• English
  • Sign In
    Please Sign In
    Sign In
    New to GenScript?
    Register
  • Contact Us
×
Contact us now: +1-877-436-7274

CECR2 cDNA ORF clone, Homo sapiens(human)

Summary

Gene Symbol CECR2
Entrez Gene ID 27443
Full Name CECR2, histone acetyl-lysine reader
General protein information
Preferred Names

CECR2, histone acetyl-lysine reader

Names

cat eye syndrome critical region protein 2
cat eye syndrome chromosome region, candidate 2
Gene Type protein-coding
Organism Homo sapiens(human)
Genome

22

22q11.1-q11.21
Summary This gene encodes a bromodomain-containing protein that is involved in chromatin remodeling, and may additionally play a role in DNA damage response. The encoded protein functions as part of an ATP-dependent complex that is involved in neurulation. This gene is a candidate gene for Cat Eye Syndrome. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Feb 2014].
Disorder MIM:

607576


Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_011546132.2 XP_011544434.1 cat eye syndrome critical region protein 2 isoform X5
XM_006724079.3 XP_006724142.1 cat eye syndrome critical region protein 2 isoform X6
NM_001290046.1 NP_001276975.1 cat eye syndrome critical region protein 2 isoform 2
XM_011546128.2 XP_011544430.1 cat eye syndrome critical region protein 2 isoform X2
XM_011546129.2 XP_011544431.1 cat eye syndrome critical region protein 2 isoform X3
XM_024452234.1 XP_024308002.1 cat eye syndrome critical region protein 2 isoform X4
NM_001290047.2 NP_001276976.1 cat eye syndrome critical region protein 2 isoform 1
NM_001290047.1 NP_001276976.1 cat eye syndrome critical region protein 2 isoform 1
XM_017028785.1 XP_016884274.1 cat eye syndrome critical region protein 2 isoform X1

Pathways from BioSystems


Homologies


Canis lupus familiaris (dog) CECR2 XP_005637436.1
Rattus norvegicus (Norway rat) Cecr2 NP_001178906.1
Xenopus tropicalis (tropical clawed frog) cecr2 XP_002938139.2
Homo sapiens (human) CECR2 NP_113601.2
Mus musculus (house mouse) Cecr2 NP_001121623.1
Gallus gallus (chicken) CECR2 NP_001124211.1
Pan troglodytes (chimpanzee) CECR2 XP_001150924.3
CECR2 XP_001111153.2

Gene Ontology


Bibliography

Related articles in PubMed

A Subset of Human Bromodomains Recognizes Butyryllysine and Crotonyllysine Histone Peptide Modifications.
Flynn EM, Huang OW, Poy F, Oppikofer M, Bellon SF, Tang Y, Cochran AG
Structure (London, England : 1993)23(10)1801-14(2015 Oct)

A de novo sSMC(22) Characterized by High-Resolution Arrays in a Girl with Cat-Eye Syndrome without Coloboma.
C?rdova-Fletes C, Dom?nguez MG, V?zquez-C?rdenas A, Figuera LE, Neira VA, Rojas-Mart?nez A, Ortiz-L?pez R
Molecular syndromology3(3)131-135(2012 Sep)

A 600?kb triplication in the cat eye syndrome critical region causes anorectal, renal and preauricular anomalies in a three-generation family.
Knijnenburg J, van Bever Y, Hulsman LO, van Kempen CA, Bolman GM, van Loon RL, Beverloo HB, van Zutven LJ
European journal of human genetics : EJHG20(9)986-9(2012 Sep)

Genome-wide screen of human bromodomain-containing proteins identifies Cecr2 as a novel DNA damage response protein.
Lee SK, Park EJ, Lee HS, Lee YS, Kwon J
Molecules and cells34(1)85-91(2012 Jul)

Chromatin remodelling in mammalian cells by ISWI-type complexes--where, when and why?
Erdel F, Rippe K
The FEBS journal278(19)3608-18(2011 Oct)

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

The bromodomains of BRD9, CECR2, and the second bromodomain of TAF1 recognize the longer butyryl mark on histones. In addition, the TAF1 second bromodomain is capable of binding crotonyl marks.
Title: A Subset of Human Bromodomains Recognizes Butyryllysine and Crotonyllysine Histone Peptide Modifications.

The genes CECR2, SLC25A18 and ATP6V1E1, mapping within the critical region for cat eye syndrome (CES), may be responsible for anorectal, renal and preauricular anomalies in patients with CES.
Title: A 600?kb triplication in the cat eye syndrome critical region causes anorectal, renal and preauricular anomalies in a three-generation family.

Cecr2 is important for gamma-H2AX formation and DNA double strand break repair, Cecr2 is a novel DNA damage response protein.
Title: Genome-wide screen of human bromodomain-containing proteins identifies Cecr2 as a novel DNA damage response protein.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

The following CECR2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CECR2 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
OHu53361 XM_006724079.3
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu53360 XM_024452234.1
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu93488 XM_017028785.1
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu22657 NM_001290046.1
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu14963 NM_001290047.2
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67254 XM_011546128.2
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67255 XM_011546129.2
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67258 XM_011546132.2
Latest version!		 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu14963 NM_001290047.1 Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*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 OHu53361
Clone ID Related Accession (Same CDS sequence) XM_006724079.3
Accession Version XM_006724079.3 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2889bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X6
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006724079.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
ATGTCTGATA ATTTAGAGAG GTGTTTCCAT CGGGCAATGA TGAAACATTT TCCTGGAGAA 
GATGGAGACA CAGATGAAGA ATTTTGGATT CGAGAGGATG AAAAGCGGGA GAAAAGACGG 
AGTCGGGCTG GGCGAAGTGG TGGGAGCCAT GTTTGGACCC GCTCCAGGGA CCCAGAAGGG 
TCCAGCAGGA AACAGCAGCC CATGGAGAAT GGAGGAAAGT CGTTGCCCCC CACACGCCGA 
GCGCCCTCTT CTGGGGACGA TCAGAGCAGC AGCTCCACAC AGCCCCCGCG GGAGGTGGGC 
ACTTCCAATG GCCGAGGTTT TTCTCATCCC CTGCATTGTG GTGGGACACC CAGCCAGGCA 
CCCTTTTTAA ACCAGATGAG GCCAGCAGTA CCAGGAACAT TTGGCCCTCT GCGAGGATCA 
GATCCTGCCA CCTTGTATGG CTCCTCTGGA GTCCCGGAGC CACACCCCGG GGAGCCTGTG 
CAGCAGCGTC AGCCTTTCAC CATGCAGCCT CCAGTTGGAA TTAACAGCCT CCGAGGACCC 
AGGCTAGGCA CACCAGAGGA GAAGCAAATG TGCGGGGGGC TGACACACCT TTCTAACATG 
GGCCCACACC CTGGATCCTT GCAGCTTGGG CAGATAAGTG GCCCAAGTCA GGATGGAAGC 
ATGTATGCTC CAGCTCAGTT CCAGCCAGGA TTCATTCCTC CCCGGCATGG GGGGGCTCCA 
GCCCGGCCAC CAGACTTTCC TGAAAGCTCA GAAATTCCTC CCAGCCATAT GTATCGATCG 
TACAAGTACC TGAATCGAGT ACACTCTGCC GTCTGGAATG GGAACCATGG TGCTACGAAC 
CAAGGACCCT TGGGCCCAGA TGAGAAGCCC CACCTGGGGC CAGGACCCTC TCACCAGCCT 
CGCACTCTCG GTCACGTGAT GGATTCCCGA GTCATGAGAC CACCTGTCCC CCCCAACCAG 
TGGACTGAAC AATCAGGCTT CCTACCTCAT GGAGTTCCTT CCTCAGGGTA CATGCGACCG 
CCCTGCAAGT CTGCCGGACA TCGGTTACAG CCACCTCCAG TGCCAGCACC CAGTTCTTTG 
TTTGGAGCAC CTGCCCAGGC TCTTCGGGGG GTGCAGGGAG GGGACTCCAT GATGGACAGC 
CCAGAGATGA TTGCGATGCA GCAGCTCTCC TCCCGCGTCT GCCCCCCAGG TGTGCCTTAC 
CACCCCCACC AGCCTGCACA CCCCCGTTTA CCTGGCCCTT TTCCGCAGGT AGCTCACCCA 
ATGTCAGTCA CTGTGTCAGC CCCCAAGCCT GCCCTGGGCA ACCCTGGGAG GGCACCGGAG 
AACAGTGAAG CACAAGAGCC TGAGAATGAC CAAGCAGAGC CGTTGCCTGG CCTTGAAGAG 
AAACCACCAG GTGTTGGTAC TTCAGAGGGG GTCTACCTCA CACAACTACC TCACCCCACA 
CCTCCCCTGC AGACTGACTG CACCAGGCAG AGCTCACCAC AAGAAAGGGA AACAGTGGGC 
CCGGAGCTCA AAAGCAGCTC CTCCGAATCT GCGGACAACT GTAAAGCAAT GAAGGGCAAG 
AATCCCTGGC CCTCGGATAG CAGCTACCCC GGCCCAGCCG CCCAAGGGTG CGTGAGAGAC 
CTCTCCACGG TGGCAGACAG GGGCGCTCTA TCCGAGAACG GAGTCATTGG GGAAGCATCT 
CCTTGTGGAT CGGAGGGGAA GGGCCTTGGT AGCAGTGGTT CCGAAAAGCT GCTCTGCCCC 
AGAGGCAGAA CGTTGCAGGA AACCATGCCA TGCACGGGAC AGAACGCAGC GACACCGCCC 
AGCACAGACC CCGGTTTGAC GGGAGGCACT GTGAGCCAGT TTCCCCCGCT GTATATGCCT 
GGCCTAGAGT ACCCGAATTC AGCTGCCCAT TACCACATCA GTCCAGGCCT GCAGGGTGTG 
GGCCCTGTGA TGGGAGGGAA GTCCCCAGCA TCCCATCCCC AGCATTTTCC CCCAAGGGGC 
TTTCAGTCTA ACCACCCACA TTCTGGAGGC TTTCCCCGGT ATCGCCCCCC ACAAGGAATG 
AGGTATTCCT ACCACCCACC GCCACAGCCT TCCTACCACC ACTATCAGCG AACTCCTTAC 
TATGCCTGTC CACAGAGCTT TTCTGACTGG CAGAGACCTC TCCATCCCCA GGGAAGCCCA 
AGCGGACCCC CAGCCAGTCA GCCTCCCCCA CCAAGGTCCC TCTTCTCAGA TAAGAATGCC 
ATGGCCAGTC TGCAAGGCTG TGAGACACTG AATGCTGCCT TAACTTCTCC AACCCGTATG 
GATGCAGTGG CTGCTAAAGT CCCAAATGAC GGGCAGAATC CTGGTCCAGA GGAAGAGAAG 
CTGGATGAAT CTATGGAGAG GCCAGAGAGT CCCAAAGAAT TTTTAGACCT GGACAACCAT 
AACGCAGCTA CCAAGCGGCA GAGCTCGTTG TCAGCCAGCG AGTATCTCTA TGGAACTCCT 
CCGCCTCTGA GTTCAGGAAT GGGATTTGGT TCATCTGCAT TTCCACCCCA CAGTGTGATG 
CTGCAGACGG GGCCTCCCTA TACCCCTCAG CGGCCGGCCA GTCACTTTCA GCCCAGGGCT 
TACTCTTCCC CTGTGGCTGC CCTCCCACCT CACCACCCAG GGGCCACCCA GCCCAACGGC 
CTCTCTCAGG AGGGTCCCAT CTATCGCTGC CAGGAAGAAG GCCTGGGTCA CTTTCAAGCT 
GTGATGATGG AACAAATTGG CACTAGAAGT GGAATAAGAG GACCTTTCCA GGAAATGTAC 
AGACCATCAG GAATGCAGAT GCACCCGGTC CAGTCGCAGG CCTCGTTCCC AAAGACCCCC 
ACAGCAGCAA CATCACAGGA GGAGGTGCCG CCTCATAAGC CTCCAACACT TCCCCTGGAT 
CAGAGCTAG

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

RefSeq XP_006724142.1
CDS368..3256
Translation

Target ORF information:

RefSeq Version XM_006724079.3
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X6, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_006724079.3

