| Gene Symbol | NHSL2 |
| Entrez Gene ID | 100478758 |
| Full Name | NHS like 2 |
| Gene Type | protein-coding |
| Organism | Ailuropoda melanoleuca(giant panda) |
- 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
NHSL2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)
-
Gene
-
Clones
gRNAs
The following NHSL2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NHSL2 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 OAc97165 Clone ID Related Accession (Same CDS sequence) XM_019806228.1 Accession Version XM_019806228.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2946bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2941ATGGCAGCAC AGCCCAGGGC GTTGAATGGG CAGCAGTTTG ATAAACACGC AAGTTTGCGA
CACTCGTTGT TTAACACAGA GACAGCCGTG AACCCCAAAT CCACCCTGAG GCGGAGGCGG
ACCATTATTG GATTCTCTAA CTTTTCCCAG CGAGACCAAG GTCACAGCAA CAAGCCGGCA
GGCAGCGTGG CCCACGCCAC CACCTCAGAC ATCAGGCCCA GCCGTTCAGC CCCAGAAGGT
GTGCATGGAA GAGTTGCAGT TGGTCAGGAA GCGCAGTGCC CAAATCTCAC CTCACCGGTA
CTGAGGAGTC CTTCTAGCGA CCCGGAAGAA CCTGTCCGGG CGCGCGGTGG CACAACCCCC
CCTGGCATGG AGAGCGTAGG AATGGTGTAC AGCGTCCCCA GCTCCTGCAA CGGGCCGACA
GAGTCGACGT TCTCTGCTTC CTGGAAGGGA GATACTTTTA CCTACATGAC TCCAAGTGCC
GCCAGCCAGA GCAATCGAGT CGGTGAAAAT GGAAGAAATC CTTCCTCGGG CAATGCTTGG
GTCTCTCTGC ACGCGCTGCC GCCTCTAGTT CCTAAGGAGG CCGCTGCCCT CTTTGTCACT
CGTGATGACC CCGCAGGATG CAGTGAGTTG GCTGGCTACT CTGAGCACCC TACTCAACAA
AAGCAAGCAT CAGAGCGACA CTCCAAGATC GGCCTTCTCC CCAGTGGCAC CTCGAGGCTG
GAGACAGGCC CTGGGGGGGC CAGCAGGTTC CGGGAGCGGT CGCTATCTGT GCCCACGGAC
TCGAGTGCCA CGGATGTGGA CTACGAGGAG GAACAGAAGT CCAGTGAGGC GTGTGCCCTG
CCTTATGCCA GTACGAGTTC TGAGGGCAGC AACAGTGCCG ACAACATTGC CTCCCTTAGC
TCCCAACAGG AGGCCCAGCA CAGAAGGCAG AGATCCAGGA GTATCTCACT CCGGAAGGCC
AAGAAGAAGC CTTCCCCACC CATGCGTAGT GTCTCACTGG TCAAAGATGA GCCGGCCCTC
TTGCCAGAAG GTGGGTCAGC ACTGCCCAAG GACCAGAGGC CTAGAAGCCT CTGCCTCTCC
TTGGAACACC AAGGGCGTCA CGCATCCCAC CCCGATGCTC AGGGTCACCC AGCTGTGCCA
ACCTTCAAAG ATCCGGAAGG TACACAATTC TCCCACCACT GGTATCTTAC TGACTGGAAG
TCTGGCGACA CCTACCAGTC CTTGTCCAGC TCCAGCACTG CCACTGGCAC CACAGTCGTC
GAGTGCACCC AGGTTCAGGG CAGCTCAGAG TCTCTCACCT CCCCGTCCAT GTCCAGAGCC
ACGACACCTT CCCAACTCTC CATCGAGGTG GAGGCCAGGG AAGTATCCTC CCCAGGAAAG
CCCACCGGGC TGATGTCACC CTCCAGTGGC TACTCCAGCC AGTCAGAGAC ACCAACACCC
ACCGTCTCCA TGTCCTTGAT GCTGGGCCAC CTGCCCCCTC TGACTGGCAG CATCCGGGTG
CGCCCAGTGG TCCCTGAGAG GAAGTCGTCG CTACCCCCGA CCTCGCCGAT GGAGAAATTT
TCCAAGTCTC GGCTGTCGTT TGACCTGCCG TTGACCTCTT CAGCCAACCT GGATCTGTCT
GGGATGAGCG TCTCCATCCG AAGCAAAACC AAGGTGAGCC GGCATCACTC AGATACAAAT
TTTGGGGCCA AGCTGGCCCA GAAAACGAGC CCCAACCAGC CCGTTATGCC CATGGTCACT
CAGTCTGACC TCCGTTCTGT GCGCCTGAGG TCCGTGAGCA AGTCTGAGCC GGAAGATGAC
GTCGAGAGCC TGGACTATGC TGAGGACTCA GGAGCAGAAG TCTTCACCTT GCCAGAGAGA
AGGGTGAAAC CTCCCATAGC TGAGAAGCCC CCCGTGGCCC GAAGGCCTCC GAGCTTGATC
CACAAGCCAC CATCCGTCCC CGAGGAGTGC CCACTCACCT CGCCGACCTT GGCTATGACC
CCCAAGAGCT CAGTTCAACA CACCCAACCA CTCCCCCAAG ACATCTACAC GGTGGTGCGG
AAACCAAAGC CCTCCAGCTT CCCTGAGGGC AGAAGCCCCG GGGAGCCGCC ATTGCCCTCC
TCTCTCCCTT TCACACCTTT TGCCAGTTCC TCTGGTGCTT TCTTCTCAGG AACACAGCAA
CCTCCCCAGG GCACTATGGA AGATAGGGGC CGCAAGGCGA GAGCCCTGCC TGAAAGAATC
AGCCTCCAGA GCCAGGAAGA AGTGGAGAGA AAGAAAGGCA AGATCCCACC TCCCGTCCCC
AAAAAGCCCA GCGTGCTATA CCTGCCTCTC ACCTCACCCA CGGCTCACAT GGAGGCGCAC
GGGGCTGAGC TGAGGCTGCC TCTCAGCCCC ATCATCACCC TGCAGGAAGA AGCCAAGGGT
CCCCCCACCA GTGACCACCT GCAGTCTCCT GGTACGAGGA CGACCTCACC GCCGCAGGCT
GAAGGTGAAA GGGAGGCAAG TCCTCTAGGG AGCTCTATGG AACCGAGCAC TGAAGAAAAA
AGTGTCATCA GTGATAAAAC AGCCGAATGG ATCGCCGAAG ATGATGATGA CGTGTTTGTG
GCTTCACGCA CAACGGAAGA TTTGTTTACT GTGATACACA GGTCCAAAAG AAAGCTGCTT
GGCTGGAAAG AGCCCGGGGA GGCCTTTGCC GGCGGCAGCA GACCAAGCTC CCATTCACCG
GTAAAGAACA CAGCCGATTC TCCAGTCAGT GAGTCAGCTG CCTCTGCGGG GTCAAGCGGC
AGTGCCAACC TTGATGCTGG CAGAAACGAT GATTTCAAGG CCTTGCTACA GAAGAAGGGA
AGCAAGGCAA CTCCAAAGTC CCGCCCCTCA GCAGCCGAAC TGCTGAAGAC CACTAACCCA
CTGGCTCGGA GAATTATTGC ACAATTTTCA AAAGACTACG AAACCACTGA TCACCCCAGT
ACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661787.1 CDS 118..3063 Translation 
Target ORF information:
RefSeq Version XM_019806228.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_019806228.1
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
2941ATGGCAGCAC AGCCCAGGGC GTTGAATGGG CAGCAGTTTG ATAAACACGC AAGTTTGCGA
CACTCGTTGT TTAACACAGA GACAGCCGTG AACCCCAAAT CCACCCTGAG GCGGAGGCGG
ACCATTATTG GATTCTCTAA CTTTTCCCAG CGAGACCAAG GTCACAGCAA CAAGCCGGCA
GGCAGCGTGG CCCACGCCAC CACCTCAGAC ATCAGGCCCA GCCGTTCAGC CCCAGAAGGT
GTGCATGGAA GAGTTGCAGT TGGTCAGGAA GCGCAGTGCC CAAATCTCAC CTCACCGGTA
CTGAGGAGTC CTTCTAGCGA CCCGGAAGAA CCTGTCCGGG CGCGCGGTGG CACAACCCCC
CCTGGCATGG AGAGCGTAGG AATGGTGTAC AGCGTCCCCA GCTCCTGCAA CGGGCCGACA
GAGTCGACGT TCTCTGCTTC CTGGAAGGGA GATACTTTTA CCTACATGAC TCCAAGTGCC
GCCAGCCAGA GCAATCGAGT CGGTGAAAAT GGAAGAAATC CTTCCTCGGG CAATGCTTGG
GTCTCTCTGC ACGCGCTGCC GCCTCTAGTT CCTAAGGAGG CCGCTGCCCT CTTTGTCACT
CGTGATGACC CCGCAGGATG CAGTGAGTTG GCTGGCTACT CTGAGCACCC TACTCAACAA
AAGCAAGCAT CAGAGCGACA CTCCAAGATC GGCCTTCTCC CCAGTGGCAC CTCGAGGCTG
GAGACAGGCC CTGGGGGGGC CAGCAGGTTC CGGGAGCGGT CGCTATCTGT GCCCACGGAC
TCGAGTGCCA CGGATGTGGA CTACGAGGAG GAACAGAAGT CCAGTGAGGC GTGTGCCCTG
CCTTATGCCA GTACGAGTTC TGAGGGCAGC AACAGTGCCG ACAACATTGC CTCCCTTAGC
TCCCAACAGG AGGCCCAGCA CAGAAGGCAG AGATCCAGGA GTATCTCACT CCGGAAGGCC
AAGAAGAAGC CTTCCCCACC CATGCGTAGT GTCTCACTGG TCAAAGATGA GCCGGCCCTC
TTGCCAGAAG GTGGGTCAGC ACTGCCCAAG GACCAGAGGC CTAGAAGCCT CTGCCTCTCC
TTGGAACACC AAGGGCGTCA CGCATCCCAC CCCGATGCTC AGGGTCACCC AGCTGTGCCA
ACCTTCAAAG ATCCGGAAGG TACACAATTC TCCCACCACT GGTATCTTAC TGACTGGAAG
TCTGGCGACA CCTACCAGTC CTTGTCCAGC TCCAGCACTG CCACTGGCAC CACAGTCGTC
GAGTGCACCC AGGTTCAGGG CAGCTCAGAG TCTCTCACCT CCCCGTCCAT GTCCAGAGCC
ACGACACCTT CCCAACTCTC CATCGAGGTG GAGGCCAGGG AAGTATCCTC CCCAGGAAAG
CCCACCGGGC TGATGTCACC CTCCAGTGGC TACTCCAGCC AGTCAGAGAC ACCAACACCC
ACCGTCTCCA TGTCCTTGAT GCTGGGCCAC CTGCCCCCTC TGACTGGCAG CATCCGGGTG
CGCCCAGTGG TCCCTGAGAG GAAGTCGTCG CTACCCCCGA CCTCGCCGAT GGAGAAATTT
TCCAAGTCTC GGCTGTCGTT TGACCTGCCG TTGACCTCTT CAGCCAACCT GGATCTGTCT
GGGATGAGCG TCTCCATCCG AAGCAAAACC AAGGTGAGCC GGCATCACTC AGATACAAAT
TTTGGGGCCA AGCTGGCCCA GAAAACGAGC CCCAACCAGC CCGTTATGCC CATGGTCACT
CAGTCTGACC TCCGTTCTGT GCGCCTGAGG TCCGTGAGCA AGTCTGAGCC GGAAGATGAC
GTCGAGAGCC TGGACTATGC TGAGGACTCA GGAGCAGAAG TCTTCACCTT GCCAGAGAGA
AGGGTGAAAC CTCCCATAGC TGAGAAGCCC CCCGTGGCCC GAAGGCCTCC GAGCTTGATC
CACAAGCCAC CATCCGTCCC CGAGGAGTGC CCACTCACCT CGCCGACCTT GGCTATGACC
CCCAAGAGCT CAGTTCAACA CACCCAACCA CTCCCCCAAG ACATCTACAC GGTGGTGCGG
AAACCAAAGC CCTCCAGCTT CCCTGAGGGC AGAAGCCCCG GGGAGCCGCC ATTGCCCTCC
TCTCTCCCTT TCACACCTTT TGCCAGTTCC TCTGGTGCTT TCTTCTCAGG AACACAGCAA
CCTCCCCAGG GCACTATGGA AGATAGGGGC CGCAAGGCGA GAGCCCTGCC TGAAAGAATC
AGCCTCCAGA GCCAGGAAGA AGTGGAGAGA AAGAAAGGCA AGATCCCACC TCCCGTCCCC
AAAAAGCCCA GCGTGCTATA CCTGCCTCTC ACCTCACCCA CGGCTCACAT GGAGGCGCAC
