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LOC100226089 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Summary

Gene Symbol LOC100226089
Entrez Gene ID 100226089
Full Name lysosomal alpha-glucosidase-like
Gene Type protein-coding
Organism Taeniopygia guttata(zebra finch)

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_012577863.1 XP_012433317.1 LOW QUALITY PROTEIN: lysosomal alpha-glucosidase-like
XM_030285297.1 XP_030141157.1 lysosomal alpha-glucosidase-like

Pathways from BioSystems


Gene Ontology

The following LOC100226089 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100226089 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
OTd17733 XM_012577863.1
Latest version!		 Taeniopygia guttata lysosomal alpha-glucosidase-like (LOC100226089), mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
OTd29747 XM_030285297.1
Latest version!		 Taeniopygia guttata lysosomal alpha-glucosidase-like (LOC100226089), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
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** 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 OTd17733
Clone ID Related Accession (Same CDS sequence) XM_012577863.1
Accession Version XM_012577863.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2778bp)
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 2015-05-25
Organism Taeniopygia guttata(zebra finch)
Product LOW QUALITY PROTEIN: lysosomal alpha-glucosidase-like
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197363.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END## 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
ATGAAGTCGT ACCAGAAGCT GACAACAGCA CAGCCAGCAG CATGCCGGGT GGAAGAGGAG 
GGGGCTGCCC CCATGCCCTC CAGCCATGGG AAGCTGGCCC CGTGGTGGGT GGGCAGTGGG 
CTGCTGGTGG CCGCTGTTCT GCTGAGCACC ATCACTGTCT GGGTGCTGCG GCAAGTATCG 
GGGGGCTGGC TCGGACCCAC GCCCCCCCCC AAATGTCTCC TGGTACCTGA GAGCCATCGC 
TTCGACTGCT ACCCGGAGCG GCACGTGGTG GTGACCCAGG AGCTCTGTGA AAGCCGAGGG 
TGCTGCTTCA TCCAGAGCCC CCCGCTGGCA GAGGGCAAGC AGGGGGTGCC CTGGTGCTTC 
TATCCCCCTG ACTTCCCCAG CTACACCCTG GAGAGCCTCA ACCAGACAGC TCTGGGCATG 
GTGGGGCTGC TGGTGCGAAG GGAGAAGGCC TATTACCCCC GGGACATCGA GAAGCTGAGG 
CTGGATGTGG AGTTTGAGAC GGACACGAGG CTGCACATCA AGATAACAGA TGCGGCCAAC 
CCACGCTATG AGGTTCCCCT TGATGTTCCC CGTGTGATGA AGAGAGCAGA AAACCCCATC 
TACAGTCTGA ACTTCTCCTG GGACCCCTTT GGGGTGCTGC TGCAGCGCAA GGCAACAGGG 
ACAGTGCTGC TAAACACCAC CGTGGCCCCC TTGATCTTTG CTGACCAGTT TCTCCAGATA 
TCCACATCAC TCCCATCCAA GTTCCTCTAT GGGCTGGGGG AGCACCGTGG CAGCCTCCTG 
CACAGCCTGG ACTGGAACAC CCTCACGCTG TGGGCCCGCG ACGTCCCTCC CACGGAGTCA 