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
2821
2881
ATGTCTGATA ATTTAGAGAG GTGTTTCCAT CGGGCAATGA TGAAACATTT TCCTGGAGAA 
GATGGAGACA CAGATGAAGA ATTTTGGATT CGAGAGGATG AAAAGCGGGA GAAAAGACGG 
AGTCGGGCTG GGCGAAGTGG TGGGAGCCAT GTTTGGACCC GCTCCAGGGA CCCAGAAGGG 
TCCAGCAGGA AACAGCAGCC CATGGAGAAT GGAGGAAAGT CGTTGCCCCC CACACGCCGA 
GCGCCCTCTT CTGGGGACGA TCAGAGCAGC AGCTCCACAC AGCCCCCGCG GGAGGTGGGC 
ACTTCCAATG GCCGAGGTTT TTCTCATCCC CTGCATTGTG GTGGGACACC CAGCCAGGCA 
CCCTTTTTAA ACCAGATGAG GCCAGCAGTA CCAGGAACAT TTGGCCCTCT GCGAGGATCA 
GATCCTGCCA CCTTGTATGG CTCCTCTGGA GTCCCGGAGC CACACCCCGG GGAGCCTGTG 
CAGCAGCGTC AGCCTTTCAC CATGCAGCCT CCAGTTGGAA TTAACAGCCT CCGAGGACCC 
AGGCTAGGCA CACCAGAGGA GAAGCAAATG TGCGGGGGGC TGACACACCT TTCTAACATG 
GGCCCACACC CTGGATCCTT GCAGCTTGGG CAGATAAGTG GCCCAAGTCA GGATGGAAGC 
ATGTATGCTC CAGCTCAGTT CCAGCCAGGA TTCATTCCTC CCCGGCATGG GGGGGCTCCA 
GCCCGGCCAC CAGACTTTCC TGAAAGCTCA GAAATTCCTC CCAGCCATAT GTATCGATCG 
TACAAGTACC TGAATCGAGT ACACTCTGCC GTCTGGAATG GGAACCATGG TGCTACGAAC 
CAAGGACCCT TGGGCCCAGA TGAGAAGCCC CACCTGGGGC CAGGACCCTC TCACCAGCCT 
CGCACTCTCG GTCACGTGAT GGATTCCCGA GTCATGAGAC CACCTGTCCC CCCCAACCAG 
TGGACTGAAC AATCAGGCTT CCTACCTCAT GGAGTTCCTT CCTCAGGGTA CATGCGACCG 
CCCTGCAAGT CTGCCGGACA TCGGTTACAG CCACCTCCAG TGCCAGCACC CAGTTCTTTG 
TTTGGAGCAC CTGCCCAGGC TCTTCGGGGG GTGCAGGGAG GGGACTCCAT GATGGACAGC 
CCAGAGATGA TTGCGATGCA GCAGCTCTCC TCCCGCGTCT GCCCCCCAGG TGTGCCTTAC 
CACCCCCACC AGCCTGCACA CCCCCGTTTA CCTGGCCCTT TTCCGCAGGT AGCTCACCCA 
ATGTCAGTCA CTGTGTCAGC CCCCAAGCCT GCCCTGGGCA ACCCTGGGAG GGCACCGGAG 
AACAGTGAAG CACAAGAGCC TGAGAATGAC CAAGCAGAGC CGTTGCCTGG CCTTGAAGAG 
AAACCACCAG GTGTTGGTAC TTCAGAGGGG GTCTACCTCA CACAACTACC TCACCCCACA 
CCTCCCCTGC AGACTGACTG CACCAGGCAG AGCTCACCAC AAGAAAGGGA AACAGTGGGC 
CCGGAGCTCA AAAGCAGCTC CTCCGAATCT GCGGACAACT GTAAAGCAAT GAAGGGCAAG 
AATCCCTGGC CCTCGGATAG CAGCTACCCC GGCCCAGCCG CCCAAGGGTG CGTGAGAGAC 
CTCTCCACGG TGGCAGACAG GGGCGCTCTA TCCGAGAACG GAGTCATTGG GGAAGCATCT 
CCTTGTGGAT CGGAGGGGAA GGGCCTTGGT AGCAGTGGTT CCGAAAAGCT GCTCTGCCCC 
AGAGGCAGAA CGTTGCAGGA AACCATGCCA TGCACGGGAC AGAACGCAGC GACACCGCCC 
AGCACAGACC CCGGTTTGAC GGGAGGCACT GTGAGCCAGT TTCCCCCGCT GTATATGCCT 
GGCCTAGAGT ACCCGAATTC AGCTGCCCAT TACCACATCA GTCCAGGCCT GCAGGGTGTG 
GGCCCTGTGA TGGGAGGGAA GTCCCCAGCA TCCCATCCCC AGCATTTTCC CCCAAGGGGC 
TTTCAGTCTA ACCACCCACA TTCTGGAGGC TTTCCCCGGT ATCGCCCCCC ACAAGGAATG 
AGGTATTCCT ACCACCCACC GCCACAGCCT TCCTACCACC ACTATCAGCG AACTCCTTAC 
TATGCCTGTC CACAGAGCTT TTCTGACTGG CAGAGACCTC TCCATCCCCA GGGAAGCCCA 
AGCGGACCCC CAGCCAGTCA GCCTCCCCCA CCAAGGTCCC TCTTCTCAGA TAAGAATGCC 
ATGGCCAGTC TGCAAGGCTG TGAGACACTG AATGCTGCCT TAACTTCTCC AACCCGTATG 
GATGCAGTGG CTGCTAAAGT CCCAAATGAC GGGCAGAATC CTGGTCCAGA GGAAGAGAAG 
CTGGATGAAT CTATGGAGAG GCCAGAGAGT CCCAAAGAAT TTTTAGACCT GGACAACCAT 
AACGCAGCTA CCAAGCGGCA GAGCTCGTTG TCAGCCAGCG AGTATCTCTA TGGAACTCCT 
CCGCCTCTGA GTTCAGGAAT GGGATTTGGT TCATCTGCAT TTCCACCCCA CAGTGTGATG 
CTGCAGACGG GGCCTCCCTA TACCCCTCAG CGGCCGGCCA GTCACTTTCA GCCCAGGGCT 
TACTCTTCCC CTGTGGCTGC CCTCCCACCT CACCACCCAG GGGCCACCCA GCCCAACGGC 
CTCTCTCAGG AGGGTCCCAT CTATCGCTGC CAGGAAGAAG GCCTGGGTCA CTTTCAAGCT 
GTGATGATGG AACAAATTGG CACTAGAAGT GGAATAAGAG GACCTTTCCA GGAAATGTAC 
AGACCATCAG GAATGCAGAT GCACCCGGTC CAGTCGCAGG CCTCGTTCCC AAAGACCCCC 
ACAGCAGCAA CATCACAGGA GGAGGTGCCG CCTCATAAGC CTCCAACACT TCCCCTGGAT 
CAGAGCTAG

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

CloneID OHu53360
Clone ID Related Accession (Same CDS sequence) XM_024452234.1
Accession Version XM_024452234.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4281bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X4
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGGAGAAAA AGGAGTTAGA AGCCGCTCTT CACAGAGATG ACGTGGAGTT TATCAGTGAC 
CTGATTGCCT GCCTGCTTCA GGGCTGCTAT CAACGAAGAG ATATCACGCC TCAGACATTC 
CACAGCTACC TAGAGGACAT CATCAACTAC CGCTGGGAGC TCGAAGAAGG GAAGCCCAAC 
CCTCTGAGGG AAGCCAGTTT CCAGGACCTG CCTCTTCGCA CACGGGTGGA GATCCTGCAC 
CGACTCTGTG ATTACCGGCT GGATGCAGAC GATGTCTTCG ATCTTCTAAA GGGCCTGGAT 
GCAGACAGTC TCCGTGTGGA GCCATTGGGT GAAGACAATT CTGGGGCACT ATATTGGTAT 
TTCTATGGAA CACGAATGTA CAAAGAGGAC CCGGTGCAAG GAAAATCCAA TGGAGAACTC 
TCTTTGAGCA GGGAAAGTGA AGGACAAAAA AATGTCTCAA GTATTCCTGG AAAAACGGGA 
AAAAGAAGAG GAAGACCCCC AAAACGGAAG AAACTGCAGG AGGAGATTCT GTTGAGTGAA 
AAGCAGGAAG AAAATTCCTT GGCATCCGAG CCACAGACAA GACATGGGTC CCAAGGGCCA 
GGCCAAGGTA CTTGGTGGCT CCTGTGCCAG ACAGAAGAGG AATGGAGACA GGTCACCGAG 
AGTTTTCGCG AGAGGACCTC CCTTCGAGAA CGGCAGCTCT ACAAGCTCCT CAGTGAGGAC 
TTCCTGCCTG AGATCTGCAA CATGATCGCC CAGAAGGGAA AACGTCCACA GCGCACAAAG 
GCAGAGTTGC ATCCTAGGTG GATGTCTGAC CACCTGTCCA TCAAACCCGT CAAGCAAGAG 
GAGACTCCTG TGCTGACCAG AATAGAAAAA CAAAAGCGCA AAGAGGAGGA AGAAGAGCGT 
CAGATTCTTC TAGCAGTGCA GAAGAAGGAG CAGGAGCAGA TGCTAAAGGA AGAGAGGAAA 
CGCGAGTTGG AGGAGAAGGT CAAGGCAGTG GAAGATCGAG CGAAGAGGAG AAAGCTCAGG 
GAAGAAAGGG CATGGCTGCT GGCTCAAGGA AAGGAGCTCC CTCCAGAACT TTCCCATCTG 
GACCCCAATT CCCCCATGAG AGAGGAAAAA AAGACTAAAG ACCTCTTTGA GTTGGATGAT 
GATTTCACTG CTATGTATAA AGTTCTAGAC GTGGTAAAGG CTCACAAGGA TTCCTGGCCC 
TTCTTGGAAC CTGTGGATGA ATCTTATGCC CCTAACTATT ATCAGATTAT TAAGGCCCCC 
ATGGATATTT CCAGCATGGA GAAGAAACTG AATGGAGGTT TATACTGTAC CAAGGAGGAA 
TTTGTAAATG ACATGAAGAC CATGTTCAGG AATTGTCGAA AGTATAATGG GGAAAGTAGT 
GAGTATACCA AGATGTCTGA TAATTTAGAG AGGTGTTTCC ATCGGGCAAT GATGAAACAT 
TTTCCTGGAG AAGATGGAGA CACAGATGAA GAATTTTGGA TTCGAGAGGA TGAAAAGCGG 
GAGAAAAGAC GGAGTCGGGC TGGGCGAAGT GGTGGGAGCC ATGTTTGGAC CCGCTCCAGG 
GACCCAGAAG GGTCCAGCAG GAAACAGCAG CCCATGGAGA ATGGAGGAAA GTCGTTGCCC 
CCCACACGCC GAGCGCCCTC TTCTGGGGAC GATCAGAGCA GCAGCTCCAC ACAGCCCCCG 
CGGGAGGTGG GCACTTCCAA TGGCCGAGGT TTTTCTCATC CCCTGCATTG TGGTGGGACA 
CCCAGCCAGG CACCCTTTTT AAACCAGATG AGGCCAGCAG TACCAGGAAC ATTTGGCCCT 
CTGCGAGGAT CAGATCCTGC CACCTTGTAT GGCTCCTCTG GAGTCCCGGA GCCACACCCC 
GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC ACCATGCAGC CTCCAGTTGG AATTAACAGC 
CTCCGAGGAC CCAGGCTAGG CACACCAGAG GAGAAGCAAA TGTGCGGGGG GCTGACACAC 
CTTTCTAACA TGGGCCCACA CCCTGGATCC TTGCAGCTTG GGCAGATAAG TGGCCCAAGT 
CAGGATGGAA GCATGTATGC TCCAGCTCAG TTCCAGCCAG GATTCATTCC TCCCCGGCAT 
GGGGGGGCTC CAGCCCGGCC ACCAGACTTT CCTGAAAGCT CAGAAATTCC TCCCAGCCAT 
ATGTATCGAT CGTACAAGTA CCTGAATCGA GTACACTCTG CCGTCTGGAA TGGGAACCAT 
GGTGCTACGA ACCAAGGACC CTTGGGCCCA GATGAGAAGC CCCACCTGGG GCCAGGACCC 
TCTCACCAGC CTCGCACTCT CGGTCACGTG ATGGATTCCC GAGTCATGAG ACCACCTGTC 
CCCCCCAACC AGTGGACTGA ACAATCAGGC TTCCTACCTC ATGGAGTTCC TTCCTCAGGG 
TACATGCGAC CGCCCTGCAA GTCTGCCGGA CATCGGTTAC AGCCACCTCC AGTGCCAGCA 
CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG GCTCTTCGGG GGGTGCAGGG AGGGGACTCC 
ATGATGGACA GCCCAGAGAT GATTGCGATG CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA 
GGTGTGCCTT ACCACCCCCA CCAGCCTGCA CACCCCCGTT TACCTGGCCC TTTTCCGCAG 
GTAGCTCACC CAATGTCAGT CACTGTGTCA GCCCCCAAGC CTGCCCTGGG CAACCCTGGG 
AGGGCACCGG AGAACAGTGA AGCACAAGAG CCTGAGAATG ACCAAGCAGA GCCGTTGCCT 
GGCCTTGAAG AGAAACCACC AGGTGTTGGT ACTTCAGAGG GGGTCTACCT CACACAACTA 
CCTCACCCCA CACCTCCCCT GCAGACTGAC TGCACCAGGC AGAGCTCACC ACAAGAAAGG 
GAAACAGTGG GCCCGGAGCT CAAAAGCAGC TCCTCCGAAT CTGCGGACAA CTGTAAAGCA 
ATGAAGGGCA AGAATCCCTG GCCCTCGGAT AGCAGCTACC CCGGCCCAGC CGCCCAAGGG 
TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC AGGGGCGCTC TATCCGAGAA CGGAGTCATT 
GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG 
CTGCTCTGCC CCAGAGGCAG AACGTTGCAG GAAACCATGC CATGCACGGG ACAGAACGCA 
GCGACACCGC CCAGCACAGA CCCCGGTTTG ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG 
CTGTATATGC CTGGCCTAGA GTACCCGAAT TCAGCTGCCC ATTACCACAT CAGTCCAGGC 
CTGCAGGGTG TGGGCCCTGT GATGGGAGGG AAGTCCCCAG CATCCCATCC CCAGCATTTT 
CCCCCAAGGG GCTTTCAGTC TAACCACCCA CATTCTGGAG GCTTTCCCCG GTATCGCCCC 
CCACAAGGAA TGAGGTATTC CTACCACCCA CCGCCACAGC CTTCCTACCA CCACTATCAG 
CGAACTCCTT ACTATGCCTG TCCACAGAGC TTTTCTGACT GGCAGAGACC TCTCCATCCC 
CAGGGAAGCC CAAGCGGACC CCCAGCCAGT CAGCCTCCCC CACCAAGGTC CCTCTTCTCA 
GATAAGAATG CCATGGCCAG TCTGCAAGGC TGTGAGACAC TGAATGCTGC CTTAACTTCT 
CCAACCCGTA TGGATGCAGT GGCTGCTAAA GTCCCAAATG ACGGGCAGAA TCCTGGTCCA 
GAGGAAGAGA AGCTGGATGA ATCTATGGAG AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC 
CTGGACAACC ATAACGCAGC TACCAAGCGG CAGAGCTCGT TGTCAGCCAG CGAGTATCTC 
TATGGAACTC CTCCGCCTCT GAGTTCAGGA ATGGGATTTG GTTCATCTGC ATTTCCACCC 
CACAGTGTGA TGCTGCAGAC GGGGCCTCCC TATACCCCTC AGCGGCCGGC CAGTCACTTT 
CAGCCCAGGG CTTACTCTTC CCCTGTGGCT GCCCTCCCAC CTCACCACCC AGGGGCCACC 
CAGCCCAACG GCCTCTCTCA GGAGGGTCCC ATCTATCGCT GCCAGGAAGA AGGCCTGGGT 
CACTTTCAAG CTGTGATGAT GGAACAAATT GGCACTAGAA GTGGAATAAG AGGACCTTTC 
CAGGAAATGT ACAGACCATC AGGAATGCAG ATGCACCCGG TCCAGTCGCA GGCCTCGTTC 
CCAAAGACCC CCACAGCAGC AACATCACAG GAGGAGGTGC CGCCTCATAA GCCTCCAACA 
CTTCCCCTGG ATCAGAGCTA G

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

RefSeq XP_024308002.1
CDS2890..7170
Translation

Target ORF information:

