LOC111001399 cDNA ORF clone, Pieris rapae(cabbage white)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111001399
Entrez Gene ID	111001399
Full Name	SH3 and multiple ankyrin repeat domains protein 3
Gene Type	protein-coding
Organism	Pieris rapae(cabbage white)

mRNA and Protein(s)

mRNA	Protein	Name
XM_022271292.1	XP_022126984.1	SH3 and multiple ankyrin repeat domains protein 3 isoform X2
XM_022271291.1	XP_022126983.1	SH3 and multiple ankyrin repeat domains protein 3 isoform X1

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Genomic adaptation to agricultural environments: cabbage white butterflies (Pieris rapae) as a case study.
Sikkink KL, Kobiela ME, Snell-Rood EC
BMC genomics18(1)412(2017 May)

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

The following LOC111001399 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111001399 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
OPi87141	XM_022271291.1 Latest version!	Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPi87142	XM_022271292.1 Latest version!	Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

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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)

LOC111001399 ( XM_022271291.1 ) cDNA ORF clone, Pieris rapae(cabbage white) -> XP_022126983.1 Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPi87141
Clone ID Related Accession (Same CDS sequence)	XM_022271291.1
Accession Version	XM_022271291.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3342bp) 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	2017-08-09
Organism	Pieris rapae(cabbage white)
Product	SH3 and multiple ankyrin repeat domains protein 3 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019094045.1) and transcript sequence (GFMO01013077.1) 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 :: Pieris rapae Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 120 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGCTTAAAC TTGATGAGAA GACGTTAAAA GCGCTCCACT CCCGCGCAAA TCTCCGCCGA 
TTCCTGGAGA ATGTGCAACA CGGACAGATC GACAAAATAA CTAAAGCCTG TGCCAAGGGC 
CTAGACCCAA ACTTCCATTG TCAGGAGACT GGTGAAACCC CCTTATCCAT AGCGGCCGGC 
CTAAAGACAC CTGCAAAAAT CTTAATCGCC CTTGTCAATG GCGGGGCCTT GCTCGATTAC 
CGAACAAAGG ATGGAAGCAC CTCCATGCAC AGAGCTGTTG AAAAGAACTC ACTAGAAGCT 
GTGAAAACCC TGCTAGAACT TGGCGCGTCA CCTAATTATA AAGATGGCAA GGGATTAACG 
CCCTTGTACC TCTCTGTGAC AAACAAAACT GATCCGTTAT TGTGTGAAAC GCTTCTTCAT 
GATCACGCAA CTATTGGGGC TACCGATTTG CAGGGATGGC AGGAAGTGCA TCAGGCGTGT 
CGTAACGGTC TGGTCCAACA TCTGGACCAT CTTTTATTCT ACGGAGCTGA TATGAACAGT 
CGTAATGCTT CTGGCAACAC GCCGCTTCAC GTGTGTGCAG TCAACGCACA AGACTCATGC 
GCACGACAAC TACTCTTCAG GGGCTGCGAC AAGGAGTCCT TGAATTATGC TAACCAGACA 
CCGTATCAGG TTGCCGTAAT AGCTGGAAAT TTAGAATTAG CTGAGGTTAT AAAGAATTAC 
AAAACGGACG AAGTCGTTCC GTTTCGTGGC CCGCCGCGGT TTAACCCGAA GAGACGGTCG 
