AGA1 cDNA ORF clone, Cucumis sativus(cucumber)

Gene
Clones
gRNAs

Summary

Gene Symbol	AGA1
Entrez Gene ID	101214893
Full Name	probable galactinol--sucrose galactosyltransferase 1
Gene Type	protein-coding
Organism	Cucumis sativus(cucumber)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011655764.1	XP_011654066.1	probable galactinol--sucrose galactosyltransferase 1
XM_031884280.1	XP_031740140.1	probable galactinol--sucrose galactosyltransferase 1

Pathways from BioSystems
Gene Ontology

The following AGA1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AGA1 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
OCu148629	XM_031884280.1 Latest version!	Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (AGA1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OCu64924	XM_011655764.1 Latest version!	Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (LOC101214893), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00

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)

AGA1 ( XM_031884280.1 ) cDNA ORF clone, Cucumis sativus(cucumber) -> XP_031740140.1 Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (AGA1), mRNA.

Price & Availability↑

CloneID	OCu148629
Clone ID Related Accession (Same CDS sequence)	XM_031884280.1
Accession Version	XM_031884280.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2496bp) 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	2019-12-16
Organism	Cucumis sativus(cucumber)
Product	probable galactinol--sucrose galactosyltransferase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_026658.2) 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 :: Cucumis sativus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGTCTT TACTTCACCA CCTCCGTTTT TCATCACCCC TTTTCCCTTT TTTCCATTCC 
TCTCTCTTAC TCCGTTCCTC TTTTTTTTCC CCTCTTCGTG CTTCTTCTTC TTCTTCTTCT 
TCTTCTTCTT CGTTTTCCTC TTCTTGTTCT TCAACTGCTG ATTTCTCGAG GGAGTTGCTT 
CCAGTTGCGT CGCCGGTGCT TAGGAAGAGA TTACAAGACA ACAACAACAA CAACATGACG 
GTTGGTGCTG GAATTACTAT ATCCGACGCC AATTTGACGG TGTTGGGAAA TCGTGTTTTA 
TCTGATGTTC ATAATAACAT TACTCTCACG GCAGCGCCGG GAGGTGGTGT GATGAACGGC 
GCCTTCATAG GAGTTCAATC TGATCAGATC GGTAGTCGCC GAGTTTTTCC TATTGGGAAA 
TTGATAGGGT TGAGGTTCTT ATGTGCTTTT CGATTCAAAT TATGGTGGAT GACTCAAAGA 