RefSeq Version XM_024452234.1
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_024452234.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGGAGAAAA AGGAGTTAGA AGCCGCTCTT CACAGAGATG ACGTGGAGTT TATCAGTGAC 
CTGATTGCCT GCCTGCTTCA GGGCTGCTAT CAACGAAGAG ATATCACGCC TCAGACATTC 
CACAGCTACC TAGAGGACAT CATCAACTAC CGCTGGGAGC TCGAAGAAGG GAAGCCCAAC 
CCTCTGAGGG AAGCCAGTTT CCAGGACCTG CCTCTTCGCA CACGGGTGGA GATCCTGCAC 
CGACTCTGTG ATTACCGGCT GGATGCAGAC GATGTCTTCG ATCTTCTAAA GGGCCTGGAT 
GCAGACAGTC TCCGTGTGGA GCCATTGGGT GAAGACAATT CTGGGGCACT ATATTGGTAT 
TTCTATGGAA CACGAATGTA CAAAGAGGAC CCGGTGCAAG GAAAATCCAA TGGAGAACTC 
TCTTTGAGCA GGGAAAGTGA AGGACAAAAA AATGTCTCAA GTATTCCTGG AAAAACGGGA 
AAAAGAAGAG GAAGACCCCC AAAACGGAAG AAACTGCAGG AGGAGATTCT GTTGAGTGAA 
AAGCAGGAAG AAAATTCCTT GGCATCCGAG CCACAGACAA GACATGGGTC CCAAGGGCCA 
GGCCAAGGTA CTTGGTGGCT CCTGTGCCAG ACAGAAGAGG AATGGAGACA GGTCACCGAG 
AGTTTTCGCG AGAGGACCTC CCTTCGAGAA CGGCAGCTCT ACAAGCTCCT CAGTGAGGAC 
TTCCTGCCTG AGATCTGCAA CATGATCGCC CAGAAGGGAA AACGTCCACA GCGCACAAAG 
GCAGAGTTGC ATCCTAGGTG GATGTCTGAC CACCTGTCCA TCAAACCCGT CAAGCAAGAG 
GAGACTCCTG TGCTGACCAG AATAGAAAAA CAAAAGCGCA AAGAGGAGGA AGAAGAGCGT 
CAGATTCTTC TAGCAGTGCA GAAGAAGGAG CAGGAGCAGA TGCTAAAGGA AGAGAGGAAA 
CGCGAGTTGG AGGAGAAGGT CAAGGCAGTG GAAGATCGAG CGAAGAGGAG AAAGCTCAGG 
GAAGAAAGGG CATGGCTGCT GGCTCAAGGA AAGGAGCTCC CTCCAGAACT TTCCCATCTG 
GACCCCAATT CCCCCATGAG AGAGGAAAAA AAGACTAAAG ACCTCTTTGA GTTGGATGAT 
GATTTCACTG CTATGTATAA AGTTCTAGAC GTGGTAAAGG CTCACAAGGA TTCCTGGCCC 
TTCTTGGAAC CTGTGGATGA ATCTTATGCC CCTAACTATT ATCAGATTAT TAAGGCCCCC 
ATGGATATTT CCAGCATGGA GAAGAAACTG AATGGAGGTT TATACTGTAC CAAGGAGGAA 
TTTGTAAATG ACATGAAGAC CATGTTCAGG AATTGTCGAA AGTATAATGG GGAAAGTAGT 
GAGTATACCA AGATGTCTGA TAATTTAGAG AGGTGTTTCC ATCGGGCAAT GATGAAACAT 
TTTCCTGGAG AAGATGGAGA CACAGATGAA GAATTTTGGA TTCGAGAGGA TGAAAAGCGG 
GAGAAAAGAC GGAGTCGGGC TGGGCGAAGT GGTGGGAGCC ATGTTTGGAC CCGCTCCAGG 
GACCCAGAAG GGTCCAGCAG GAAACAGCAG CCCATGGAGA ATGGAGGAAA GTCGTTGCCC 
CCCACACGCC GAGCGCCCTC TTCTGGGGAC GATCAGAGCA GCAGCTCCAC ACAGCCCCCG 
CGGGAGGTGG GCACTTCCAA TGGCCGAGGT TTTTCTCATC CCCTGCATTG TGGTGGGACA 
CCCAGCCAGG CACCCTTTTT AAACCAGATG AGGCCAGCAG TACCAGGAAC ATTTGGCCCT 
CTGCGAGGAT CAGATCCTGC CACCTTGTAT GGCTCCTCTG GAGTCCCGGA GCCACACCCC 
GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC ACCATGCAGC CTCCAGTTGG AATTAACAGC 
CTCCGAGGAC CCAGGCTAGG CACACCAGAG GAGAAGCAAA TGTGCGGGGG GCTGACACAC 
CTTTCTAACA TGGGCCCACA CCCTGGATCC TTGCAGCTTG GGCAGATAAG TGGCCCAAGT 
CAGGATGGAA GCATGTATGC TCCAGCTCAG TTCCAGCCAG GATTCATTCC TCCCCGGCAT 
GGGGGGGCTC CAGCCCGGCC ACCAGACTTT CCTGAAAGCT CAGAAATTCC TCCCAGCCAT 
ATGTATCGAT CGTACAAGTA CCTGAATCGA GTACACTCTG CCGTCTGGAA TGGGAACCAT 
GGTGCTACGA ACCAAGGACC CTTGGGCCCA GATGAGAAGC CCCACCTGGG GCCAGGACCC 
TCTCACCAGC CTCGCACTCT CGGTCACGTG ATGGATTCCC GAGTCATGAG ACCACCTGTC 
CCCCCCAACC AGTGGACTGA ACAATCAGGC TTCCTACCTC ATGGAGTTCC TTCCTCAGGG 
TACATGCGAC CGCCCTGCAA GTCTGCCGGA CATCGGTTAC AGCCACCTCC AGTGCCAGCA 
CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG GCTCTTCGGG GGGTGCAGGG AGGGGACTCC 
ATGATGGACA GCCCAGAGAT GATTGCGATG CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA 
GGTGTGCCTT ACCACCCCCA CCAGCCTGCA CACCCCCGTT TACCTGGCCC TTTTCCGCAG 
GTAGCTCACC CAATGTCAGT CACTGTGTCA GCCCCCAAGC CTGCCCTGGG CAACCCTGGG 
AGGGCACCGG AGAACAGTGA AGCACAAGAG CCTGAGAATG ACCAAGCAGA GCCGTTGCCT 
GGCCTTGAAG AGAAACCACC AGGTGTTGGT ACTTCAGAGG GGGTCTACCT CACACAACTA 
CCTCACCCCA CACCTCCCCT GCAGACTGAC TGCACCAGGC AGAGCTCACC ACAAGAAAGG 
GAAACAGTGG GCCCGGAGCT CAAAAGCAGC TCCTCCGAAT CTGCGGACAA CTGTAAAGCA 
ATGAAGGGCA AGAATCCCTG GCCCTCGGAT AGCAGCTACC CCGGCCCAGC CGCCCAAGGG 
TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC AGGGGCGCTC TATCCGAGAA CGGAGTCATT 
GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG 
CTGCTCTGCC CCAGAGGCAG AACGTTGCAG GAAACCATGC CATGCACGGG ACAGAACGCA 
GCGACACCGC CCAGCACAGA CCCCGGTTTG ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG 
CTGTATATGC CTGGCCTAGA GTACCCGAAT TCAGCTGCCC ATTACCACAT CAGTCCAGGC 
CTGCAGGGTG TGGGCCCTGT GATGGGAGGG AAGTCCCCAG CATCCCATCC CCAGCATTTT 
CCCCCAAGGG GCTTTCAGTC TAACCACCCA CATTCTGGAG GCTTTCCCCG GTATCGCCCC 
CCACAAGGAA TGAGGTATTC CTACCACCCA CCGCCACAGC CTTCCTACCA CCACTATCAG 
CGAACTCCTT ACTATGCCTG TCCACAGAGC TTTTCTGACT GGCAGAGACC TCTCCATCCC 
CAGGGAAGCC CAAGCGGACC CCCAGCCAGT CAGCCTCCCC CACCAAGGTC CCTCTTCTCA 
GATAAGAATG CCATGGCCAG TCTGCAAGGC TGTGAGACAC TGAATGCTGC CTTAACTTCT 
CCAACCCGTA TGGATGCAGT GGCTGCTAAA GTCCCAAATG ACGGGCAGAA TCCTGGTCCA 
GAGGAAGAGA AGCTGGATGA ATCTATGGAG AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC 
CTGGACAACC ATAACGCAGC TACCAAGCGG CAGAGCTCGT TGTCAGCCAG CGAGTATCTC 
TATGGAACTC CTCCGCCTCT GAGTTCAGGA ATGGGATTTG GTTCATCTGC ATTTCCACCC 
CACAGTGTGA TGCTGCAGAC GGGGCCTCCC TATACCCCTC AGCGGCCGGC CAGTCACTTT 
CAGCCCAGGG CTTACTCTTC CCCTGTGGCT GCCCTCCCAC CTCACCACCC AGGGGCCACC 
CAGCCCAACG GCCTCTCTCA GGAGGGTCCC ATCTATCGCT GCCAGGAAGA AGGCCTGGGT 
CACTTTCAAG CTGTGATGAT GGAACAAATT GGCACTAGAA GTGGAATAAG AGGACCTTTC 
CAGGAAATGT ACAGACCATC AGGAATGCAG ATGCACCCGG TCCAGTCGCA GGCCTCGTTC 
CCAAAGACCC CCACAGCAGC AACATCACAG GAGGAGGTGC CGCCTCATAA GCCTCCAACA 
CTTCCCCTGG ATCAGAGCTA G

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

CloneID OHu93488
Clone ID Related Accession (Same CDS sequence) XM_017028785.1
Accession Version XM_017028785.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4392bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X1
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG AGCCGTTGCC TGGCCTTGAA 
GAGAAACCAC CAGGTGTTGG TACTTCAGAG GGGGTCTACC TCACACAACT ACCTCACCCC 
ACACCTCCCC TGCAGACTGA CTGCACCAGG CAGAGCTCAC CACAAGAAAG GGAAACAGTG 
GGCCCGGAGC TCAAAAGCAG CTCCTCCGAA TCTGCGGACA ACTGTAAAGC AATGAAGGGC 
AAGAATCCCT GGCCCTCGGA TAGCAGCTAC CCCGGCCCAG CCGCCCAAGG GTGCGTGAGA 
GACCTCTCCA CGGTGGCAGA CAGGGGCGCT CTATCCGAGA ACGGAGTCAT TGGGGAAGCA 
TCTCCTTGTG GATCGGAGGG GAAGGGCCTT GGTAGCAGTG GTTCCGAAAA GCTGCTCTGC 
CCCAGAGGCA GAACGTTGCA GGAAACCATG CCATGCACGG GACAGAACGC AGCGACACCG 
CCCAGCACAG ACCCCGGTTT GACGGGAGGC ACTGTGAGCC AGTTTCCCCC GCTGTATATG 
CCTGGCCTAG AGTACCCGAA TTCAGCTGCC CATTACCACA TCAGTCCAGG CCTGCAGGGT 
GTGGGCCCTG TGATGGGAGG GAAGTCCCCA GCATCCCATC CCCAGCATTT TCCCCCAAGG 
GGCTTTCAGT CTAACCACCC ACATTCTGGA GGCTTTCCCC GGTATCGCCC CCCACAAGGA 
ATGAGGTATT CCTACCACCC ACCGCCACAG CCTTCCTACC ACCACTATCA GCGAACTCCT 
TACTATGCCT GTCCACAGAG CTTTTCTGAC TGGCAGAGAC CTCTCCATCC CCAGGGAAGC 
CCAAGCGGAC CCCCAGCCAG TCAGCCTCCC CCACCAAGGT CCCTCTTCTC AGATAAGAAT 
GCCATGGCCA GTCTGCAAGG CTGTGAGACA CTGAATGCTG CCTTAACTTC TCCAACCCGT 
ATGGATGCAG TGGCTGCTAA AGTCCCAAAT GACGGGCAGA ATCCTGGTCC AGAGGAAGAG 
AAGCTGGATG AATCTATGGA GAGGCCAGAG AGTCCCAAAG AATTTTTAGA CCTGGACAAC 
CATAACGCAG CTACCAAGCG GCAGAGCTCG TTGTCAGCCA GCGAGTATCT CTATGGAACT 
CCTCCGCCTC TGAGTTCAGG AATGGGATTT GGTTCATCTG CATTTCCACC CCACAGTGTG 
ATGCTGCAGA CGGGGCCTCC CTATACCCCT CAGCGGCCGG CCAGTCACTT TCAGCCCAGG 
GCTTACTCTT CCCCTGTGGC TGCCCTCCCA CCTCACCACC CAGGGGCCAC CCAGCCCAAC 
GGCCTCTCTC AGGAGGGTCC CATCTATCGC TGCCAGGAAG AAGGCCTGGG TCACTTTCAA 
GCTGTGATGA TGGAACAAAT TGGCACTAGA AGTGGAATAA GAGGACCTTT CCAGGAAATG 
TACAGACCAT CAGGAATGCA GATGCACCCG GTCCAGTCGC AGGCCTCGTT CCCAAAGACC 
CCCACAGCAG CAACATCACA GGAGGAGGTG CCGCCTCATA AGCCTCCAAC ACTTCCCCTG 
GATCAGAGCT AG

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

RefSeq XP_016884274.1
CDS107..4498
Translation

Target ORF information:

RefSeq Version XM_017028785.1
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_017028785.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG AGCCGTTGCC TGGCCTTGAA 
GAGAAACCAC CAGGTGTTGG TACTTCAGAG GGGGTCTACC TCACACAACT ACCTCACCCC 
ACACCTCCCC TGCAGACTGA CTGCACCAGG CAGAGCTCAC CACAAGAAAG GGAAACAGTG 
GGCCCGGAGC TCAAAAGCAG CTCCTCCGAA TCTGCGGACA ACTGTAAAGC AATGAAGGGC 
AAGAATCCCT GGCCCTCGGA TAGCAGCTAC CCCGGCCCAG CCGCCCAAGG GTGCGTGAGA 
GACCTCTCCA CGGTGGCAGA CAGGGGCGCT CTATCCGAGA ACGGAGTCAT TGGGGAAGCA 
TCTCCTTGTG GATCGGAGGG GAAGGGCCTT GGTAGCAGTG GTTCCGAAAA GCTGCTCTGC 
CCCAGAGGCA GAACGTTGCA GGAAACCATG CCATGCACGG GACAGAACGC AGCGACACCG 
CCCAGCACAG ACCCCGGTTT GACGGGAGGC ACTGTGAGCC AGTTTCCCCC GCTGTATATG 
CCTGGCCTAG AGTACCCGAA TTCAGCTGCC CATTACCACA TCAGTCCAGG CCTGCAGGGT 
GTGGGCCCTG TGATGGGAGG GAAGTCCCCA GCATCCCATC CCCAGCATTT TCCCCCAAGG 
GGCTTTCAGT CTAACCACCC ACATTCTGGA GGCTTTCCCC GGTATCGCCC CCCACAAGGA 
ATGAGGTATT CCTACCACCC ACCGCCACAG CCTTCCTACC ACCACTATCA GCGAACTCCT 
TACTATGCCT GTCCACAGAG CTTTTCTGAC TGGCAGAGAC CTCTCCATCC CCAGGGAAGC 
CCAAGCGGAC CCCCAGCCAG TCAGCCTCCC CCACCAAGGT CCCTCTTCTC AGATAAGAAT 
GCCATGGCCA GTCTGCAAGG CTGTGAGACA CTGAATGCTG CCTTAACTTC TCCAACCCGT 
ATGGATGCAG TGGCTGCTAA AGTCCCAAAT GACGGGCAGA ATCCTGGTCC AGAGGAAGAG 
AAGCTGGATG AATCTATGGA GAGGCCAGAG AGTCCCAAAG AATTTTTAGA CCTGGACAAC 
CATAACGCAG CTACCAAGCG GCAGAGCTCG TTGTCAGCCA GCGAGTATCT CTATGGAACT 
CCTCCGCCTC TGAGTTCAGG AATGGGATTT GGTTCATCTG CATTTCCACC CCACAGTGTG 
ATGCTGCAGA CGGGGCCTCC CTATACCCCT CAGCGGCCGG CCAGTCACTT TCAGCCCAGG 
GCTTACTCTT CCCCTGTGGC TGCCCTCCCA CCTCACCACC CAGGGGCCAC CCAGCCCAAC 
GGCCTCTCTC AGGAGGGTCC CATCTATCGC TGCCAGGAAG AAGGCCTGGG TCACTTTCAA 
GCTGTGATGA TGGAACAAAT TGGCACTAGA AGTGGAATAA GAGGACCTTT CCAGGAAATG 
TACAGACCAT CAGGAATGCA GATGCACCCG GTCCAGTCGC AGGCCTCGTT CCCAAAGACC 
CCCACAGCAG CAACATCACA GGAGGAGGTG CCGCCTCATA AGCCTCCAAC ACTTCCCCTG 
GATCAGAGCT AG