TTGAACCTGT ACGGCGCCCA CCCCTTCTAC CTGCTGATAG AGGAGGGTGG AAATGCTCAC 
GGTGTTTTCC TACTCAACAG CAATGCCATG GAGGTGGCTC TGCAGCCTGC TCCAGGCCTG 
ACCTGGAGGA CTATTGGAGG AGTGCTGGAT TTTTACATCT TCCTGGGGCC CAATCCCAAC 
ATGGTCATCC AGCAGTACCA GCAGGTGATA GGTTTCCCAG CCATGCCACC CATCTGGGCT 
CTTGGCTTCC ACCTCTGCCG CTGGGGCTAC GGATCCAGCA ACGAGACGTG GCAGACCGTG 
AGAGCCATGA GGAACTACCA GATCCCCCAG GATGGGCAGT GGAATGACAT CGATTACATG 
GATGGGTACC GGGACTTCAC CGTGGATTCC CAGAAGTTTG CTTCCCTCCC CTCCCTGGTG 
GAAGACCTCC ACAAACATGG CCAGCACTAC GTCATGATCT TGGATCCTGG CATCAGCAGC 
ACCAGCCCTC AGGGCTCCTA CTGGCCTTTT GATGAAGGCT TGAGACGGGG CTTGTTCCTC 
AACACCACCC AAGGGAAGCC ACTCATCGGG CAGGTCTGGC CTGGTTTCAC TGCCTTCGCA 
GACTTCTCCA ACCCAGGCAC ACACAGTGGT GGCTGGAGAC CTGCAGCACT TCCATGCCAC 
GTGCCCTTTG ATGCTCTGAT CGTATACATG GGCAAGGCGA GCTCAGTCAT GGAAGGGTCT 
GTAGTAATGT ATCCCCCAGG AGAGAAAGAC AACCCACCCT ACACTCCAGC CGTTCTGGGT 
GATTCCCTCT CTGCAAAGAC GGTGTGTGCC TCGGCAAGGC AGAAAGTCTC GGTGCACTAC 
AACCTCCACA ACCTCTATGG GCTGATGGAA GCCAAAGCCA CAGCAAGCGC CTTGATCAAG 
ATCCGGGGCA AGCGCCCCTT TGTCATCTCG CGCTCCACCT TCCCCAGCCA GGGCCGCTAC 
TCGGGGCACT GGCTGGGTGA CAACCGGAGC CAGTGGAAGG ACATGAGTTA CTCAATCCCA 
GGGCTGCTGA GCTTCAGCCT CTTTGGCATC CCGCTGGTCG GGGCAGACAT CTGCGGCTTC 
TCCGGCAGCA CCTCGGAGGA GCTGTGCACC CGCTGGATGC AGCTCGGGGC CTTCTACCCC 
TTCGCTCGCA ACCACAACAC CCAGAACGAG AAGGCCCAGG AGCCAGCAGT GTTCAGCCCT 
GCAGCCAGGA CAGCCATGAA GGATGTGCTG CTGACCCGCT ATTCCCTCCT GCCCTTCCTC 
TACACCCTTT TCCACCGTGC CCACCTGCAA GGGGACACCG TGGCCCGGCC CTTGTTCTTT 
GAGTTCCCCT GGGATGTGGC CACGTGGGAG CTGGACAGGC AGTTCCTGTG GGGCCGGAGC 
CTGCTGGTAA CACCGGTGCT GGAACCCGGG GTGGACTCAG TCACAGGTTA CGTTCCCCAA 
GGCACGTGGT ACGACTTCTA CACGGGCTCC TCGGTGAACA GCAGTGGGGA GATGTTGAAG 
ATGTCGGCCC CTCTGGAGCA CCTCAACCTG CACATCTGGG AAGGTTCCAT CCTGCCCACC 
CAGAAACCAG GAACCACCAC AGAGCTGACC CGAGGGAATC CCTTGCGTCT CATTGTGGCC 
TTGTCCTCAC ATGCCACTGC CTGGGGTGAC CTTTTCTGGG ACGATGGCGA GAGCCTGGAC 
ACCTTCGAGA AGGGCAACTA CTCCTACGTG GTGTTCAATG TCACAGAGAA CATCTTCACC 
TCCACCGTCC TCCATGCCAG CACCGAGGCC ACCAAGGTCA CCGTTGGCAC ACTGAGCATC 
TTTGGGGTGC AGAAACCGCC CAGCAAGGTC CTCCTGAATG GCCGGGAGAA GCCCTTTTCC 
TATCTGGACA ACCAGGTTCT CACCGTGAGT GACCTTGGCA TGAGCCTCAG CCAGGGCTTC 
TCCCTGCAGT GGCTGTGA

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

RefSeq XP_012433317.1
CDS1..2778
Translation

Target ORF information:

RefSeq Version XM_012577863.1
Organism Taeniopygia guttata(zebra finch)
Definition Taeniopygia guttata lysosomal alpha-glucosidase-like (LOC100226089), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_012577863.1