ATGGGGTGTT CTGGTCAAGA AATTCCATTC GAGACACAAT TTCTTGTGGT GGAAACACGT 
GATGGTTCTA ACATTGCCGG AAATGGAGAG GAAGGCGATG CCGTTTATAC TGTTTTTCTT 
CCTATTCTTG AAGGCGATTT CAGAGCTGTT CTTCAAGGGA ATGATAACAA TGAACTTGAA 
ATCTGTTTAG AAAGCGGAGA TCCAAGTGTA GATGGGTTTG AGGGTAGCCA TTTGGTGTTT 
GTGGGTGCTG GATCAGATCC TTTTGAAACC ATTACTTATG CAGTCAAGTC CGTTGAGAAG 
CATTTGCAAA CTTTTGCTCA TCGTGAAAGA AAAAAGATGC CTGATATTTT GAACTGGTTC 
GGCTGGTGCA CCTGGGATGC TTTCTACACT GATGTCACTT CAGATGGCGT CAAGAAGGGT 
CTTGAAAGCT TTGAGAATGG AGGAATTCCT CCCAAGTTTG TCATTATCGA TGATGGATGG 
CAATCAGTTG CTAAGGATGC TGCTAGTACT GATTGCAAAG CTGATAACAC AGCAAACTTT 
GCAAACAGGT TAACACACAT AAAAGAGAAT TACAAATTTC AAAAAGATGG CAAAGAGGGT 
GAAAGAATTG AGAACCCTGC ACTTGGTCTT CAACACATTG TGTCCTACAT GAAAGAGAAG 
CATGCGACGA AGTATGTTTA TGTTTGGCAT GCCATAACAG GCTACTGGGG TGGTGTGAGT 
TCTGGAGTTA AAGAGATGGA ACAATATGAG TCCAAGATTG CGTACCCGGT TGCATCTCCT 
GGGGTCGAAT CAAACGAGCC ATGTGATGCT TTGAATAGCA TCAGCAAAAC TGGACTTGGC 
CTAGTGAACC CTGAAAAAGT TTTCAACTTT TACAATGAAC AACACTCGTA TCTTGCATCT 
GCTGGTGTCG ATGGAGTTAA AGTTGATGTT CAAAACATTC TTGAGACGCT TGGAGCAGGT 
CATGGTGGAA GAGTTAAACT TGCTAGAAAA TACCATCAGG CTCTTGAGGC ATCAATTTCT 
CGAAATTTTC AAGATAACGG AATCATTTCG TGTATGAGTC ATAATACCGA CGGTTTATAC 
AGTTCAAAGA GGAATGCTGT TATTCGAGCT TCCGACGATT TTTGGCCTAG AGATCCAGCA 
TCTCACACGA TTCATATAGC ATCAGTTGCT TACAACTCCT TATTTCTTGG GGAGTTTATG 
CAGCCAGATT GGGATATGTT TCATAGTCTT CATCCTATGG CCGAATATCA TGGAGCAGCT 
CGTGCCGTGG GAGGATGTGC TATATATGTC AGTGACAAGC CTGGTCAACA TGACTTCAAT 
CTTTTGAAGA AGCTTGTGCT CCATGATGGT TCTATTCTGA GAGCTAAGCT CCCCGGACGA 
CCGACAAAGG ACTGCCTATT TGCGGATCCT GCTAGAGATG GAAAAAGTCT ATTGAAGATT 
TGGAATATGA ATGATCTTTC TGGAGTTGTT GGGGTCTTTA ACTGCCAAGG AGCAGGATGG 
TGTAAGGTTG GAAAGAAAAA CCTCATTCAT GACGAGAATC CCGACACAAT CACAGGGGTT 
ATTCGAGCTA AGGATGTTAG TTATCTATGG AAGATTGCAG GCGAGTCCTG GACAGGGGAT 
GCAGTGATAT TCTCCCATCT TGCTGGAGAA GTTGTTTACC TACCACAAGA TGCATCGATG 
CCAATAACCT TGAAATCTCG AGAGTTCGAT GTCTTCACAG TTGTTCCTGT CAAGGAACTA 
GCTAATGACA TCAAATTTGC TCCTATAGGT TTGATGAAGA TGTTCAACTC TGGAGGAGCT 
GTGAAAGAAA TGAACCATCA ACCTGGAAGT TCAAACGTGT CACTGAAAGT TCGGGGTTCC 
GGGCCATTCG GGGCATATTC CTCGAGCAAA CCGAAGCGTG TAGCAGTGGA CTCGGAGGAG 
GTAGAGTTCA TATATGATGA GGGTGGTTTA ATCACCATTG ACTTGAAGGT ACCAGAGAAA 
GAGTTGTATC TTTGGGACAT AAGAATTGAA CTATGA