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

CloneID OHu22657
Clone ID Related Accession (Same CDS sequence) NM_001290046.1
Accession Version NM_001290046.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3903bp)
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 2019-11-15
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform 2
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK308330.1, AL832377.1, AF336133.1 and AC007666.12. This sequence is a reference standard in the RefSeqGene project. Transcript Variant: This variant (2) contains an alternate 5'-terminal exon and uses a downstream start codon, compared to variant 1. The encoded isoform (2) has a shorter N-terminus, compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AK308330.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
ATGTACAAAG AGGACCCGGT GCAAGGAAAA TCCAATGGAG AACTCTCTTT GAGCAGGGAA 
AGTGAAGGAC AAAAAAATGT CTCAAGTATT CCTGGAAAAA CGGGAAAAAG AAGAGGAAGA 
CCCCCAAAAC GGAAGAAACT GCAGGAGGAG ATTCTGTTGA GTGAAAAGCA GGAAGAAAAT 
TCCTTGGCAT CCGAGCCACA GACAAGACAT GGGTCCCAAG GGCCAGGCCA AGGTACTTGG 
TGGCTCCTGT GCCAGACAGA AGAGGAATGG AGACAGGTCA CCGAGAGTTT TCGCGAGAGG 
ACCTCCCTTC GAGAACGGCA GCTCTACAAG CTCCTCAGTG AGGACTTCCT GCCTGAGATC 
TGCAACATGA TCGCCCAGAA GGGAAAACGT CCACAGCGCA CAAAGGCAGA GTTGCATCCT 
AGGTGGATGT CTGACCACCT GTCCATCAAA CCCGTCAAGC AAGAGGAGAC TCCTGTGCTG 
ACCAGAATAG AAAAACAAAA GCGCAAAGAG GAGGAAGAAG AGCGTCAGAT TCTTCTAGCA 
GTGCAGAAGA AGGAGCAGGA GCAGATGCTA AAGGAAGAGA GGAAACGCGA GTTGGAGGAG 
AAGGTCAAGG CAGTGGAAGA TCGAGCGAAG AGGAGAAAGC TCAGGGAAGA AAGGGCATGG 
CTGCTGGCTC AAGGAAAGGA GCTCCCTCCA GAACTTTCCC ATCTGGACCC CAATTCCCCC 
ATGAGAGAGG AAAAAAAGAC TAAAGACCTC TTTGAGTTGG ATGATGATTT CACTGCTATG 
TATAAAGTTC TAGACGTGGT AAAGGCTCAC AAGGATTCCT GGCCCTTCTT GGAACCTGTG 
GATGAATCTT ATGCCCCTAA CTATTATCAG ATTATTAAGG CCCCCATGGA TATTTCCAGC 
ATGGAGAAGA AACTGAATGG AGGTTTATAC TGTACCAAGG AGGAATTTGT AAATGACATG 
AAGACCATGT TCAGGAATTG TCGAAAGTAT AATGGGGAAA GTAGTGAGTA TACCAAGATG 
TCTGATAATT TAGAGAGGTG TTTCCATCGG GCAATGATGA AACATTTTCC TGGAGAAGAT 
GGAGACACAG ATGAAGAATT TTGGATTCGA GAGGATGAAA AGCGGGAGAA AAGACGGAGT 
CGGGCTGGGC GAAGTGGTGG GAGCCATGTT TGGACCCGCT CCAGGGACCC AGAAGGGTCC 
AGCAGGAAAC AGCAGCCCAT GGAGAATGGA GGAAAGTCGT TGCCCCCCAC ACGCCGAGCG 
CCCTCTTCTG GGGACGATCA GAGCAGCAGC TCCACACAGC CCCCGCGGGA GGTGGGCACT 
TCCAATGGCC GAGGTTTTTC TCATCCCCTG CATTGTGGTG GGACACCCAG CCAGGCACCC 
TTTTTAAACC AGATGAGGCC AGCAGTACCA GGAACATTTG GCCCTCTGCG AGGATCAGAT 
CCTGCCACCT TGTATGGCTC CTCTGGAGTC CCGGAGCCAC ACCCCGGGGA GCCTGTGCAG 
CAGCGTCAGC CTTTCACCAT GCAGCCTCCA GTTGGAATTA ACAGCCTCCG AGGACCCAGG 
CTAGGCACAC CAGAGGAGAA GCAAATGTGC GGGGGGCTGA CACACCTTTC TAACATGGGC 
CCACACCCTG GATCCTTGCA GCTTGGGCAG ATAAGTGGCC CAAGTCAGGA TGGAAGCATG 
TATGCTCCAG CTCAGTTCCA GCCAGGATTC ATTCCTCCCC GGCATGGGGG GGCTCCAGCC 
CGGCCACCAG ACTTTCCTGA AAGCTCAGAA ATTCCTCCCA GCCATATGTA TCGATCGTAC 
AAGTACCTGA ATCGAGTACA CTCTGCCGTC TGGAATGGGA ACCATGGTGC TACGAACCAA 
GGACCCTTGG GCCCAGATGA GAAGCCCCAC CTGGGGCCAG GACCCTCTCA CCAGCCTCGC 
ACTCTCGGTC ACGTGATGGA TTCCCGAGTC ATGAGACCAC CTGTCCCCCC CAACCAGTGG 
ACTGAACAAT CAGGCTTCCT ACCTCATGGA GTTCCTTCCT CAGGGTACAT GCGACCGCCC 
TGCAAGTCTG CCGGACATCG GTTACAGCCA CCTCCAGTGC CAGCACCCAG TTCTTTGTTT 
GGAGCACCTG CCCAGGCTCT TCGGGGGGTG CAGGGAGGGG ACTCCATGAT GGACAGCCCA 
GAGATGATTG CGATGCAGCA GCTCTCCTCC CGCGTCTGCC CCCCAGGTGT GCCTTACCAC 
CCCCACCAGC CTGCACACCC CCGTTTACCT GGCCCTTTTC CGCAGGTAGC TCACCCAATG 
TCAGTCACTG TGTCAGCCCC CAAGCCTGCC CTGGGCAACC CTGGGAGGGC ACCGGAGAAC 
AGTGAAGCAC AAGAGCCTGA GAATGACCAA GAGCCGTTGC CTGGCCTTGA AGAGAAACCA 
CCAGGTGTTG GTACTTCAGA GGGGGTCTAC CTCACACAAC TACCTCACCC CACACCTCCC 
CTGCAGACTG ACTGCACCAG GCAGAGCTCA CCACAAGAAA GGGAAACAGT GGGCCCGGAG 
CTCAAAAGCA GCTCCTCCGA ATCTGCGGAC AACTGTAAAG CAATGAAGGG CAAGAATCCC 
TGGCCCTCGG ATAGCAGCTA CCCCGGCCCA GCCGCCCAAG GGTGCGTGAG AGACCTCTCC 
ACGGTGGCAG ACAGGGGCGC TCTATCCGAG AACGGAGTCA TTGGGGAAGC ATCTCCTTGT 
GGATCGGAGG GGAAGGGCCT TGGTAGCAGT GGTTCCGAAA AGCTGCTCTG CCCCAGAGGC 
AGAACGTTGC AGGAAACCAT GCCATGCACG GGACAGAACG CAGCGACACC GCCCAGCACA 
GACCCCGGTT TGACGGGAGG CACTGTGAGC CAGTTTCCCC CGCTGTATAT GCCTGGCCTA 
GAGTACCCGA ATTCAGCTGC CCATTACCAC ATCAGTCCAG GCCTGCAGGG TGTGGGCCCT 
GTGATGGGAG GGAAGTCCCC AGCATCCCAT CCCCAGCATT TTCCCCCAAG GGGCTTTCAG 
TCTAACCACC CACATTCTGG AGGCTTTCCC CGGTATCGCC CCCCACAAGG AATGAGGTAT 
TCCTACCACC CACCGCCACA GCCTTCCTAC CACCACTATC AGCGAACTCC TTACTATGCC 
TGTCCACAGA GCTTTTCTGA CTGGCAGAGA CCTCTCCATC CCCAGGGAAG CCCAAGCGGA 
CCCCCAGCCA GTCAGCCTCC CCCACCAAGG TCCCTCTTCT CAGATAAGAA TGCCATGGCC 
AGTCTGCAAG GCTGTGAGAC ACTGAATGCT GCCTTAACTT CTCCAACCCG TATGGATGCA 
GTGGCTGCTA AAGTCCCAAA TGACGGGCAG AATCCTGGTC CAGAGGAAGA GAAGCTGGAT 
GAATCTATGG AGAGGCCAGA GAGTCCCAAA GAATTTTTAG ACCTGGACAA CCATAACGCA 
GCTACCAAGC GGCAGAGCTC GTTGTCAGCC AGCGAGTATC TCTATGGAAC TCCTCCGCCT 
CTGAGTTCAG GAATGGGATT TGGTTCATCT GCATTTCCAC CCCACAGTGT GATGCTGCAG 
ACGGGGCCTC CCTATACCCC TCAGCGGCCG GCCAGTCACT TTCAGCCCAG GGCTTACTCT 
TCCCCTGTGG CTGCCCTCCC ACCTCACCAC CCAGGGGCCA CCCAGCCCAA CGGCCTCTCT 
CAGGAGGGTC CCATCTATCG CTGCCAGGAA GAAGGCCTGG GTCACTTTCA AGCTGTGATG 
ATGGAACAAA TTGGCACTAG AAGTGGAATA AGAGGACCTT TCCAGGAAAT GTACAGACCA 
TCAGGAATGC AGATGCACCC GGTCCAGTCG CAGGCCTCGT TCCCAAAGAC CCCCACAGCA 
GCAACATCAC AGGAGGAGGT GCCGCCTCAT AAGCCTCCAA CACTTCCCCT GGATCAGAGC 
TAG

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

RefSeq NP_001276975.1
CDS439..4341
Translation

Target ORF information:

RefSeq Version NM_001290046.1
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_001290046.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
ATGTACAAAG AGGACCCGGT GCAAGGAAAA TCCAATGGAG AACTCTCTTT GAGCAGGGAA 
AGTGAAGGAC AAAAAAATGT CTCAAGTATT CCTGGAAAAA CGGGAAAAAG AAGAGGAAGA 
CCCCCAAAAC GGAAGAAACT GCAGGAGGAG ATTCTGTTGA GTGAAAAGCA GGAAGAAAAT 
TCCTTGGCAT CCGAGCCACA GACAAGACAT GGGTCCCAAG GGCCAGGCCA AGGTACTTGG 
TGGCTCCTGT GCCAGACAGA AGAGGAATGG AGACAGGTCA CCGAGAGTTT TCGCGAGAGG 
ACCTCCCTTC GAGAACGGCA GCTCTACAAG CTCCTCAGTG AGGACTTCCT GCCTGAGATC 
TGCAACATGA TCGCCCAGAA GGGAAAACGT CCACAGCGCA CAAAGGCAGA GTTGCATCCT 
AGGTGGATGT CTGACCACCT GTCCATCAAA CCCGTCAAGC AAGAGGAGAC TCCTGTGCTG 
ACCAGAATAG AAAAACAAAA GCGCAAAGAG GAGGAAGAAG AGCGTCAGAT TCTTCTAGCA 
GTGCAGAAGA AGGAGCAGGA GCAGATGCTA AAGGAAGAGA GGAAACGCGA GTTGGAGGAG 
AAGGTCAAGG CAGTGGAAGA TCGAGCGAAG AGGAGAAAGC TCAGGGAAGA AAGGGCATGG 
CTGCTGGCTC AAGGAAAGGA GCTCCCTCCA GAACTTTCCC ATCTGGACCC CAATTCCCCC 
ATGAGAGAGG AAAAAAAGAC TAAAGACCTC TTTGAGTTGG ATGATGATTT CACTGCTATG 
TATAAAGTTC TAGACGTGGT AAAGGCTCAC AAGGATTCCT GGCCCTTCTT GGAACCTGTG 
GATGAATCTT ATGCCCCTAA CTATTATCAG ATTATTAAGG CCCCCATGGA TATTTCCAGC 
ATGGAGAAGA AACTGAATGG AGGTTTATAC TGTACCAAGG AGGAATTTGT AAATGACATG 
AAGACCATGT TCAGGAATTG TCGAAAGTAT AATGGGGAAA GTAGTGAGTA TACCAAGATG 
TCTGATAATT TAGAGAGGTG TTTCCATCGG GCAATGATGA AACATTTTCC TGGAGAAGAT 
GGAGACACAG ATGAAGAATT TTGGATTCGA GAGGATGAAA AGCGGGAGAA AAGACGGAGT 
CGGGCTGGGC GAAGTGGTGG GAGCCATGTT TGGACCCGCT CCAGGGACCC AGAAGGGTCC 
AGCAGGAAAC AGCAGCCCAT GGAGAATGGA GGAAAGTCGT TGCCCCCCAC ACGCCGAGCG 
CCCTCTTCTG GGGACGATCA GAGCAGCAGC TCCACACAGC CCCCGCGGGA GGTGGGCACT 
TCCAATGGCC GAGGTTTTTC TCATCCCCTG CATTGTGGTG GGACACCCAG CCAGGCACCC 
TTTTTAAACC AGATGAGGCC AGCAGTACCA GGAACATTTG GCCCTCTGCG AGGATCAGAT 
CCTGCCACCT TGTATGGCTC CTCTGGAGTC CCGGAGCCAC ACCCCGGGGA GCCTGTGCAG 
CAGCGTCAGC CTTTCACCAT GCAGCCTCCA GTTGGAATTA ACAGCCTCCG AGGACCCAGG 
CTAGGCACAC CAGAGGAGAA GCAAATGTGC GGGGGGCTGA CACACCTTTC TAACATGGGC 
CCACACCCTG GATCCTTGCA GCTTGGGCAG ATAAGTGGCC CAAGTCAGGA TGGAAGCATG 
TATGCTCCAG CTCAGTTCCA GCCAGGATTC ATTCCTCCCC GGCATGGGGG GGCTCCAGCC 
CGGCCACCAG ACTTTCCTGA AAGCTCAGAA ATTCCTCCCA GCCATATGTA TCGATCGTAC 
AAGTACCTGA ATCGAGTACA CTCTGCCGTC TGGAATGGGA ACCATGGTGC TACGAACCAA 
GGACCCTTGG GCCCAGATGA GAAGCCCCAC CTGGGGCCAG GACCCTCTCA CCAGCCTCGC 
ACTCTCGGTC ACGTGATGGA TTCCCGAGTC ATGAGACCAC CTGTCCCCCC CAACCAGTGG 
ACTGAACAAT CAGGCTTCCT ACCTCATGGA GTTCCTTCCT CAGGGTACAT GCGACCGCCC 
TGCAAGTCTG CCGGACATCG GTTACAGCCA CCTCCAGTGC CAGCACCCAG TTCTTTGTTT 
GGAGCACCTG CCCAGGCTCT TCGGGGGGTG CAGGGAGGGG ACTCCATGAT GGACAGCCCA 
GAGATGATTG CGATGCAGCA GCTCTCCTCC CGCGTCTGCC CCCCAGGTGT GCCTTACCAC 
CCCCACCAGC CTGCACACCC CCGTTTACCT GGCCCTTTTC CGCAGGTAGC TCACCCAATG 
TCAGTCACTG TGTCAGCCCC CAAGCCTGCC CTGGGCAACC CTGGGAGGGC ACCGGAGAAC 
AGTGAAGCAC AAGAGCCTGA GAATGACCAA GAGCCGTTGC CTGGCCTTGA AGAGAAACCA 
CCAGGTGTTG GTACTTCAGA GGGGGTCTAC CTCACACAAC TACCTCACCC CACACCTCCC 
CTGCAGACTG ACTGCACCAG GCAGAGCTCA CCACAAGAAA GGGAAACAGT GGGCCCGGAG 
CTCAAAAGCA GCTCCTCCGA ATCTGCGGAC AACTGTAAAG CAATGAAGGG CAAGAATCCC 
TGGCCCTCGG ATAGCAGCTA CCCCGGCCCA GCCGCCCAAG GGTGCGTGAG AGACCTCTCC 
ACGGTGGCAG ACAGGGGCGC TCTATCCGAG AACGGAGTCA TTGGGGAAGC ATCTCCTTGT 
GGATCGGAGG GGAAGGGCCT TGGTAGCAGT GGTTCCGAAA AGCTGCTCTG CCCCAGAGGC 
AGAACGTTGC AGGAAACCAT GCCATGCACG GGACAGAACG CAGCGACACC GCCCAGCACA 
GACCCCGGTT TGACGGGAGG CACTGTGAGC CAGTTTCCCC CGCTGTATAT GCCTGGCCTA 
GAGTACCCGA ATTCAGCTGC CCATTACCAC ATCAGTCCAG GCCTGCAGGG TGTGGGCCCT 
GTGATGGGAG GGAAGTCCCC AGCATCCCAT CCCCAGCATT TTCCCCCAAG GGGCTTTCAG 
TCTAACCACC CACATTCTGG AGGCTTTCCC CGGTATCGCC CCCCACAAGG AATGAGGTAT 
TCCTACCACC CACCGCCACA GCCTTCCTAC CACCACTATC AGCGAACTCC TTACTATGCC 
TGTCCACAGA GCTTTTCTGA CTGGCAGAGA CCTCTCCATC CCCAGGGAAG CCCAAGCGGA 
CCCCCAGCCA GTCAGCCTCC CCCACCAAGG TCCCTCTTCT CAGATAAGAA TGCCATGGCC 
AGTCTGCAAG GCTGTGAGAC ACTGAATGCT GCCTTAACTT CTCCAACCCG TATGGATGCA 
GTGGCTGCTA AAGTCCCAAA TGACGGGCAG AATCCTGGTC CAGAGGAAGA GAAGCTGGAT 
GAATCTATGG AGAGGCCAGA GAGTCCCAAA GAATTTTTAG ACCTGGACAA CCATAACGCA 
GCTACCAAGC GGCAGAGCTC GTTGTCAGCC AGCGAGTATC TCTATGGAAC TCCTCCGCCT 
CTGAGTTCAG GAATGGGATT TGGTTCATCT GCATTTCCAC CCCACAGTGT GATGCTGCAG 
ACGGGGCCTC CCTATACCCC TCAGCGGCCG GCCAGTCACT TTCAGCCCAG GGCTTACTCT 
TCCCCTGTGG CTGCCCTCCC ACCTCACCAC CCAGGGGCCA CCCAGCCCAA CGGCCTCTCT 
CAGGAGGGTC CCATCTATCG CTGCCAGGAA GAAGGCCTGG GTCACTTTCA AGCTGTGATG 
ATGGAACAAA TTGGCACTAG AAGTGGAATA AGAGGACCTT TCCAGGAAAT GTACAGACCA 
TCAGGAATGC AGATGCACCC GGTCCAGTCG CAGGCCTCGT TCCCAAAGAC CCCCACAGCA 
GCAACATCAC AGGAGGAGGT GCCGCCTCAT AAGCCTCCAA CACTTCCCCT GGATCAGAGC 
TAG

