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Hk3 cDNA ORF clone, Rattus norvegicus(Norway rat)

Summary

Gene Symbol Hk3
Entrez Gene ID 25060
Full Name hexokinase 3
Synonyms RNU73859
General protein information
Preferred Names

hexokinase 3

Names

hexokinase-3
HK III
hexokinase 3 (white cell)
hexokinase type III
Gene Type protein-coding
Organism Rattus norvegicus(Norway rat)
Genome

17

17p14
Summary ATP:D-hexose 6-phosphotransferase type III isozyme; member of a family of hexokinase isozymes [RGD, Feb 2006].

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
NM_022179.2 NP_071515.1 hexokinase-3
XM_006253602.3 XP_006253664.1 hexokinase-3 isoform X1
XM_008771484.1 XP_008769706.1 hexokinase-3 isoform X1
XM_006253603.3 XP_006253665.1 hexokinase-3 isoform X1

Pathways from BioSystems


Homologies


Pan troglodytes (chimpanzee) HK3 XP_518124.2
HK3 XP_001086179.1
Mus musculus (house mouse) Hk3 NP_001028417.1
Gallus gallus (chicken) HK3 XP_001231329.3
Homo sapiens (human) HK3 NP_002106.2
Canis lupus familiaris (dog) HK3 XP_546212.4
Rattus norvegicus (Norway rat) Hk3 NP_071515.1

Gene Ontology


Bibliography

Related articles in PubMed

Spatio-temporal expression of Hexokinase-3 in the injured female rat spinal cords.
Lin YH, Wu Y, Wang Y, Yao ZF, Tang J, Wang R, Shen L, Ding SQ, Hu JG, L? HZ
Neurochemistry international11323-33(2017 Nov)

Regulation and cytoprotective role of hexokinase III.
Wyatt E, Wu R, Rabeh W, Park HW, Ghanefar M, Ardehali H
PloS one5(11)e13823(2010 Nov)

Defect in glucokinase translocation in Zucker diabetic fatty rats.
Fujimoto Y, Donahue EP, Shiota M
American journal of physiology. Endocrinology and metabolism287(3)E414-23(2004 Sep)

Interaction of insulin-like growth factor binding protein-4, Miz-1, leptin, lipocalin-type prostaglandin D synthase, and granulin precursor with the N-terminal half of type III hexokinase.
Sui D, Wilson JE
Archives of biochemistry and biophysics382(2)262-74(2000 Oct)

Evolution and regulatory role of the hexokinases.
C?rdenas ML, Cornish-Bowden A, Ureta T
Biochimica et biophysica acta1401(3)242-64(1998 Mar)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following Hk3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Hk3 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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ORa12439 NM_022179.2
Latest version!		 Rattus norvegicus hexokinase 3 (Hk3), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $475.30
$679.00
ORa37675 XM_006253603.3
Latest version!		 Rattus norvegicus hexokinase 3 (Hk3), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $475.30
$679.00
ORa37675 XM_006253602.3
Latest version!		 Rattus norvegicus hexokinase 3 (Hk3), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $475.30
$679.00
ORa37675 XM_008771484.1
Latest version!		 Rattus norvegicus hexokinase 3 (Hk3), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $475.30
$679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone 40% OFF
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All Other ORF Clones
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*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)


CloneID ORa12439
Clone ID Related Accession (Same CDS sequence) NM_022179.2
Accession Version NM_022179.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2775bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2019-09-21
Organism Rattus norvegicus(Norway rat)
Product hexokinase-3
Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from U73859.1. On Jul 3, 2003 this sequence version replaced NM_022179.1. ##Evidence-Data-START## Transcript exon combination :: BC100648.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2689594, SAMEA2689599 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## gene product(s) localized to mito. :: inferred from homology ##RefSeq-Attributes-END## 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC AGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGCGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTCGTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_071515.1
CDS81..2855
Translation

Target ORF information:

RefSeq Version NM_022179.2
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus hexokinase 3 (Hk3), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_022179.2

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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC AGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGCGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTCGTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID ORa37675
Clone ID Related Accession (Same CDS sequence) XM_006253602.3 , XM_008771484.1 , XM_006253603.3
Accession Version XM_006253602.3 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2775bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2016-07-25
Organism Rattus norvegicus(Norway rat)
Product hexokinase-3 isoform X1
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006253602.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_006253664.1
CDS295..3069
Translation

Target ORF information:

RefSeq Version XM_006253602.3
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus hexokinase 3 (Hk3), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_006253602.3

