LOC18430264 cDNA ORF clone, Amborella trichopoda

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC18430264
Entrez Gene ID	18430264
Full Name	Fanconi anemia group I protein
Gene Type	protein-coding
Organism	Amborella trichopoda

mRNA and Protein(s)

mRNA	Protein	Name
XM_020664845.1	XP_020520504.1	Fanconi anemia group I protein isoform X1
XM_020664846.1	XP_020520505.1	Fanconi anemia group I protein isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC18430264 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC18430264 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
OAm47730	XM_020664845.1 Latest version!	Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OAm47731	XM_020664846.1 Latest version!	Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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)

LOC18430264 ( XM_020664845.1 ) cDNA ORF clone, Amborella trichopoda -> XP_020520504.1 Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAm47730
Clone ID Related Accession (Same CDS sequence)	XM_020664845.1
Accession Version	XM_020664845.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4182bp) 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	2017-04-03
Organism	Amborella trichopoda
Product	Fanconi anemia group I protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006497754.1) 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 :: Amborella trichopoda Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTCCC AGCGCTCTGA AACCCCAACC CTAACTGAAG AGGAAATCAT CCAGTTAGCA 
GAGTCATCTG CCTTCTCTCT CACCCCCTCT GATCCTCTTC TCAATCACCT CCTCTCAGCT 
CCGGAGTGCC TCATTCTTTC TCTTCTATCA AAATCAGAGT CCCCTTCTCT CTTCACCAAA 
TCCATTTTCT CCCTCCTCTC CCCAGTTGCC CGCTCTTCCC CCGAGTCTTC CTCTTCCCGT 
ATCCTTCTCT GTGTCCTCCT CGAATTCATT TCACTCACAC ACCATGAACG CACTTCCCTG 
GACACTTTCT CTCTCATTGC GGAATCCCTT GATGCCCTCC CCGTTGTTTC TTTCTCCAAG 
ATCTCAGAAT CCCTTCTCTC TCTTCTTGAC TTGATTAGCG AACCTGATGA TGCCCTCCCT 
CTAGAGCTAT TGCCCAGTCT TCTCTCTGTT ATCAAGTCCT CCGGAAGCAA TGGCCCCGAT 
TGTGCTGATA CTTTCCTAAG GTCAATCCTT GATCGTAAAT GGCCTCGGGT GCTTCTGATA 
AAAATGGTTC TCTTATTAAG AGACCTACCT CTGAATCAAG CACAAGCTGA AGATTATTTA 
AAGAAGGTTT TTGTTGAAAT GGAGGAGGTG GATTTGCAGG ACCTTCCATC CATTGTTTAC 
CACCTTTTGA TCATGGCTTC GAAGGGGTTA AAGAAGCCTG TGGTTTTGGG GATTATTGGG 
TTTTTTGGGA AGATAGAGAG AGGGCCTGGT ATAATTTATC GACAGGTTCA GGGAACTGTT 
CTGCTTCATG TGAATTTTTC GGTTAAGCAA GACCCGTCTA TTGGGCACGA GTTGCTTGGT 
CTCGTTAAAT CTGATATTGA ATTGGTAACT CATTTCAGTG TTGCAATGTT GCTTTCGGTT 
GCGAGGATTA GAAGGTTCAC TGAGACTGCG ATTTCTCTCT TGAAATCAGT GGTTACGCGA 
TCTCATCGAG AACATAGGCT CGCGAGAGAT TGTAAGTGGG TCCCTGATCT ACTCAAAGAT 
CATTGTTTAC TAACAGTCAG AAGGATTGAG CAGGCTGTTT TGAGAACTGT TCAAGAGAGC 
AACAATGGCA GGGAGCATAT CCTCCCCAGC ATTGTTCAAC TTGGCTTTTG CTTGCTTGAA 
TCCTTAGAAG ATGGAAATGG TAAAGGAGAT AGTGCCTGTG ATCCTAATGC TTTGATGGGC 
ATCGAGGAGC TAGGCATGCA AACAATCAAG ACCCTGTTTG AAGTCCACGA CATGGCAAGA 
AATGAGATCA TTGAGCAATG CAAGTTCCGT ATACTCTCTC TCAAACCTCA ACAAAGTGTA 
TCAATCATCA AACTACTTGG GCGACTGGTT CAGAGTAACC CTTACCCCAT GCTCGAGCAT 
GTTTCCCGCT TGAAGGAGTT GTTGGACTAT TTCTCTTTCA TGCATTTGAA AACTTCTACT 