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

CloneID OHu14963
Clone ID Related Accession (Same CDS sequence) NM_001290047.2 , NM_001290047.1
Accession Version NM_001290047.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
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 2019-11-18
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform 1
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF336133.1, FO681548.4, AL832377.1, AK308330.1 and AC007666.12. On Jun 2, 2019 this sequence version replaced NM_001290047.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG CAGAGCCGTT GCCTGGCCTT 
GAAGAGAAAC CACCAGGTGT TGGTACTTCA GAGGGGGTCT ACCTCACACA ACTACCTCAC 
CCCACACCTC CCCTGCAGAC TGACTGCACC AGGCAGAGCT CACCACAAGA AAGGGAAACA 
GTGGGCCCGG AGCTCAAAAG CAGCTCCTCC GAATCTGCGG ACAACTGTAA AGCAATGAAG 
GGCAAGAATC CCTGGCCCTC GGATAGCAGC TACCCCGGCC CAGCCGCCCA AGGGTGCGTG 
AGAGACCTCT CCACGGTGGC AGACAGGGGC GCTCTATCCG AGAACGGAGT CATTGGGGAA 
GCATCTCCTT GTGGATCGGA GGGGAAGGGC CTTGGTAGCA GTGGTTCCGA AAAGCTGCTC 
TGCCCCAGAG GCAGAACGTT GCAGGAAACC ATGCCATGCA CGGGACAGAA CGCAGCGACA 
CCGCCCAGCA CAGACCCCGG TTTGACGGGA GGCACTGTGA GCCAGTTTCC CCCGCTGTAT 
ATGCCTGGCC TAGAGTACCC GAATTCAGCT GCCCATTACC ACATCAGTCC AGGCCTGCAG 
GGTGTGGGCC CTGTGATGGG AGGGAAGTCC CCAGCATCCC ATCCCCAGCA TTTTCCCCCA 
AGGGGCTTTC AGTCTAACCA CCCACATTCT GGAGGCTTTC CCCGGTATCG CCCCCCACAA 
GGAATGAGGT ATTCCTACCA CCCACCGCCA CAGCCTTCCT ACCACCACTA TCAGCGAACT 
CCTTACTATG CCTGTCCACA GAGCTTTTCT GACTGGCAGA GACCTCTCCA TCCCCAGGGA 
AGCCCAAGCG GACCCCCAGC CAGTCAGCCT CCCCCACCAA GGTCCCTCTT CTCAGATAAG 
AATGCCATGG CCAGTCTGCA AGGCTGTGAG ACACTGAATG CTGCCTTAAC TTCTCCAACC 
CGTATGGATG CAGTGGCTGC TAAAGTCCCA AATGACGGGC AGAATCCTGG TCCAGAGGAA 
GAGAAGCTGG ATGAATCTAT GGAGAGGCCA GAGAGTCCCA AAGAATTTTT AGACCTGGAC 
AACCATAACG CAGCTACCAA GCGGCAGAGC TCGTTGTCAG CCAGCGAGTA TCTCTATGGA 
ACTCCTCCGC CTCTGAGTTC AGGAATGGGA TTTGGTTCAT CTGCATTTCC ACCCCACAGT 
GTGATGCTGC AGACGGGGCC TCCCTATACC CCTCAGCGGC CGGCCAGTCA CTTTCAGCCC 
AGGGCTTACT CTTCCCCTGT GGCTGCCCTC CCACCTCACC ACCCAGGGGC CACCCAGCCC 
AACGGCCTCT CTCAGGAGGG TCCCATCTAT CGCTGCCAGG AAGAAGGCCT GGGTCACTTT 
CAAGCTGTGA TGATGGAACA AATTGGCACT AGAAGTGGAA TAAGAGGACC TTTCCAGGAA 
ATGTACAGAC CATCAGGAAT GCAGATGCAC CCGGTCCAGT CGCAGGCCTC GTTCCCAAAG 
ACCCCCACAG CAGCAACATC ACAGGAGGAG GTGCCGCCTC ATAAGCCTCC AACACTTCCC 
CTGGATCAGA GCTAG

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

RefSeq NP_001276976.1
CDS325..4719
Translation

Target ORF information:

RefSeq Version NM_001290047.2
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_001290047.2

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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG CAGAGCCGTT GCCTGGCCTT 
GAAGAGAAAC CACCAGGTGT TGGTACTTCA GAGGGGGTCT ACCTCACACA ACTACCTCAC 
CCCACACCTC CCCTGCAGAC TGACTGCACC AGGCAGAGCT CACCACAAGA AAGGGAAACA 
GTGGGCCCGG AGCTCAAAAG CAGCTCCTCC GAATCTGCGG ACAACTGTAA AGCAATGAAG 
GGCAAGAATC CCTGGCCCTC GGATAGCAGC TACCCCGGCC CAGCCGCCCA AGGGTGCGTG 
AGAGACCTCT CCACGGTGGC AGACAGGGGC GCTCTATCCG AGAACGGAGT CATTGGGGAA 
GCATCTCCTT GTGGATCGGA GGGGAAGGGC CTTGGTAGCA GTGGTTCCGA AAAGCTGCTC 
TGCCCCAGAG GCAGAACGTT GCAGGAAACC ATGCCATGCA CGGGACAGAA CGCAGCGACA 
CCGCCCAGCA CAGACCCCGG TTTGACGGGA GGCACTGTGA GCCAGTTTCC CCCGCTGTAT 
ATGCCTGGCC TAGAGTACCC GAATTCAGCT GCCCATTACC ACATCAGTCC AGGCCTGCAG 
GGTGTGGGCC CTGTGATGGG AGGGAAGTCC CCAGCATCCC ATCCCCAGCA TTTTCCCCCA 
AGGGGCTTTC AGTCTAACCA CCCACATTCT GGAGGCTTTC CCCGGTATCG CCCCCCACAA 
GGAATGAGGT ATTCCTACCA CCCACCGCCA CAGCCTTCCT ACCACCACTA TCAGCGAACT 
CCTTACTATG CCTGTCCACA GAGCTTTTCT GACTGGCAGA GACCTCTCCA TCCCCAGGGA 
AGCCCAAGCG GACCCCCAGC CAGTCAGCCT CCCCCACCAA GGTCCCTCTT CTCAGATAAG 
AATGCCATGG CCAGTCTGCA AGGCTGTGAG ACACTGAATG CTGCCTTAAC TTCTCCAACC 
CGTATGGATG CAGTGGCTGC TAAAGTCCCA AATGACGGGC AGAATCCTGG TCCAGAGGAA 
GAGAAGCTGG ATGAATCTAT GGAGAGGCCA GAGAGTCCCA AAGAATTTTT AGACCTGGAC 
AACCATAACG CAGCTACCAA GCGGCAGAGC TCGTTGTCAG CCAGCGAGTA TCTCTATGGA 
ACTCCTCCGC CTCTGAGTTC AGGAATGGGA TTTGGTTCAT CTGCATTTCC ACCCCACAGT 
GTGATGCTGC AGACGGGGCC TCCCTATACC CCTCAGCGGC CGGCCAGTCA CTTTCAGCCC 
AGGGCTTACT CTTCCCCTGT GGCTGCCCTC CCACCTCACC ACCCAGGGGC CACCCAGCCC 
AACGGCCTCT CTCAGGAGGG TCCCATCTAT CGCTGCCAGG AAGAAGGCCT GGGTCACTTT 
CAAGCTGTGA TGATGGAACA AATTGGCACT AGAAGTGGAA TAAGAGGACC TTTCCAGGAA 
ATGTACAGAC CATCAGGAAT GCAGATGCAC CCGGTCCAGT CGCAGGCCTC GTTCCCAAAG 
ACCCCCACAG CAGCAACATC ACAGGAGGAG GTGCCGCCTC ATAAGCCTCC AACACTTCCC 
CTGGATCAGA GCTAG

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

CloneID OHu14963
Clone ID Related Accession (Same CDS sequence) NM_001290047.2 , NM_001290047.1
Accession Version NM_001290047.1 Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
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 2019-02-23
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform 1
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF336133.1, FO681548.4, AL832377.1, AK308330.1 and AC007666.12. On Feb 21, 2014 this sequence version replaced XM_006724077.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG CAGAGCCGTT GCCTGGCCTT 
GAAGAGAAAC CACCAGGTGT TGGTACTTCA GAGGGGGTCT ACCTCACACA ACTACCTCAC 
CCCACACCTC CCCTGCAGAC TGACTGCACC AGGCAGAGCT CACCACAAGA AAGGGAAACA 
GTGGGCCCGG AGCTCAAAAG CAGCTCCTCC GAATCTGCGG ACAACTGTAA AGCAATGAAG 
GGCAAGAATC CCTGGCCCTC GGATAGCAGC TACCCCGGCC CAGCCGCCCA AGGGTGCGTG 
AGAGACCTCT CCACGGTGGC AGACAGGGGC GCTCTATCCG AGAACGGAGT CATTGGGGAA 
GCATCTCCTT GTGGATCGGA GGGGAAGGGC CTTGGTAGCA GTGGTTCCGA AAAGCTGCTC 
TGCCCCAGAG GCAGAACGTT GCAGGAAACC ATGCCATGCA CGGGACAGAA CGCAGCGACA 
CCGCCCAGCA CAGACCCCGG TTTGACGGGA GGCACTGTGA GCCAGTTTCC CCCGCTGTAT 
ATGCCTGGCC TAGAGTACCC GAATTCAGCT GCCCATTACC ACATCAGTCC AGGCCTGCAG 
GGTGTGGGCC CTGTGATGGG AGGGAAGTCC CCAGCATCCC ATCCCCAGCA TTTTCCCCCA 
AGGGGCTTTC AGTCTAACCA CCCACATTCT GGAGGCTTTC CCCGGTATCG CCCCCCACAA 
GGAATGAGGT ATTCCTACCA CCCACCGCCA CAGCCTTCCT ACCACCACTA TCAGCGAACT 
CCTTACTATG CCTGTCCACA GAGCTTTTCT GACTGGCAGA GACCTCTCCA TCCCCAGGGA 
AGCCCAAGCG GACCCCCAGC CAGTCAGCCT CCCCCACCAA GGTCCCTCTT CTCAGATAAG 
AATGCCATGG CCAGTCTGCA AGGCTGTGAG ACACTGAATG CTGCCTTAAC TTCTCCAACC 
CGTATGGATG CAGTGGCTGC TAAAGTCCCA AATGACGGGC AGAATCCTGG TCCAGAGGAA 
GAGAAGCTGG ATGAATCTAT GGAGAGGCCA GAGAGTCCCA AAGAATTTTT AGACCTGGAC 
AACCATAACG CAGCTACCAA GCGGCAGAGC TCGTTGTCAG CCAGCGAGTA TCTCTATGGA 
ACTCCTCCGC CTCTGAGTTC AGGAATGGGA TTTGGTTCAT CTGCATTTCC ACCCCACAGT 
GTGATGCTGC AGACGGGGCC TCCCTATACC CCTCAGCGGC CGGCCAGTCA CTTTCAGCCC 
AGGGCTTACT CTTCCCCTGT GGCTGCCCTC CCACCTCACC ACCCAGGGGC CACCCAGCCC 
AACGGCCTCT CTCAGGAGGG TCCCATCTAT CGCTGCCAGG AAGAAGGCCT GGGTCACTTT 
CAAGCTGTGA TGATGGAACA AATTGGCACT AGAAGTGGAA TAAGAGGACC TTTCCAGGAA 
ATGTACAGAC CATCAGGAAT GCAGATGCAC CCGGTCCAGT CGCAGGCCTC GTTCCCAAAG 
ACCCCCACAG CAGCAACATC ACAGGAGGAG GTGCCGCCTC ATAAGCCTCC AACACTTCCC 
CTGGATCAGA GCTAG

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

RefSeq NP_001276976.1
CDS419..4813
Translation

Target ORF information:

RefSeq Version NM_001290047.1
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_001290047.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGGTGTG 
CCTTACCACC CCCACCAGCC TGCACACCCC CGTTTACCTG GCCCTTTTCC GCAGGTAGCT 
CACCCAATGT CAGTCACTGT GTCAGCCCCC AAGCCTGCCC TGGGCAACCC TGGGAGGGCA 
CCGGAGAACA GTGAAGCACA AGAGCCTGAG AATGACCAAG CAGAGCCGTT GCCTGGCCTT 
GAAGAGAAAC CACCAGGTGT TGGTACTTCA GAGGGGGTCT ACCTCACACA ACTACCTCAC 
CCCACACCTC CCCTGCAGAC TGACTGCACC AGGCAGAGCT CACCACAAGA AAGGGAAACA 
GTGGGCCCGG AGCTCAAAAG CAGCTCCTCC GAATCTGCGG ACAACTGTAA AGCAATGAAG 
GGCAAGAATC CCTGGCCCTC GGATAGCAGC TACCCCGGCC CAGCCGCCCA AGGGTGCGTG 
AGAGACCTCT CCACGGTGGC AGACAGGGGC GCTCTATCCG AGAACGGAGT CATTGGGGAA 
GCATCTCCTT GTGGATCGGA GGGGAAGGGC CTTGGTAGCA GTGGTTCCGA AAAGCTGCTC 
TGCCCCAGAG GCAGAACGTT GCAGGAAACC ATGCCATGCA CGGGACAGAA CGCAGCGACA 
CCGCCCAGCA CAGACCCCGG TTTGACGGGA GGCACTGTGA GCCAGTTTCC CCCGCTGTAT 
ATGCCTGGCC TAGAGTACCC GAATTCAGCT GCCCATTACC ACATCAGTCC AGGCCTGCAG 
GGTGTGGGCC CTGTGATGGG AGGGAAGTCC CCAGCATCCC ATCCCCAGCA TTTTCCCCCA 
AGGGGCTTTC AGTCTAACCA CCCACATTCT GGAGGCTTTC CCCGGTATCG CCCCCCACAA 
GGAATGAGGT ATTCCTACCA CCCACCGCCA CAGCCTTCCT ACCACCACTA TCAGCGAACT 
CCTTACTATG CCTGTCCACA GAGCTTTTCT GACTGGCAGA GACCTCTCCA TCCCCAGGGA 
AGCCCAAGCG GACCCCCAGC CAGTCAGCCT CCCCCACCAA GGTCCCTCTT CTCAGATAAG 
AATGCCATGG CCAGTCTGCA AGGCTGTGAG ACACTGAATG CTGCCTTAAC TTCTCCAACC 
CGTATGGATG CAGTGGCTGC TAAAGTCCCA AATGACGGGC AGAATCCTGG TCCAGAGGAA 
GAGAAGCTGG ATGAATCTAT GGAGAGGCCA GAGAGTCCCA AAGAATTTTT AGACCTGGAC 
AACCATAACG CAGCTACCAA GCGGCAGAGC TCGTTGTCAG CCAGCGAGTA TCTCTATGGA 
ACTCCTCCGC CTCTGAGTTC AGGAATGGGA TTTGGTTCAT CTGCATTTCC ACCCCACAGT 
GTGATGCTGC AGACGGGGCC TCCCTATACC CCTCAGCGGC CGGCCAGTCA CTTTCAGCCC 
AGGGCTTACT CTTCCCCTGT GGCTGCCCTC CCACCTCACC ACCCAGGGGC CACCCAGCCC 
AACGGCCTCT CTCAGGAGGG TCCCATCTAT CGCTGCCAGG AAGAAGGCCT GGGTCACTTT 
CAAGCTGTGA TGATGGAACA AATTGGCACT AGAAGTGGAA TAAGAGGACC TTTCCAGGAA 
ATGTACAGAC CATCAGGAAT GCAGATGCAC CCGGTCCAGT CGCAGGCCTC GTTCCCAAAG 
ACCCCCACAG CAGCAACATC ACAGGAGGAG GTGCCGCCTC ATAAGCCTCC AACACTTCCC 
CTGGATCAGA GCTAG

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

CloneID OHu67254
Clone ID Related Accession (Same CDS sequence) XM_011546128.2
Accession Version XM_011546128.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011546128.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GAGACTCCTG TGCTGACCAG AATAGAAAAA 
CAAAAGCGCA AAGAGGAGGA AGAAGAGCGT CAGATTCTTC TAGCAGTGCA GAAGAAGGAG 
CAGGAGCAGA TGCTAAAGGA AGAGAGGAAA CGCGAGTTGG AGGAGAAGGT CAAGGCAGTG 
GAAGATCGAG CGAAGAGGAG AAAGCTCAGG GAAGAAAGGG CATGGCTGCT GGCTCAAGGA 
AAGGAGCTCC CTCCAGAACT TTCCCATCTG GACCCCAATT CCCCCATGAG AGAGGAAAAA 
AAGACTAAAG ACCTCTTTGA GTTGGATGAT GATTTCACTG CTATGTATAA AGTTCTAGAC 
GTGGTAAAGG CTCACAAGGA TTCCTGGCCC TTCTTGGAAC CTGTGGATGA ATCTTATGCC 
CCTAACTATT ATCAGATTAT TAAGGCCCCC ATGGATATTT CCAGCATGGA GAAGAAACTG 
AATGGAGGTT TATACTGTAC CAAGGAGGAA TTTGTAAATG ACATGAAGAC CATGTTCAGG 
AATTGTCGAA AGTATAATGG GGAAAGTAGT GAGTATACCA AGATGTCTGA TAATTTAGAG 
AGGTGTTTCC ATCGGGCAAT GATGAAACAT TTTCCTGGAG AAGATGGAGA CACAGATGAA 
GAATTTTGGA TTCGAGAGGA TGAAAAGCGG GAGAAAAGAC GGAGTCGGGC TGGGCGAAGT 
GGTGGGAGCC ATGTTTGGAC CCGCTCCAGG GACCCAGAAG GGTCCAGCAG GAAACAGCAG 
CCCATGGAGA ATGGAGGAAA GTCGTTGCCC CCCACACGCC GAGCGCCCTC TTCTGGGGAC 
GATCAGAGCA GCAGCTCCAC ACAGCCCCCG CGGGAGGTGG GCACTTCCAA TGGCCGAGGT 
TTTTCTCATC CCCTGCATTG TGGTGGGACA CCCAGCCAGG CACCCTTTTT AAACCAGATG 
AGGCCAGCAG TACCAGGAAC ATTTGGCCCT CTGCGAGGAT CAGATCCTGC CACCTTGTAT 
GGCTCCTCTG GAGTCCCGGA GCCACACCCC GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC 
ACCATGCAGC CTCCAGTTGG AATTAACAGC CTCCGAGGAC CCAGGCTAGG CACACCAGAG 
GAGAAGCAAA TGTGCGGGGG GCTGACACAC CTTTCTAACA TGGGCCCACA CCCTGGATCC 
TTGCAGCTTG GGCAGATAAG TGGCCCAAGT CAGGATGGAA GCATGTATGC TCCAGCTCAG 
TTCCAGCCAG GATTCATTCC TCCCCGGCAT GGGGGGGCTC CAGCCCGGCC ACCAGACTTT 
CCTGAAAGCT CAGAAATTCC TCCCAGCCAT ATGTATCGAT CGTACAAGTA CCTGAATCGA 
GTACACTCTG CCGTCTGGAA TGGGAACCAT GGTGCTACGA ACCAAGGACC CTTGGGCCCA 
GATGAGAAGC CCCACCTGGG GCCAGGACCC TCTCACCAGC CTCGCACTCT CGGTCACGTG 
ATGGATTCCC GAGTCATGAG ACCACCTGTC CCCCCCAACC AGTGGACTGA ACAATCAGGC 
TTCCTACCTC ATGGAGTTCC TTCCTCAGGG TACATGCGAC CGCCCTGCAA GTCTGCCGGA 
CATCGGTTAC AGCCACCTCC AGTGCCAGCA CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG 
GCTCTTCGGG GGGTGCAGGG AGGGGACTCC ATGATGGACA GCCCAGAGAT GATTGCGATG 
CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA GGTGTGCCTT ACCACCCCCA CCAGCCTGCA 
CACCCCCGTT TACCTGGCCC TTTTCCGCAG GTAGCTCACC CAATGTCAGT CACTGTGTCA 
GCCCCCAAGC CTGCCCTGGG CAACCCTGGG AGGGCACCGG AGAACAGTGA AGCACAAGAG 
CCTGAGAATG ACCAAGCAGA GCCGTTGCCT GGCCTTGAAG AGAAACCACC AGGTGTTGGT 
ACTTCAGAGG GGGTCTACCT CACACAACTA CCTCACCCCA CACCTCCCCT GCAGACTGAC 
TGCACCAGGC AGAGCTCACC ACAAGAAAGG GAAACAGTGG GCCCGGAGCT CAAAAGCAGC 
TCCTCCGAAT CTGCGGACAA CTGTAAAGCA ATGAAGGGCA AGAATCCCTG GCCCTCGGAT 
AGCAGCTACC CCGGCCCAGC CGCCCAAGGG TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC 
AGGGGCGCTC TATCCGAGAA CGGAGTCATT GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG 
AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG CTGCTCTGCC CCAGAGGCAG AACGTTGCAG 
GAAACCATGC CATGCACGGG ACAGAACGCA GCGACACCGC CCAGCACAGA CCCCGGTTTG 
ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG CTGTATATGC CTGGCCTAGA GTACCCGAAT 
TCAGCTGCCC ATTACCACAT CAGTCCAGGC CTGCAGGGTG TGGGCCCTGT GATGGGAGGG 
AAGTCCCCAG CATCCCATCC CCAGCATTTT CCCCCAAGGG GCTTTCAGTC TAACCACCCA 
CATTCTGGAG GCTTTCCCCG GTATCGCCCC CCACAAGGAA TGAGGTATTC CTACCACCCA 
CCGCCACAGC CTTCCTACCA CCACTATCAG CGAACTCCTT ACTATGCCTG TCCACAGAGC 
TTTTCTGACT GGCAGAGACC TCTCCATCCC CAGGGAAGCC CAAGCGGACC CCCAGCCAGT 
CAGCCTCCCC CACCAAGGTC CCTCTTCTCA GATAAGAATG CCATGGCCAG TCTGCAAGGC 
TGTGAGACAC TGAATGCTGC CTTAACTTCT CCAACCCGTA TGGATGCAGT GGCTGCTAAA 
GTCCCAAATG ACGGGCAGAA TCCTGGTCCA GAGGAAGAGA AGCTGGATGA ATCTATGGAG 
AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC CTGGACAACC ATAACGCAGC TACCAAGCGG 
CAGAGCTCGT TGTCAGCCAG CGAGTATCTC TATGGAACTC CTCCGCCTCT GAGTTCAGGA 
ATGGGATTTG GTTCATCTGC ATTTCCACCC CACAGTGTGA TGCTGCAGAC GGGGCCTCCC 
TATACCCCTC AGCGGCCGGC CAGTCACTTT CAGCCCAGGG CTTACTCTTC CCCTGTGGCT 
GCCCTCCCAC CTCACCACCC AGGGGCCACC CAGCCCAACG GCCTCTCTCA GGAGGGTCCC 
ATCTATCGCT GCCAGGAAGA AGGCCTGGGT CACTTTCAAG CTGTGATGAT GGAACAAATT 
GGCACTAGAA GTGGAATAAG AGGACCTTTC CAGGAAATGT ACAGACCATC AGGAATGCAG 
ATGCACCCGG TCCAGTCGCA GGCCTCGTTC CCAAAGACCC CCACAGCAGC AACATCACAG 
GAGGAGGTGC CGCCTCATAA GCCTCCAACA CTTCCCCTGG ATCAGAGCTA G

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

RefSeq XP_011544430.1
CDS107..4417
Translation

Target ORF information:

RefSeq Version XM_011546128.2
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_011546128.2

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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GAGACTCCTG TGCTGACCAG AATAGAAAAA 
CAAAAGCGCA AAGAGGAGGA AGAAGAGCGT CAGATTCTTC TAGCAGTGCA GAAGAAGGAG 
CAGGAGCAGA TGCTAAAGGA AGAGAGGAAA CGCGAGTTGG AGGAGAAGGT CAAGGCAGTG 
GAAGATCGAG CGAAGAGGAG AAAGCTCAGG GAAGAAAGGG CATGGCTGCT GGCTCAAGGA 
AAGGAGCTCC CTCCAGAACT TTCCCATCTG GACCCCAATT CCCCCATGAG AGAGGAAAAA 
AAGACTAAAG ACCTCTTTGA GTTGGATGAT GATTTCACTG CTATGTATAA AGTTCTAGAC 
GTGGTAAAGG CTCACAAGGA TTCCTGGCCC TTCTTGGAAC CTGTGGATGA ATCTTATGCC 
CCTAACTATT ATCAGATTAT TAAGGCCCCC ATGGATATTT CCAGCATGGA GAAGAAACTG 
AATGGAGGTT TATACTGTAC CAAGGAGGAA TTTGTAAATG ACATGAAGAC CATGTTCAGG 
AATTGTCGAA AGTATAATGG GGAAAGTAGT GAGTATACCA AGATGTCTGA TAATTTAGAG 
AGGTGTTTCC ATCGGGCAAT GATGAAACAT TTTCCTGGAG AAGATGGAGA CACAGATGAA 
GAATTTTGGA TTCGAGAGGA TGAAAAGCGG GAGAAAAGAC GGAGTCGGGC TGGGCGAAGT 
GGTGGGAGCC ATGTTTGGAC CCGCTCCAGG GACCCAGAAG GGTCCAGCAG GAAACAGCAG 
CCCATGGAGA ATGGAGGAAA GTCGTTGCCC CCCACACGCC GAGCGCCCTC TTCTGGGGAC 
GATCAGAGCA GCAGCTCCAC ACAGCCCCCG CGGGAGGTGG GCACTTCCAA TGGCCGAGGT 
TTTTCTCATC CCCTGCATTG TGGTGGGACA CCCAGCCAGG CACCCTTTTT AAACCAGATG 
AGGCCAGCAG TACCAGGAAC ATTTGGCCCT CTGCGAGGAT CAGATCCTGC CACCTTGTAT 
GGCTCCTCTG GAGTCCCGGA GCCACACCCC GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC 
ACCATGCAGC CTCCAGTTGG AATTAACAGC CTCCGAGGAC CCAGGCTAGG CACACCAGAG 
GAGAAGCAAA TGTGCGGGGG GCTGACACAC CTTTCTAACA TGGGCCCACA CCCTGGATCC 
TTGCAGCTTG GGCAGATAAG TGGCCCAAGT CAGGATGGAA GCATGTATGC TCCAGCTCAG 
TTCCAGCCAG GATTCATTCC TCCCCGGCAT GGGGGGGCTC CAGCCCGGCC ACCAGACTTT 
CCTGAAAGCT CAGAAATTCC TCCCAGCCAT ATGTATCGAT CGTACAAGTA CCTGAATCGA 
GTACACTCTG CCGTCTGGAA TGGGAACCAT GGTGCTACGA ACCAAGGACC CTTGGGCCCA 
GATGAGAAGC CCCACCTGGG GCCAGGACCC TCTCACCAGC CTCGCACTCT CGGTCACGTG 
ATGGATTCCC GAGTCATGAG ACCACCTGTC CCCCCCAACC AGTGGACTGA ACAATCAGGC 
TTCCTACCTC ATGGAGTTCC TTCCTCAGGG TACATGCGAC CGCCCTGCAA GTCTGCCGGA 
CATCGGTTAC AGCCACCTCC AGTGCCAGCA CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG 
GCTCTTCGGG GGGTGCAGGG AGGGGACTCC ATGATGGACA GCCCAGAGAT GATTGCGATG 
CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA GGTGTGCCTT ACCACCCCCA CCAGCCTGCA 
CACCCCCGTT TACCTGGCCC TTTTCCGCAG GTAGCTCACC CAATGTCAGT CACTGTGTCA 
GCCCCCAAGC CTGCCCTGGG CAACCCTGGG AGGGCACCGG AGAACAGTGA AGCACAAGAG 
CCTGAGAATG ACCAAGCAGA GCCGTTGCCT GGCCTTGAAG AGAAACCACC AGGTGTTGGT 
ACTTCAGAGG GGGTCTACCT CACACAACTA CCTCACCCCA CACCTCCCCT GCAGACTGAC 
TGCACCAGGC AGAGCTCACC ACAAGAAAGG GAAACAGTGG GCCCGGAGCT CAAAAGCAGC 
TCCTCCGAAT CTGCGGACAA CTGTAAAGCA ATGAAGGGCA AGAATCCCTG GCCCTCGGAT 
AGCAGCTACC CCGGCCCAGC CGCCCAAGGG TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC 
AGGGGCGCTC TATCCGAGAA CGGAGTCATT GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG 
AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG CTGCTCTGCC CCAGAGGCAG AACGTTGCAG 
GAAACCATGC CATGCACGGG ACAGAACGCA GCGACACCGC CCAGCACAGA CCCCGGTTTG 
ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG CTGTATATGC CTGGCCTAGA GTACCCGAAT 
TCAGCTGCCC ATTACCACAT CAGTCCAGGC CTGCAGGGTG TGGGCCCTGT GATGGGAGGG 
AAGTCCCCAG CATCCCATCC CCAGCATTTT CCCCCAAGGG GCTTTCAGTC TAACCACCCA 
CATTCTGGAG GCTTTCCCCG GTATCGCCCC CCACAAGGAA TGAGGTATTC CTACCACCCA 
CCGCCACAGC CTTCCTACCA CCACTATCAG CGAACTCCTT ACTATGCCTG TCCACAGAGC 
TTTTCTGACT GGCAGAGACC TCTCCATCCC CAGGGAAGCC CAAGCGGACC CCCAGCCAGT 
CAGCCTCCCC CACCAAGGTC CCTCTTCTCA GATAAGAATG CCATGGCCAG TCTGCAAGGC 
TGTGAGACAC TGAATGCTGC CTTAACTTCT CCAACCCGTA TGGATGCAGT GGCTGCTAAA 
GTCCCAAATG ACGGGCAGAA TCCTGGTCCA GAGGAAGAGA AGCTGGATGA ATCTATGGAG 
AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC CTGGACAACC ATAACGCAGC TACCAAGCGG 
CAGAGCTCGT TGTCAGCCAG CGAGTATCTC TATGGAACTC CTCCGCCTCT GAGTTCAGGA 
ATGGGATTTG GTTCATCTGC ATTTCCACCC CACAGTGTGA TGCTGCAGAC GGGGCCTCCC 
TATACCCCTC AGCGGCCGGC CAGTCACTTT CAGCCCAGGG CTTACTCTTC CCCTGTGGCT 
GCCCTCCCAC CTCACCACCC AGGGGCCACC CAGCCCAACG GCCTCTCTCA GGAGGGTCCC 
ATCTATCGCT GCCAGGAAGA AGGCCTGGGT CACTTTCAAG CTGTGATGAT GGAACAAATT 
GGCACTAGAA GTGGAATAAG AGGACCTTTC CAGGAAATGT ACAGACCATC AGGAATGCAG 
ATGCACCCGG TCCAGTCGCA GGCCTCGTTC CCAAAGACCC CCACAGCAGC AACATCACAG 
GAGGAGGTGC CGCCTCATAA GCCTCCAACA CTTCCCCTGG ATCAGAGCTA G