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

RefSeq	XP_031740140.1
CDS	46..2541
Translation	MSSLLHHLRFSSPLFPFFHSSLLLRSSFFSPLRASSSSSSSSSSFSSSCSSTADFSRELLPVASPVLRKRLQDNNNNNMTVGAGITISDANLTVLGNRVLSDVHNNITLTAAPGGGVMNGAFIGVQSDQIGSRRVFPIGKLIGLRFLCAFRFKLWWMTQRMGCSGQEIPFETQFLVVETRDGSNIAGNGEEGDAVYTVFLPILEGDFRAVLQGNDNNELEICLESGDPSVDGFEGSHLVFVGAGSDPFETITYAVKSVEKHLQTFAHRERKKMPDILNWFGWCTWDAFYTDVTSDGVKKGLESFENGGIPPKFVIIDDGWQSVAKDAASTDCKADNTANFANRLTHIKENYKFQKDGKEGERIENPALGLQHIVSYMKEKHATKYVYVWHAITGYWGGVSSGVKEMEQYESKIAYPVASPGVESNEPCDALNSISKTGLGLVNPEKVFNFYNEQHSYLASAGVDGVKVDVQNILETLGAGHGGRVKLARKYHQALEASISRNFQDNGIISCMSHNTDGLYSSKRNAVIRASDDFWPRDPASHTIHIASVAYNSLFLGEFMQPDWDMFHSLHPMAEYHGAARAVGGCAIYVSDKPGQHDFNLLKKLVLHDGSILRAKLPGRPTKDCLFADPARDGKSLLKIWNMNDLSGVVGVFNCQGAGWCKVGKKNLIHDENPDTITGVIRAKDVSYLWKIAGESWTGDAVIFSHLAGEVVYLPQDASMPITLKSREFDVFTVVPVKELANDIKFAPIGLMKMFNSGGAVKEMNHQPGSSNVSLKVRGSGPFGAYSSSKPKRVAVDSEEVEFIYDEGGLITIDLKVPEKELYLWDIRIEL