TCTCTCATTG CTGCTCTATT GCCCCTTGCG AAATACAGTC ATGATCTCCA GAGATATATT 
GTTCTGGTTG TGAGGAAAGC TGTGTTCAAG AGAGAGGATA CAGTTCGTAT TGCTTCGATT 
GATGCTATCA TTAAATTGAT GTTGGAAAGT TCCTCGAAAA ATGAACCCGA TTCTCTTCAG 
CAGTTTTCCA GCCAAGCTAG TTGCAGTCAG CAAGCTGAGT TACCCAATGG CATTGGAGTG 
GGTCTCTTTC AAGAGATGCG AGGATTACTT CGAAGATGCC TGAGCCAACA AGCTACAGTT 
AAAGAGAGCA TGTACTGGGG CCTTGTGAAG CTTGTGTTGT CTGATACTTC TGTCGTAGGA 
CCTGTTTTTG AATTCCTTAG GCCCCACTTC CTTCAGTTCT TTGAATCCAA AACGAGTGAG 
GAGTTTAAGA TTAAGCTGCG AGATTGTGTC AAAGCTGAGA ATGGCATTCT TCAAATTGAA 
GAACCTTTAG ATTGCCTCGT ATCATGTGTC TCTTGGCTTC TTTTTCTTAA GCCACAAGAC 
AAAGCCTTTC AGCAACCATG GTCATGCTTT GGGTTTTCCC TCTCACAGGA CAACGAGGCT 
GCAAGAATTT CCTCCAGTGA GTCCTTTGCA GATACTTTGA TGAAGATGAG GAAGTTTTTG 
AGGAATAAAA GTTTGGAAGA TATACTTGGT ACAAACCAGG ATTTGGGTTC TCAAACTTTG 
GACGGTGAAA AGACCAGTTT TTATGCTTGG ATTTTATCTG GCATAATTCA GGTGCTGGTT 
AATTTGTTAG CAAAGGAGAT CGGGAATGCA ACAGATGCCC AAAACATAGA TCTTGAGAAA 
GAAATTATTG ACTTTGTTGT GTTTTATGAT TCCTTGGAGA AAGTTGCCTG TAATAAACAA 
GGAAAGAGTC ATCGAAAAGG ACATCCAAAG GCTAATAATA CTCAAGATAT CCACGGTGAA 
ACTGAAACCA GAGAGGGGCA GAAAGCATAC CCTTCAAAGT TTTCTCTAGT GAGAAGTCCT 
TTCTTATCTA CTTCAAGTAT CTCTTGTCTA CTGGAGCTTG TAGTGAAAAT TTCTAGATGT 
ACAGATTCTG AAAATCATAA CAATCAGTAT GTACATCTAA TGTCCTTTAC CTTGAAAGCA 
TGCCTTTCTC ATCTTAAAGC CTTTCAATCC CTAGAAGCTG ATAGTCCATT AAAGGGCTTG 
ATTTATGGAG ACATCAAGGT CTTAGGGTCT CGGTTGTTGC ACCTGGTCTG GTTAATGAAG 
TCTTGCTCAA GCTTAGTGAA AGATCAAAGG AAAAAGGATA GCAGAGGAAG GCTTTGTGGT 
GATGATCAAG GGGAGGGTTT GGTCCACTTG GGCTTGTCTT GTTTAAAAGA ATTGTTCAAT 
TTAGTTGGAA CAAAGTTTAA GCTGATTGAA TTGATTGAGG AGATGAGCAA GAGTTGTTTA 
GAAATTGTTG AGGATGCTGG TGGAGGTGAA CTTTTTGGAC CTGATTTGGT TGGGGGAGAA 
AACGAAGGAC AAGCTATACA TCTTTTTCTA GTAAAGGTGT TAAGAAAGCT GTTCACGGAT 
CTCCTCATGC ATTCCCATTT TCAAGAACTT GAGGTTCTCT CAGATATAGC ATTGCTTCTG 
GCACACAAGT TGCCAAGTGA TGGAAGAAAT TCACATGGTG CCTGGGCTGA TTCCATCAGC 
AGAAATGCGA AAGTAGAGAA TGTAAAGGCT ACCCGAAGTT TGGTTTCTTT GGTTATTAGT 
TTGAGTGATT CACAAAATGA TTTGAAGTTG GCTCGAGGAA TGGCTTCCGA GCTCTTGAAA 
GTTATTGGTT CTGAGGAGAT GGATCCCTTG GAAAACTCTG AAACTTATCC CATTATAAAT 
CGTTCAACTG CTAATGCAAT AGCCACCCTG CTCTTAAATT TGATCGAATC AGTTATTATT 
GATTTTGAAT GGATGGTTCC AAAGCTTAAG GCGCTCTTCT CCATAAACCT TGAGGAAACA 
TTTCGTCACA AAAGCAGTGA GCAGTGTGGA GGGAAGACAC CAAAACTAAT GTTGGAAGAT 
GCTCTGTACT CCAGGGCAGA ATCACTCGTG CAGGTTTTGT CATGCTTTAC TGAGATGTCC 
CTTAAGGATC CTCAAGCAGA GTATTTGCTA AGATTGGCCG CAAAGTTTTA CAAGCATTTG 
GCCCGGATTA CAAAGCTTCG AATTGCTCCT AAAGGTTATA GACAGGCTTT GCCCGGCATT 
AAGTTTCAGA CTCTTGCAGA AGTGACCTGC AAGAAGCTCA CTGGACCTCT CTACAAGTTT 
GTGGCTGTGG TGCAAAGGGA GCAGCAAGAG AATATGCAGA ACAGGGGCAT GGCTAACAAA 
ATCAAGAGAG AGAACAAGTG CATCCCAAAC CTGATCTTTC AAATCGAAGA CTACGAGAAG 
TATTTAATCC AACTTAGCAA GCTCACCAAA GTGAACTTAT TGAGGCATGC TAAGCGTAGC 
ACGGCAAGGG ACTTCAAGAT TTTGGATACA AGAGATAAAG CTAATCAAGA AGAAAGGCCA 
ATGCATGCGT CCAGTCCTTC GACCCCTGAA GATTCAAGAG AGGAATCTGA AGAAGAGGAA 
AAAGAATGTG AAAGGCTCAG TTCTGATCCT GAGCCTGGTG CTGAAAATGG AGTGCTGGAC 
CCTGAGTCAG GGGCTGATGA TCAAGTGAGG ATGAGAGTGA AGAGCAAGGG GGTGAAAAGG 
AAGAAGGTTG TTCAAGACTC GGAAGAAGAG CACAGTGAGT AG