GGGGCTGAGC TGAGGCTGCC TCTCAGCCCC ATCATCACCC TGCAGGAAGA AGCCAAGGGT
CCCCCCACCA GTGACCACCT GCAGTCTCCT GGTACGAGGA CGACCTCACC GCCGCAGGCT
GAAGGTGAAA GGGAGGCAAG TCCTCTAGGG AGCTCTATGG AACCGAGCAC TGAAGAAAAA
AGTGTCATCA GTGATAAAAC AGCCGAATGG ATCGCCGAAG ATGATGATGA CGTGTTTGTG
GCTTCACGCA CAACGGAAGA TTTGTTTACT GTGATACACA GGTCCAAAAG AAAGCTGCTT
GGCTGGAAAG AGCCCGGGGA GGCCTTTGCC GGCGGCAGCA GACCAAGCTC CCATTCACCG
GTAAAGAACA CAGCCGATTC TCCAGTCAGT GAGTCAGCTG CCTCTGCGGG GTCAAGCGGC
AGTGCCAACC TTGATGCTGG CAGAAACGAT GATTTCAAGG CCTTGCTACA GAAGAAGGGA
AGCAAGGCAA CTCCAAAGTC CCGCCCCTCA GCAGCCGAAC TGCTGAAGAC CACTAACCCA
CTGGCTCGGA GAATTATTGC ACAATTTTCA AAAGACTACG AAACCACTGA TCACCCCAGT
ACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc97166 Clone ID Related Accession (Same CDS sequence) XM_019806229.1 Accession Version XM_019806229.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2829bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2821ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGGTCACAG CAACAAGCCG
GCAGGCAGCG TGGCCCACGC CACCACCTCA GACATCAGGC CCAGCCGTTC AGCCCCAGAA
GGTGTGCATG GAAGAGTTGC AGTTGGTCAG GAAGCGCAGT GCCCAAATCT CACCTCACCG
GTACTGAGGA GTCCTTCTAG CGACCCGGAA GAACCTGTCC GGGCGCGCGG TGGCACAACC
CCCCCTGGCA TGGAGAGCGT AGGAATGGTG TACAGCGTCC CCAGCTCCTG CAACGGGCCG
ACAGAGTCGA CGTTCTCTGC TTCCTGGAAG GGAGATACTT TTACCTACAT GACTCCAAGT
GCCGCCAGCC AGAGCAATCG AGTCGGTGAA AATGGAAGAA ATCCTTCCTC GGGCAATGCT
TGGGTCTCTC TGCACGCGCT GCCGCCTCTA GTTCCTAAGG AGGCCGCTGC CCTCTTTGTC
ACTCGTGATG ACCCCGCAGG ATGCAGTGAG TTGGCTGGCT ACTCTGAGCA CCCTACTCAA
CAAAAGCAAG CATCAGAGCG ACACTCCAAG ATCGGCCTTC TCCCCAGTGG CACCTCGAGG
CTGGAGACAG GCCCTGGGGG GGCCAGCAGG TTCCGGGAGC GGTCGCTATC TGTGCCCACG
GACTCGAGTG CCACGGATGT GGACTACGAG GAGGAACAGA AGTCCAGTGA GGCGTGTGCC
CTGCCTTATG CCAGTACGAG TTCTGAGGGC AGCAACAGTG CCGACAACAT TGCCTCCCTT
AGCTCCCAAC AGGAGGCCCA GCACAGAAGG CAGAGATCCA GGAGTATCTC ACTCCGGAAG
GCCAAGAAGA AGCCTTCCCC ACCCATGCGT AGTGTCTCAC TGGTCAAAGA TGAGCCGGCC
CTCTTGCCAG AAGGTGGGTC AGCACTGCCC AAGGACCAGA GGCCTAGAAG CCTCTGCCTC
TCCTTGGAAC ACCAAGGGCG TCACGCATCC CACCCCGATG CTCAGGGTCA CCCAGCTGTG
CCAACCTTCA AAGATCCGGA AGGTACACAA TTCTCCCACC ACTGGTATCT TACTGACTGG
AAGTCTGGCG ACACCTACCA GTCCTTGTCC AGCTCCAGCA CTGCCACTGG CACCACAGTC
GTCGAGTGCA CCCAGGTTCA GGGCAGCTCA GAGTCTCTCA CCTCCCCGTC CATGTCCAGA
GCCACGACAC CTTCCCAACT CTCCATCGAG GTGGAGGCCA GGGAAGTATC CTCCCCAGGA
AAGCCCACCG GGCTGATGTC ACCCTCCAGT GGCTACTCCA GCCAGTCAGA GACACCAACA
CCCACCGTCT CCATGTCCTT GATGCTGGGC CACCTGCCCC CTCTGACTGG CAGCATCCGG
GTGCGCCCAG TGGTCCCTGA GAGGAAGTCG TCGCTACCCC CGACCTCGCC GATGGAGAAA
TTTTCCAAGT CTCGGCTGTC GTTTGACCTG CCGTTGACCT CTTCAGCCAA CCTGGATCTG
TCTGGGATGA GCGTCTCCAT CCGAAGCAAA ACCAAGGTGA GCCGGCATCA CTCAGATACA
AATTTTGGGG CCAAGCTGGC CCAGAAAACG AGCCCCAACC AGCCCGTTAT GCCCATGGTC
ACTCAGTCTG ACCTCCGTTC TGTGCGCCTG AGGTCCGTGA GCAAGTCTGA GCCGGAAGAT
GACGTCGAGA GCCTGGACTA TGCTGAGGAC TCAGGAGCAG AAGTCTTCAC CTTGCCAGAG
AGAAGGGTGA AACCTCCCAT AGCTGAGAAG CCCCCCGTGG CCCGAAGGCC TCCGAGCTTG
ATCCACAAGC CACCATCCGT CCCCGAGGAG TGCCCACTCA CCTCGCCGAC CTTGGCTATG
ACCCCCAAGA GCTCAGTTCA ACACACCCAA CCACTCCCCC AAGACATCTA CACGGTGGTG
CGGAAACCAA AGCCCTCCAG CTTCCCTGAG GGCAGAAGCC CCGGGGAGCC GCCATTGCCC
TCCTCTCTCC CTTTCACACC TTTTGCCAGT TCCTCTGGTG CTTTCTTCTC AGGAACACAG
CAACCTCCCC AGGGCACTAT GGAAGATAGG GGCCGCAAGG CGAGAGCCCT GCCTGAAAGA
ATCAGCCTCC AGAGCCAGGA AGAAGTGGAG AGAAAGAAAG GCAAGATCCC ACCTCCCGTC
CCCAAAAAGC CCAGCGTGCT ATACCTGCCT CTCACCTCAC CCACGGCTCA CATGGAGGCG
CACGGGGCTG AGCTGAGGCT GCCTCTCAGC CCCATCATCA CCCTGCAGGA AGAAGCCAAG
GGTCCCCCCA CCAGTGACCA CCTGCAGTCT CCTGGTACGA GGACGACCTC ACCGCCGCAG
GCTGAAGGTG AAAGGGAGGC AAGTCCTCTA GGGAGCTCTA TGGAACCGAG CACTGAAGAA
AAAAGTGTCA TCAGTGATAA AACAGCCGAA TGGATCGCCG AAGATGATGA TGACGTGTTT
GTGGCTTCAC GCACAACGGA AGATTTGTTT ACTGTGATAC ACAGGTCCAA AAGAAAGCTG
CTTGGCTGGA AAGAGCCCGG GGAGGCCTTT GCCGGCGGCA GCAGACCAAG CTCCCATTCA
CCGGTAAAGA ACACAGCCGA TTCTCCAGTC AGTGAGTCAG CTGCCTCTGC GGGGTCAAGC
GGCAGTGCCA ACCTTGATGC TGGCAGAAAC GATGATTTCA AGGCCTTGCT ACAGAAGAAG
GGAAGCAAGG CAACTCCAAA GTCCCGCCCC TCAGCAGCCG AACTGCTGAA GACCACTAAC
CCACTGGCTC GGAGAATTAT TGCACAATTT TCAAAAGACT ACGAAACCAC TGATCACCCC
AGTACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661788.1 CDS 622..3450 Translation
Target ORF information:
RefSeq Version XM_019806229.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019806229.1
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
2821ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGGTCACAG CAACAAGCCG
GCAGGCAGCG TGGCCCACGC CACCACCTCA GACATCAGGC CCAGCCGTTC AGCCCCAGAA
GGTGTGCATG GAAGAGTTGC AGTTGGTCAG GAAGCGCAGT GCCCAAATCT CACCTCACCG
GTACTGAGGA GTCCTTCTAG CGACCCGGAA GAACCTGTCC GGGCGCGCGG TGGCACAACC
CCCCCTGGCA TGGAGAGCGT AGGAATGGTG TACAGCGTCC CCAGCTCCTG CAACGGGCCG
ACAGAGTCGA CGTTCTCTGC TTCCTGGAAG GGAGATACTT TTACCTACAT GACTCCAAGT
GCCGCCAGCC AGAGCAATCG AGTCGGTGAA AATGGAAGAA ATCCTTCCTC GGGCAATGCT
TGGGTCTCTC TGCACGCGCT GCCGCCTCTA GTTCCTAAGG AGGCCGCTGC CCTCTTTGTC
ACTCGTGATG ACCCCGCAGG ATGCAGTGAG TTGGCTGGCT ACTCTGAGCA CCCTACTCAA
CAAAAGCAAG CATCAGAGCG ACACTCCAAG ATCGGCCTTC TCCCCAGTGG CACCTCGAGG
CTGGAGACAG GCCCTGGGGG GGCCAGCAGG TTCCGGGAGC GGTCGCTATC TGTGCCCACG
GACTCGAGTG CCACGGATGT GGACTACGAG GAGGAACAGA AGTCCAGTGA GGCGTGTGCC
CTGCCTTATG CCAGTACGAG TTCTGAGGGC AGCAACAGTG CCGACAACAT TGCCTCCCTT
AGCTCCCAAC AGGAGGCCCA GCACAGAAGG CAGAGATCCA GGAGTATCTC ACTCCGGAAG
GCCAAGAAGA AGCCTTCCCC ACCCATGCGT AGTGTCTCAC TGGTCAAAGA TGAGCCGGCC
CTCTTGCCAG AAGGTGGGTC AGCACTGCCC AAGGACCAGA GGCCTAGAAG CCTCTGCCTC
TCCTTGGAAC ACCAAGGGCG TCACGCATCC CACCCCGATG CTCAGGGTCA CCCAGCTGTG
CCAACCTTCA AAGATCCGGA AGGTACACAA TTCTCCCACC ACTGGTATCT TACTGACTGG
AAGTCTGGCG ACACCTACCA GTCCTTGTCC AGCTCCAGCA CTGCCACTGG CACCACAGTC
GTCGAGTGCA CCCAGGTTCA GGGCAGCTCA GAGTCTCTCA CCTCCCCGTC CATGTCCAGA
GCCACGACAC CTTCCCAACT CTCCATCGAG GTGGAGGCCA GGGAAGTATC CTCCCCAGGA
AAGCCCACCG GGCTGATGTC ACCCTCCAGT GGCTACTCCA GCCAGTCAGA GACACCAACA
CCCACCGTCT CCATGTCCTT GATGCTGGGC CACCTGCCCC CTCTGACTGG CAGCATCCGG
GTGCGCCCAG TGGTCCCTGA GAGGAAGTCG TCGCTACCCC CGACCTCGCC GATGGAGAAA
TTTTCCAAGT CTCGGCTGTC GTTTGACCTG CCGTTGACCT CTTCAGCCAA CCTGGATCTG
TCTGGGATGA GCGTCTCCAT CCGAAGCAAA ACCAAGGTGA GCCGGCATCA CTCAGATACA
AATTTTGGGG CCAAGCTGGC CCAGAAAACG AGCCCCAACC AGCCCGTTAT GCCCATGGTC
ACTCAGTCTG ACCTCCGTTC TGTGCGCCTG AGGTCCGTGA GCAAGTCTGA GCCGGAAGAT
GACGTCGAGA GCCTGGACTA TGCTGAGGAC TCAGGAGCAG AAGTCTTCAC CTTGCCAGAG
AGAAGGGTGA AACCTCCCAT AGCTGAGAAG CCCCCCGTGG CCCGAAGGCC TCCGAGCTTG
ATCCACAAGC CACCATCCGT CCCCGAGGAG TGCCCACTCA CCTCGCCGAC CTTGGCTATG
ACCCCCAAGA GCTCAGTTCA ACACACCCAA CCACTCCCCC AAGACATCTA CACGGTGGTG
CGGAAACCAA AGCCCTCCAG CTTCCCTGAG GGCAGAAGCC CCGGGGAGCC GCCATTGCCC
TCCTCTCTCC CTTTCACACC TTTTGCCAGT TCCTCTGGTG CTTTCTTCTC AGGAACACAG
CAACCTCCCC AGGGCACTAT GGAAGATAGG GGCCGCAAGG CGAGAGCCCT GCCTGAAAGA
ATCAGCCTCC AGAGCCAGGA AGAAGTGGAG AGAAAGAAAG GCAAGATCCC ACCTCCCGTC