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

CloneID OHu67255
Clone ID Related Accession (Same CDS sequence) XM_011546129.2
Accession Version XM_011546129.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X3
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011546129.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
AGGCCAGCAG TACCAGGAAC ATTTGGCCCT CTGCGAGGAT CAGATCCTGC CACCTTGTAT 
GGCTCCTCTG GAGTCCCGGA GCCACACCCC GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC 
ACCATGCAGC CTCCAGTTGG AATTAACAGC CTCCGAGGAC CCAGGCTAGG CACACCAGAG 
GAGAAGCAAA TGTGCGGGGG GCTGACACAC CTTTCTAACA TGGGCCCACA CCCTGGATCC 
TTGCAGCTTG GGCAGATAAG TGGCCCAAGT CAGGATGGAA GCATGTATGC TCCAGCTCAG 
TTCCAGCCAG GATTCATTCC TCCCCGGCAT GGGGGGGCTC CAGCCCGGCC ACCAGACTTT 
CCTGAAAGCT CAGAAATTCC TCCCAGCCAT ATGTATCGAT CGTACAAGTA CCTGAATCGA 
GTACACTCTG CCGTCTGGAA TGGGAACCAT GGTGCTACGA ACCAAGGACC CTTGGGCCCA 
GATGAGAAGC CCCACCTGGG GCCAGGACCC TCTCACCAGC CTCGCACTCT CGGTCACGTG 
ATGGATTCCC GAGTCATGAG ACCACCTGTC CCCCCCAACC AGTGGACTGA ACAATCAGGC 
TTCCTACCTC ATGGAGTTCC TTCCTCAGGG TACATGCGAC CGCCCTGCAA GTCTGCCGGA 
CATCGGTTAC AGCCACCTCC AGTGCCAGCA CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG 
GCTCTTCGGG GGGTGCAGGG AGGGGACTCC ATGATGGACA GCCCAGAGAT GATTGCGATG 
CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA GGTGTGCCTT ACCACCCCCA CCAGCCTGCA 
CACCCCCGTT TACCTGGCCC TTTTCCGCAG GTAGCTCACC CAATGTCAGT CACTGTGTCA 
GCCCCCAAGC CTGCCCTGGG CAACCCTGGG AGGGCACCGG AGAACAGTGA AGCACAAGAG 
CCTGAGAATG ACCAAGCAGA GCCGTTGCCT GGCCTTGAAG AGAAACCACC AGGTGTTGGT 
ACTTCAGAGG GGGTCTACCT CACACAACTA CCTCACCCCA CACCTCCCCT GCAGACTGAC 
TGCACCAGGC AGAGCTCACC ACAAGAAAGG GAAACAGTGG GCCCGGAGCT CAAAAGCAGC 
TCCTCCGAAT CTGCGGACAA CTGTAAAGCA ATGAAGGGCA AGAATCCCTG GCCCTCGGAT 
AGCAGCTACC CCGGCCCAGC CGCCCAAGGG TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC 
AGGGGCGCTC TATCCGAGAA CGGAGTCATT GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG 
AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG CTGCTCTGCC CCAGAGGCAG AACGTTGCAG 
GAAACCATGC CATGCACGGG ACAGAACGCA GCGACACCGC CCAGCACAGA CCCCGGTTTG 
ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG CTGTATATGC CTGGCCTAGA GTACCCGAAT 
TCAGCTGCCC ATTACCACAT CAGTCCAGGC CTGCAGGGTG TGGGCCCTGT GATGGGAGGG 
AAGTCCCCAG CATCCCATCC CCAGCATTTT CCCCCAAGGG GCTTTCAGTC TAACCACCCA 
CATTCTGGAG GCTTTCCCCG GTATCGCCCC CCACAAGGAA TGAGGTATTC CTACCACCCA 
CCGCCACAGC CTTCCTACCA CCACTATCAG CGAACTCCTT ACTATGCCTG TCCACAGAGC 
TTTTCTGACT GGCAGAGACC TCTCCATCCC CAGGGAAGCC CAAGCGGACC CCCAGCCAGT 
CAGCCTCCCC CACCAAGGTC CCTCTTCTCA GATAAGAATG CCATGGCCAG TCTGCAAGGC 
TGTGAGACAC TGAATGCTGC CTTAACTTCT CCAACCCGTA TGGATGCAGT GGCTGCTAAA 
GTCCCAAATG ACGGGCAGAA TCCTGGTCCA GAGGAAGAGA AGCTGGATGA ATCTATGGAG 
AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC CTGGACAACC ATAACGCAGC TACCAAGCGG 
CAGAGCTCGT TGTCAGCCAG CGAGTATCTC TATGGAACTC CTCCGCCTCT GAGTTCAGGA 
ATGGGATTTG GTTCATCTGC ATTTCCACCC CACAGTGTGA TGCTGCAGAC GGGGCCTCCC 
TATACCCCTC AGCGGCCGGC CAGTCACTTT CAGCCCAGGG CTTACTCTTC CCCTGTGGCT 
GCCCTCCCAC CTCACCACCC AGGGGCCACC CAGCCCAACG GCCTCTCTCA GGAGGGTCCC 
ATCTATCGCT GCCAGGAAGA AGGCCTGGGT CACTTTCAAG CTGTGATGAT GGAACAAATT 
GGCACTAGAA GTGGAATAAG AGGACCTTTC CAGGAAATGT ACAGACCATC AGGAATGCAG 
ATGCACCCGG TCCAGTCGCA GGCCTCGTTC CCAAAGACCC CCACAGCAGC AACATCACAG 
GAGGAGGTGC CGCCTCATAA GCCTCCAACA CTTCCCCTGG ATCAGAGCTA G

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

RefSeq XP_011544431.1
CDS107..4417
Translation

Target ORF information:

RefSeq Version XM_011546129.2
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_011546129.2

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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
AGGCCAGCAG TACCAGGAAC ATTTGGCCCT CTGCGAGGAT CAGATCCTGC CACCTTGTAT 
GGCTCCTCTG GAGTCCCGGA GCCACACCCC GGGGAGCCTG TGCAGCAGCG TCAGCCTTTC 
ACCATGCAGC CTCCAGTTGG AATTAACAGC CTCCGAGGAC CCAGGCTAGG CACACCAGAG 
GAGAAGCAAA TGTGCGGGGG GCTGACACAC CTTTCTAACA TGGGCCCACA CCCTGGATCC 
TTGCAGCTTG GGCAGATAAG TGGCCCAAGT CAGGATGGAA GCATGTATGC TCCAGCTCAG 
TTCCAGCCAG GATTCATTCC TCCCCGGCAT GGGGGGGCTC CAGCCCGGCC ACCAGACTTT 
CCTGAAAGCT CAGAAATTCC TCCCAGCCAT ATGTATCGAT CGTACAAGTA CCTGAATCGA 
GTACACTCTG CCGTCTGGAA TGGGAACCAT GGTGCTACGA ACCAAGGACC CTTGGGCCCA 
GATGAGAAGC CCCACCTGGG GCCAGGACCC TCTCACCAGC CTCGCACTCT CGGTCACGTG 
ATGGATTCCC GAGTCATGAG ACCACCTGTC CCCCCCAACC AGTGGACTGA ACAATCAGGC 
TTCCTACCTC ATGGAGTTCC TTCCTCAGGG TACATGCGAC CGCCCTGCAA GTCTGCCGGA 
CATCGGTTAC AGCCACCTCC AGTGCCAGCA CCCAGTTCTT TGTTTGGAGC ACCTGCCCAG 
GCTCTTCGGG GGGTGCAGGG AGGGGACTCC ATGATGGACA GCCCAGAGAT GATTGCGATG 
CAGCAGCTCT CCTCCCGCGT CTGCCCCCCA GGTGTGCCTT ACCACCCCCA CCAGCCTGCA 
CACCCCCGTT TACCTGGCCC TTTTCCGCAG GTAGCTCACC CAATGTCAGT CACTGTGTCA 
GCCCCCAAGC CTGCCCTGGG CAACCCTGGG AGGGCACCGG AGAACAGTGA AGCACAAGAG 
CCTGAGAATG ACCAAGCAGA GCCGTTGCCT GGCCTTGAAG AGAAACCACC AGGTGTTGGT 
ACTTCAGAGG GGGTCTACCT CACACAACTA CCTCACCCCA CACCTCCCCT GCAGACTGAC 
TGCACCAGGC AGAGCTCACC ACAAGAAAGG GAAACAGTGG GCCCGGAGCT CAAAAGCAGC 
TCCTCCGAAT CTGCGGACAA CTGTAAAGCA ATGAAGGGCA AGAATCCCTG GCCCTCGGAT 
AGCAGCTACC CCGGCCCAGC CGCCCAAGGG TGCGTGAGAG ACCTCTCCAC GGTGGCAGAC 
AGGGGCGCTC TATCCGAGAA CGGAGTCATT GGGGAAGCAT CTCCTTGTGG ATCGGAGGGG 
AAGGGCCTTG GTAGCAGTGG TTCCGAAAAG CTGCTCTGCC CCAGAGGCAG AACGTTGCAG 
GAAACCATGC CATGCACGGG ACAGAACGCA GCGACACCGC CCAGCACAGA CCCCGGTTTG 
ACGGGAGGCA CTGTGAGCCA GTTTCCCCCG CTGTATATGC CTGGCCTAGA GTACCCGAAT 
TCAGCTGCCC ATTACCACAT CAGTCCAGGC CTGCAGGGTG TGGGCCCTGT GATGGGAGGG 
AAGTCCCCAG CATCCCATCC CCAGCATTTT CCCCCAAGGG GCTTTCAGTC TAACCACCCA 
CATTCTGGAG GCTTTCCCCG GTATCGCCCC CCACAAGGAA TGAGGTATTC CTACCACCCA 
CCGCCACAGC CTTCCTACCA CCACTATCAG CGAACTCCTT ACTATGCCTG TCCACAGAGC 
TTTTCTGACT GGCAGAGACC TCTCCATCCC CAGGGAAGCC CAAGCGGACC CCCAGCCAGT 
CAGCCTCCCC CACCAAGGTC CCTCTTCTCA GATAAGAATG CCATGGCCAG TCTGCAAGGC 
TGTGAGACAC TGAATGCTGC CTTAACTTCT CCAACCCGTA TGGATGCAGT GGCTGCTAAA 
GTCCCAAATG ACGGGCAGAA TCCTGGTCCA GAGGAAGAGA AGCTGGATGA ATCTATGGAG 
AGGCCAGAGA GTCCCAAAGA ATTTTTAGAC CTGGACAACC ATAACGCAGC TACCAAGCGG 
CAGAGCTCGT TGTCAGCCAG CGAGTATCTC TATGGAACTC CTCCGCCTCT GAGTTCAGGA 
ATGGGATTTG GTTCATCTGC ATTTCCACCC CACAGTGTGA TGCTGCAGAC GGGGCCTCCC 
TATACCCCTC AGCGGCCGGC CAGTCACTTT CAGCCCAGGG CTTACTCTTC CCCTGTGGCT 
GCCCTCCCAC CTCACCACCC AGGGGCCACC CAGCCCAACG GCCTCTCTCA GGAGGGTCCC 
ATCTATCGCT GCCAGGAAGA AGGCCTGGGT CACTTTCAAG CTGTGATGAT GGAACAAATT 
GGCACTAGAA GTGGAATAAG AGGACCTTTC CAGGAAATGT ACAGACCATC AGGAATGCAG 
ATGCACCCGG TCCAGTCGCA GGCCTCGTTC CCAAAGACCC CCACAGCAGC AACATCACAG 
GAGGAGGTGC CGCCTCATAA GCCTCCAACA CTTCCCCTGG ATCAGAGCTA G