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

RefSeq	XP_020520504.1
CDS	828..5009
Translation	MNSQRSETPTLTEEEIIQLAESSAFSLTPSDPLLNHLLSAPECLILSLLSKSESPSLFTKSIFSLLSPVARSSPESSSSRILLCVLLEFISLTHHERTSLDTFSLIAESLDALPVVSFSKISESLLSLLDLISEPDDALPLELLPSLLSVIKSSGSNGPDCADTFLRSILDRKWPRVLLIKMVLLLRDLPLNQAQAEDYLKKVFVEMEEVDLQDLPSIVYHLLIMASKGLKKPVVLGIIGFFGKIERGPGIIYRQVQGTVLLHVNFSVKQDPSIGHELLGLVKSDIELVTHFSVAMLLSVARIRRFTETAISLLKSVVTRSHREHRLARDCKWVPDLLKDHCLLTVRRIEQAVLRTVQESNNGREHILPSIVQLGFCLLESLEDGNGKGDSACDPNALMGIEELGMQTIKTLFEVHDMARNEIIEQCKFRILSLKPQQSVSIIKLLGRLVQSNPYPMLEHVSRLKELLDYFSFMHLKTSTSLIAALLPLAKYSHDLQRYIVLVVRKAVFKREDTVRIASIDAIIKLMLESSSKNEPDSLQQFSSQASCSQQAELPNGIGVGLFQEMRGLLRRCLSQQATVKESMYWGLVKLVLSDTSVVGPVFEFLRPHFLQFFESKTSEEFKIKLRDCVKAENGILQIEEPLDCLVSCVSWLLFLKPQDKAFQQPWSCFGFSLSQDNEAARISSSESFADTLMKMRKFLRNKSLEDILGTNQDLGSQTLDGEKTSFYAWILSGIIQVLVNLLAKEIGNATDAQNIDLEKEIIDFVVFYDSLEKVACNKQGKSHRKGHPKANNTQDIHGETETREGQKAYPSKFSLVRSPFLSTSSISCLLELVVKISRCTDSENHNNQYVHLMSFTLKACLSHLKAFQSLEADSPLKGLIYGDIKVLGSRLLHLVWLMKSCSSLVKDQRKKDSRGRLCGDDQGEGLVHLGLSCLKELFNLVGTKFKLIELIEEMSKSCLEIVEDAGGGELFGPDLVGGENEGQAIHLFLVKVLRKLFTDLLMHSHFQELEVLSDIALLLAHKLPSDGRNSHGAWADSISRNAKVENVKATRSLVSLVISLSDSQNDLKLARGMASELLKVIGSEEMDPLENSETYPIINRSTANAIATLLLNLIESVIIDFEWMVPKLKALFSINLEETFRHKSSEQCGGKTPKLMLEDALYSRAESLVQVLSCFTEMSLKDPQAEYLLRLAAKFYKHLARITKLRIAPKGYRQALPGIKFQTLAEVTCKKLTGPLYKFVAVVQREQQENMQNRGMANKIKRENKCIPNLIFQIEDYEKYLIQLSKLTKVNLLRHAKRSTARDFKILDTRDKANQEERPMHASSPSTPEDSREESEEEEKECERLSSDPEPGAENGVLDPESGADDQVRMRVKSKGVKRKKVVQDSEEEHSE

Target ORF information:

RefSeq Version	XM_020664845.1
Organism	Amborella trichopoda
Definition	Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X1, mRNA.

Target ORF information:

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

XM_020664845.1

ORF Insert Sequence:

ATGAACTCCC AGCGCTCTGA AACCCCAACC CTAACTGAAG AGGAAATCAT CCAGTTAGCA 
GAGTCATCTG CCTTCTCTCT CACCCCCTCT GATCCTCTTC TCAATCACCT CCTCTCAGCT 
CCGGAGTGCC TCATTCTTTC TCTTCTATCA AAATCAGAGT CCCCTTCTCT CTTCACCAAA 
TCCATTTTCT CCCTCCTCTC CCCAGTTGCC CGCTCTTCCC CCGAGTCTTC CTCTTCCCGT 
ATCCTTCTCT GTGTCCTCCT CGAATTCATT TCACTCACAC ACCATGAACG CACTTCCCTG 
GACACTTTCT CTCTCATTGC GGAATCCCTT GATGCCCTCC CCGTTGTTTC TTTCTCCAAG 
ATCTCAGAAT CCCTTCTCTC TCTTCTTGAC TTGATTAGCG AACCTGATGA TGCCCTCCCT 
CTAGAGCTAT TGCCCAGTCT TCTCTCTGTT ATCAAGTCCT CCGGAAGCAA TGGCCCCGAT 
TGTGCTGATA CTTTCCTAAG GTCAATCCTT GATCGTAAAT GGCCTCGGGT GCTTCTGATA 
AAAATGGTTC TCTTATTAAG AGACCTACCT CTGAATCAAG CACAAGCTGA AGATTATTTA 
AAGAAGGTTT TTGTTGAAAT GGAGGAGGTG GATTTGCAGG ACCTTCCATC CATTGTTTAC 
CACCTTTTGA TCATGGCTTC GAAGGGGTTA AAGAAGCCTG TGGTTTTGGG GATTATTGGG 
TTTTTTGGGA AGATAGAGAG AGGGCCTGGT ATAATTTATC GACAGGTTCA GGGAACTGTT 
CTGCTTCATG TGAATTTTTC GGTTAAGCAA GACCCGTCTA TTGGGCACGA GTTGCTTGGT 
CTCGTTAAAT CTGATATTGA ATTGGTAACT CATTTCAGTG TTGCAATGTT GCTTTCGGTT 
GCGAGGATTA GAAGGTTCAC TGAGACTGCG ATTTCTCTCT TGAAATCAGT GGTTACGCGA 
TCTCATCGAG AACATAGGCT CGCGAGAGAT TGTAAGTGGG TCCCTGATCT ACTCAAAGAT 
CATTGTTTAC TAACAGTCAG AAGGATTGAG CAGGCTGTTT TGAGAACTGT TCAAGAGAGC 
AACAATGGCA GGGAGCATAT CCTCCCCAGC ATTGTTCAAC TTGGCTTTTG CTTGCTTGAA 
TCCTTAGAAG ATGGAAATGG TAAAGGAGAT AGTGCCTGTG ATCCTAATGC TTTGATGGGC 
ATCGAGGAGC TAGGCATGCA AACAATCAAG ACCCTGTTTG AAGTCCACGA CATGGCAAGA 
AATGAGATCA TTGAGCAATG CAAGTTCCGT ATACTCTCTC TCAAACCTCA ACAAAGTGTA 
TCAATCATCA AACTACTTGG GCGACTGGTT CAGAGTAACC CTTACCCCAT GCTCGAGCAT 
GTTTCCCGCT TGAAGGAGTT GTTGGACTAT TTCTCTTTCA TGCATTTGAA AACTTCTACT 
TCTCTCATTG CTGCTCTATT GCCCCTTGCG AAATACAGTC ATGATCTCCA GAGATATATT 
GTTCTGGTTG TGAGGAAAGC TGTGTTCAAG AGAGAGGATA CAGTTCGTAT TGCTTCGATT 
GATGCTATCA TTAAATTGAT GTTGGAAAGT TCCTCGAAAA ATGAACCCGA TTCTCTTCAG 
CAGTTTTCCA GCCAAGCTAG TTGCAGTCAG CAAGCTGAGT TACCCAATGG CATTGGAGTG 
GGTCTCTTTC AAGAGATGCG AGGATTACTT CGAAGATGCC TGAGCCAACA AGCTACAGTT 
AAAGAGAGCA TGTACTGGGG CCTTGTGAAG CTTGTGTTGT CTGATACTTC TGTCGTAGGA 
CCTGTTTTTG AATTCCTTAG GCCCCACTTC CTTCAGTTCT TTGAATCCAA AACGAGTGAG 
GAGTTTAAGA TTAAGCTGCG AGATTGTGTC AAAGCTGAGA ATGGCATTCT TCAAATTGAA 
GAACCTTTAG ATTGCCTCGT ATCATGTGTC TCTTGGCTTC TTTTTCTTAA GCCACAAGAC 
AAAGCCTTTC AGCAACCATG GTCATGCTTT GGGTTTTCCC TCTCACAGGA CAACGAGGCT 
GCAAGAATTT CCTCCAGTGA GTCCTTTGCA GATACTTTGA TGAAGATGAG GAAGTTTTTG 