CCCAAAAAGC CCAGCGTGCT ATACCTGCCT CTCACCTCAC CCACGGCTCA CATGGAGGCG
CACGGGGCTG AGCTGAGGCT GCCTCTCAGC CCCATCATCA CCCTGCAGGA AGAAGCCAAG
GGTCCCCCCA CCAGTGACCA CCTGCAGTCT CCTGGTACGA GGACGACCTC ACCGCCGCAG
GCTGAAGGTG AAAGGGAGGC AAGTCCTCTA GGGAGCTCTA TGGAACCGAG CACTGAAGAA
AAAAGTGTCA TCAGTGATAA AACAGCCGAA TGGATCGCCG AAGATGATGA TGACGTGTTT
GTGGCTTCAC GCACAACGGA AGATTTGTTT ACTGTGATAC ACAGGTCCAA AAGAAAGCTG
CTTGGCTGGA AAGAGCCCGG GGAGGCCTTT GCCGGCGGCA GCAGACCAAG CTCCCATTCA
CCGGTAAAGA ACACAGCCGA TTCTCCAGTC AGTGAGTCAG CTGCCTCTGC GGGGTCAAGC
GGCAGTGCCA ACCTTGATGC TGGCAGAAAC GATGATTTCA AGGCCTTGCT ACAGAAGAAG
GGAAGCAAGG CAACTCCAAA GTCCCGCCCC TCAGCAGCCG AACTGCTGAA GACCACTAAC
CCACTGGCTC GGAGAATTAT TGCACAATTT TCAAAAGACT ACGAAACCAC TGATCACCCC
AGTACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc97167 Clone ID Related Accession (Same CDS sequence) XM_019806230.1 Accession Version XM_019806230.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2814bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2761ATGGCAGCAC AGCCCAGGGC GTTGAATGGT CACAGCAACA AGCCGGCAGG CAGCGTGGCC
CACGCCACCA CCTCAGACAT CAGGCCCAGC CGTTCAGCCC CAGAAGGTGT GCATGGAAGA
GTTGCAGTTG GTCAGGAAGC GCAGTGCCCA AATCTCACCT CACCGGTACT GAGGAGTCCT
TCTAGCGACC CGGAAGAACC TGTCCGGGCG CGCGGTGGCA CAACCCCCCC TGGCATGGAG
AGCGTAGGAA TGGTGTACAG CGTCCCCAGC TCCTGCAACG GGCCGACAGA GTCGACGTTC
TCTGCTTCCT GGAAGGGAGA TACTTTTACC TACATGACTC CAAGTGCCGC CAGCCAGAGC
AATCGAGTCG GTGAAAATGG AAGAAATCCT TCCTCGGGCA ATGCTTGGGT CTCTCTGCAC
GCGCTGCCGC CTCTAGTTCC TAAGGAGGCC GCTGCCCTCT TTGTCACTCG TGATGACCCC
GCAGGATGCA GTGAGTTGGC TGGCTACTCT GAGCACCCTA CTCAACAAAA GCAAGCATCA
GAGCGACACT CCAAGATCGG CCTTCTCCCC AGTGGCACCT CGAGGCTGGA GACAGGCCCT
GGGGGGGCCA GCAGGTTCCG GGAGCGGTCG CTATCTGTGC CCACGGACTC GAGTGCCACG
GATGTGGACT ACGAGGAGGA ACAGAAGTCC AGTGAGGCGT GTGCCCTGCC TTATGCCAGT
ACGAGTTCTG AGGGCAGCAA CAGTGCCGAC AACATTGCCT CCCTTAGCTC CCAACAGGAG
GCCCAGCACA GAAGGCAGAG ATCCAGGAGT ATCTCACTCC GGAAGGCCAA GAAGAAGCCT
TCCCCACCCA TGCGTAGTGT CTCACTGGTC AAAGATGAGC CGGCCCTCTT GCCAGAAGGT
GGGTCAGCAC TGCCCAAGGA CCAGAGGCCT AGAAGCCTCT GCCTCTCCTT GGAACACCAA
GGGCGTCACG CATCCCACCC CGATGCTCAG GGTCACCCAG CTGTGCCAAC CTTCAAAGAT
CCGGAAGGTA CACAATTCTC CCACCACTGG TATCTTACTG ACTGGAAGTC TGGCGACACC
TACCAGTCCT TGTCCAGCTC CAGCACTGCC ACTGGCACCA CAGTCGTCGA GTGCACCCAG
GTTCAGGGCA GCTCAGAGTC TCTCACCTCC CCGTCCATGT CCAGAGCCAC GACACCTTCC
CAACTCTCCA TCGAGGTGGA GGCCAGGGAA GTATCCTCCC CAGGAAAGCC CACCGGGCTG
ATGTCACCCT CCAGTGGCTA CTCCAGCCAG TCAGAGACAC CAACACCCAC CGTCTCCATG
TCCTTGATGC TGGGCCACCT GCCCCCTCTG ACTGGCAGCA TCCGGGTGCG CCCAGTGGTC
CCTGAGAGGA AGTCGTCGCT ACCCCCGACC TCGCCGATGG AGAAATTTTC CAAGTCTCGG
CTGTCGTTTG ACCTGCCGTT GACCTCTTCA GCCAACCTGG ATCTGTCTGG GATGAGCGTC
TCCATCCGAA GCAAAACCAA GGTGAGCCGG CATCACTCAG ATACAAATTT TGGGGCCAAG
CTGGCCCAGA AAACGAGCCC CAACCAGCCC GTTATGCCCA TGGTCACTCA GTCTGACCTC
CGTTCTGTGC GCCTGAGGTC CGTGAGCAAG TCTGAGCCGG AAGATGACGT CGAGAGCCTG
GACTATGCTG AGGACTCAGG AGCAGAAGTC TTCACCTTGC CAGAGAGAAG GGTGAAACCT
CCCATAGCTG AGAAGCCCCC CGTGGCCCGA AGGCCTCCGA GCTTGATCCA CAAGCCACCA
TCCGTCCCCG AGGAGTGCCC ACTCACCTCG CCGACCTTGG CTATGACCCC CAAGAGCTCA
GTTCAACACA CCCAACCACT CCCCCAAGAC ATCTACACGG TGGTGCGGAA ACCAAAGCCC
TCCAGCTTCC CTGAGGGCAG AAGCCCCGGG GAGCCGCCAT TGCCCTCCTC TCTCCCTTTC
ACACCTTTTG CCAGTTCCTC TGGTGCTTTC TTCTCAGGAA CACAGCAACC TCCCCAGGGC
ACTATGGAAG ATAGGGGCCG CAAGGCGAGA GCCCTGCCTG AAAGAATCAG CCTCCAGAGC
CAGGAAGAAG TGGAGAGAAA GAAAGGCAAG ATCCCACCTC CCGTCCCCAA AAAGCCCAGC
GTGCTATACC TGCCTCTCAC CTCACCCACG GCTCACATGG AGGCGCACGG GGCTGAGCTG
AGGCTGCCTC TCAGCCCCAT CATCACCCTG CAGGAAGAAG CCAAGGGTCC CCCCACCAGT
GACCACCTGC AGTCTCCTGG TACGAGGACG ACCTCACCGC CGCAGGCTGA AGGTGAAAGG
GAGGCAAGTC CTCTAGGGAG CTCTATGGAA CCGAGCACTG AAGAAAAAAG TGTCATCAGT
GATAAAACAG CCGAATGGAT CGCCGAAGAT GATGATGACG TGTTTGTGGC TTCACGCACA
ACGGAAGATT TGTTTACTGT GATACACAGG TCCAAAAGAA AGCTGCTTGG CTGGAAAGAG
CCCGGGGAGG CCTTTGCCGG CGGCAGCAGA CCAAGCTCCC ATTCACCGGT AAAGAACACA
GCCGATTCTC CAGTCAGTGA GTCAGCTGCC TCTGCGGGGT CAAGCGGCAG TGCCAACCTT
GATGCTGGCA GAAACGATGA TTTCAAGGCC TTGCTACAGA AGAAGGGAAG CAAGGCAACT
CCAAAGTCCC GCCCCTCAGC AGCCGAACTG CTGAAGACCA CTAACCCACT GGCTCGGAGA
ATTATTGCAC AATTTTCAAA AGACTACGAA ACCACTGATC ACCCCAGTAC CTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661789.1 CDS 118..2931 Translation
Target ORF information:
RefSeq Version XM_019806230.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019806230.1
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
2761ATGGCAGCAC AGCCCAGGGC GTTGAATGGT CACAGCAACA AGCCGGCAGG CAGCGTGGCC
CACGCCACCA CCTCAGACAT CAGGCCCAGC CGTTCAGCCC CAGAAGGTGT GCATGGAAGA
GTTGCAGTTG GTCAGGAAGC GCAGTGCCCA AATCTCACCT CACCGGTACT GAGGAGTCCT
TCTAGCGACC CGGAAGAACC TGTCCGGGCG CGCGGTGGCA CAACCCCCCC TGGCATGGAG
AGCGTAGGAA TGGTGTACAG CGTCCCCAGC TCCTGCAACG GGCCGACAGA GTCGACGTTC
TCTGCTTCCT GGAAGGGAGA TACTTTTACC TACATGACTC CAAGTGCCGC CAGCCAGAGC
AATCGAGTCG GTGAAAATGG AAGAAATCCT TCCTCGGGCA ATGCTTGGGT CTCTCTGCAC
GCGCTGCCGC CTCTAGTTCC TAAGGAGGCC GCTGCCCTCT TTGTCACTCG TGATGACCCC
GCAGGATGCA GTGAGTTGGC TGGCTACTCT GAGCACCCTA CTCAACAAAA GCAAGCATCA
GAGCGACACT CCAAGATCGG CCTTCTCCCC AGTGGCACCT CGAGGCTGGA GACAGGCCCT
GGGGGGGCCA GCAGGTTCCG GGAGCGGTCG CTATCTGTGC CCACGGACTC GAGTGCCACG
GATGTGGACT ACGAGGAGGA ACAGAAGTCC AGTGAGGCGT GTGCCCTGCC TTATGCCAGT
ACGAGTTCTG AGGGCAGCAA CAGTGCCGAC AACATTGCCT CCCTTAGCTC CCAACAGGAG
GCCCAGCACA GAAGGCAGAG ATCCAGGAGT ATCTCACTCC GGAAGGCCAA GAAGAAGCCT
TCCCCACCCA TGCGTAGTGT CTCACTGGTC AAAGATGAGC CGGCCCTCTT GCCAGAAGGT
GGGTCAGCAC TGCCCAAGGA CCAGAGGCCT AGAAGCCTCT GCCTCTCCTT GGAACACCAA
GGGCGTCACG CATCCCACCC CGATGCTCAG GGTCACCCAG CTGTGCCAAC CTTCAAAGAT
CCGGAAGGTA CACAATTCTC CCACCACTGG TATCTTACTG ACTGGAAGTC TGGCGACACC
TACCAGTCCT TGTCCAGCTC CAGCACTGCC ACTGGCACCA CAGTCGTCGA GTGCACCCAG
GTTCAGGGCA GCTCAGAGTC TCTCACCTCC CCGTCCATGT CCAGAGCCAC GACACCTTCC
CAACTCTCCA TCGAGGTGGA GGCCAGGGAA GTATCCTCCC CAGGAAAGCC CACCGGGCTG
ATGTCACCCT CCAGTGGCTA CTCCAGCCAG TCAGAGACAC CAACACCCAC CGTCTCCATG
TCCTTGATGC TGGGCCACCT GCCCCCTCTG ACTGGCAGCA TCCGGGTGCG CCCAGTGGTC
CCTGAGAGGA AGTCGTCGCT ACCCCCGACC TCGCCGATGG AGAAATTTTC CAAGTCTCGG
CTGTCGTTTG ACCTGCCGTT GACCTCTTCA GCCAACCTGG ATCTGTCTGG GATGAGCGTC
TCCATCCGAA GCAAAACCAA GGTGAGCCGG CATCACTCAG ATACAAATTT TGGGGCCAAG
CTGGCCCAGA AAACGAGCCC CAACCAGCCC GTTATGCCCA TGGTCACTCA GTCTGACCTC
CGTTCTGTGC GCCTGAGGTC CGTGAGCAAG TCTGAGCCGG AAGATGACGT CGAGAGCCTG
GACTATGCTG AGGACTCAGG AGCAGAAGTC TTCACCTTGC CAGAGAGAAG GGTGAAACCT
CCCATAGCTG AGAAGCCCCC CGTGGCCCGA AGGCCTCCGA GCTTGATCCA CAAGCCACCA
TCCGTCCCCG AGGAGTGCCC ACTCACCTCG CCGACCTTGG CTATGACCCC CAAGAGCTCA
GTTCAACACA CCCAACCACT CCCCCAAGAC ATCTACACGG TGGTGCGGAA ACCAAAGCCC
TCCAGCTTCC CTGAGGGCAG AAGCCCCGGG GAGCCGCCAT TGCCCTCCTC TCTCCCTTTC
ACACCTTTTG CCAGTTCCTC TGGTGCTTTC TTCTCAGGAA CACAGCAACC TCCCCAGGGC
ACTATGGAAG ATAGGGGCCG CAAGGCGAGA GCCCTGCCTG AAAGAATCAG CCTCCAGAGC