Target ORF information:

RefSeq Version	XM_031884280.1
Organism	Cucumis sativus(cucumber)
Definition	Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (AGA1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_031884280.1

ORF Insert Sequence:

ATGTCGTCTT TACTTCACCA CCTCCGTTTT TCATCACCCC TTTTCCCTTT TTTCCATTCC 
TCTCTCTTAC TCCGTTCCTC TTTTTTTTCC CCTCTTCGTG CTTCTTCTTC TTCTTCTTCT 
TCTTCTTCTT CGTTTTCCTC TTCTTGTTCT TCAACTGCTG ATTTCTCGAG GGAGTTGCTT 
CCAGTTGCGT CGCCGGTGCT TAGGAAGAGA TTACAAGACA ACAACAACAA CAACATGACG 
GTTGGTGCTG GAATTACTAT ATCCGACGCC AATTTGACGG TGTTGGGAAA TCGTGTTTTA 
TCTGATGTTC ATAATAACAT TACTCTCACG GCAGCGCCGG GAGGTGGTGT GATGAACGGC 
GCCTTCATAG GAGTTCAATC TGATCAGATC GGTAGTCGCC GAGTTTTTCC TATTGGGAAA 
TTGATAGGGT TGAGGTTCTT ATGTGCTTTT CGATTCAAAT TATGGTGGAT GACTCAAAGA 
ATGGGGTGTT CTGGTCAAGA AATTCCATTC GAGACACAAT TTCTTGTGGT GGAAACACGT 
GATGGTTCTA ACATTGCCGG AAATGGAGAG GAAGGCGATG CCGTTTATAC TGTTTTTCTT 
CCTATTCTTG AAGGCGATTT CAGAGCTGTT CTTCAAGGGA ATGATAACAA TGAACTTGAA 
ATCTGTTTAG AAAGCGGAGA TCCAAGTGTA GATGGGTTTG AGGGTAGCCA TTTGGTGTTT 
GTGGGTGCTG GATCAGATCC TTTTGAAACC ATTACTTATG CAGTCAAGTC CGTTGAGAAG 
CATTTGCAAA CTTTTGCTCA TCGTGAAAGA AAAAAGATGC CTGATATTTT GAACTGGTTC 
GGCTGGTGCA CCTGGGATGC TTTCTACACT GATGTCACTT CAGATGGCGT CAAGAAGGGT 
CTTGAAAGCT TTGAGAATGG AGGAATTCCT CCCAAGTTTG TCATTATCGA TGATGGATGG 
CAATCAGTTG CTAAGGATGC TGCTAGTACT GATTGCAAAG CTGATAACAC AGCAAACTTT 
GCAAACAGGT TAACACACAT AAAAGAGAAT TACAAATTTC AAAAAGATGG CAAAGAGGGT 
GAAAGAATTG AGAACCCTGC ACTTGGTCTT CAACACATTG TGTCCTACAT GAAAGAGAAG 
CATGCGACGA AGTATGTTTA TGTTTGGCAT GCCATAACAG GCTACTGGGG TGGTGTGAGT 
TCTGGAGTTA AAGAGATGGA ACAATATGAG TCCAAGATTG CGTACCCGGT TGCATCTCCT 
GGGGTCGAAT CAAACGAGCC ATGTGATGCT TTGAATAGCA TCAGCAAAAC TGGACTTGGC 
CTAGTGAACC CTGAAAAAGT TTTCAACTTT TACAATGAAC AACACTCGTA TCTTGCATCT 
GCTGGTGTCG ATGGAGTTAA AGTTGATGTT CAAAACATTC TTGAGACGCT TGGAGCAGGT 
CATGGTGGAA GAGTTAAACT TGCTAGAAAA TACCATCAGG CTCTTGAGGC ATCAATTTCT 
CGAAATTTTC AAGATAACGG AATCATTTCG TGTATGAGTC ATAATACCGA CGGTTTATAC 
AGTTCAAAGA GGAATGCTGT TATTCGAGCT TCCGACGATT TTTGGCCTAG AGATCCAGCA 
TCTCACACGA TTCATATAGC ATCAGTTGCT TACAACTCCT TATTTCTTGG GGAGTTTATG 
CAGCCAGATT GGGATATGTT TCATAGTCTT CATCCTATGG CCGAATATCA TGGAGCAGCT 
CGTGCCGTGG GAGGATGTGC TATATATGTC AGTGACAAGC CTGGTCAACA TGACTTCAAT 
CTTTTGAAGA AGCTTGTGCT CCATGATGGT TCTATTCTGA GAGCTAAGCT CCCCGGACGA 
CCGACAAAGG ACTGCCTATT TGCGGATCCT GCTAGAGATG GAAAAAGTCT ATTGAAGATT 
TGGAATATGA ATGATCTTTC TGGAGTTGTT GGGGTCTTTA ACTGCCAAGG AGCAGGATGG 
TGTAAGGTTG GAAAGAAAAA CCTCATTCAT GACGAGAATC CCGACACAAT CACAGGGGTT 
ATTCGAGCTA AGGATGTTAG TTATCTATGG AAGATTGCAG GCGAGTCCTG GACAGGGGAT 
GCAGTGATAT TCTCCCATCT TGCTGGAGAA GTTGTTTACC TACCACAAGA TGCATCGATG 
CCAATAACCT TGAAATCTCG AGAGTTCGAT GTCTTCACAG TTGTTCCTGT CAAGGAACTA 
GCTAATGACA TCAAATTTGC TCCTATAGGT TTGATGAAGA TGTTCAACTC TGGAGGAGCT 
GTGAAAGAAA TGAACCATCA ACCTGGAAGT TCAAACGTGT CACTGAAAGT TCGGGGTTCC 
GGGCCATTCG GGGCATATTC CTCGAGCAAA CCGAAGCGTG TAGCAGTGGA CTCGGAGGAG 
GTAGAGTTCA TATATGATGA GGGTGGTTTA ATCACCATTG ACTTGAAGGT ACCAGAGAAA 
GAGTTGTATC TTTGGGACAT AAGAATTGAA CTATGA