AGGAATAAAA GTTTGGAAGA TATACTTGGT ACAAACCAGG ATTTGGGTTC TCAAACTTTG 
GACGGTGAAA AGACCAGTTT TTATGCTTGG ATTTTATCTG GCATAATTCA GGTGCTGGTT 
AATTTGTTAG CAAAGGAGAT CGGGAATGCA ACAGATGCCC AAAACATAGA TCTTGAGAAA 
GAAATTATTG ACTTTGTTGT GTTTTATGAT TCCTTGGAGA AAGTTGCCTG TAATAAACAA 
GGAAAGAGTC ATCGAAAAGG ACATCCAAAG GCTAATAATA CTCAAGATAT CCACGGTGAA 
ACTGAAACCA GAGAGGGGCA GAAAGCATAC CCTTCAAAGT TTTCTCTAGT GAGAAGTCCT 
TTCTTATCTA CTTCAAGTAT CTCTTGTCTA CTGGAGCTTG TAGTGAAAAT TTCTAGATGT 
ACAGATTCTG AAAATCATAA CAATCAGTAT GTACATCTAA TGTCCTTTAC CTTGAAAGCA 
TGCCTTTCTC ATCTTAAAGC CTTTCAATCC CTAGAAGCTG ATAGTCCATT AAAGGGCTTG 
ATTTATGGAG ACATCAAGGT CTTAGGGTCT CGGTTGTTGC ACCTGGTCTG GTTAATGAAG 
TCTTGCTCAA GCTTAGTGAA AGATCAAAGG AAAAAGGATA GCAGAGGAAG GCTTTGTGGT 
GATGATCAAG GGGAGGGTTT GGTCCACTTG GGCTTGTCTT GTTTAAAAGA ATTGTTCAAT 
TTAGTTGGAA CAAAGTTTAA GCTGATTGAA TTGATTGAGG AGATGAGCAA GAGTTGTTTA 
GAAATTGTTG AGGATGCTGG TGGAGGTGAA CTTTTTGGAC CTGATTTGGT TGGGGGAGAA 
AACGAAGGAC AAGCTATACA TCTTTTTCTA GTAAAGGTGT TAAGAAAGCT GTTCACGGAT 
CTCCTCATGC ATTCCCATTT TCAAGAACTT GAGGTTCTCT CAGATATAGC ATTGCTTCTG 
GCACACAAGT TGCCAAGTGA TGGAAGAAAT TCACATGGTG CCTGGGCTGA TTCCATCAGC 
AGAAATGCGA AAGTAGAGAA TGTAAAGGCT ACCCGAAGTT TGGTTTCTTT GGTTATTAGT 
TTGAGTGATT CACAAAATGA TTTGAAGTTG GCTCGAGGAA TGGCTTCCGA GCTCTTGAAA 
GTTATTGGTT CTGAGGAGAT GGATCCCTTG GAAAACTCTG AAACTTATCC CATTATAAAT 
CGTTCAACTG CTAATGCAAT AGCCACCCTG CTCTTAAATT TGATCGAATC AGTTATTATT 
GATTTTGAAT GGATGGTTCC AAAGCTTAAG GCGCTCTTCT CCATAAACCT TGAGGAAACA 
TTTCGTCACA AAAGCAGTGA GCAGTGTGGA GGGAAGACAC CAAAACTAAT GTTGGAAGAT 
GCTCTGTACT CCAGGGCAGA ATCACTCGTG CAGGTTTTGT CATGCTTTAC TGAGATGTCC 
CTTAAGGATC CTCAAGCAGA GTATTTGCTA AGATTGGCCG CAAAGTTTTA CAAGCATTTG 
GCCCGGATTA CAAAGCTTCG AATTGCTCCT AAAGGTTATA GACAGGCTTT GCCCGGCATT 
AAGTTTCAGA CTCTTGCAGA AGTGACCTGC AAGAAGCTCA CTGGACCTCT CTACAAGTTT 
GTGGCTGTGG TGCAAAGGGA GCAGCAAGAG AATATGCAGA ACAGGGGCAT GGCTAACAAA 
ATCAAGAGAG AGAACAAGTG CATCCCAAAC CTGATCTTTC AAATCGAAGA CTACGAGAAG 
TATTTAATCC AACTTAGCAA GCTCACCAAA GTGAACTTAT TGAGGCATGC TAAGCGTAGC 
ACGGCAAGGG ACTTCAAGAT TTTGGATACA AGAGATAAAG CTAATCAAGA AGAAAGGCCA 
ATGCATGCGT CCAGTCCTTC GACCCCTGAA GATTCAAGAG AGGAATCTGA AGAAGAGGAA 
AAAGAATGTG AAAGGCTCAG TTCTGATCCT GAGCCTGGTG CTGAAAATGG AGTGCTGGAC 
CCTGAGTCAG GGGCTGATGA TCAAGTGAGG ATGAGAGTGA AGAGCAAGGG GGTGAAAAGG 
AAGAAGGTTG TTCAAGACTC GGAAGAAGAG CACAGTGAGT AG