CAGGAAGAAG TGGAGAGAAA GAAAGGCAAG ATCCCACCTC CCGTCCCCAA AAAGCCCAGC
GTGCTATACC TGCCTCTCAC CTCACCCACG GCTCACATGG AGGCGCACGG GGCTGAGCTG
AGGCTGCCTC TCAGCCCCAT CATCACCCTG CAGGAAGAAG CCAAGGGTCC CCCCACCAGT
GACCACCTGC AGTCTCCTGG TACGAGGACG ACCTCACCGC CGCAGGCTGA AGGTGAAAGG
GAGGCAAGTC CTCTAGGGAG CTCTATGGAA CCGAGCACTG AAGAAAAAAG TGTCATCAGT
GATAAAACAG CCGAATGGAT CGCCGAAGAT GATGATGACG TGTTTGTGGC TTCACGCACA
ACGGAAGATT TGTTTACTGT GATACACAGG TCCAAAAGAA AGCTGCTTGG CTGGAAAGAG
CCCGGGGAGG CCTTTGCCGG CGGCAGCAGA CCAAGCTCCC ATTCACCGGT AAAGAACACA
GCCGATTCTC CAGTCAGTGA GTCAGCTGCC TCTGCGGGGT CAAGCGGCAG TGCCAACCTT
GATGCTGGCA GAAACGATGA TTTCAAGGCC TTGCTACAGA AGAAGGGAAG CAAGGCAACT
CCAAAGTCCC GCCCCTCAGC AGCCGAACTG CTGAAGACCA CTAACCCACT GGCTCGGAGA
ATTATTGCAC AATTTTCAAA AGACTACGAA ACCACTGATC ACCCCAGTAC CTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc28989 Clone ID Related Accession (Same CDS sequence) XM_019806225.1 , XM_019806224.1 Accession Version XM_019806225.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3441bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGCTGCAGC TAACTCGGGT
CGGGAAAATG CGACAGCGAC TGCCCACTCG AGGTCGTCAT GGCGACAGCC AGTGAACGTG
TTCCTCTCCT CGGGCAGGCC CCCGAGTGTA GAGGAGCTGC TTCGAGAGGC GCAGCTCAAT
CTCCAGAGCC TGTTGCAAGA AGAATATGAG GAACAGTACT CGGAGGCCAG ACTTCTGGGG
CAGACCTTCC GCTCTGCTGA TGAGGCCCCT GAGCCCACCC CTAGCCCAAG GTCCCAGGCT
GGCAGGCGTC TGGAGTTTGT GTTGATGCCT ACAAAACGGC AGCTGAGCGA GGATGAGACT
ACCACCCAGG GTGTGAGGGC CCCTGAGGCC TCCCTGAGCC TGTCTACCAC AGCCGACAAG
CAAGCTGCCT GGAATAGCCC CTCCCCTCTG CCCATCCTAG AGGAGAAGCG GTGGCTTCAA
CCTTGCTCCA CGCACTCTGA CATTGTGCCC ATCAACATCT CTGGGCAGCA GTTTGATAAA
CACGCAAGTT TGCGACACTC GTTGTTTAAC ACAGAGACAG CCGTGAACCC CAAATCCACC
CTGAGGCGGA GGCGGACCAT TATTGGATTC TCTAACTTTT CCCAGCGAGA CCAAGGTCAC
AGCAACAAGC CGGCAGGCAG CGTGGCCCAC GCCACCACCT CAGACATCAG GCCCAGCCGT
TCAGCCCCAG AAGGTGTGCA TGGAAGAGTT GCAGTTGGTC AGGAAGCGCA GTGCCCAAAT
CTCACCTCAC CGGTACTGAG GAGTCCTTCT AGCGACCCGG AAGAACCTGT CCGGGCGCGC
GGTGGCACAA CCCCCCCTGG CATGGAGAGC GTAGGAATGG TGTACAGCGT CCCCAGCTCC
TGCAACGGGC CGACAGAGTC GACGTTCTCT GCTTCCTGGA AGGGAGATAC TTTTACCTAC
ATGACTCCAA GTGCCGCCAG CCAGAGCAAT CGAGTCGGTG AAAATGGAAG AAATCCTTCC
TCGGGCAATG CTTGGGTCTC TCTGCACGCG CTGCCGCCTC TAGTTCCTAA GGAGGCCGCT
GCCCTCTTTG TCACTCGTGA TGACCCCGCA GGATGCAGTG AGTTGGCTGG CTACTCTGAG
CACCCTACTC AACAAAAGCA AGCATCAGAG CGACACTCCA AGATCGGCCT TCTCCCCAGT
GGCACCTCGA GGCTGGAGAC AGGCCCTGGG GGGGCCAGCA GGTTCCGGGA GCGGTCGCTA
TCTGTGCCCA CGGACTCGAG TGCCACGGAT GTGGACTACG AGGAGGAACA GAAGTCCAGT
GAGGCGTGTG CCCTGCCTTA TGCCAGTACG AGTTCTGAGG GCAGCAACAG TGCCGACAAC
ATTGCCTCCC TTAGCTCCCA ACAGGAGGCC CAGCACAGAA GGCAGAGATC CAGGAGTATC
TCACTCCGGA AGGCCAAGAA GAAGCCTTCC CCACCCATGC GTAGTGTCTC ACTGGTCAAA
GATGAGCCGG CCCTCTTGCC AGAAGGTGGG TCAGCACTGC CCAAGGACCA GAGGCCTAGA
AGCCTCTGCC TCTCCTTGGA ACACCAAGGG CGTCACGCAT CCCACCCCGA TGCTCAGGGT
CACCCAGCTG TGCCAACCTT CAAAGATCCG GAAGGTACAC AATTCTCCCA CCACTGGTAT
CTTACTGACT GGAAGTCTGG CGACACCTAC CAGTCCTTGT CCAGCTCCAG CACTGCCACT
GGCACCACAG TCGTCGAGTG CACCCAGGTT CAGGGCAGCT CAGAGTCTCT CACCTCCCCG
TCCATGTCCA GAGCCACGAC ACCTTCCCAA CTCTCCATCG AGGTGGAGGC CAGGGAAGTA
TCCTCCCCAG GAAAGCCCAC CGGGCTGATG TCACCCTCCA GTGGCTACTC CAGCCAGTCA
GAGACACCAA CACCCACCGT CTCCATGTCC TTGATGCTGG GCCACCTGCC CCCTCTGACT
GGCAGCATCC GGGTGCGCCC AGTGGTCCCT GAGAGGAAGT CGTCGCTACC CCCGACCTCG
CCGATGGAGA AATTTTCCAA GTCTCGGCTG TCGTTTGACC TGCCGTTGAC CTCTTCAGCC
AACCTGGATC TGTCTGGGAT GAGCGTCTCC ATCCGAAGCA AAACCAAGGT GAGCCGGCAT
CACTCAGATA CAAATTTTGG GGCCAAGCTG GCCCAGAAAA CGAGCCCCAA CCAGCCCGTT
ATGCCCATGG TCACTCAGTC TGACCTCCGT TCTGTGCGCC TGAGGTCCGT GAGCAAGTCT
GAGCCGGAAG ATGACGTCGA GAGCCTGGAC TATGCTGAGG ACTCAGGAGC AGAAGTCTTC
ACCTTGCCAG AGAGAAGGGT GAAACCTCCC ATAGCTGAGA AGCCCCCCGT GGCCCGAAGG
CCTCCGAGCT TGATCCACAA GCCACCATCC GTCCCCGAGG AGTGCCCACT CACCTCGCCG
ACCTTGGCTA TGACCCCCAA GAGCTCAGTT CAACACACCC AACCACTCCC CCAAGACATC
TACACGGTGG TGCGGAAACC AAAGCCCTCC AGCTTCCCTG AGGGCAGAAG CCCCGGGGAG
CCGCCATTGC CCTCCTCTCT CCCTTTCACA CCTTTTGCCA GTTCCTCTGG TGCTTTCTTC
TCAGGAACAC AGCAACCTCC CCAGGGCACT ATGGAAGATA GGGGCCGCAA GGCGAGAGCC
CTGCCTGAAA GAATCAGCCT CCAGAGCCAG GAAGAAGTGG AGAGAAAGAA AGGCAAGATC
CCACCTCCCG TCCCCAAAAA GCCCAGCGTG CTATACCTGC CTCTCACCTC ACCCACGGCT
CACATGGAGG CGCACGGGGC TGAGCTGAGG CTGCCTCTCA GCCCCATCAT CACCCTGCAG
GAAGAAGCCA AGGGTCCCCC CACCAGTGAC CACCTGCAGT CTCCTGGTAC GAGGACGACC
TCACCGCCGC AGGCTGAAGG TGAAAGGGAG GCAAGTCCTC TAGGGAGCTC TATGGAACCG
AGCACTGAAG AAAAAAGTGT CATCAGTGAT AAAACAGCCG AATGGATCGC CGAAGATGAT
GATGACGTGT TTGTGGCTTC ACGCACAACG GAAGATTTGT TTACTGTGAT ACACAGGTCC
AAAAGAAAGC TGCTTGGCTG GAAAGAGCCC GGGGAGGCCT TTGCCGGCGG CAGCAGACCA
AGCTCCCATT CACCGGTAAA GAACACAGCC GATTCTCCAG TCAGTGAGTC AGCTGCCTCT
GCGGGGTCAA GCGGCAGTGC CAACCTTGAT GCTGGCAGAA ACGATGATTT CAAGGCCTTG
CTACAGAAGA AGGGAAGCAA GGCAACTCCA AAGTCCCGCC CCTCAGCAGC CGAACTGCTG
AAGACCACTA ACCCACTGGC TCGGAGAATT ATTGCACAAT TTTCAAAAGA CTACGAAACC
ACTGATCACC CCAGTACCTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661784.1 CDS 624..4064 Translation
Target ORF information:
RefSeq Version XM_019806225.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019806225.1
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
3421ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGCTGCAGC TAACTCGGGT
CGGGAAAATG CGACAGCGAC TGCCCACTCG AGGTCGTCAT GGCGACAGCC AGTGAACGTG
TTCCTCTCCT CGGGCAGGCC CCCGAGTGTA GAGGAGCTGC TTCGAGAGGC GCAGCTCAAT
CTCCAGAGCC TGTTGCAAGA AGAATATGAG GAACAGTACT CGGAGGCCAG ACTTCTGGGG
CAGACCTTCC GCTCTGCTGA TGAGGCCCCT GAGCCCACCC CTAGCCCAAG GTCCCAGGCT
GGCAGGCGTC TGGAGTTTGT GTTGATGCCT ACAAAACGGC AGCTGAGCGA GGATGAGACT
ACCACCCAGG GTGTGAGGGC CCCTGAGGCC TCCCTGAGCC TGTCTACCAC AGCCGACAAG
CAAGCTGCCT GGAATAGCCC CTCCCCTCTG CCCATCCTAG AGGAGAAGCG GTGGCTTCAA
CCTTGCTCCA CGCACTCTGA CATTGTGCCC ATCAACATCT CTGGGCAGCA GTTTGATAAA
CACGCAAGTT TGCGACACTC GTTGTTTAAC ACAGAGACAG CCGTGAACCC CAAATCCACC
CTGAGGCGGA GGCGGACCAT TATTGGATTC TCTAACTTTT CCCAGCGAGA CCAAGGTCAC
AGCAACAAGC CGGCAGGCAG CGTGGCCCAC GCCACCACCT CAGACATCAG GCCCAGCCGT
TCAGCCCCAG AAGGTGTGCA TGGAAGAGTT GCAGTTGGTC AGGAAGCGCA GTGCCCAAAT
CTCACCTCAC CGGTACTGAG GAGTCCTTCT AGCGACCCGG AAGAACCTGT CCGGGCGCGC
GGTGGCACAA CCCCCCCTGG CATGGAGAGC GTAGGAATGG TGTACAGCGT CCCCAGCTCC
TGCAACGGGC CGACAGAGTC GACGTTCTCT GCTTCCTGGA AGGGAGATAC TTTTACCTAC
ATGACTCCAA GTGCCGCCAG CCAGAGCAAT CGAGTCGGTG AAAATGGAAG AAATCCTTCC
TCGGGCAATG CTTGGGTCTC TCTGCACGCG CTGCCGCCTC TAGTTCCTAA GGAGGCCGCT
GCCCTCTTTG TCACTCGTGA TGACCCCGCA GGATGCAGTG AGTTGGCTGG CTACTCTGAG
CACCCTACTC AACAAAAGCA AGCATCAGAG CGACACTCCA AGATCGGCCT TCTCCCCAGT
GGCACCTCGA GGCTGGAGAC AGGCCCTGGG GGGGCCAGCA GGTTCCGGGA GCGGTCGCTA
TCTGTGCCCA CGGACTCGAG TGCCACGGAT GTGGACTACG AGGAGGAACA GAAGTCCAGT
GAGGCGTGTG CCCTGCCTTA TGCCAGTACG AGTTCTGAGG GCAGCAACAG TGCCGACAAC
ATTGCCTCCC TTAGCTCCCA ACAGGAGGCC CAGCACAGAA GGCAGAGATC CAGGAGTATC
TCACTCCGGA AGGCCAAGAA GAAGCCTTCC CCACCCATGC GTAGTGTCTC ACTGGTCAAA