GCCGCTTGGG GCGGATGGTG GAGCGCCGGA GATAGGTCCT CCTTGGCCTC GTCGACTCGC 
ATTCCGGCTG ACCTTGATGC CTTACTGCGA CGGCCTCAGG GCTCAACCAA CTCGCCTTGC 
AGCCTCGAAC GACCATTCTC GTCCGCATCA TCAAGCATTA GTGACGCGAG CCACCCGAGC 
CACGAAGACG ACGCGAGCAT CATCACAGAT AAGAGCCTGG GCGACACTAG CGACATCATC 
TCGGACTCGA GTGGGGTTGG CACCAGCAAT TCGGACACTA CCACGTGTTC GCTGCAGGCG 
CCGGGTGCTA CACTTGTATG TCTACAGCCC TATGAGCCCA CACAGTCTGG TCATGTAAGA 
CTGAATCAGG GAGACATCAT TGAAGTAACG GGTTCGACAG ACGATGGTTT CCTTGAGGGT 
CGGGTCCGAG GGTCTGGAGC TACAGGGCTG TTCCCTCCGC ACTGCGTGCA AGAAGTCCGC 
TTGAGACAAA ACGCACATAT ACACCAGGTT TCTTCAAATA CTGTACACCA CTCTCGTGTC 
AGTGGTCGGA GAGAGGTGGG CCTCAGTAAG ACTTACAGTG CTACAGCGCC CAGAGTTAAG 
AAAACGTATG GAAACATGGA AACACGAACC GTGGTGCTGC ACCGAGCCCG TCGAGGCTTC 
GGTTTTGTAC TTCGCGGAGC GAAGGCTTCG TCACCACTAA TGGAGCTTCG CCCCTCAGAG 
CGATGTCCTG GACTACAGTA TCTAGACGAT GTGGATGCTG GCGGCGTTGC TGATAGAGCA 
GGATTGAAAA AGGGAGATTT TCTCATAGCG ATAAACGGCG AAGATGTGTC AGGCGCGTCC 
CATGAGCACG TAGTGGAGCT GATTCGAGGT TCTGGTGCTC TGGTCTCCAT GACCGTTGTA 
TCGCTGAGCT CAGTAGCCAC GGAAACTTGT GTGGTCCCCC CGAGCAAGTC TCAGGGTCAG 
CTGTCTACCA GCGGACGACC CTATGCTGCT ACACTGCCTA GGAAGGGTGC TGGAGGTCGT 
AGTCCTGCGC CGGCGCCGCC CCGTCGCGAC CCACGCACTA CGCTTAGCGT TGGTCGCGCG 
AGAGCCAAGT CTATGGTTGC GGGGCTTGAA AATGGCGGCG AAAAGGAAGA GTCCTGTGAG 
CCACTGAGTG TAGCCGGAAA ATCGTCTTCA GCAGAATCTG TACAATTACA CCCCGGAAGT 
AATAATGGCA CCCCTTGTCT TGGTACACCA GTAGCGCCTC GTACAGCCAG CATTCGACAA 
CGACCAGCCT CCTCTCGTAT CACAGCATCT GAGTTAGAAG AACTATTCCA ACGACAAGCT 
GGGGCTGACG CCGCGGGTGG CAGCAGCGCA ATGATGACTC GATCTGCATT CCAAGACGGA 
TGCGCGTCGC CTGGAGGATC GCCTGCCCGA ATCCCAACAA GGGTCTATGC TTCCGTCGCT 
GACATGAAGA GAGCTAAGGG CAAGTTCTGG AGCAAGTCAG CCAGCATCAG TGCGGGCGGC 
AGCGCGACAC TTAGACGCGA GTTCCACTCG ACTCCTGACT TGGCCGCTGC GCTCGCCGCA 
CGCCCCACAC GAACGCGCTC TAGTGAAGAC GTACACGCTA ATGATATGTC CCGTGCTCCC 
CCACCACCCT CTGCGCCCGC GCCTCCGCCC CCTGGGGCCG TGACGTCATC GTTCCGTCCG 
GCGGCGCCCG CTAAGCTATA TGCGGCGCCT AAAGACCTCG CCCAGGTTGC ATACAGGCCG 
CACACTGAGC AACCTCGTAA AGCTGTACGC GGCTGGTCAC GCGCTTTATC AGCTGAAGAA 
AGCTCTCACC AATACGCGCA GCCAATCGCT CTGCACAAGA CCTTTGCGAG ACAGAACTCA 
ACACCCGCAC CCCCTATCCC AGAGCCGGAC TATAGCATGT CAGAGTCTGA TGAGGACGAA 
CACAAGCTTA AAGCAGACCC ACCCGTCGCG GAGACCAGCG CTAACAGCAA TACCAGCGGC 
AGCAGTTCCG GATCGAGTTC CATGCAGCAC TCGTTCTCTG TGGACGAAAT ACAAAAGATT 
AGAACGCGAC TTAAATCGTC CAAGTCCTGC GGTGACGAAC TCGGTATCGC CGAGAGAGAC 
GACGGCGACA ATTCATCCTC TGGAGTCTCA TCCGACCAAG AAGCTCAAGC GCGTCCACCG 
AGACGAGACA AAGTGTCTTT CTGCAGCTCG GTCACAGTGA AGTCCTCAAA CGATGTGATC 
AGCACGGAAC CCGTGCACAG TTCGTCCGAA AGCCTCGCGA CCCCTCCCCC TCCCATGCAG 
AGGCATAATT CCCTCACGCG GAAAAGAGCG ACGGCGGCGC TCTTGCGAGG GACGGTGGGC 
AGCGCGCGAG GGAGGTCAGC AGCCGAGCGT CTGGGAGTGG ACATAGATAA AGCGCCAGGT 
CGGAGGGCTC GCGCCGCCGT GCTTCTGGCT GAACTGCCCC CGCCCCCCGA GGAGCCCGCG 
GGCCCGGCGG ACCCCACGGC CCCGGTGCTG GCGCCGCCCC CACAGTTCAG TGATCGGGTG 
CGAGTAGTCG CCGCTCTGCC TAAGTTGGCT CATCTGCAGT AA