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

AGA1 ( XM_011655764.1 ) cDNA ORF clone, Cucumis sativus(cucumber) -> XP_011654066.1 Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (LOC101214893), mRNA.

Price & Availability↑

CloneID	OCu64924
Clone ID Related Accession (Same CDS sequence)	XM_011655764.1
Accession Version	XM_011655764.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2487bp) 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	2015-03-22
Organism	Cucumis sativus(cucumber)
Product	probable galactinol--sucrose galactosyltransferase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011953806.1) 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 Version :: Cucumis sativus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGTCTT TACTTCACCA CCTCCGTTTT TCATCACCCC TTTTCCCTTT TTTCCATTCC 
TCTCTCTTAC TCCGTTCCTC TTTTTTTTCC CCTCTTCCTT CTTCTTCTTC TTCTTCTTCT 
TCGTTTTCCT CTTCTTGTTC TTCAACTGCT GATTTCTCGA GGGAGTTGCT TCCAGTTGCG 
TCGCCGGTGC TTAGGAAGAG ATTACAAGAC AACAACAACA ACAACATGAC GGTTGGTGCT 
GGAATTACTA TATCCGACGC CAATTTGACG GTGTTGGGAA ATCGTGTTTT ATCTGATGTT 
CATAATAACA TTACTCTCAC GGCAGCGCCG GGAGGTGGTG TGATGAACGG CGCCTTCATA 
GGAGTTCAAT CTGATCAGAT CGGTAGTCGC CGAGTTTTTC CTATTGGGAA ATTGATAGGG 
TTGAGGTTCT TATGTGCTTT TCGATTCAAA TTATGGTGGA TGACTCAAAG AATGGGGTGT 
TCTGGTCAAG AAATTCCATT CGAGACACAA TTTCTTGTGG TGGAAACACG TGATGGTTCT 
AACATTGCCG GAAATGGAGA GGAAGGCGAT GCCGTTTATA CTGTTTTTCT TCCTATTCTT 
GAAGGCGATT TCAGAGCTGT TCTTCAAGGG AATGATAACA ATGAACTTGA AATCTGTTTA 
GAAAGCGGAG ATCCAAGTGT AGATGGGTTT GAGGGTAGCC ATTTGGTGTT TGTGGGTGCT 
GGATCAGATC CTTTTGAAAC CATTACTTAT GCAGTCAAGT CCGTTGAGAA GCATTTGCAA 
ACTTTTGCTC ATCGTGAAAG AAAAAAGATG CCTGATATTT TGAACTGGTT CGGCTGGTGC 
ACCTGGGATG CTTTCTACAC TGATGTCACT TCAGATGGCG TCAAGAAGGG TCTTGAAAGC 
TTTGAGAATG GAGGAATTCC TCCCAAGTTT GTCATTATCG ATGATGGATG GCAATCAGTT 
GCTAAGGATG CTGCTAGTAC TGATTGCAAA GCTGATAACA CAGCAAACTT TGCAAACAGG 
TTAACACACA TAAAAGAGAA TTACAAATTT CAAAAAGATG GCAAAGAGGG TGAAAGAATT 
GAGAACCCTG CACTTGGTCT TCAACACATT GTGTCCTACA TGAAAGAGAA GCATGCGACG 
AAGTATGTTT ATGTTTGGCA TGCCATAACA GGCTACTGGG GTGGTGTGAG TTCTGGAGTT 
AAAGAGATGG AACAATATGA GTCCAAGATT GCGTACCCGG TTGCATCTCC TGGGGTCGAA 
TCAAACGAGC CATGTGATGC TTTGAATAGC ATCAGCAAAA CTGGACTTGG CCTAGTGAAC 
CCTGAAAAAG TTTTCAACTT TTACAATGAA CAACACTCGT ATCTTGCATC TGCTGGTGTC 
GATGGAGTTA AAGTTGATGT TCAAAACATT CTTGAGACGC TTGGAGCAGG TCATGGTGGA 
AGAGTTAAAC TTGCTAGAAA ATACCATCAG GCTCTTGAGG CATCAATTTC TCGAAATTTT 
CAAGATAACG GAATCATTTC GTGTATGAGT CATAATACCG ACGGTTTATA CAGTTCAAAG 
AGGAATGCTG TTATTCGAGC TTCCGACGAT TTTTGGCCTA GAGATCCAGC ATCTCACACG 
ATTCATATAG CATCAGTTGC TTACAACTCC TTATTTCTTG GGGAGTTTAT GCAGCCAGAT 
TGGGATATGT TTCATAGTCT TCATCCTATG GCCGAATATC ATGGAGCAGC TCGTGCCGTG 
GGAGGATGTG CTATATATGT CAGTGACAAG CCTGGTCAAC ATGACTTCAA TCTTTTGAAG 
AAGCTTGTGC TCCATGATGG TTCTATTCTG AGAGCTAAGC TCCCCGGACG ACCGACAAAG 
GACTGCCTAT TTGCGGATCC TGCTAGAGAT GGAAAAAGTC TATTGAAGAT TTGGAATATG 
AATGATCTTT CTGGAGTTGT TGGGGTCTTT AACTGCCAAG GAGCAGGATG GTGTAAGGTT 
GGAAAGAAAA ACCTCATTCA TGACGAGAAT CCCGACACGA TCACGGGGGT TATTCGAGCT 
AAGGATGTTA GTTATCTATG GAAGATTGCA GGCGAGTCCT GGACAGGGGA TGCAGTGATA 
TTCTCCCATC TTGCTGGAGA AGTTGTTTAC CTACCACAAG ATGCATCGAT GCCAATAACC 
TTGAAATCTC GAGAGTTCGA TGTCTTCACA GTTGTTCCTG TCAAGGAACT AGCTAATGAC 
ATCAAATTTG CTCCTATAGG TTTGATGAAG ATGTTCAACT CTGGAGGAGC TGTGAAAGAA 
ATGAACCATC AACCTGGAAG TTCAAACGTG TCACTGAAAG TTCGGGGTTC CGGGCCATTC 
GGGGCATATT CCTCGAGCAA ACCGAAGCGT GTAGCAGTGG ACTCGGAGGA GGTAGAGTTC 
ATATATGATG AGGGTGGTTT AATCACCATT GACTTGAAGG TACCAGAGAA AGAGTTGTAT 
CTTTGGGACA TAAGAATTGA ACTATGA