GATGAGCCGG CCCTCTTGCC AGAAGGTGGG TCAGCACTGC CCAAGGACCA GAGGCCTAGA
AGCCTCTGCC TCTCCTTGGA ACACCAAGGG CGTCACGCAT CCCACCCCGA TGCTCAGGGT
CACCCAGCTG TGCCAACCTT CAAAGATCCG GAAGGTACAC AATTCTCCCA CCACTGGTAT
CTTACTGACT GGAAGTCTGG CGACACCTAC CAGTCCTTGT CCAGCTCCAG CACTGCCACT
GGCACCACAG TCGTCGAGTG CACCCAGGTT CAGGGCAGCT CAGAGTCTCT CACCTCCCCG
TCCATGTCCA GAGCCACGAC ACCTTCCCAA CTCTCCATCG AGGTGGAGGC CAGGGAAGTA
TCCTCCCCAG GAAAGCCCAC CGGGCTGATG TCACCCTCCA GTGGCTACTC CAGCCAGTCA
GAGACACCAA CACCCACCGT CTCCATGTCC TTGATGCTGG GCCACCTGCC CCCTCTGACT
GGCAGCATCC GGGTGCGCCC AGTGGTCCCT GAGAGGAAGT CGTCGCTACC CCCGACCTCG
CCGATGGAGA AATTTTCCAA GTCTCGGCTG TCGTTTGACC TGCCGTTGAC CTCTTCAGCC
AACCTGGATC TGTCTGGGAT GAGCGTCTCC ATCCGAAGCA AAACCAAGGT GAGCCGGCAT
CACTCAGATA CAAATTTTGG GGCCAAGCTG GCCCAGAAAA CGAGCCCCAA CCAGCCCGTT
ATGCCCATGG TCACTCAGTC TGACCTCCGT TCTGTGCGCC TGAGGTCCGT GAGCAAGTCT
GAGCCGGAAG ATGACGTCGA GAGCCTGGAC TATGCTGAGG ACTCAGGAGC AGAAGTCTTC
ACCTTGCCAG AGAGAAGGGT GAAACCTCCC ATAGCTGAGA AGCCCCCCGT GGCCCGAAGG
CCTCCGAGCT TGATCCACAA GCCACCATCC GTCCCCGAGG AGTGCCCACT CACCTCGCCG
ACCTTGGCTA TGACCCCCAA GAGCTCAGTT CAACACACCC AACCACTCCC CCAAGACATC
TACACGGTGG TGCGGAAACC AAAGCCCTCC AGCTTCCCTG AGGGCAGAAG CCCCGGGGAG
CCGCCATTGC CCTCCTCTCT CCCTTTCACA CCTTTTGCCA GTTCCTCTGG TGCTTTCTTC
TCAGGAACAC AGCAACCTCC CCAGGGCACT ATGGAAGATA GGGGCCGCAA GGCGAGAGCC
CTGCCTGAAA GAATCAGCCT CCAGAGCCAG GAAGAAGTGG AGAGAAAGAA AGGCAAGATC
CCACCTCCCG TCCCCAAAAA GCCCAGCGTG CTATACCTGC CTCTCACCTC ACCCACGGCT
CACATGGAGG CGCACGGGGC TGAGCTGAGG CTGCCTCTCA GCCCCATCAT CACCCTGCAG
GAAGAAGCCA AGGGTCCCCC CACCAGTGAC CACCTGCAGT CTCCTGGTAC GAGGACGACC
TCACCGCCGC AGGCTGAAGG TGAAAGGGAG GCAAGTCCTC TAGGGAGCTC TATGGAACCG
AGCACTGAAG AAAAAAGTGT CATCAGTGAT AAAACAGCCG AATGGATCGC CGAAGATGAT
GATGACGTGT TTGTGGCTTC ACGCACAACG GAAGATTTGT TTACTGTGAT ACACAGGTCC
AAAAGAAAGC TGCTTGGCTG GAAAGAGCCC GGGGAGGCCT TTGCCGGCGG CAGCAGACCA
AGCTCCCATT CACCGGTAAA GAACACAGCC GATTCTCCAG TCAGTGAGTC AGCTGCCTCT
GCGGGGTCAA GCGGCAGTGC CAACCTTGAT GCTGGCAGAA ACGATGATTT CAAGGCCTTG
CTACAGAAGA AGGGAAGCAA GGCAACTCCA AAGTCCCGCC CCTCAGCAGC CGAACTGCTG
AAGACCACTA ACCCACTGGC TCGGAGAATT ATTGCACAAT TTTCAAAAGA CTACGAAACC
ACTGATCACC CCAGTACCTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc28989 Clone ID Related Accession (Same CDS sequence) XM_019806225.1 , XM_019806224.1 Accession Version XM_019806224.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3441bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGCTGCAGC TAACTCGGGT
CGGGAAAATG CGACAGCGAC TGCCCACTCG AGGTCGTCAT GGCGACAGCC AGTGAACGTG
TTCCTCTCCT CGGGCAGGCC CCCGAGTGTA GAGGAGCTGC TTCGAGAGGC GCAGCTCAAT
CTCCAGAGCC TGTTGCAAGA AGAATATGAG GAACAGTACT CGGAGGCCAG ACTTCTGGGG
CAGACCTTCC GCTCTGCTGA TGAGGCCCCT GAGCCCACCC CTAGCCCAAG GTCCCAGGCT
GGCAGGCGTC TGGAGTTTGT GTTGATGCCT ACAAAACGGC AGCTGAGCGA GGATGAGACT
ACCACCCAGG GTGTGAGGGC CCCTGAGGCC TCCCTGAGCC TGTCTACCAC AGCCGACAAG
CAAGCTGCCT GGAATAGCCC CTCCCCTCTG CCCATCCTAG AGGAGAAGCG GTGGCTTCAA
CCTTGCTCCA CGCACTCTGA CATTGTGCCC ATCAACATCT CTGGGCAGCA GTTTGATAAA
CACGCAAGTT TGCGACACTC GTTGTTTAAC ACAGAGACAG CCGTGAACCC CAAATCCACC
CTGAGGCGGA GGCGGACCAT TATTGGATTC TCTAACTTTT CCCAGCGAGA CCAAGGTCAC
AGCAACAAGC CGGCAGGCAG CGTGGCCCAC GCCACCACCT CAGACATCAG GCCCAGCCGT
TCAGCCCCAG AAGGTGTGCA TGGAAGAGTT GCAGTTGGTC AGGAAGCGCA GTGCCCAAAT
CTCACCTCAC CGGTACTGAG GAGTCCTTCT AGCGACCCGG AAGAACCTGT CCGGGCGCGC
GGTGGCACAA CCCCCCCTGG CATGGAGAGC GTAGGAATGG TGTACAGCGT CCCCAGCTCC
TGCAACGGGC CGACAGAGTC GACGTTCTCT GCTTCCTGGA AGGGAGATAC TTTTACCTAC
ATGACTCCAA GTGCCGCCAG CCAGAGCAAT CGAGTCGGTG AAAATGGAAG AAATCCTTCC
TCGGGCAATG CTTGGGTCTC TCTGCACGCG CTGCCGCCTC TAGTTCCTAA GGAGGCCGCT
GCCCTCTTTG TCACTCGTGA TGACCCCGCA GGATGCAGTG AGTTGGCTGG CTACTCTGAG
CACCCTACTC AACAAAAGCA AGCATCAGAG CGACACTCCA AGATCGGCCT TCTCCCCAGT
GGCACCTCGA GGCTGGAGAC AGGCCCTGGG GGGGCCAGCA GGTTCCGGGA GCGGTCGCTA
TCTGTGCCCA CGGACTCGAG TGCCACGGAT GTGGACTACG AGGAGGAACA GAAGTCCAGT
GAGGCGTGTG CCCTGCCTTA TGCCAGTACG AGTTCTGAGG GCAGCAACAG TGCCGACAAC
ATTGCCTCCC TTAGCTCCCA ACAGGAGGCC CAGCACAGAA GGCAGAGATC CAGGAGTATC
TCACTCCGGA AGGCCAAGAA GAAGCCTTCC CCACCCATGC GTAGTGTCTC ACTGGTCAAA
GATGAGCCGG CCCTCTTGCC AGAAGGTGGG TCAGCACTGC CCAAGGACCA GAGGCCTAGA
AGCCTCTGCC TCTCCTTGGA ACACCAAGGG CGTCACGCAT CCCACCCCGA TGCTCAGGGT
CACCCAGCTG TGCCAACCTT CAAAGATCCG GAAGGTACAC AATTCTCCCA CCACTGGTAT
CTTACTGACT GGAAGTCTGG CGACACCTAC CAGTCCTTGT CCAGCTCCAG CACTGCCACT
GGCACCACAG TCGTCGAGTG CACCCAGGTT CAGGGCAGCT CAGAGTCTCT CACCTCCCCG
TCCATGTCCA GAGCCACGAC ACCTTCCCAA CTCTCCATCG AGGTGGAGGC CAGGGAAGTA
TCCTCCCCAG GAAAGCCCAC CGGGCTGATG TCACCCTCCA GTGGCTACTC CAGCCAGTCA
GAGACACCAA CACCCACCGT CTCCATGTCC TTGATGCTGG GCCACCTGCC CCCTCTGACT
GGCAGCATCC GGGTGCGCCC AGTGGTCCCT GAGAGGAAGT CGTCGCTACC CCCGACCTCG
CCGATGGAGA AATTTTCCAA GTCTCGGCTG TCGTTTGACC TGCCGTTGAC CTCTTCAGCC
AACCTGGATC TGTCTGGGAT GAGCGTCTCC ATCCGAAGCA AAACCAAGGT GAGCCGGCAT
CACTCAGATA CAAATTTTGG GGCCAAGCTG GCCCAGAAAA CGAGCCCCAA CCAGCCCGTT
ATGCCCATGG TCACTCAGTC TGACCTCCGT TCTGTGCGCC TGAGGTCCGT GAGCAAGTCT
GAGCCGGAAG ATGACGTCGA GAGCCTGGAC TATGCTGAGG ACTCAGGAGC AGAAGTCTTC
ACCTTGCCAG AGAGAAGGGT GAAACCTCCC ATAGCTGAGA AGCCCCCCGT GGCCCGAAGG
CCTCCGAGCT TGATCCACAA GCCACCATCC GTCCCCGAGG AGTGCCCACT CACCTCGCCG
ACCTTGGCTA TGACCCCCAA GAGCTCAGTT CAACACACCC AACCACTCCC CCAAGACATC
TACACGGTGG TGCGGAAACC AAAGCCCTCC AGCTTCCCTG AGGGCAGAAG CCCCGGGGAG
CCGCCATTGC CCTCCTCTCT CCCTTTCACA CCTTTTGCCA GTTCCTCTGG TGCTTTCTTC
TCAGGAACAC AGCAACCTCC CCAGGGCACT ATGGAAGATA GGGGCCGCAA GGCGAGAGCC
CTGCCTGAAA GAATCAGCCT CCAGAGCCAG GAAGAAGTGG AGAGAAAGAA AGGCAAGATC
CCACCTCCCG TCCCCAAAAA GCCCAGCGTG CTATACCTGC CTCTCACCTC ACCCACGGCT
CACATGGAGG CGCACGGGGC TGAGCTGAGG CTGCCTCTCA GCCCCATCAT CACCCTGCAG
GAAGAAGCCA AGGGTCCCCC CACCAGTGAC CACCTGCAGT CTCCTGGTAC GAGGACGACC
TCACCGCCGC AGGCTGAAGG TGAAAGGGAG GCAAGTCCTC TAGGGAGCTC TATGGAACCG
AGCACTGAAG AAAAAAGTGT CATCAGTGAT AAAACAGCCG AATGGATCGC CGAAGATGAT
GATGACGTGT TTGTGGCTTC ACGCACAACG GAAGATTTGT TTACTGTGAT ACACAGGTCC
AAAAGAAAGC TGCTTGGCTG GAAAGAGCCC GGGGAGGCCT TTGCCGGCGG CAGCAGACCA
AGCTCCCATT CACCGGTAAA GAACACAGCC GATTCTCCAG TCAGTGAGTC AGCTGCCTCT
GCGGGGTCAA GCGGCAGTGC CAACCTTGAT GCTGGCAGAA ACGATGATTT CAAGGCCTTG
CTACAGAAGA AGGGAAGCAA GGCAACTCCA AAGTCCCGCC CCTCAGCAGC CGAACTGCTG
AAGACCACTA ACCCACTGGC TCGGAGAATT ATTGCACAAT TTTCAAAAGA CTACGAAACC
ACTGATCACC CCAGTACCTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661783.1 CDS 329..3769 Translation
Target ORF information:
RefSeq Version XM_019806224.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019806224.1
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
3421ATGGAGAAAG CCGAGTCTGT CACCCTCTTC TGGAGCCAGG GAGCTGCAGC TAACTCGGGT
CGGGAAAATG CGACAGCGAC TGCCCACTCG AGGTCGTCAT GGCGACAGCC AGTGAACGTG
TTCCTCTCCT CGGGCAGGCC CCCGAGTGTA GAGGAGCTGC TTCGAGAGGC GCAGCTCAAT
CTCCAGAGCC TGTTGCAAGA AGAATATGAG GAACAGTACT CGGAGGCCAG ACTTCTGGGG