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
ATGAAGTCGT ACCAGAAGCT GACAACAGCA CAGCCAGCAG CATGCCGGGT GGAAGAGGAG 
GGGGCTGCCC CCATGCCCTC CAGCCATGGG AAGCTGGCCC CGTGGTGGGT GGGCAGTGGG 
CTGCTGGTGG CCGCTGTTCT GCTGAGCACC ATCACTGTCT GGGTGCTGCG GCAAGTATCG 
GGGGGCTGGC TCGGACCCAC GCCCCCCCCC AAATGTCTCC TGGTACCTGA GAGCCATCGC 
TTCGACTGCT ACCCGGAGCG GCACGTGGTG GTGACCCAGG AGCTCTGTGA AAGCCGAGGG 
TGCTGCTTCA TCCAGAGCCC CCCGCTGGCA GAGGGCAAGC AGGGGGTGCC CTGGTGCTTC 
TATCCCCCTG ACTTCCCCAG CTACACCCTG GAGAGCCTCA ACCAGACAGC TCTGGGCATG 
GTGGGGCTGC TGGTGCGAAG GGAGAAGGCC TATTACCCCC GGGACATCGA GAAGCTGAGG 
CTGGATGTGG AGTTTGAGAC GGACACGAGG CTGCACATCA AGATAACAGA TGCGGCCAAC 
CCACGCTATG AGGTTCCCCT TGATGTTCCC CGTGTGATGA AGAGAGCAGA AAACCCCATC 
TACAGTCTGA ACTTCTCCTG GGACCCCTTT GGGGTGCTGC TGCAGCGCAA GGCAACAGGG 
ACAGTGCTGC TAAACACCAC CGTGGCCCCC TTGATCTTTG CTGACCAGTT TCTCCAGATA 
TCCACATCAC TCCCATCCAA GTTCCTCTAT GGGCTGGGGG AGCACCGTGG CAGCCTCCTG 
CACAGCCTGG ACTGGAACAC CCTCACGCTG TGGGCCCGCG ACGTCCCTCC CACGGAGTCA 
TTGAACCTGT ACGGCGCCCA CCCCTTCTAC CTGCTGATAG AGGAGGGTGG AAATGCTCAC 
GGTGTTTTCC TACTCAACAG CAATGCCATG GAGGTGGCTC TGCAGCCTGC TCCAGGCCTG 
ACCTGGAGGA CTATTGGAGG AGTGCTGGAT TTTTACATCT TCCTGGGGCC CAATCCCAAC 
ATGGTCATCC AGCAGTACCA GCAGGTGATA GGTTTCCCAG CCATGCCACC CATCTGGGCT 
CTTGGCTTCC ACCTCTGCCG CTGGGGCTAC GGATCCAGCA ACGAGACGTG GCAGACCGTG 
AGAGCCATGA GGAACTACCA GATCCCCCAG GATGGGCAGT GGAATGACAT CGATTACATG 
GATGGGTACC GGGACTTCAC CGTGGATTCC CAGAAGTTTG CTTCCCTCCC CTCCCTGGTG 
GAAGACCTCC ACAAACATGG CCAGCACTAC GTCATGATCT TGGATCCTGG CATCAGCAGC 
ACCAGCCCTC AGGGCTCCTA CTGGCCTTTT GATGAAGGCT TGAGACGGGG CTTGTTCCTC 
AACACCACCC AAGGGAAGCC ACTCATCGGG CAGGTCTGGC CTGGTTTCAC TGCCTTCGCA 
GACTTCTCCA ACCCAGGCAC ACACAGTGGT GGCTGGAGAC CTGCAGCACT TCCATGCCAC 
GTGCCCTTTG ATGCTCTGAT CGTATACATG GGCAAGGCGA GCTCAGTCAT GGAAGGGTCT 
GTAGTAATGT ATCCCCCAGG AGAGAAAGAC AACCCACCCT ACACTCCAGC CGTTCTGGGT 
GATTCCCTCT CTGCAAAGAC GGTGTGTGCC TCGGCAAGGC AGAAAGTCTC GGTGCACTAC 
AACCTCCACA ACCTCTATGG GCTGATGGAA GCCAAAGCCA CAGCAAGCGC CTTGATCAAG 
ATCCGGGGCA AGCGCCCCTT TGTCATCTCG CGCTCCACCT TCCCCAGCCA GGGCCGCTAC 
TCGGGGCACT GGCTGGGTGA CAACCGGAGC CAGTGGAAGG ACATGAGTTA CTCAATCCCA 
GGGCTGCTGA GCTTCAGCCT CTTTGGCATC CCGCTGGTCG GGGCAGACAT CTGCGGCTTC 
TCCGGCAGCA CCTCGGAGGA GCTGTGCACC CGCTGGATGC AGCTCGGGGC CTTCTACCCC 
TTCGCTCGCA ACCACAACAC CCAGAACGAG AAGGCCCAGG AGCCAGCAGT GTTCAGCCCT 
GCAGCCAGGA CAGCCATGAA GGATGTGCTG CTGACCCGCT ATTCCCTCCT GCCCTTCCTC 
TACACCCTTT TCCACCGTGC CCACCTGCAA GGGGACACCG TGGCCCGGCC CTTGTTCTTT 
GAGTTCCCCT GGGATGTGGC CACGTGGGAG CTGGACAGGC AGTTCCTGTG GGGCCGGAGC 
CTGCTGGTAA CACCGGTGCT GGAACCCGGG GTGGACTCAG TCACAGGTTA CGTTCCCCAA 
GGCACGTGGT ACGACTTCTA CACGGGCTCC TCGGTGAACA GCAGTGGGGA GATGTTGAAG 
ATGTCGGCCC CTCTGGAGCA CCTCAACCTG CACATCTGGG AAGGTTCCAT CCTGCCCACC 
CAGAAACCAG GAACCACCAC AGAGCTGACC CGAGGGAATC CCTTGCGTCT CATTGTGGCC 
TTGTCCTCAC ATGCCACTGC CTGGGGTGAC CTTTTCTGGG ACGATGGCGA GAGCCTGGAC 
ACCTTCGAGA AGGGCAACTA CTCCTACGTG GTGTTCAATG TCACAGAGAA CATCTTCACC 
TCCACCGTCC TCCATGCCAG CACCGAGGCC ACCAAGGTCA CCGTTGGCAC ACTGAGCATC 
TTTGGGGTGC AGAAACCGCC CAGCAAGGTC CTCCTGAATG GCCGGGAGAA GCCCTTTTCC 
TATCTGGACA ACCAGGTTCT CACCGTGAGT GACCTTGGCA TGAGCCTCAG CCAGGGCTTC 
TCCCTGCAGT GGCTGTGA

