCGCCTTCC TGATCCTCTT CCTGCAGAGT TTCTTACTCT TGCAGCTGCT CGCCACTGCT
GTCGGGACCC CTGCTGGAAG CCCTGGTCCC TTCTCTGTGC CATGGCTAGC CATCTCTGCT
TGGGCTCTCA CAGCCACACA GACCTTTTAC TCCACTGGCC ATCAGCCTGT CTTTCCAGCT
ATCCATTGGA ATGCTGCCTT TGTGGGCTTC ACTGAAGGGC ATGGTTCATC CCCTGTGCTG
CCTGCTCTGC TTGTAGGGGC AAATACCTTT GCCTCCCACC TTCTTTTTTC AGTTGGCTGC
CCATTGCTCT TGCTCTGGCC CTTTGTGTGT GAAGGCCAAG GCTCTACAAA GAGGAAGAAA
ACCTTGGCCA GTGGGACTGA GGTAGGAGGA GAGAAGGAAG AAGAGCCTTT GATGGAGATG
CGTCTCCGGG ATTCCCCTCA CCATTTCAAT GCTGCTCTTC TGCAGCTGGG CCTCAAGTAC
CTCTTCATCC TAGGTGTACA GGTCTTAGCT TGTGTTCTGG CAGCTTCTAT ACTCCGAAGG
CATCTCATGG TGTGGAAGGT GTTTGCTCCC AAGTTCATCT TTGAAGCTGT GGGTTTTGTG
GTGAGCAGCC TAGGGCTCCT CCTGGGTGTG GCCCTGGTGA TGTGGGTAGA CAGAGCTGTA
GGGTCCTGGT TCAAGCAGCT CATCCTTTCC CAAGAGAGGT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Progressing toward in vivo CRISPR Gene Editing in the Clinic
- Inducible and reversible regulation of CRISPR-Cas9
- Follicular T helper cells - What they are and how PD-1 regulates them
- Restoring Muscle Function in Muscular Dystrophy with AAV-Large1
- Boosting Transient Protein Expression-GenScript
- Achieving Herd Immunity in the Ongoing Pandemic
- High-titer Diterpenoids Production Using Egineered Saccharomyces Cerevisiae
- COVID-19 Immunity: Balancing B Cell and T Cell Responses
-
-
-
PubMed
-