CAGACCTTCC GCTCTGCTGA TGAGGCCCCT GAGCCCACCC CTAGCCCAAG GTCCCAGGCT
GGCAGGCGTC TGGAGTTTGT GTTGATGCCT ACAAAACGGC AGCTGAGCGA GGATGAGACT
ACCACCCAGG GTGTGAGGGC CCCTGAGGCC TCCCTGAGCC TGTCTACCAC AGCCGACAAG
CAAGCTGCCT GGAATAGCCC CTCCCCTCTG CCCATCCTAG AGGAGAAGCG GTGGCTTCAA
CCTTGCTCCA CGCACTCTGA CATTGTGCCC ATCAACATCT CTGGGCAGCA GTTTGATAAA
CACGCAAGTT TGCGACACTC GTTGTTTAAC ACAGAGACAG CCGTGAACCC CAAATCCACC
CTGAGGCGGA GGCGGACCAT TATTGGATTC TCTAACTTTT CCCAGCGAGA CCAAGGTCAC
AGCAACAAGC CGGCAGGCAG CGTGGCCCAC GCCACCACCT CAGACATCAG GCCCAGCCGT
TCAGCCCCAG AAGGTGTGCA TGGAAGAGTT GCAGTTGGTC AGGAAGCGCA GTGCCCAAAT
CTCACCTCAC CGGTACTGAG GAGTCCTTCT AGCGACCCGG AAGAACCTGT CCGGGCGCGC
GGTGGCACAA CCCCCCCTGG CATGGAGAGC GTAGGAATGG TGTACAGCGT CCCCAGCTCC
TGCAACGGGC CGACAGAGTC GACGTTCTCT GCTTCCTGGA AGGGAGATAC TTTTACCTAC
ATGACTCCAA GTGCCGCCAG CCAGAGCAAT CGAGTCGGTG AAAATGGAAG AAATCCTTCC
TCGGGCAATG CTTGGGTCTC TCTGCACGCG CTGCCGCCTC TAGTTCCTAA GGAGGCCGCT
GCCCTCTTTG TCACTCGTGA TGACCCCGCA GGATGCAGTG AGTTGGCTGG CTACTCTGAG
CACCCTACTC AACAAAAGCA AGCATCAGAG CGACACTCCA AGATCGGCCT TCTCCCCAGT
GGCACCTCGA GGCTGGAGAC AGGCCCTGGG GGGGCCAGCA GGTTCCGGGA GCGGTCGCTA
TCTGTGCCCA CGGACTCGAG TGCCACGGAT GTGGACTACG AGGAGGAACA GAAGTCCAGT
GAGGCGTGTG CCCTGCCTTA TGCCAGTACG AGTTCTGAGG GCAGCAACAG TGCCGACAAC
ATTGCCTCCC TTAGCTCCCA ACAGGAGGCC CAGCACAGAA GGCAGAGATC CAGGAGTATC
TCACTCCGGA AGGCCAAGAA GAAGCCTTCC CCACCCATGC GTAGTGTCTC ACTGGTCAAA
GATGAGCCGG CCCTCTTGCC AGAAGGTGGG TCAGCACTGC CCAAGGACCA GAGGCCTAGA
AGCCTCTGCC TCTCCTTGGA ACACCAAGGG CGTCACGCAT CCCACCCCGA TGCTCAGGGT
CACCCAGCTG TGCCAACCTT CAAAGATCCG GAAGGTACAC AATTCTCCCA CCACTGGTAT
CTTACTGACT GGAAGTCTGG CGACACCTAC CAGTCCTTGT CCAGCTCCAG CACTGCCACT
GGCACCACAG TCGTCGAGTG CACCCAGGTT CAGGGCAGCT CAGAGTCTCT CACCTCCCCG
TCCATGTCCA GAGCCACGAC ACCTTCCCAA CTCTCCATCG AGGTGGAGGC CAGGGAAGTA
TCCTCCCCAG GAAAGCCCAC CGGGCTGATG TCACCCTCCA GTGGCTACTC CAGCCAGTCA
GAGACACCAA CACCCACCGT CTCCATGTCC TTGATGCTGG GCCACCTGCC CCCTCTGACT
GGCAGCATCC GGGTGCGCCC AGTGGTCCCT GAGAGGAAGT CGTCGCTACC CCCGACCTCG
CCGATGGAGA AATTTTCCAA GTCTCGGCTG TCGTTTGACC TGCCGTTGAC CTCTTCAGCC
AACCTGGATC TGTCTGGGAT GAGCGTCTCC ATCCGAAGCA AAACCAAGGT GAGCCGGCAT
CACTCAGATA CAAATTTTGG GGCCAAGCTG GCCCAGAAAA CGAGCCCCAA CCAGCCCGTT
ATGCCCATGG TCACTCAGTC TGACCTCCGT TCTGTGCGCC TGAGGTCCGT GAGCAAGTCT
GAGCCGGAAG ATGACGTCGA GAGCCTGGAC TATGCTGAGG ACTCAGGAGC AGAAGTCTTC
ACCTTGCCAG AGAGAAGGGT GAAACCTCCC ATAGCTGAGA AGCCCCCCGT GGCCCGAAGG
CCTCCGAGCT TGATCCACAA GCCACCATCC GTCCCCGAGG AGTGCCCACT CACCTCGCCG
ACCTTGGCTA TGACCCCCAA GAGCTCAGTT CAACACACCC AACCACTCCC CCAAGACATC
TACACGGTGG TGCGGAAACC AAAGCCCTCC AGCTTCCCTG AGGGCAGAAG CCCCGGGGAG
CCGCCATTGC CCTCCTCTCT CCCTTTCACA CCTTTTGCCA GTTCCTCTGG TGCTTTCTTC
TCAGGAACAC AGCAACCTCC CCAGGGCACT ATGGAAGATA GGGGCCGCAA GGCGAGAGCC
CTGCCTGAAA GAATCAGCCT CCAGAGCCAG GAAGAAGTGG AGAGAAAGAA AGGCAAGATC
CCACCTCCCG TCCCCAAAAA GCCCAGCGTG CTATACCTGC CTCTCACCTC ACCCACGGCT
CACATGGAGG CGCACGGGGC TGAGCTGAGG CTGCCTCTCA GCCCCATCAT CACCCTGCAG
GAAGAAGCCA AGGGTCCCCC CACCAGTGAC CACCTGCAGT CTCCTGGTAC GAGGACGACC
TCACCGCCGC AGGCTGAAGG TGAAAGGGAG GCAAGTCCTC TAGGGAGCTC TATGGAACCG
AGCACTGAAG AAAAAAGTGT CATCAGTGAT AAAACAGCCG AATGGATCGC CGAAGATGAT
GATGACGTGT TTGTGGCTTC ACGCACAACG GAAGATTTGT TTACTGTGAT ACACAGGTCC
AAAAGAAAGC TGCTTGGCTG GAAAGAGCCC GGGGAGGCCT TTGCCGGCGG CAGCAGACCA
AGCTCCCATT CACCGGTAAA GAACACAGCC GATTCTCCAG TCAGTGAGTC AGCTGCCTCT
GCGGGGTCAA GCGGCAGTGC CAACCTTGAT GCTGGCAGAA ACGATGATTT CAAGGCCTTG
CTACAGAAGA AGGGAAGCAA GGCAACTCCA AAGTCCCGCC CCTCAGCAGC CGAACTGCTG
AAGACCACTA ACCCACTGGC TCGGAGAATT ATTGCACAAT TTTCAAAAGA CTACGAAACC
ACTGATCACC CCAGTACCTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc28990 Clone ID Related Accession (Same CDS sequence) XM_011232679.2 Accession Version XM_011232679.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232679.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGGCAGCAC AGCCCAGGGC GTTGAATGCT GCAGCTAACT CGGGTCGGGA AAATGCGACA
GCGACTGCCC ACTCGAGGTC GTCATGGCGA CAGCCAGTGA ACGTGTTCCT CTCCTCGGGC
AGGCCCCCGA GTGTAGAGGA GCTGCTTCGA GAGGCGCAGC TCAATCTCCA GAGCCTGTTG
CAAGAAGAAT ATGAGGAACA GTACTCGGAG GCCAGACTTC TGGGGCAGAC CTTCCGCTCT
GCTGATGAGG CCCCTGAGCC CACCCCTAGC CCAAGGTCCC AGGCTGGCAG GCGTCTGGAG
TTTGTGTTGA TGCCTACAAA ACGGCAGCTG AGCGAGGATG AGACTACCAC CCAGGGTGTG
AGGGCCCCTG AGGCCTCCCT GAGCCTGTCT ACCACAGCCG ACAAGCAAGC TGCCTGGAAT
AGCCCCTCCC CTCTGCCCAT CCTAGAGGAG AAGCGGTGGC TTCAACCTTG CTCCACGCAC
TCTGACATTG TGCCCATCAA CATCTCTGGG CAGCAGTTTG ATAAACACGC AAGTTTGCGA
CACTCGTTGT TTAACACAGA GACAGCCGTG AACCCCAAAT CCACCCTGAG GCGGAGGCGG
ACCATTATTG GATTCTCTAA CTTTTCCCAG CGAGACCAAG GTCACAGCAA CAAGCCGGCA
GGCAGCGTGG CCCACGCCAC CACCTCAGAC ATCAGGCCCA GCCGTTCAGC CCCAGAAGGT
GTGCATGGAA GAGTTGCAGT TGGTCAGGAA GCGCAGTGCC CAAATCTCAC CTCACCGGTA
CTGAGGAGTC CTTCTAGCGA CCCGGAAGAA CCTGTCCGGG CGCGCGGTGG CACAACCCCC
CCTGGCATGG AGAGCGTAGG AATGGTGTAC AGCGTCCCCA GCTCCTGCAA CGGGCCGACA
GAGTCGACGT TCTCTGCTTC CTGGAAGGGA GATACTTTTA CCTACATGAC TCCAAGTGCC
GCCAGCCAGA GCAATCGAGT CGGTGAAAAT GGAAGAAATC CTTCCTCGGG CAATGCTTGG
GTCTCTCTGC ACGCGCTGCC GCCTCTAGTT CCTAAGGAGG CCGCTGCCCT CTTTGTCACT
CGTGATGACC CCGCAGGATG CAGTGAGTTG GCTGGCTACT CTGAGCACCC TACTCAACAA
AAGCAAGCAT CAGAGCGACA CTCCAAGATC GGCCTTCTCC CCAGTGGCAC CTCGAGGCTG
GAGACAGGCC CTGGGGGGGC CAGCAGGTTC CGGGAGCGGT CGCTATCTGT GCCCACGGAC
TCGAGTGCCA CGGATGTGGA CTACGAGGAG GAACAGAAGT CCAGTGAGGC GTGTGCCCTG
CCTTATGCCA GTACGAGTTC TGAGGGCAGC AACAGTGCCG ACAACATTGC CTCCCTTAGC
TCCCAACAGG AGGCCCAGCA CAGAAGGCAG AGATCCAGGA GTATCTCACT CCGGAAGGCC
AAGAAGAAGC CTTCCCCACC CATGCGTAGT GTCTCACTGG TCAAAGATGA GCCGGCCCTC
TTGCCAGAAG GTGGGTCAGC ACTGCCCAAG GACCAGAGGC CTAGAAGCCT CTGCCTCTCC
TTGGAACACC AAGGGCGTCA CGCATCCCAC CCCGATGCTC AGGGTCACCC AGCTGTGCCA
ACCTTCAAAG ATCCGGAAGG TACACAATTC TCCCACCACT GGTATCTTAC TGACTGGAAG
TCTGGCGACA CCTACCAGTC CTTGTCCAGC TCCAGCACTG CCACTGGCAC CACAGTCGTC
GAGTGCACCC AGGTTCAGGG CAGCTCAGAG TCTCTCACCT CCCCGTCCAT GTCCAGAGCC
ACGACACCTT CCCAACTCTC CATCGAGGTG GAGGCCAGGG AAGTATCCTC CCCAGGAAAG
CCCACCGGGC TGATGTCACC CTCCAGTGGC TACTCCAGCC AGTCAGAGAC ACCAACACCC
ACCGTCTCCA TGTCCTTGAT GCTGGGCCAC CTGCCCCCTC TGACTGGCAG CATCCGGGTG
CGCCCAGTGG TCCCTGAGAG GAAGTCGTCG CTACCCCCGA CCTCGCCGAT GGAGAAATTT
TCCAAGTCTC GGCTGTCGTT TGACCTGCCG TTGACCTCTT CAGCCAACCT GGATCTGTCT
GGGATGAGCG TCTCCATCCG AAGCAAAACC AAGGTGAGCC GGCATCACTC AGATACAAAT
TTTGGGGCCA AGCTGGCCCA GAAAACGAGC CCCAACCAGC CCGTTATGCC CATGGTCACT
CAGTCTGACC TCCGTTCTGT GCGCCTGAGG TCCGTGAGCA AGTCTGAGCC GGAAGATGAC
GTCGAGAGCC TGGACTATGC TGAGGACTCA GGAGCAGAAG TCTTCACCTT GCCAGAGAGA
AGGGTGAAAC CTCCCATAGC TGAGAAGCCC CCCGTGGCCC GAAGGCCTCC GAGCTTGATC
CACAAGCCAC CATCCGTCCC CGAGGAGTGC CCACTCACCT CGCCGACCTT GGCTATGACC
CCCAAGAGCT CAGTTCAACA CACCCAACCA CTCCCCCAAG ACATCTACAC GGTGGTGCGG
AAACCAAAGC CCTCCAGCTT CCCTGAGGGC AGAAGCCCCG GGGAGCCGCC ATTGCCCTCC
TCTCTCCCTT TCACACCTTT TGCCAGTTCC TCTGGTGCTT TCTTCTCAGG AACACAGCAA
CCTCCCCAGG GCACTATGGA AGATAGGGGC CGCAAGGCGA GAGCCCTGCC TGAAAGAATC