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

CloneID OTd29747
Clone ID Related Accession (Same CDS sequence) XM_030285297.1
Accession Version XM_030285297.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2781bp)
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 2019-08-08
Organism Taeniopygia guttata(zebra finch)
Product lysosomal alpha-glucosidase-like
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044226.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
ATGAAGTCGT ACCAGAAGCT GACAACAGCA CAGCCAGCAG CATGCCGGGT GGAAGAGGAG 
GGGGCTGCCC CCATGCCCTC CAGCCATGGG AAGCTGGCCC CGTGGTGGGT GGGCAGTGGG 
CTGCTGGTGG CCGCTGTTCT GCTGAGCACC ATCACTGTCT GGGTGCTGCG GCAAGTATCG 
GGGGGCTGGC TCGGACCCAC GCCACCCCCC AAATGTCTCC TGGTACCTGA GAGCCATCGC 
TTCGACTGCT ACCCGGAGCG GCACGTGGTG GTGACCCAGG AGCTCTGTGA AAGCCGAGGG 
TGCTGCTTCA TCCAGAGCCC CCCGCTGGCA GAGGGCAAGC AGGGGGTGCC CTGGTGCTTC 
TATCCCCCTG ACTTCCCCAG CTACACCCTG GAGAGCCTCA ACCAGACAGC TCTGGGCATG 
GTGGGGCTGC TGGTGCGAAG GGAGAAGGCC TATTACCCCC GGGACATCGA GAAGCTGAGG 
CTGGATGTGG AGTTTGAGAC GGACACGAGG CTGCACATCA AGATAACAGA TGCGGCCAAC 
CCACGCTATG AGGTTCCCCT TGATGTTCCC CGTGTGATGA AGAGAGCAGA AAACCCCATC 
TACAGTCTGA ACTTCTCCTG GGACCCCTTT GGGGTGCTGC TGCAGCGCAA GGCAACAGGG 
ACAGTGCTGC TAAACACCAC CGTGGCCCCC TTGATCTTTG CTGACCAGTT TCTCCAGATA 
TCCACATCAC TCCCATCCAA GTTCCTCTAT GGGCTGGGGG AGCACCGTGG CAGCCTCCTG 
CACAGCCTGG ACTGGAACAC CCTCACGCTG TGGGCCCGCG ACGTCCCTCC CACGGAGTCA 
TTGAACCTGT ACGGCGCCCA CCCCTTCTAC CTGCTGATAG AGGAGGGTGG AAATGCTCAC 
GGTGTTTTCC TACTCAACAG CAATGCCATG GAGGTGGCTC TGCAGCCTGC TCCAGGCCTG 
ACCTGGAGGA CTATTGGAGG AGTGCTGGAT TTTTACATCT TCCTGGGGCC CAATCCCAAC 
ATGGTCATCC AGCAGTACCA GCAGGTGATA GGTTTCCCAG CCATGCCACC CATCTGGGCT 
CTTGGCTTCC ACCTCTGCCG CTGGGGCTAC GGATCCAGCA ACGAGACGTG GCAGACCGTG 
AGAGCCATGA GGAACTACCA GATCCCCCAG GATGGGCAGT GGAATGACAT CGATTACATG 