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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID ORa37675
Clone ID Related Accession (Same CDS sequence) XM_006253602.3 , XM_008771484.1 , XM_006253603.3
Accession Version XM_008771484.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2775bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2016-07-25
Organism Rattus norvegicus(Norway rat)
Product hexokinase-3 isoform X1
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_008769706.1
CDS345..3119
Translation

Target ORF information:

RefSeq Version XM_008771484.1
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus hexokinase 3 (Hk3), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_008771484.1

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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID ORa37675
Clone ID Related Accession (Same CDS sequence) XM_006253602.3 , XM_008771484.1 , XM_006253603.3
Accession Version XM_006253603.3 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2775bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2016-07-25
Organism Rattus norvegicus(Norway rat)
Product hexokinase-3 isoform X1
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006253603.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq XP_006253665.1
CDS471..3245
Translation

Target ORF information:

RefSeq Version XM_006253603.3
Organism Rattus norvegicus(Norway rat)
Definition Rattus norvegicus hexokinase 3 (Hk3), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_006253603.3

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
ATGGCCGCCA TTGAGCCTTC TGGTCTGCAC CCGGGAGAAA GAGACTCAAG CTGCCCCCAG 
GAGGGCATTC CAAGGCCCTC AGGTAGCTTA GAACTGGCAC AGGAATACTT GCAACAATTC 
AAGGTGACCA TGACACAGCT GCAGCAGATC CAAGCCAGTC TTCTGTGTTC CATGGAGCAG 
GCGCTGAAGG GACAGGACAG TCCCGCTCCT TCTGTCCGGA TGTTGCCCAC ATACGTGAGG 
TCCACACCAC ATGGCACCGA GCAAGGAGAC TTCCTGGTGC TGGAGCTGGG GGCCACAGGA 
GCCTCACTAC GTGTGTTGTG GGTAACACTG ACGGGCACCA AGGAACACAG CGTGGAGACC 
AGGAGCCAGG AGTTTGTGAT CCCTCAAGAG GTGATCCTAG GTGCTGGCCA GCAGCTCTTT 
GACTTTGCTG CCCGCTGCCT CTCTGAATTC CTGGATGCAT ACCCCGTGGA GAATCAGGGT 
CTGAAGCTTG GGTTTAATTT CTCTTTTCCT TGTCACCAGA CAGGCTTGGA CAAGAGCACC 
CTCATTTCCT GGACAAAAGG TTTTAGGTGC AGTGGTGTGG AAGGCCAGGA TGTGGTCCAG 
TTGCTAAGGG ATGCCATTCA GAGGCAGGGG ACCTACAATA TTGATGTGGT AGCCATGGTG 
AATGACACAG TGGGTACCAT GATGGGCTGT GAGCTGGGCA CCAGGCCATG TGAAGTCGGG 
CTTATTGTAG ACACTGGTAC CAATGCCTGT TATATGGAGG AAGCGAGGCA CGTGGCAGCT 
CTGGATGAGG ACCGCGGCCG TACCTGTGTC AGCATCGAGT GGGGCTCCTT CTATGACGAA 
GAGGCCCTAG GGCCAGTACT GACCACCTTC GACGATGCCC TGGACCACGA GTCCCTGGTT 
CCTGGTGCTC AGAGGTTTGA GAAGATGATT GGTGGCCTTT ACTTGGGTGA GCTGGTAAGG 
CTGGTGCTGG TCCACTTGTC CCAGCATGGG GTCCTCTTTG GTGGCTGCGC CTCTCCTGCG 
TTGCTGAGTC AAAACAGCAT CCTCCTGGAA CATGTGGCCA AAATGGAGGA CCCTGCCACT 
GGGATAGCCC ACGTCCACAC AGTCCTGCAG GGCTTGGGTC TGAGCCCTCA GGCCTCAGAT 