AGCCTCCAGA GCCAGGAAGA AGTGGAGAGA AAGAAAGGCA AGATCCCACC TCCCGTCCCC
AAAAAGCCCA GCGTGCTATA CCTGCCTCTC ACCTCACCCA CGGCTCACAT GGAGGCGCAC
GGGGCTGAGC TGAGGCTGCC TCTCAGCCCC ATCATCACCC TGCAGGAAGA AGCCAAGGGT
CCCCCCACCA GTGACCACCT GCAGTCTCCT GGTACGAGGA CGACCTCACC GCCGCAGGCT
GAAGGTGAAA GGGAGGCAAG TCCTCTAGGG AGCTCTATGG AACCGAGCAC TGAAGAAAAA
AGTGTCATCA GTGATAAAAC AGCCGAATGG ATCGCCGAAG ATGATGATGA CGTGTTTGTG
GCTTCACGCA CAACGGAAGA TTTGTTTACT GTGATACACA GGTCCAAAAG AAAGCTGCTT
GGCTGGAAAG AGCCCGGGGA GGCCTTTGCC GGCGGCAGCA GACCAAGCTC CCATTCACCG
GTAAAGAACA CAGCCGATTC TCCAGTCAGT GAGTCAGCTG CCTCTGCGGG GTCAAGCGGC
AGTGCCAACC TTGATGCTGG CAGAAACGAT GATTTCAAGG CCTTGCTACA GAAGAAGGGA
AGCAAGGCAA CTCCAAAGTC CCGCCCCTCA GCAGCCGAAC TGCTGAAGAC CACTAACCCA
CTGGCTCGGA GAATTATTGC ACAATTTTCA AAAGACTACG AAACCACTGA TCACCCCAGT
ACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011230981.1 CDS 124..3549 Translation
Target ORF information:
RefSeq Version XM_011232679.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_011232679.2
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
3361
3421ATGGCAGCAC AGCCCAGGGC GTTGAATGCT GCAGCTAACT CGGGTCGGGA AAATGCGACA
GCGACTGCCC ACTCGAGGTC GTCATGGCGA CAGCCAGTGA ACGTGTTCCT CTCCTCGGGC
AGGCCCCCGA GTGTAGAGGA GCTGCTTCGA GAGGCGCAGC TCAATCTCCA GAGCCTGTTG
CAAGAAGAAT ATGAGGAACA GTACTCGGAG GCCAGACTTC TGGGGCAGAC CTTCCGCTCT
GCTGATGAGG CCCCTGAGCC CACCCCTAGC CCAAGGTCCC AGGCTGGCAG GCGTCTGGAG
TTTGTGTTGA TGCCTACAAA ACGGCAGCTG AGCGAGGATG AGACTACCAC CCAGGGTGTG
AGGGCCCCTG AGGCCTCCCT GAGCCTGTCT ACCACAGCCG ACAAGCAAGC TGCCTGGAAT
AGCCCCTCCC CTCTGCCCAT CCTAGAGGAG AAGCGGTGGC TTCAACCTTG CTCCACGCAC
TCTGACATTG TGCCCATCAA CATCTCTGGG CAGCAGTTTG ATAAACACGC AAGTTTGCGA
CACTCGTTGT TTAACACAGA GACAGCCGTG AACCCCAAAT CCACCCTGAG GCGGAGGCGG
ACCATTATTG GATTCTCTAA CTTTTCCCAG CGAGACCAAG GTCACAGCAA CAAGCCGGCA
GGCAGCGTGG CCCACGCCAC CACCTCAGAC ATCAGGCCCA GCCGTTCAGC CCCAGAAGGT
GTGCATGGAA GAGTTGCAGT TGGTCAGGAA GCGCAGTGCC CAAATCTCAC CTCACCGGTA
CTGAGGAGTC CTTCTAGCGA CCCGGAAGAA CCTGTCCGGG CGCGCGGTGG CACAACCCCC
CCTGGCATGG AGAGCGTAGG AATGGTGTAC AGCGTCCCCA GCTCCTGCAA CGGGCCGACA
GAGTCGACGT TCTCTGCTTC CTGGAAGGGA GATACTTTTA CCTACATGAC TCCAAGTGCC
GCCAGCCAGA GCAATCGAGT CGGTGAAAAT GGAAGAAATC CTTCCTCGGG CAATGCTTGG
GTCTCTCTGC ACGCGCTGCC GCCTCTAGTT CCTAAGGAGG CCGCTGCCCT CTTTGTCACT
CGTGATGACC CCGCAGGATG CAGTGAGTTG GCTGGCTACT CTGAGCACCC TACTCAACAA
AAGCAAGCAT CAGAGCGACA CTCCAAGATC GGCCTTCTCC CCAGTGGCAC CTCGAGGCTG
GAGACAGGCC CTGGGGGGGC CAGCAGGTTC CGGGAGCGGT CGCTATCTGT GCCCACGGAC
TCGAGTGCCA CGGATGTGGA CTACGAGGAG GAACAGAAGT CCAGTGAGGC GTGTGCCCTG
CCTTATGCCA GTACGAGTTC TGAGGGCAGC AACAGTGCCG ACAACATTGC CTCCCTTAGC
TCCCAACAGG AGGCCCAGCA CAGAAGGCAG AGATCCAGGA GTATCTCACT CCGGAAGGCC
AAGAAGAAGC CTTCCCCACC CATGCGTAGT GTCTCACTGG TCAAAGATGA GCCGGCCCTC
TTGCCAGAAG GTGGGTCAGC ACTGCCCAAG GACCAGAGGC CTAGAAGCCT CTGCCTCTCC
TTGGAACACC AAGGGCGTCA CGCATCCCAC CCCGATGCTC AGGGTCACCC AGCTGTGCCA
ACCTTCAAAG ATCCGGAAGG TACACAATTC TCCCACCACT GGTATCTTAC TGACTGGAAG
TCTGGCGACA CCTACCAGTC CTTGTCCAGC TCCAGCACTG CCACTGGCAC CACAGTCGTC
GAGTGCACCC AGGTTCAGGG CAGCTCAGAG TCTCTCACCT CCCCGTCCAT GTCCAGAGCC
ACGACACCTT CCCAACTCTC CATCGAGGTG GAGGCCAGGG AAGTATCCTC CCCAGGAAAG
CCCACCGGGC TGATGTCACC CTCCAGTGGC TACTCCAGCC AGTCAGAGAC ACCAACACCC
ACCGTCTCCA TGTCCTTGAT GCTGGGCCAC CTGCCCCCTC TGACTGGCAG CATCCGGGTG
CGCCCAGTGG TCCCTGAGAG GAAGTCGTCG CTACCCCCGA CCTCGCCGAT GGAGAAATTT
TCCAAGTCTC GGCTGTCGTT TGACCTGCCG TTGACCTCTT CAGCCAACCT GGATCTGTCT
GGGATGAGCG TCTCCATCCG AAGCAAAACC AAGGTGAGCC GGCATCACTC AGATACAAAT
TTTGGGGCCA AGCTGGCCCA GAAAACGAGC CCCAACCAGC CCGTTATGCC CATGGTCACT
CAGTCTGACC TCCGTTCTGT GCGCCTGAGG TCCGTGAGCA AGTCTGAGCC GGAAGATGAC
GTCGAGAGCC TGGACTATGC TGAGGACTCA GGAGCAGAAG TCTTCACCTT GCCAGAGAGA
AGGGTGAAAC CTCCCATAGC TGAGAAGCCC CCCGTGGCCC GAAGGCCTCC GAGCTTGATC
CACAAGCCAC CATCCGTCCC CGAGGAGTGC CCACTCACCT CGCCGACCTT GGCTATGACC
CCCAAGAGCT CAGTTCAACA CACCCAACCA CTCCCCCAAG ACATCTACAC GGTGGTGCGG
AAACCAAAGC CCTCCAGCTT CCCTGAGGGC AGAAGCCCCG GGGAGCCGCC ATTGCCCTCC
TCTCTCCCTT TCACACCTTT TGCCAGTTCC TCTGGTGCTT TCTTCTCAGG AACACAGCAA
CCTCCCCAGG GCACTATGGA AGATAGGGGC CGCAAGGCGA GAGCCCTGCC TGAAAGAATC
AGCCTCCAGA GCCAGGAAGA AGTGGAGAGA AAGAAAGGCA AGATCCCACC TCCCGTCCCC
AAAAAGCCCA GCGTGCTATA CCTGCCTCTC ACCTCACCCA CGGCTCACAT GGAGGCGCAC
GGGGCTGAGC TGAGGCTGCC TCTCAGCCCC ATCATCACCC TGCAGGAAGA AGCCAAGGGT
CCCCCCACCA GTGACCACCT GCAGTCTCCT GGTACGAGGA CGACCTCACC GCCGCAGGCT
GAAGGTGAAA GGGAGGCAAG TCCTCTAGGG AGCTCTATGG AACCGAGCAC TGAAGAAAAA
AGTGTCATCA GTGATAAAAC AGCCGAATGG ATCGCCGAAG ATGATGATGA CGTGTTTGTG
GCTTCACGCA CAACGGAAGA TTTGTTTACT GTGATACACA GGTCCAAAAG AAAGCTGCTT
GGCTGGAAAG AGCCCGGGGA GGCCTTTGCC GGCGGCAGCA GACCAAGCTC CCATTCACCG
GTAAAGAACA CAGCCGATTC TCCAGTCAGT GAGTCAGCTG CCTCTGCGGG GTCAAGCGGC
AGTGCCAACC TTGATGCTGG CAGAAACGAT GATTTCAAGG CCTTGCTACA GAAGAAGGGA
AGCAAGGCAA CTCCAAAGTC CCGCCCCTCA GCAGCCGAAC TGCTGAAGAC CACTAACCCA
CTGGCTCGGA GAATTATTGC ACAATTTTCA AAAGACTACG AAACCACTGA TCACCCCAGT
ACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc97164 Clone ID Related Accession (Same CDS sequence) XM_019806226.1 Accession Version XM_019806226.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3270bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product NHS-like protein 2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218239.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3241ATGGCAGCAC AGCCCAGGGC GTTGAATGAA GAATATGAGG AACAGTACTC GGAGGCCAGA
CTTCTGGGGC AGACCTTCCG CTCTGCTGAT GAGGCCCCTG AGCCCACCCC TAGCCCAAGG
TCCCAGGCTG GCAGGCGTCT GGAGTTTGTG TTGATGCCTA CAAAACGGCA GCTGAGCGAG
GATGAGACTA CCACCCAGGG TGTGAGGGCC CCTGAGGCCT CCCTGAGCCT GTCTACCACA
GCCGACAAGC AAGCTGCCTG GAATAGCCCC TCCCCTCTGC CCATCCTAGA GGAGAAGCGG
TGGCTTCAAC CTTGCTCCAC GCACTCTGAC ATTGTGCCCA TCAACATCTC TGGGCAGCAG
TTTGATAAAC ACGCAAGTTT GCGACACTCG TTGTTTAACA CAGAGACAGC CGTGAACCCC
AAATCCACCC TGAGGCGGAG GCGGACCATT ATTGGATTCT CTAACTTTTC CCAGCGAGAC
CAAGGTCACA GCAACAAGCC GGCAGGCAGC GTGGCCCACG CCACCACCTC AGACATCAGG
CCCAGCCGTT CAGCCCCAGA AGGTGTGCAT GGAAGAGTTG CAGTTGGTCA GGAAGCGCAG
TGCCCAAATC TCACCTCACC GGTACTGAGG AGTCCTTCTA GCGACCCGGA AGAACCTGTC
CGGGCGCGCG GTGGCACAAC CCCCCCTGGC ATGGAGAGCG TAGGAATGGT GTACAGCGTC
CCCAGCTCCT GCAACGGGCC GACAGAGTCG ACGTTCTCTG CTTCCTGGAA GGGAGATACT
TTTACCTACA TGACTCCAAG TGCCGCCAGC CAGAGCAATC GAGTCGGTGA AAATGGAAGA
AATCCTTCCT CGGGCAATGC TTGGGTCTCT CTGCACGCGC TGCCGCCTCT AGTTCCTAAG
GAGGCCGCTG CCCTCTTTGT CACTCGTGAT GACCCCGCAG GATGCAGTGA GTTGGCTGGC
TACTCTGAGC ACCCTACTCA ACAAAAGCAA GCATCAGAGC GACACTCCAA GATCGGCCTT
CTCCCCAGTG GCACCTCGAG GCTGGAGACA GGCCCTGGGG GGGCCAGCAG GTTCCGGGAG
CGGTCGCTAT CTGTGCCCAC GGACTCGAGT GCCACGGATG TGGACTACGA GGAGGAACAG
AAGTCCAGTG AGGCGTGTGC CCTGCCTTAT GCCAGTACGA GTTCTGAGGG CAGCAACAGT
GCCGACAACA TTGCCTCCCT TAGCTCCCAA CAGGAGGCCC AGCACAGAAG GCAGAGATCC
AGGAGTATCT CACTCCGGAA GGCCAAGAAG AAGCCTTCCC CACCCATGCG TAGTGTCTCA