GATGGGTACC GGGACTTCAC CGTGGATTCC CAGAAGTTTG CTTCCCTCCC CTCCCTGGTG 
GAAGACCTCC ACAAACATGG CCAGCACTAC GTCATGATCT TGGATCCTGG CATCAGCAGC 
ACCAGCCCTC AGGGCTCCTA CTGGCCTTTT GATGAAGGCT TGAGACGGGG CTTGTTCCTC 
AACACCACCC AAGGGAAGCC ACTCATCGGG CAGGTCTGGC CTGGTTTCAC TGCCTTCGCA 
GACTTCTCCA ACCCAGGCAC ACACCAGTGG TGGCTGGAGA ACCTGCAGCA CTTCCATGCC 
CACGTGCCCT TTGATGGCCT CTGGATCGAC ATGAACGAGC CATCCAACTT CATGGATGGG 
TCTGAAGCTG GCTGCCCCCC AGGAGAGTTT GACAACCCAC CCTACACTCC AGCCGTTCTG 
GGTGATTCCC TCTCTGCAAA GACGGTGTGT GCCTCGGCAA GGCAGAAAGT CTCGGTGCAC 
TACAACCTCC ACAACCTCTA TGGGCTGATG GAAGCCAAAG CCACAGCAAG CGCCTTGATC 
AAGATCCGGG GCAAGCGCCC CTTTGTCATC TCGCGCTCCA CCTTCCCCAG CCAGGGCCGC 
TACTCGGGGC ACTGGCTGGG TGACAACCGG AGCCAGTGGA AGGACATGAG TTACTCAATC 
CCAGGGCTGC TGAGCTTCAG CCTCTTTGGC ATCCCGCTGG TCGGGGCAGA CATCTGCGGC 
TTCTCCGGCA GCACCTCGGA GGAGCTGTGC ACCCGCTGGA TGCAGCTCGG GGCCTTCTAC 
CCCTTCGCTC GCAACCACAA CACCCAGAAC GAGAAGGCCC AGGAGCCAGC AGTGTTCAGC 
CCTGCAGCCA GGACAGCCAT GAAGGATGTG CTGCTGACCC GCTATTCCCT CCTGCCCTTC 
CTCTACACCC TTTTCCACCG TGCCCACCTG CAAGGGGACA CCGTGGCCCG GCCCTTGTTC 
TTTGAGTTCC CCTGGGATGT GGCCACGTGG GAGCTGGACA GGCAGTTCCT GTGGGGCCGG 
AGCCTGCTGG TAACACCGGT GCTGGAACCC GGGGTGGACT CAGTCACAGG TTACGTTCCC 
CAAGGCACGT GGTACGACTT CTACACGGGC TCCTCGGTGA ACAGCAGTGG GGAGATGTTG 
AAGATGTCGG CCCCTCTGGA GCACCTCAAC CTGCACATCT GGGAAGGTTC CATCCTGCCC 
ACCCAGAAAC CAGGAACCAC CACAGAGCTG ACCCGAGGGA ATCCCTTGCG TCTCATTGTG 
GCCTTGTCCT CACATGCCAC TGCCTGGGGT GACCTTTTCT GGGACGATGG CGAGAGCCTG 
GACACCTTCG AGAAGGGCAA CTACTCCTAC GTGGTGTTCA ATGTCACAGA GAACATCTTC 
ACCTCCACCG TCCTCCATGC CAGCACCGAG GCCACCAAGG TCACCGTTGG CACACTGAGC 
ATCTTTGGGG TGCAGAAACC GCCCAGCAAG GTCCTCCTGA ATGGCCGGGA GAAGCCCTTT 
TCCTATCTGG ACAACCAGGT TCTCACCGTG AGTGACCTTG GCATGAGCCT CAGCCAGGGC 
TTCTCCCTGC AGTGGCTGTG A