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

RefSeq	XP_011654066.1
CDS	72..2558
Translation	MSSLLHHLRFSSPLFPFFHSSLLLRSSFFSPLPSSSSSSSSFSSSCSSTADFSRELLPVASPVLRKRLQDNNNNNMTVGAGITISDANLTVLGNRVLSDVHNNITLTAAPGGGVMNGAFIGVQSDQIGSRRVFPIGKLIGLRFLCAFRFKLWWMTQRMGCSGQEIPFETQFLVVETRDGSNIAGNGEEGDAVYTVFLPILEGDFRAVLQGNDNNELEICLESGDPSVDGFEGSHLVFVGAGSDPFETITYAVKSVEKHLQTFAHRERKKMPDILNWFGWCTWDAFYTDVTSDGVKKGLESFENGGIPPKFVIIDDGWQSVAKDAASTDCKADNTANFANRLTHIKENYKFQKDGKEGERIENPALGLQHIVSYMKEKHATKYVYVWHAITGYWGGVSSGVKEMEQYESKIAYPVASPGVESNEPCDALNSISKTGLGLVNPEKVFNFYNEQHSYLASAGVDGVKVDVQNILETLGAGHGGRVKLARKYHQALEASISRNFQDNGIISCMSHNTDGLYSSKRNAVIRASDDFWPRDPASHTIHIASVAYNSLFLGEFMQPDWDMFHSLHPMAEYHGAARAVGGCAIYVSDKPGQHDFNLLKKLVLHDGSILRAKLPGRPTKDCLFADPARDGKSLLKIWNMNDLSGVVGVFNCQGAGWCKVGKKNLIHDENPDTITGVIRAKDVSYLWKIAGESWTGDAVIFSHLAGEVVYLPQDASMPITLKSREFDVFTVVPVKELANDIKFAPIGLMKMFNSGGAVKEMNHQPGSSNVSLKVRGSGPFGAYSSSKPKRVAVDSEEVEFIYDEGGLITIDLKVPEKELYLWDIRIEL

Target ORF information:

RefSeq Version	XM_011655764.1
Organism	Cucumis sativus(cucumber)
Definition	Cucumis sativus probable galactinol--sucrose galactosyltransferase 1 (LOC101214893), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011655764.1

ORF Insert Sequence:

ATGTCGTCTT TACTTCACCA CCTCCGTTTT TCATCACCCC TTTTCCCTTT TTTCCATTCC 
TCTCTCTTAC TCCGTTCCTC TTTTTTTTCC CCTCTTCCTT CTTCTTCTTC TTCTTCTTCT 
TCGTTTTCCT CTTCTTGTTC TTCAACTGCT GATTTCTCGA GGGAGTTGCT TCCAGTTGCG 
TCGCCGGTGC TTAGGAAGAG ATTACAAGAC AACAACAACA ACAACATGAC GGTTGGTGCT 
GGAATTACTA TATCCGACGC CAATTTGACG GTGTTGGGAA ATCGTGTTTT ATCTGATGTT 
CATAATAACA TTACTCTCAC GGCAGCGCCG GGAGGTGGTG TGATGAACGG CGCCTTCATA 
GGAGTTCAAT CTGATCAGAT CGGTAGTCGC CGAGTTTTTC CTATTGGGAA ATTGATAGGG 
TTGAGGTTCT TATGTGCTTT TCGATTCAAA TTATGGTGGA TGACTCAAAG AATGGGGTGT 
TCTGGTCAAG AAATTCCATT CGAGACACAA TTTCTTGTGG TGGAAACACG TGATGGTTCT 
AACATTGCCG GAAATGGAGA GGAAGGCGAT GCCGTTTATA CTGTTTTTCT TCCTATTCTT 
GAAGGCGATT TCAGAGCTGT TCTTCAAGGG AATGATAACA ATGAACTTGA AATCTGTTTA 
GAAAGCGGAG ATCCAAGTGT AGATGGGTTT GAGGGTAGCC ATTTGGTGTT TGTGGGTGCT 
GGATCAGATC CTTTTGAAAC CATTACTTAT GCAGTCAAGT CCGTTGAGAA GCATTTGCAA 
ACTTTTGCTC ATCGTGAAAG AAAAAAGATG CCTGATATTT TGAACTGGTT CGGCTGGTGC 
ACCTGGGATG CTTTCTACAC TGATGTCACT TCAGATGGCG TCAAGAAGGG TCTTGAAAGC 
TTTGAGAATG GAGGAATTCC TCCCAAGTTT GTCATTATCG ATGATGGATG GCAATCAGTT 
GCTAAGGATG CTGCTAGTAC TGATTGCAAA GCTGATAACA CAGCAAACTT TGCAAACAGG 
TTAACACACA TAAAAGAGAA TTACAAATTT CAAAAAGATG GCAAAGAGGG TGAAAGAATT 
GAGAACCCTG CACTTGGTCT TCAACACATT GTGTCCTACA TGAAAGAGAA GCATGCGACG 
AAGTATGTTT ATGTTTGGCA TGCCATAACA GGCTACTGGG GTGGTGTGAG TTCTGGAGTT 
AAAGAGATGG AACAATATGA GTCCAAGATT GCGTACCCGG TTGCATCTCC TGGGGTCGAA 
TCAAACGAGC CATGTGATGC TTTGAATAGC ATCAGCAAAA CTGGACTTGG CCTAGTGAAC 
CCTGAAAAAG TTTTCAACTT TTACAATGAA CAACACTCGT ATCTTGCATC TGCTGGTGTC 
GATGGAGTTA AAGTTGATGT TCAAAACATT CTTGAGACGC TTGGAGCAGG TCATGGTGGA 
AGAGTTAAAC TTGCTAGAAA ATACCATCAG GCTCTTGAGG CATCAATTTC TCGAAATTTT 
CAAGATAACG GAATCATTTC GTGTATGAGT CATAATACCG ACGGTTTATA CAGTTCAAAG 
AGGAATGCTG TTATTCGAGC TTCCGACGAT TTTTGGCCTA GAGATCCAGC ATCTCACACG 
ATTCATATAG CATCAGTTGC TTACAACTCC TTATTTCTTG GGGAGTTTAT GCAGCCAGAT 
TGGGATATGT TTCATAGTCT TCATCCTATG GCCGAATATC ATGGAGCAGC TCGTGCCGTG 
GGAGGATGTG CTATATATGT CAGTGACAAG CCTGGTCAAC ATGACTTCAA TCTTTTGAAG 
AAGCTTGTGC TCCATGATGG TTCTATTCTG AGAGCTAAGC TCCCCGGACG ACCGACAAAG 
GACTGCCTAT TTGCGGATCC TGCTAGAGAT GGAAAAAGTC TATTGAAGAT TTGGAATATG 
AATGATCTTT CTGGAGTTGT TGGGGTCTTT AACTGCCAAG GAGCAGGATG GTGTAAGGTT 
GGAAAGAAAA ACCTCATTCA TGACGAGAAT CCCGACACGA TCACGGGGGT TATTCGAGCT 
AAGGATGTTA GTTATCTATG GAAGATTGCA GGCGAGTCCT GGACAGGGGA TGCAGTGATA 
TTCTCCCATC TTGCTGGAGA AGTTGTTTAC CTACCACAAG ATGCATCGAT GCCAATAACC 
TTGAAATCTC GAGAGTTCGA TGTCTTCACA GTTGTTCCTG TCAAGGAACT AGCTAATGAC 
ATCAAATTTG CTCCTATAGG TTTGATGAAG ATGTTCAACT CTGGAGGAGC TGTGAAAGAA 
ATGAACCATC AACCTGGAAG TTCAAACGTG TCACTGAAAG TTCGGGGTTC CGGGCCATTC 
GGGGCATATT CCTCGAGCAA ACCGAAGCGT GTAGCAGTGG ACTCGGAGGA GGTAGAGTTC 
ATATATGATG AGGGTGGTTT AATCACCATT GACTTGAAGG TACCAGAGAA AGAGTTGTAT 
CTTTGGGACA TAAGAATTGA ACTATGA