GCTGAGCTCG TGCAGCGCGT GTGCATGGCT GTGTGCACGC GAGCTGCCCA GCTCTGTGCC 
TCTGCCCTGG CTGCAGTCCT ATCCCGCCTC CAGCACAGCA GGGAGCAGCA GACACTGCAC 
GTGGCCGTGG CCACTGGAGG GCGAGTGTTC GAATGGCACC CCAGGTTCCT CTGCATCCTA 
AAGGAGACGG TAATGCTCTT GGCCCCAGAG TGTGATGTCT CCTTCATCCC CTCTGTGGAT 
GGTGGTGGCC GGGGTGTGGC AATGGTGACT GCTGTGGCAG CCCGCCTGGC TACCCACAGG 
CGCATCCTGG AAGAGACCCT GGCACCATTT CAGCTGAGCT TGGAGCAGCT GACAGCGGTG 
CAGGCACAAA TGCGGGAAGC CATGATCAGG GGGCTTCAAG GAGAGAGCTC CTCCCTCCGC 
ATGCTGCCCA CTTACGTCCG AGCAACGCCC GATGGCAGCG AACGAGGTGA CTTCCTGGCT 
TTGGACCTAG GGGGCACCAA CTTCCGTGTC CTGTTGGTAC GCGTGGCCGA GGGCAGTGTT 
CAGATCACCA ACCAGGTCTA CTCTATTCCT GAGTATGTAG CCCAGGGCTC TGGACAGAAG 
CTCTTTGATC ATATTGTGGA CTGCATCGTG GACTTCCAGA AGAGGCAAGG CCTTAGCGGA 
CAGAGCCTAC CCCTGGGTTT CACCTTCTCT TTTCCTTGCA AGCAGCTTGG CCTGGACCAG 
GGCATCCTCC TCAACTGGAC TAAGGGGTTC AATGCATCAG GCTGCGAGGG CCAAGATGTT 
GTGTATTTAT TACGGGAAGC CATTAGGCGC AGACAGGCAG TGGAGCTGAA TGTGGTTGCC 
ATTGTCAATG ACACGGTGGG GACCATGATG TCCTGTGGCT ATGATGATCC CTGTTGTGAG 
ATGGGCCTCA TTGTCGGAAC CGGTACCAAC GCCTGCTATA TGGAAGAACT CCGGAATGTG 
GCGAGTGTGC CCGGGGACTC GGGCCACATG TGTATCAACA TGGAGTGGGG TGCCTTTGGG 
GATGACGGCT CACTGAGCAT GCTCGGCACC TGCTTTGATG CTAGCGTGGA CCAGGCATCC 
ATCAACCCAG GCAAACAGAG GTTTGAGAAA ATGATCAGCG GAATGTACCT GGGGGAGATC 
GTCCGCCATA TCCTCCTGCA CTTAACCAGT CTTGGAGTTC TCTTCCGGGG CCAGAAGACG 
CAATGCCTTC AGACCAGGGA CATCTTTAAG ACCAAGTTTC TCTCCGAGAT TGAGAGTGAC 
AGCCTGGCCC TGCGTCAGGT CCGAGCCATC CTGGAGGACC TGGGGCTGAC TCTGACGTCT 
GATGATGCCT TGATGGTCCT AGAGGTGTGC CAGGCTGTGT CCCGCAGGGC CGCCCAACTC 
TGCGGGGCAG GTGTGGCTGC AGTGGTGGAA AAGATACGGG AGAACCGGGG CCTGCAGGAG 
CTGACAGTGT CTGTGGGAGT GGATGGGACG CTCTACAAGC TACATCCCCA CTTCTCCAGG 
CTGGTGTCAG TGACAGTTCG GAAGCTAGCC CCTCAGTGCA CAGTCACCTT TTTGCAATCG 
GAGGATGGGT CTGGGAAAGG GGCAGCGTTG GTCACTGCTG TCGCTTGCCG CCTGACCCAG 
ATGGCCTGCG TTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

PubMed

book

Spatio-temporal expression of Hexokinase-3 in the injured female rat spinal cords.
Neurochemistry international11323-33(2017 Nov)
Lin YH,Wu Y,Wang Y,Yao ZF,Tang J,Wang R,Shen L,Ding SQ,Hu JG,L? HZ


book

Regulation and cytoprotective role of hexokinase III.
PloS one5(11)e13823(2010 Nov)
Wyatt E,Wu R,Rabeh W,Park HW,Ghanefar M,Ardehali H


book

Defect in glucokinase translocation in Zucker diabetic fatty rats.
American journal of physiology. Endocrinology and metabolism287(3)E414-23(2004 Sep)
Fujimoto Y,Donahue EP,Shiota M


book

Interaction of insulin-like growth factor binding protein-4, Miz-1, leptin, lipocalin-type prostaglandin D synthase, and granulin precursor with the N-terminal half of type III hexokinase.
Archives of biochemistry and biophysics382(2)262-74(2000 Oct)
Sui D,Wilson JE


book

Evolution and regulatory role of the hexokinases.
Biochimica et biophysica acta1401(3)242-64(1998 Mar)
C?rdenas ML,Cornish-Bowden A,Ureta T