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

RefSeq XP_030141157.1
CDS2432..5212
Translation

Target ORF information:

RefSeq Version XM_030285297.1
Organism Taeniopygia guttata(zebra finch)
Definition Taeniopygia guttata lysosomal alpha-glucosidase-like (LOC100226089), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_030285297.1

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
ATGAAGTCGT ACCAGAAGCT GACAACAGCA CAGCCAGCAG CATGCCGGGT GGAAGAGGAG 
GGGGCTGCCC CCATGCCCTC CAGCCATGGG AAGCTGGCCC CGTGGTGGGT GGGCAGTGGG 
CTGCTGGTGG CCGCTGTTCT GCTGAGCACC ATCACTGTCT GGGTGCTGCG GCAAGTATCG 
GGGGGCTGGC TCGGACCCAC GCCACCCCCC AAATGTCTCC TGGTACCTGA GAGCCATCGC 
TTCGACTGCT ACCCGGAGCG GCACGTGGTG GTGACCCAGG AGCTCTGTGA AAGCCGAGGG 
TGCTGCTTCA TCCAGAGCCC CCCGCTGGCA GAGGGCAAGC AGGGGGTGCC CTGGTGCTTC 
TATCCCCCTG ACTTCCCCAG CTACACCCTG GAGAGCCTCA ACCAGACAGC TCTGGGCATG 
GTGGGGCTGC TGGTGCGAAG GGAGAAGGCC TATTACCCCC GGGACATCGA GAAGCTGAGG 
CTGGATGTGG AGTTTGAGAC GGACACGAGG CTGCACATCA AGATAACAGA TGCGGCCAAC 
CCACGCTATG AGGTTCCCCT TGATGTTCCC CGTGTGATGA AGAGAGCAGA AAACCCCATC 
TACAGTCTGA ACTTCTCCTG GGACCCCTTT GGGGTGCTGC TGCAGCGCAA GGCAACAGGG 
ACAGTGCTGC TAAACACCAC CGTGGCCCCC TTGATCTTTG CTGACCAGTT TCTCCAGATA 
TCCACATCAC TCCCATCCAA GTTCCTCTAT GGGCTGGGGG AGCACCGTGG CAGCCTCCTG 
CACAGCCTGG ACTGGAACAC CCTCACGCTG TGGGCCCGCG ACGTCCCTCC CACGGAGTCA 
TTGAACCTGT ACGGCGCCCA CCCCTTCTAC CTGCTGATAG AGGAGGGTGG AAATGCTCAC 
GGTGTTTTCC TACTCAACAG CAATGCCATG GAGGTGGCTC TGCAGCCTGC TCCAGGCCTG 
ACCTGGAGGA CTATTGGAGG AGTGCTGGAT TTTTACATCT TCCTGGGGCC CAATCCCAAC 
ATGGTCATCC AGCAGTACCA GCAGGTGATA GGTTTCCCAG CCATGCCACC CATCTGGGCT 
CTTGGCTTCC ACCTCTGCCG CTGGGGCTAC GGATCCAGCA ACGAGACGTG GCAGACCGTG 
AGAGCCATGA GGAACTACCA GATCCCCCAG GATGGGCAGT GGAATGACAT CGATTACATG 
GATGGGTACC GGGACTTCAC CGTGGATTCC CAGAAGTTTG CTTCCCTCCC CTCCCTGGTG 