CTGGTCAAAG ATGAGCCGGC CCTCTTGCCA GAAGGTGGGT CAGCACTGCC CAAGGACCAG
AGGCCTAGAA GCCTCTGCCT CTCCTTGGAA CACCAAGGGC GTCACGCATC CCACCCCGAT
GCTCAGGGTC ACCCAGCTGT GCCAACCTTC AAAGATCCGG AAGGTACACA ATTCTCCCAC
CACTGGTATC TTACTGACTG GAAGTCTGGC GACACCTACC AGTCCTTGTC CAGCTCCAGC
ACTGCCACTG GCACCACAGT CGTCGAGTGC ACCCAGGTTC AGGGCAGCTC AGAGTCTCTC
ACCTCCCCGT CCATGTCCAG AGCCACGACA CCTTCCCAAC TCTCCATCGA GGTGGAGGCC
AGGGAAGTAT CCTCCCCAGG AAAGCCCACC GGGCTGATGT CACCCTCCAG TGGCTACTCC
AGCCAGTCAG AGACACCAAC ACCCACCGTC TCCATGTCCT TGATGCTGGG CCACCTGCCC
CCTCTGACTG GCAGCATCCG GGTGCGCCCA GTGGTCCCTG AGAGGAAGTC GTCGCTACCC
CCGACCTCGC CGATGGAGAA ATTTTCCAAG TCTCGGCTGT CGTTTGACCT GCCGTTGACC
TCTTCAGCCA ACCTGGATCT GTCTGGGATG AGCGTCTCCA TCCGAAGCAA AACCAAGGTG
AGCCGGCATC ACTCAGATAC AAATTTTGGG GCCAAGCTGG CCCAGAAAAC GAGCCCCAAC
CAGCCCGTTA TGCCCATGGT CACTCAGTCT GACCTCCGTT CTGTGCGCCT GAGGTCCGTG
AGCAAGTCTG AGCCGGAAGA TGACGTCGAG AGCCTGGACT ATGCTGAGGA CTCAGGAGCA
GAAGTCTTCA CCTTGCCAGA GAGAAGGGTG AAACCTCCCA TAGCTGAGAA GCCCCCCGTG
GCCCGAAGGC CTCCGAGCTT GATCCACAAG CCACCATCCG TCCCCGAGGA GTGCCCACTC
ACCTCGCCGA CCTTGGCTAT GACCCCCAAG AGCTCAGTTC AACACACCCA ACCACTCCCC
CAAGACATCT ACACGGTGGT GCGGAAACCA AAGCCCTCCA GCTTCCCTGA GGGCAGAAGC
CCCGGGGAGC CGCCATTGCC CTCCTCTCTC CCTTTCACAC CTTTTGCCAG TTCCTCTGGT
GCTTTCTTCT CAGGAACACA GCAACCTCCC CAGGGCACTA TGGAAGATAG GGGCCGCAAG
GCGAGAGCCC TGCCTGAAAG AATCAGCCTC CAGAGCCAGG AAGAAGTGGA GAGAAAGAAA
GGCAAGATCC CACCTCCCGT CCCCAAAAAG CCCAGCGTGC TATACCTGCC TCTCACCTCA
CCCACGGCTC ACATGGAGGC GCACGGGGCT GAGCTGAGGC TGCCTCTCAG CCCCATCATC
ACCCTGCAGG AAGAAGCCAA GGGTCCCCCC ACCAGTGACC ACCTGCAGTC TCCTGGTACG
AGGACGACCT CACCGCCGCA GGCTGAAGGT GAAAGGGAGG CAAGTCCTCT AGGGAGCTCT
ATGGAACCGA GCACTGAAGA AAAAAGTGTC ATCAGTGATA AAACAGCCGA ATGGATCGCC
GAAGATGATG ATGACGTGTT TGTGGCTTCA CGCACAACGG AAGATTTGTT TACTGTGATA
CACAGGTCCA AAAGAAAGCT GCTTGGCTGG AAAGAGCCCG GGGAGGCCTT TGCCGGCGGC
AGCAGACCAA GCTCCCATTC ACCGGTAAAG AACACAGCCG ATTCTCCAGT CAGTGAGTCA
GCTGCCTCTG CGGGGTCAAG CGGCAGTGCC AACCTTGATG CTGGCAGAAA CGATGATTTC
AAGGCCTTGC TACAGAAGAA GGGAAGCAAG GCAACTCCAA AGTCCCGCCC CTCAGCAGCC
GAACTGCTGA AGACCACTAA CCCACTGGCT CGGAGAATTA TTGCACAATT TTCAAAAGAC
TACGAAACCA CTGATCACCC CAGTACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019661785.1 CDS 122..3391 Translation
Target ORF information:
RefSeq Version XM_019806226.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca NHS like 2 (NHSL2), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019806226.1
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
3241ATGGCAGCAC AGCCCAGGGC GTTGAATGAA GAATATGAGG AACAGTACTC GGAGGCCAGA
CTTCTGGGGC AGACCTTCCG CTCTGCTGAT GAGGCCCCTG AGCCCACCCC TAGCCCAAGG
TCCCAGGCTG GCAGGCGTCT GGAGTTTGTG TTGATGCCTA CAAAACGGCA GCTGAGCGAG
GATGAGACTA CCACCCAGGG TGTGAGGGCC CCTGAGGCCT CCCTGAGCCT GTCTACCACA
GCCGACAAGC AAGCTGCCTG GAATAGCCCC TCCCCTCTGC CCATCCTAGA GGAGAAGCGG
TGGCTTCAAC CTTGCTCCAC GCACTCTGAC ATTGTGCCCA TCAACATCTC TGGGCAGCAG
TTTGATAAAC ACGCAAGTTT GCGACACTCG TTGTTTAACA CAGAGACAGC CGTGAACCCC
AAATCCACCC TGAGGCGGAG GCGGACCATT ATTGGATTCT CTAACTTTTC CCAGCGAGAC
CAAGGTCACA GCAACAAGCC GGCAGGCAGC GTGGCCCACG CCACCACCTC AGACATCAGG
CCCAGCCGTT CAGCCCCAGA AGGTGTGCAT GGAAGAGTTG CAGTTGGTCA GGAAGCGCAG
TGCCCAAATC TCACCTCACC GGTACTGAGG AGTCCTTCTA GCGACCCGGA AGAACCTGTC
CGGGCGCGCG GTGGCACAAC CCCCCCTGGC ATGGAGAGCG TAGGAATGGT GTACAGCGTC
CCCAGCTCCT GCAACGGGCC GACAGAGTCG ACGTTCTCTG CTTCCTGGAA GGGAGATACT
TTTACCTACA TGACTCCAAG TGCCGCCAGC CAGAGCAATC GAGTCGGTGA AAATGGAAGA
AATCCTTCCT CGGGCAATGC TTGGGTCTCT CTGCACGCGC TGCCGCCTCT AGTTCCTAAG
GAGGCCGCTG CCCTCTTTGT CACTCGTGAT GACCCCGCAG GATGCAGTGA GTTGGCTGGC
TACTCTGAGC ACCCTACTCA ACAAAAGCAA GCATCAGAGC GACACTCCAA GATCGGCCTT
CTCCCCAGTG GCACCTCGAG GCTGGAGACA GGCCCTGGGG GGGCCAGCAG GTTCCGGGAG
CGGTCGCTAT CTGTGCCCAC GGACTCGAGT GCCACGGATG TGGACTACGA GGAGGAACAG
AAGTCCAGTG AGGCGTGTGC CCTGCCTTAT GCCAGTACGA GTTCTGAGGG CAGCAACAGT
GCCGACAACA TTGCCTCCCT TAGCTCCCAA CAGGAGGCCC AGCACAGAAG GCAGAGATCC
AGGAGTATCT CACTCCGGAA GGCCAAGAAG AAGCCTTCCC CACCCATGCG TAGTGTCTCA
CTGGTCAAAG ATGAGCCGGC CCTCTTGCCA GAAGGTGGGT CAGCACTGCC CAAGGACCAG
AGGCCTAGAA GCCTCTGCCT CTCCTTGGAA CACCAAGGGC GTCACGCATC CCACCCCGAT
GCTCAGGGTC ACCCAGCTGT GCCAACCTTC AAAGATCCGG AAGGTACACA ATTCTCCCAC
CACTGGTATC TTACTGACTG GAAGTCTGGC GACACCTACC AGTCCTTGTC CAGCTCCAGC
ACTGCCACTG GCACCACAGT CGTCGAGTGC ACCCAGGTTC AGGGCAGCTC AGAGTCTCTC
ACCTCCCCGT CCATGTCCAG AGCCACGACA CCTTCCCAAC TCTCCATCGA GGTGGAGGCC
AGGGAAGTAT CCTCCCCAGG AAAGCCCACC GGGCTGATGT CACCCTCCAG TGGCTACTCC
AGCCAGTCAG AGACACCAAC ACCCACCGTC TCCATGTCCT TGATGCTGGG CCACCTGCCC
CCTCTGACTG GCAGCATCCG GGTGCGCCCA GTGGTCCCTG AGAGGAAGTC GTCGCTACCC
CCGACCTCGC CGATGGAGAA ATTTTCCAAG TCTCGGCTGT CGTTTGACCT GCCGTTGACC
TCTTCAGCCA ACCTGGATCT GTCTGGGATG AGCGTCTCCA TCCGAAGCAA AACCAAGGTG
AGCCGGCATC ACTCAGATAC AAATTTTGGG GCCAAGCTGG CCCAGAAAAC GAGCCCCAAC
CAGCCCGTTA TGCCCATGGT CACTCAGTCT GACCTCCGTT CTGTGCGCCT GAGGTCCGTG
AGCAAGTCTG AGCCGGAAGA TGACGTCGAG AGCCTGGACT ATGCTGAGGA CTCAGGAGCA
GAAGTCTTCA CCTTGCCAGA GAGAAGGGTG AAACCTCCCA TAGCTGAGAA GCCCCCCGTG
GCCCGAAGGC CTCCGAGCTT GATCCACAAG CCACCATCCG TCCCCGAGGA GTGCCCACTC
ACCTCGCCGA CCTTGGCTAT GACCCCCAAG AGCTCAGTTC AACACACCCA ACCACTCCCC
CAAGACATCT ACACGGTGGT GCGGAAACCA AAGCCCTCCA GCTTCCCTGA GGGCAGAAGC
CCCGGGGAGC CGCCATTGCC CTCCTCTCTC CCTTTCACAC CTTTTGCCAG TTCCTCTGGT
GCTTTCTTCT CAGGAACACA GCAACCTCCC CAGGGCACTA TGGAAGATAG GGGCCGCAAG
GCGAGAGCCC TGCCTGAAAG AATCAGCCTC CAGAGCCAGG AAGAAGTGGA GAGAAAGAAA
GGCAAGATCC CACCTCCCGT CCCCAAAAAG CCCAGCGTGC TATACCTGCC TCTCACCTCA
CCCACGGCTC ACATGGAGGC GCACGGGGCT GAGCTGAGGC TGCCTCTCAG CCCCATCATC
ACCCTGCAGG AAGAAGCCAA GGGTCCCCCC ACCAGTGACC ACCTGCAGTC TCCTGGTACG
AGGACGACCT CACCGCCGCA GGCTGAAGGT GAAAGGGAGG CAAGTCCTCT AGGGAGCTCT
ATGGAACCGA GCACTGAAGA AAAAAGTGTC ATCAGTGATA AAACAGCCGA ATGGATCGCC
GAAGATGATG ATGACGTGTT TGTGGCTTCA CGCACAACGG AAGATTTGTT TACTGTGATA
CACAGGTCCA AAAGAAAGCT GCTTGGCTGG AAAGAGCCCG GGGAGGCCTT TGCCGGCGGC
AGCAGACCAA GCTCCCATTC ACCGGTAAAG AACACAGCCG ATTCTCCAGT CAGTGAGTCA
GCTGCCTCTG CGGGGTCAAG CGGCAGTGCC AACCTTGATG CTGGCAGAAA CGATGATTTC
AAGGCCTTGC TACAGAAGAA GGGAAGCAAG GCAACTCCAA AGTCCCGCCC CTCAGCAGCC
GAACTGCTGA AGACCACTAA CCCACTGGCT CGGAGAATTA TTGCACAATT TTCAAAAGAC
TACGAAACCA CTGATCACCC CAGTACCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Novartis' breakthrough rabbit-derived mAb receives FDA approval
- Hope for cancer patients: an immune-boosting protein without side effects created
- Multiplex Editing T Cells with BE and Cas12 | GenScript
- Potential Monoclonal Antibody Drugs for Seasonal Influenza
- Making CAR T Cells Safer with Synthetic Biology
- The cause of heart disease is linked to a specific type of foreign lipid
- The Clinical Application of Neoantigens: A Promising Frontier in Cancer Immunotherapy
- A new approach for treating your allergies to dogs or cats
-
-
-
PubMed
-