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

LOC18430264 ( XM_020664846.1 ) cDNA ORF clone, Amborella trichopoda -> XP_020520505.1 Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAm47731
Clone ID Related Accession (Same CDS sequence)	XM_020664846.1
Accession Version	XM_020664846.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2017-04-03
Organism	Amborella trichopoda
Product	Fanconi anemia group I protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006497754.1) 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 :: Amborella trichopoda Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTGCTTT CGGTTGCGAG GATTAGAAGG TTCACTGAGA CTGCGATTTC TCTCTTGAAA 
TCAGTGGTTA CGCGATCTCA TCGAGAACAT AGGCTCGCGA GAGATTGTAA GTGGGTCCCT 
GATCTACTCA AAGATCATTG TTTACTAACA GTCAGAAGGA TTGAGCAGGC TGTTTTGAGA 
ACTGTTCAAG AGAGCAACAA TGGCAGGGAG CATATCCTCC CCAGCATTGT TCAACTTGGC 
TTTTGCTTGC TTGAATCCTT AGAAGATGGA AATGGTAAAG GAGATAGTGC CTGTGATCCT 
AATGCTTTGA TGGGCATCGA GGAGCTAGGC ATGCAAACAA TCAAGACCCT GTTTGAAGTC 
CACGACATGG CAAGAAATGA GATCATTGAG CAATGCAAGT TCCGTATACT CTCTCTCAAA 
CCTCAACAAA GTGTATCAAT CATCAAACTA CTTGGGCGAC TGGTTCAGAG TAACCCTTAC 
CCCATGCTCG AGCATGTTTC CCGCTTGAAG GAGTTGTTGG ACTATTTCTC TTTCATGCAT 
TTGAAAACTT CTACTTCTCT CATTGCTGCT CTATTGCCCC TTGCGAAATA CAGTCATGAT 
CTCCAGAGAT ATATTGTTCT GGTTGTGAGG AAAGCTGTGT TCAAGAGAGA GGATACAGTT 
CGTATTGCTT CGATTGATGC TATCATTAAA TTGATGTTGG AAAGTTCCTC GAAAAATGAA 
CCCGATTCTC TTCAGCAGTT TTCCAGCCAA GCTAGTTGCA GTCAGCAAGC TGAGTTACCC 
AATGGCATTG GAGTGGGTCT CTTTCAAGAG ATGCGAGGAT TACTTCGAAG ATGCCTGAGC 
CAACAAGCTA CAGTTAAAGA GAGCATGTAC TGGGGCCTTG TGAAGCTTGT GTTGTCTGAT 
ACTTCTGTCG TAGGACCTGT TTTTGAATTC CTTAGGCCCC ACTTCCTTCA GTTCTTTGAA 
TCCAAAACGA GTGAGGAGTT TAAGATTAAG CTGCGAGATT GTGTCAAAGC TGAGAATGGC 
ATTCTTCAAA TTGAAGAACC TTTAGATTGC CTCGTATCAT GTGTCTCTTG GCTTCTTTTT 
CTTAAGCCAC AAGACAAAGC CTTTCAGCAA CCATGGTCAT GCTTTGGGTT TTCCCTCTCA 
CAGGACAACG AGGCTGCAAG AATTTCCTCC AGTGAGTCCT TTGCAGATAC TTTGATGAAG 
ATGAGGAAGT TTTTGAGGAA TAAAAGTTTG GAAGATATAC TTGGTACAAA CCAGGATTTG 
GGTTCTCAAA CTTTGGACGG TGAAAAGACC AGTTTTTATG CTTGGATTTT ATCTGGCATA 
ATTCAGGTGC TGGTTAATTT GTTAGCAAAG GAGATCGGGA ATGCAACAGA TGCCCAAAAC 
ATAGATCTTG AGAAAGAAAT TATTGACTTT GTTGTGTTTT ATGATTCCTT GGAGAAAGTT 
GCCTGTAATA AACAAGGAAA GAGTCATCGA AAAGGACATC CAAAGGCTAA TAATACTCAA 
GATATCCACG GTGAAACTGA AACCAGAGAG GGGCAGAAAG CATACCCTTC AAAGTTTTCT 
CTAGTGAGAA GTCCTTTCTT ATCTACTTCA AGTATCTCTT GTCTACTGGA GCTTGTAGTG 
AAAATTTCTA GATGTACAGA TTCTGAAAAT CATAACAATC AGTATGTACA TCTAATGTCC 
TTTACCTTGA AAGCATGCCT TTCTCATCTT AAAGCCTTTC AATCCCTAGA AGCTGATAGT 
CCATTAAAGG GCTTGATTTA TGGAGACATC AAGGTCTTAG GGTCTCGGTT GTTGCACCTG 
GTCTGGTTAA TGAAGTCTTG CTCAAGCTTA GTGAAAGATC AAAGGAAAAA GGATAGCAGA 
GGAAGGCTTT GTGGTGATGA TCAAGGGGAG GGTTTGGTCC ACTTGGGCTT GTCTTGTTTA 
AAAGAATTGT TCAATTTAGT TGGAACAAAG TTTAAGCTGA TTGAATTGAT TGAGGAGATG 
AGCAAGAGTT GTTTAGAAAT TGTTGAGGAT GCTGGTGGAG GTGAACTTTT TGGACCTGAT 
TTGGTTGGGG GAGAAAACGA AGGACAAGCT ATACATCTTT TTCTAGTAAA GGTGTTAAGA 
AAGCTGTTCA CGGATCTCCT CATGCATTCC CATTTTCAAG AACTTGAGGT TCTCTCAGAT 
ATAGCATTGC TTCTGGCACA CAAGTTGCCA AGTGATGGAA GAAATTCACA TGGTGCCTGG 
GCTGATTCCA TCAGCAGAAA TGCGAAAGTA GAGAATGTAA AGGCTACCCG AAGTTTGGTT 
TCTTTGGTTA TTAGTTTGAG TGATTCACAA AATGATTTGA AGTTGGCTCG AGGAATGGCT 
TCCGAGCTCT TGAAAGTTAT TGGTTCTGAG GAGATGGATC CCTTGGAAAA CTCTGAAACT 
TATCCCATTA TAAATCGTTC AACTGCTAAT GCAATAGCCA CCCTGCTCTT AAATTTGATC 
GAATCAGTTA TTATTGATTT TGAATGGATG GTTCCAAAGC TTAAGGCGCT CTTCTCCATA 
AACCTTGAGG AAACATTTCG TCACAAAAGC AGTGAGCAGT GTGGAGGGAA GACACCAAAA 
CTAATGTTGG AAGATGCTCT GTACTCCAGG GCAGAATCAC TCGTGCAGGT TTTGTCATGC 
TTTACTGAGA TGTCCCTTAA GGATCCTCAA GCAGAGTATT TGCTAAGATT GGCCGCAAAG 
TTTTACAAGC ATTTGGCCCG GATTACAAAG CTTCGAATTG CTCCTAAAGG TTATAGACAG 
GCTTTGCCCG GCATTAAGTT TCAGACTCTT GCAGAAGTGA CCTGCAAGAA GCTCACTGGA 
CCTCTCTACA AGTTTGTGGC TGTGGTGCAA AGGGAGCAGC AAGAGAATAT GCAGAACAGG 
GGCATGGCTA ACAAAATCAA GAGAGAGAAC AAGTGCATCC CAAACCTGAT CTTTCAAATC 
GAAGACTACG AGAAGTATTT AATCCAACTT AGCAAGCTCA CCAAAGTGAA CTTATTGAGG 
CATGCTAAGC GTAGCACGGC AAGGGACTTC AAGATTTTGG ATACAAGAGA TAAAGCTAAT 
CAAGAAGAAA GGCCAATGCA TGCGTCCAGT CCTTCGACCC CTGAAGATTC AAGAGAGGAA 
TCTGAAGAAG AGGAAAAAGA ATGTGAAAGG CTCAGTTCTG ATCCTGAGCC TGGTGCTGAA 
AATGGAGTGC TGGACCCTGA GTCAGGGGCT GATGATCAAG TGAGGATGAG AGTGAAGAGC 
AAGGGGGTGA AAAGGAAGAA GGTTGTTCAA GACTCGGAAG AAGAGCACAG TGAGTAG