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

CloneID OHu67258
Clone ID Related Accession (Same CDS sequence) XM_011546132.2
Accession Version XM_011546132.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 4230bp)
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 2019-12-05
Organism Homo sapiens(human)
Product cat eye syndrome critical region protein 2 isoform X5
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000022.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011546132.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGCAGAG 
CCGTTGCCTG GCCTTGAAGA GAAACCACCA GGTGTTGGTA CTTCAGAGGG GGTCTACCTC 
ACACAACTAC CTCACCCCAC ACCTCCCCTG CAGACTGACT GCACCAGGCA GAGCTCACCA 
CAAGAAAGGG AAACAGTGGG CCCGGAGCTC AAAAGCAGCT CCTCCGAATC TGCGGACAAC 
TGTAAAGCAA TGAAGGGCAA GAATCCCTGG CCCTCGGATA GCAGCTACCC CGGCCCAGCC 
GCCCAAGGGT GCGTGAGAGA CCTCTCCACG GTGGCAGACA GGGGCGCTCT ATCCGAGAAC 
GGAGTCATTG GGGAAGCATC TCCTTGTGGA TCGGAGGGGA AGGGCCTTGG TAGCAGTGGT 
TCCGAAAAGC TGCTCTGCCC CAGAGGCAGA ACGTTGCAGG AAACCATGCC ATGCACGGGA 
CAGAACGCAG CGACACCGCC CAGCACAGAC CCCGGTTTGA CGGGAGGCAC TGTGAGCCAG 
TTTCCCCCGC TGTATATGCC TGGCCTAGAG TACCCGAATT CAGCTGCCCA TTACCACATC 
AGTCCAGGCC TGCAGGGTGT GGGCCCTGTG ATGGGAGGGA AGTCCCCAGC ATCCCATCCC 
CAGCATTTTC CCCCAAGGGG CTTTCAGTCT AACCACCCAC ATTCTGGAGG CTTTCCCCGG 
TATCGCCCCC CACAAGGAAT GAGGTATTCC TACCACCCAC CGCCACAGCC TTCCTACCAC 
CACTATCAGC GAACTCCTTA CTATGCCTGT CCACAGAGCT TTTCTGACTG GCAGAGACCT 
CTCCATCCCC AGGGAAGCCC AAGCGGACCC CCAGCCAGTC AGCCTCCCCC ACCAAGGTCC 
CTCTTCTCAG ATAAGAATGC CATGGCCAGT CTGCAAGGCT GTGAGACACT GAATGCTGCC 
TTAACTTCTC CAACCCGTAT GGATGCAGTG GCTGCTAAAG TCCCAAATGA CGGGCAGAAT 
CCTGGTCCAG AGGAAGAGAA GCTGGATGAA TCTATGGAGA GGCCAGAGAG TCCCAAAGAA 
TTTTTAGACC TGGACAACCA TAACGCAGCT ACCAAGCGGC AGAGCTCGTT GTCAGCCAGC 
GAGTATCTCT ATGGAACTCC TCCGCCTCTG AGTTCAGGAA TGGGATTTGG TTCATCTGCA 
TTTCCACCCC ACAGTGTGAT GCTGCAGACG GGGCCTCCCT ATACCCCTCA GCGGCCGGCC 
AGTCACTTTC AGCCCAGGGC TTACTCTTCC CCTGTGGCTG CCCTCCCACC TCACCACCCA 
GGGGCCACCC AGCCCAACGG CCTCTCTCAG GAGGGTCCCA TCTATCGCTG CCAGGAAGAA 
GGCCTGGGTC ACTTTCAAGC TGTGATGATG GAACAAATTG GCACTAGAAG TGGAATAAGA 
GGACCTTTCC AGGAAATGTA CAGACCATCA GGAATGCAGA TGCACCCGGT CCAGTCGCAG 
GCCTCGTTCC CAAAGACCCC CACAGCAGCA ACATCACAGG AGGAGGTGCC GCCTCATAAG 
CCTCCAACAC TTCCCCTGGA TCAGAGCTAG

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

RefSeq XP_011544434.1
CDS107..4336
Translation

Target ORF information:

RefSeq Version XM_011546132.2
Organism Homo sapiens(human)
Definition Homo sapiens CECR2 histone acetyl-lysine reader (CECR2), transcript variant X5, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_011546132.2

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
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
ATGTGCCCAG AGGAGGGCGG CGCGGCCGGG CTGGGCGAGC TCCGCTCCTG GTGGGAGGTC 
CCGGCCATCG CGCACTTCTG CTCGCTCTTT CGCACCGCGT TCCGCCTGCC CGACTTCGAG 
ATCGAGGAGT TAGAAGCCGC TCTTCACAGA GATGACGTGG AGTTTATCAG TGACCTGATT 
GCCTGCCTGC TTCAGGGCTG CTATCAACGA AGAGATATCA CGCCTCAGAC ATTCCACAGC 
TACCTAGAGG ACATCATCAA CTACCGCTGG GAGCTCGAAG AAGGGAAGCC CAACCCTCTG 
AGGGAAGCCA GTTTCCAGGA CCTGCCTCTT CGCACACGGG TGGAGATCCT GCACCGACTC 
TGTGATTACC GGCTGGATGC AGACGATGTC TTCGATCTTC TAAAGGGCCT GGATGCAGAC 
AGTCTCCGTG TGGAGCCATT GGGTGAAGAC AATTCTGGGG CACTATATTG GTATTTCTAT 
GGAACACGAA TGTACAAAGA GGACCCGGTG CAAGGAAAAT CCAATGGAGA ACTCTCTTTG 
AGCAGGGAAA GTGAAGGACA AAAAAATGTC TCAAGTATTC CTGGAAAAAC GGGAAAAAGA 
AGAGGAAGAC CCCCAAAACG GAAGAAACTG CAGGAGGAGA TTCTGTTGAG TGAAAAGCAG 
GAAGAAAATT CCTTGGCATC CGAGCCACAG ACAAGACATG GGTCCCAAGG GCCAGGCCAA 
GGTACTTGGT GGCTCCTGTG CCAGACAGAA GAGGAATGGA GACAGGTCAC CGAGAGTTTT 
CGCGAGAGGA CCTCCCTTCG AGAACGGCAG CTCTACAAGC TCCTCAGTGA GGACTTCCTG 
CCTGAGATCT GCAACATGAT CGCCCAGAAG GGAAAACGTC CACAGCGCAC AAAGGCAGAG 
TTGCATCCTA GGTGGATGTC TGACCACCTG TCCATCAAAC CCGTCAAGCA AGAGGAGACT 
CCTGTGCTGA CCAGAATAGA AAAACAAAAG CGCAAAGAGG AGGAAGAAGA GCGTCAGATT 
CTTCTAGCAG TGCAGAAGAA GGAGCAGGAG CAGATGCTAA AGGAAGAGAG GAAACGCGAG 
TTGGAGGAGA AGGTCAAGGC AGTGGAAGAT CGAGCGAAGA GGAGAAAGCT CAGGGAAGAA 
AGGGCATGGC TGCTGGCTCA AGGAAAGGAG CTCCCTCCAG AACTTTCCCA TCTGGACCCC 
AATTCCCCCA TGAGAGAGGA AAAAAAGACT AAAGACCTCT TTGAGTTGGA TGATGATTTC 
ACTGCTATGT ATAAAGTTCT AGACGTGGTA AAGGCTCACA AGGATTCCTG GCCCTTCTTG 
GAACCTGTGG ATGAATCTTA TGCCCCTAAC TATTATCAGA TTATTAAGGC CCCCATGGAT 
ATTTCCAGCA TGGAGAAGAA ACTGAATGGA GGTTTATACT GTACCAAGGA GGAATTTGTA 
AATGACATGA AGACCATGTT CAGGAATTGT CGAAAGTATA ATGGGGAAAG TAGTGAGTAT 
ACCAAGATGT CTGATAATTT AGAGAGGTGT TTCCATCGGG CAATGATGAA ACATTTTCCT 
GGAGAAGATG GAGACACAGA TGAAGAATTT TGGATTCGAG AGGATGAAAA GCGGGAGAAA 
AGACGGAGTC GGGCTGGGCG AAGTGGTGGG AGCCATGTTT GGACCCGCTC CAGGGACCCA 
GAAGGGTCCA GCAGGAAACA GCAGCCCATG GAGAATGGAG GAAAGTCGTT GCCCCCCACA 
CGCCGAGCGC CCTCTTCTGG GGACGATCAG AGCAGCAGCT CCACACAGCC CCCGCGGGAG 
GTGGGCACTT CCAATGGCCG AGGTTTTTCT CATCCCCTGC ATTGTGGTGG GACACCCAGC 
CAGGCACCCT TTTTAAACCA GATGAGGCCA GCAGTACCAG GAACATTTGG CCCTCTGCGA 
GGATCAGATC CTGCCACCTT GTATGGCTCC TCTGGAGTCC CGGAGCCACA CCCCGGGGAG 
CCTGTGCAGC AGCGTCAGCC TTTCACCATG CAGCCTCCAG TTGGAATTAA CAGCCTCCGA 
GGACCCAGGC TAGGCACACC AGAGGAGAAG CAAATGTGCG GGGGGCTGAC ACACCTTTCT 
AACATGGGCC CACACCCTGG ATCCTTGCAG CTTGGGCAGA TAAGTGGCCC AAGTCAGGAT 
GGAAGCATGT ATGCTCCAGC TCAGTTCCAG CCAGGATTCA TTCCTCCCCG GCATGGGGGG 
GCTCCAGCCC GGCCACCAGA CTTTCCTGAA AGCTCAGAAA TTCCTCCCAG CCATATGTAT 
CGATCGTACA AGTACCTGAA TCGAGTACAC TCTGCCGTCT GGAATGGGAA CCATGGTGCT 
ACGAACCAAG GACCCTTGGG CCCAGATGAG AAGCCCCACC TGGGGCCAGG ACCCTCTCAC 
CAGCCTCGCA CTCTCGGTCA CGTGATGGAT TCCCGAGTCA TGAGACCACC TGTCCCCCCC 
AACCAGTGGA CTGAACAATC AGGCTTCCTA CCTCATGGAG TTCCTTCCTC AGGGTACATG 
CGACCGCCCT GCAAGTCTGC CGGACATCGG TTACAGCCAC CTCCAGTGCC AGCACCCAGT 
TCTTTGTTTG GAGCACCTGC CCAGGCTCTT CGGGGGGTGC AGGGAGGGGA CTCCATGATG 
GACAGCCCAG AGATGATTGC GATGCAGCAG CTCTCCTCCC GCGTCTGCCC CCCAGCAGAG 
CCGTTGCCTG GCCTTGAAGA GAAACCACCA GGTGTTGGTA CTTCAGAGGG GGTCTACCTC 
ACACAACTAC CTCACCCCAC ACCTCCCCTG CAGACTGACT GCACCAGGCA GAGCTCACCA 
CAAGAAAGGG AAACAGTGGG CCCGGAGCTC AAAAGCAGCT CCTCCGAATC TGCGGACAAC 
TGTAAAGCAA TGAAGGGCAA GAATCCCTGG CCCTCGGATA GCAGCTACCC CGGCCCAGCC 
GCCCAAGGGT GCGTGAGAGA CCTCTCCACG GTGGCAGACA GGGGCGCTCT ATCCGAGAAC 
GGAGTCATTG GGGAAGCATC TCCTTGTGGA TCGGAGGGGA AGGGCCTTGG TAGCAGTGGT 
TCCGAAAAGC TGCTCTGCCC CAGAGGCAGA ACGTTGCAGG AAACCATGCC ATGCACGGGA 
CAGAACGCAG CGACACCGCC CAGCACAGAC CCCGGTTTGA CGGGAGGCAC TGTGAGCCAG 
TTTCCCCCGC TGTATATGCC TGGCCTAGAG TACCCGAATT CAGCTGCCCA TTACCACATC 
AGTCCAGGCC TGCAGGGTGT GGGCCCTGTG ATGGGAGGGA AGTCCCCAGC ATCCCATCCC 
CAGCATTTTC CCCCAAGGGG CTTTCAGTCT AACCACCCAC ATTCTGGAGG CTTTCCCCGG 
TATCGCCCCC CACAAGGAAT GAGGTATTCC TACCACCCAC CGCCACAGCC TTCCTACCAC 
CACTATCAGC GAACTCCTTA CTATGCCTGT CCACAGAGCT TTTCTGACTG GCAGAGACCT 
CTCCATCCCC AGGGAAGCCC AAGCGGACCC CCAGCCAGTC AGCCTCCCCC ACCAAGGTCC 
CTCTTCTCAG ATAAGAATGC CATGGCCAGT CTGCAAGGCT GTGAGACACT GAATGCTGCC 
TTAACTTCTC CAACCCGTAT GGATGCAGTG GCTGCTAAAG TCCCAAATGA CGGGCAGAAT 
CCTGGTCCAG AGGAAGAGAA GCTGGATGAA TCTATGGAGA GGCCAGAGAG TCCCAAAGAA 
TTTTTAGACC TGGACAACCA TAACGCAGCT ACCAAGCGGC AGAGCTCGTT GTCAGCCAGC 
GAGTATCTCT ATGGAACTCC TCCGCCTCTG AGTTCAGGAA TGGGATTTGG TTCATCTGCA 
TTTCCACCCC ACAGTGTGAT GCTGCAGACG GGGCCTCCCT ATACCCCTCA GCGGCCGGCC 
AGTCACTTTC AGCCCAGGGC TTACTCTTCC CCTGTGGCTG CCCTCCCACC TCACCACCCA 
GGGGCCACCC AGCCCAACGG CCTCTCTCAG GAGGGTCCCA TCTATCGCTG CCAGGAAGAA 
GGCCTGGGTC ACTTTCAAGC TGTGATGATG GAACAAATTG GCACTAGAAG TGGAATAAGA 
GGACCTTTCC AGGAAATGTA CAGACCATCA GGAATGCAGA TGCACCCGGT CCAGTCGCAG 
GCCTCGTTCC CAAAGACCCC CACAGCAGCA ACATCACAGG AGGAGGTGCC GCCTCATAAG 
CCTCCAACAC TTCCCCTGGA TCAGAGCTAG

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

PubMed

book

A Subset of Human Bromodomains Recognizes Butyryllysine and Crotonyllysine Histone Peptide Modifications.
Structure (London, England : 1993)23(10)1801-14(2015 Oct)
Flynn EM,Huang OW,Poy F,Oppikofer M,Bellon SF,Tang Y,Cochran AG


book

A de novo sSMC(22) Characterized by High-Resolution Arrays in a Girl with Cat-Eye Syndrome without Coloboma.
Molecular syndromology3(3)131-135(2012 Sep)
C?rdova-Fletes C,Dom?nguez MG,V?zquez-C?rdenas A,Figuera LE,Neira VA,Rojas-Mart?nez A,Ortiz-L?pez R


book

A 600?kb triplication in the cat eye syndrome critical region causes anorectal, renal and preauricular anomalies in a three-generation family.
European journal of human genetics : EJHG20(9)986-9(2012 Sep)
Knijnenburg J,van Bever Y,Hulsman LO,van Kempen CA,Bolman GM,van Loon RL,Beverloo HB,van Zutven LJ


book

Genome-wide screen of human bromodomain-containing proteins identifies Cecr2 as a novel DNA damage response protein.
Molecules and cells34(1)85-91(2012 Jul)
Lee SK,Park EJ,Lee HS,Lee YS,Kwon J


book

Chromatin remodelling in mammalian cells by ISWI-type complexes--where, when and why?
The FEBS journal278(19)3608-18(2011 Oct)
Erdel F,Rippe K