GAAGACCTCC ACAAACATGG CCAGCACTAC GTCATGATCT TGGATCCTGG CATCAGCAGC 
ACCAGCCCTC AGGGCTCCTA CTGGCCTTTT GATGAAGGCT TGAGACGGGG CTTGTTCCTC 
AACACCACCC AAGGGAAGCC ACTCATCGGG CAGGTCTGGC CTGGTTTCAC TGCCTTCGCA 
GACTTCTCCA ACCCAGGCAC ACACCAGTGG TGGCTGGAGA ACCTGCAGCA CTTCCATGCC 
CACGTGCCCT TTGATGGCCT CTGGATCGAC ATGAACGAGC CATCCAACTT CATGGATGGG 
TCTGAAGCTG GCTGCCCCCC AGGAGAGTTT GACAACCCAC CCTACACTCC AGCCGTTCTG 
GGTGATTCCC TCTCTGCAAA GACGGTGTGT GCCTCGGCAA GGCAGAAAGT CTCGGTGCAC 
TACAACCTCC ACAACCTCTA TGGGCTGATG GAAGCCAAAG CCACAGCAAG CGCCTTGATC 
AAGATCCGGG GCAAGCGCCC CTTTGTCATC TCGCGCTCCA CCTTCCCCAG CCAGGGCCGC 
TACTCGGGGC ACTGGCTGGG TGACAACCGG AGCCAGTGGA AGGACATGAG TTACTCAATC 
CCAGGGCTGC TGAGCTTCAG CCTCTTTGGC ATCCCGCTGG TCGGGGCAGA CATCTGCGGC 
TTCTCCGGCA GCACCTCGGA GGAGCTGTGC ACCCGCTGGA TGCAGCTCGG GGCCTTCTAC 
CCCTTCGCTC GCAACCACAA CACCCAGAAC GAGAAGGCCC AGGAGCCAGC AGTGTTCAGC 
CCTGCAGCCA GGACAGCCAT GAAGGATGTG CTGCTGACCC GCTATTCCCT CCTGCCCTTC 
CTCTACACCC TTTTCCACCG TGCCCACCTG CAAGGGGACA CCGTGGCCCG GCCCTTGTTC 
TTTGAGTTCC CCTGGGATGT GGCCACGTGG GAGCTGGACA GGCAGTTCCT GTGGGGCCGG 
AGCCTGCTGG TAACACCGGT GCTGGAACCC GGGGTGGACT CAGTCACAGG TTACGTTCCC 
CAAGGCACGT GGTACGACTT CTACACGGGC TCCTCGGTGA ACAGCAGTGG GGAGATGTTG 
AAGATGTCGG CCCCTCTGGA GCACCTCAAC CTGCACATCT GGGAAGGTTC CATCCTGCCC 
ACCCAGAAAC CAGGAACCAC CACAGAGCTG ACCCGAGGGA ATCCCTTGCG TCTCATTGTG 
GCCTTGTCCT CACATGCCAC TGCCTGGGGT GACCTTTTCT GGGACGATGG CGAGAGCCTG 
GACACCTTCG AGAAGGGCAA CTACTCCTAC GTGGTGTTCA ATGTCACAGA GAACATCTTC 
ACCTCCACCG TCCTCCATGC CAGCACCGAG GCCACCAAGG TCACCGTTGG CACACTGAGC 
ATCTTTGGGG TGCAGAAACC GCCCAGCAAG GTCCTCCTGA ATGGCCGGGA GAAGCCCTTT 
TCCTATCTGG ACAACCAGGT TCTCACCGTG AGTGACCTTG GCATGAGCCT CAGCCAGGGC 
TTCTCCCTGC AGTGGCTGTG A

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

PubMed