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

RefSeq	XP_022126983.1
CDS	150..3491
Translation	MLKLDEKTLKALHSRANLRRFLENVQHGQIDKITKACAKGLDPNFHCQETGETPLSIAAGLKTPAKILIALVNGGALLDYRTKDGSTSMHRAVEKNSLEAVKTLLELGASPNYKDGKGLTPLYLSVTNKTDPLLCETLLHDHATIGATDLQGWQEVHQACRNGLVQHLDHLLFYGADMNSRNASGNTPLHVCAVNAQDSCARQLLFRGCDKESLNYANQTPYQVAVIAGNLELAEVIKNYKTDEVVPFRGPPRFNPKRRSAAWGGWWSAGDRSSLASSTRIPADLDALLRRPQGSTNSPCSLERPFSSASSSISDASHPSHEDDASIITDKSLGDTSDIISDSSGVGTSNSDTTTCSLQAPGATLVCLQPYEPTQSGHVRLNQGDIIEVTGSTDDGFLEGRVRGSGATGLFPPHCVQEVRLRQNAHIHQVSSNTVHHSRVSGRREVGLSKTYSATAPRVKKTYGNMETRTVVLHRARRGFGFVLRGAKASSPLMELRPSERCPGLQYLDDVDAGGVADRAGLKKGDFLIAINGEDVSGASHEHVVELIRGSGALVSMTVVSLSSVATETCVVPPSKSQGQLSTSGRPYAATLPRKGAGGRSPAPAPPRRDPRTTLSVGRARAKSMVAGLENGGEKEESCEPLSVAGKSSSAESVQLHPGSNNGTPCLGTPVAPRTASIRQRPASSRITASELEELFQRQAGADAAGGSSAMMTRSAFQDGCASPGGSPARIPTRVYASVADMKRAKGKFWSKSASISAGGSATLRREFHSTPDLAAALAARPTRTRSSEDVHANDMSRAPPPPSAPAPPPPGAVTSSFRPAAPAKLYAAPKDLAQVAYRPHTEQPRKAVRGWSRALSAEESSHQYAQPIALHKTFARQNSTPAPPIPEPDYSMSESDEDEHKLKADPPVAETSANSNTSGSSSGSSSMQHSFSVDEIQKIRTRLKSSKSCGDELGIAERDDGDNSSSGVSSDQEAQARPPRRDKVSFCSSVTVKSSNDVISTEPVHSSSESLATPPPPMQRHNSLTRKRATAALLRGTVGSARGRSAAERLGVDIDKAPGRRARAAVLLAELPPPPEEPAGPADPTAPVLAPPPQFSDRVRVVAALPKLAHLQ

Target ORF information:

RefSeq Version	XM_022271291.1
Organism	Pieris rapae(cabbage white)
Definition	Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X1, mRNA.