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

RefSeq	XP_020520505.1
CDS	26..3322
Translation	MLLSVARIRRFTETAISLLKSVVTRSHREHRLARDCKWVPDLLKDHCLLTVRRIEQAVLRTVQESNNGREHILPSIVQLGFCLLESLEDGNGKGDSACDPNALMGIEELGMQTIKTLFEVHDMARNEIIEQCKFRILSLKPQQSVSIIKLLGRLVQSNPYPMLEHVSRLKELLDYFSFMHLKTSTSLIAALLPLAKYSHDLQRYIVLVVRKAVFKREDTVRIASIDAIIKLMLESSSKNEPDSLQQFSSQASCSQQAELPNGIGVGLFQEMRGLLRRCLSQQATVKESMYWGLVKLVLSDTSVVGPVFEFLRPHFLQFFESKTSEEFKIKLRDCVKAENGILQIEEPLDCLVSCVSWLLFLKPQDKAFQQPWSCFGFSLSQDNEAARISSSESFADTLMKMRKFLRNKSLEDILGTNQDLGSQTLDGEKTSFYAWILSGIIQVLVNLLAKEIGNATDAQNIDLEKEIIDFVVFYDSLEKVACNKQGKSHRKGHPKANNTQDIHGETETREGQKAYPSKFSLVRSPFLSTSSISCLLELVVKISRCTDSENHNNQYVHLMSFTLKACLSHLKAFQSLEADSPLKGLIYGDIKVLGSRLLHLVWLMKSCSSLVKDQRKKDSRGRLCGDDQGEGLVHLGLSCLKELFNLVGTKFKLIELIEEMSKSCLEIVEDAGGGELFGPDLVGGENEGQAIHLFLVKVLRKLFTDLLMHSHFQELEVLSDIALLLAHKLPSDGRNSHGAWADSISRNAKVENVKATRSLVSLVISLSDSQNDLKLARGMASELLKVIGSEEMDPLENSETYPIINRSTANAIATLLLNLIESVIIDFEWMVPKLKALFSINLEETFRHKSSEQCGGKTPKLMLEDALYSRAESLVQVLSCFTEMSLKDPQAEYLLRLAAKFYKHLARITKLRIAPKGYRQALPGIKFQTLAEVTCKKLTGPLYKFVAVVQREQQENMQNRGMANKIKRENKCIPNLIFQIEDYEKYLIQLSKLTKVNLLRHAKRSTARDFKILDTRDKANQEERPMHASSPSTPEDSREESEEEEKECERLSSDPEPGAENGVLDPESGADDQVRMRVKSKGVKRKKVVQDSEEEHSE

Target ORF information:

RefSeq Version	XM_020664846.1
Organism	Amborella trichopoda
Definition	Amborella trichopoda Fanconi anemia group I protein (LOC18430264), transcript variant X2, mRNA.

Target ORF information:

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

XM_020664846.1

ORF Insert Sequence:

ATGTTGCTTT CGGTTGCGAG GATTAGAAGG TTCACTGAGA CTGCGATTTC TCTCTTGAAA 
TCAGTGGTTA CGCGATCTCA TCGAGAACAT AGGCTCGCGA GAGATTGTAA GTGGGTCCCT 
GATCTACTCA AAGATCATTG TTTACTAACA GTCAGAAGGA TTGAGCAGGC TGTTTTGAGA 
ACTGTTCAAG AGAGCAACAA TGGCAGGGAG CATATCCTCC CCAGCATTGT TCAACTTGGC 
TTTTGCTTGC TTGAATCCTT AGAAGATGGA AATGGTAAAG GAGATAGTGC CTGTGATCCT 
AATGCTTTGA TGGGCATCGA GGAGCTAGGC ATGCAAACAA TCAAGACCCT GTTTGAAGTC 
CACGACATGG CAAGAAATGA GATCATTGAG CAATGCAAGT TCCGTATACT CTCTCTCAAA 
CCTCAACAAA GTGTATCAAT CATCAAACTA CTTGGGCGAC TGGTTCAGAG TAACCCTTAC 
CCCATGCTCG AGCATGTTTC CCGCTTGAAG GAGTTGTTGG ACTATTTCTC TTTCATGCAT 
TTGAAAACTT CTACTTCTCT CATTGCTGCT CTATTGCCCC TTGCGAAATA CAGTCATGAT 
CTCCAGAGAT ATATTGTTCT GGTTGTGAGG AAAGCTGTGT TCAAGAGAGA GGATACAGTT 
CGTATTGCTT CGATTGATGC TATCATTAAA TTGATGTTGG AAAGTTCCTC GAAAAATGAA 
CCCGATTCTC TTCAGCAGTT TTCCAGCCAA GCTAGTTGCA GTCAGCAAGC TGAGTTACCC 
AATGGCATTG GAGTGGGTCT CTTTCAAGAG ATGCGAGGAT TACTTCGAAG ATGCCTGAGC 
CAACAAGCTA CAGTTAAAGA GAGCATGTAC TGGGGCCTTG TGAAGCTTGT GTTGTCTGAT 
ACTTCTGTCG TAGGACCTGT TTTTGAATTC CTTAGGCCCC ACTTCCTTCA GTTCTTTGAA 
TCCAAAACGA GTGAGGAGTT TAAGATTAAG CTGCGAGATT GTGTCAAAGC TGAGAATGGC 
ATTCTTCAAA TTGAAGAACC TTTAGATTGC CTCGTATCAT GTGTCTCTTG GCTTCTTTTT 
CTTAAGCCAC AAGACAAAGC CTTTCAGCAA CCATGGTCAT GCTTTGGGTT TTCCCTCTCA 
CAGGACAACG AGGCTGCAAG AATTTCCTCC AGTGAGTCCT TTGCAGATAC TTTGATGAAG 
ATGAGGAAGT TTTTGAGGAA TAAAAGTTTG GAAGATATAC TTGGTACAAA CCAGGATTTG 
GGTTCTCAAA CTTTGGACGG TGAAAAGACC AGTTTTTATG CTTGGATTTT ATCTGGCATA 
ATTCAGGTGC TGGTTAATTT GTTAGCAAAG GAGATCGGGA ATGCAACAGA TGCCCAAAAC 
ATAGATCTTG AGAAAGAAAT TATTGACTTT GTTGTGTTTT ATGATTCCTT GGAGAAAGTT 
GCCTGTAATA AACAAGGAAA GAGTCATCGA AAAGGACATC CAAAGGCTAA TAATACTCAA 
GATATCCACG GTGAAACTGA AACCAGAGAG GGGCAGAAAG CATACCCTTC AAAGTTTTCT 
CTAGTGAGAA GTCCTTTCTT ATCTACTTCA AGTATCTCTT GTCTACTGGA GCTTGTAGTG 
AAAATTTCTA GATGTACAGA TTCTGAAAAT CATAACAATC AGTATGTACA TCTAATGTCC 
TTTACCTTGA AAGCATGCCT TTCTCATCTT AAAGCCTTTC AATCCCTAGA AGCTGATAGT 
CCATTAAAGG GCTTGATTTA TGGAGACATC AAGGTCTTAG GGTCTCGGTT GTTGCACCTG 
GTCTGGTTAA TGAAGTCTTG CTCAAGCTTA GTGAAAGATC AAAGGAAAAA GGATAGCAGA 
GGAAGGCTTT GTGGTGATGA TCAAGGGGAG GGTTTGGTCC ACTTGGGCTT GTCTTGTTTA 
AAAGAATTGT TCAATTTAGT TGGAACAAAG TTTAAGCTGA TTGAATTGAT TGAGGAGATG 
AGCAAGAGTT GTTTAGAAAT TGTTGAGGAT GCTGGTGGAG GTGAACTTTT TGGACCTGAT 
TTGGTTGGGG GAGAAAACGA AGGACAAGCT ATACATCTTT TTCTAGTAAA GGTGTTAAGA 
AAGCTGTTCA CGGATCTCCT CATGCATTCC CATTTTCAAG AACTTGAGGT TCTCTCAGAT 
ATAGCATTGC TTCTGGCACA CAAGTTGCCA AGTGATGGAA GAAATTCACA TGGTGCCTGG 
GCTGATTCCA TCAGCAGAAA TGCGAAAGTA GAGAATGTAA AGGCTACCCG AAGTTTGGTT 
TCTTTGGTTA TTAGTTTGAG TGATTCACAA AATGATTTGA AGTTGGCTCG AGGAATGGCT 
TCCGAGCTCT TGAAAGTTAT TGGTTCTGAG GAGATGGATC CCTTGGAAAA CTCTGAAACT 
TATCCCATTA TAAATCGTTC AACTGCTAAT GCAATAGCCA CCCTGCTCTT AAATTTGATC 
GAATCAGTTA TTATTGATTT TGAATGGATG GTTCCAAAGC TTAAGGCGCT CTTCTCCATA 
AACCTTGAGG AAACATTTCG TCACAAAAGC AGTGAGCAGT GTGGAGGGAA GACACCAAAA 
CTAATGTTGG AAGATGCTCT GTACTCCAGG GCAGAATCAC TCGTGCAGGT TTTGTCATGC 
TTTACTGAGA TGTCCCTTAA GGATCCTCAA GCAGAGTATT TGCTAAGATT GGCCGCAAAG 
TTTTACAAGC ATTTGGCCCG GATTACAAAG CTTCGAATTG CTCCTAAAGG TTATAGACAG 
GCTTTGCCCG GCATTAAGTT TCAGACTCTT GCAGAAGTGA CCTGCAAGAA GCTCACTGGA 
CCTCTCTACA AGTTTGTGGC TGTGGTGCAA AGGGAGCAGC AAGAGAATAT GCAGAACAGG 
GGCATGGCTA ACAAAATCAA GAGAGAGAAC AAGTGCATCC CAAACCTGAT CTTTCAAATC 
GAAGACTACG AGAAGTATTT AATCCAACTT AGCAAGCTCA CCAAAGTGAA CTTATTGAGG 
CATGCTAAGC GTAGCACGGC AAGGGACTTC AAGATTTTGG ATACAAGAGA TAAAGCTAAT 
CAAGAAGAAA GGCCAATGCA TGCGTCCAGT CCTTCGACCC CTGAAGATTC AAGAGAGGAA 
TCTGAAGAAG AGGAAAAAGA ATGTGAAAGG CTCAGTTCTG ATCCTGAGCC TGGTGCTGAA 
AATGGAGTGC TGGACCCTGA GTCAGGGGCT GATGATCAAG TGAGGATGAG AGTGAAGAGC 
AAGGGGGTGA AAAGGAAGAA GGTTGTTCAA GACTCGGAAG AAGAGCACAG TGAGTAG