Target ORF information:

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

XM_022271291.1

ORF Insert Sequence:

ATGCTTAAAC TTGATGAGAA GACGTTAAAA GCGCTCCACT CCCGCGCAAA TCTCCGCCGA 
TTCCTGGAGA ATGTGCAACA CGGACAGATC GACAAAATAA CTAAAGCCTG TGCCAAGGGC 
CTAGACCCAA ACTTCCATTG TCAGGAGACT GGTGAAACCC CCTTATCCAT AGCGGCCGGC 
CTAAAGACAC CTGCAAAAAT CTTAATCGCC CTTGTCAATG GCGGGGCCTT GCTCGATTAC 
CGAACAAAGG ATGGAAGCAC CTCCATGCAC AGAGCTGTTG AAAAGAACTC ACTAGAAGCT 
GTGAAAACCC TGCTAGAACT TGGCGCGTCA CCTAATTATA AAGATGGCAA GGGATTAACG 
CCCTTGTACC TCTCTGTGAC AAACAAAACT GATCCGTTAT TGTGTGAAAC GCTTCTTCAT 
GATCACGCAA CTATTGGGGC TACCGATTTG CAGGGATGGC AGGAAGTGCA TCAGGCGTGT 
CGTAACGGTC TGGTCCAACA TCTGGACCAT CTTTTATTCT ACGGAGCTGA TATGAACAGT 
CGTAATGCTT CTGGCAACAC GCCGCTTCAC GTGTGTGCAG TCAACGCACA AGACTCATGC 
GCACGACAAC TACTCTTCAG GGGCTGCGAC AAGGAGTCCT TGAATTATGC TAACCAGACA 
CCGTATCAGG TTGCCGTAAT AGCTGGAAAT TTAGAATTAG CTGAGGTTAT AAAGAATTAC 
AAAACGGACG AAGTCGTTCC GTTTCGTGGC CCGCCGCGGT TTAACCCGAA GAGACGGTCG 
GCCGCTTGGG GCGGATGGTG GAGCGCCGGA GATAGGTCCT CCTTGGCCTC GTCGACTCGC 
ATTCCGGCTG ACCTTGATGC CTTACTGCGA CGGCCTCAGG GCTCAACCAA CTCGCCTTGC 
AGCCTCGAAC GACCATTCTC GTCCGCATCA TCAAGCATTA GTGACGCGAG CCACCCGAGC 
CACGAAGACG ACGCGAGCAT CATCACAGAT AAGAGCCTGG GCGACACTAG CGACATCATC 
TCGGACTCGA GTGGGGTTGG CACCAGCAAT TCGGACACTA CCACGTGTTC GCTGCAGGCG 
CCGGGTGCTA CACTTGTATG TCTACAGCCC TATGAGCCCA CACAGTCTGG TCATGTAAGA 
CTGAATCAGG GAGACATCAT TGAAGTAACG GGTTCGACAG ACGATGGTTT CCTTGAGGGT 
CGGGTCCGAG GGTCTGGAGC TACAGGGCTG TTCCCTCCGC ACTGCGTGCA AGAAGTCCGC 
TTGAGACAAA ACGCACATAT ACACCAGGTT TCTTCAAATA CTGTACACCA CTCTCGTGTC 
AGTGGTCGGA GAGAGGTGGG CCTCAGTAAG ACTTACAGTG CTACAGCGCC CAGAGTTAAG 
AAAACGTATG GAAACATGGA AACACGAACC GTGGTGCTGC ACCGAGCCCG TCGAGGCTTC 
GGTTTTGTAC TTCGCGGAGC GAAGGCTTCG TCACCACTAA TGGAGCTTCG CCCCTCAGAG 
CGATGTCCTG GACTACAGTA TCTAGACGAT GTGGATGCTG GCGGCGTTGC TGATAGAGCA 
GGATTGAAAA AGGGAGATTT TCTCATAGCG ATAAACGGCG AAGATGTGTC AGGCGCGTCC 
CATGAGCACG TAGTGGAGCT GATTCGAGGT TCTGGTGCTC TGGTCTCCAT GACCGTTGTA 
TCGCTGAGCT CAGTAGCCAC GGAAACTTGT GTGGTCCCCC CGAGCAAGTC TCAGGGTCAG 
CTGTCTACCA GCGGACGACC CTATGCTGCT ACACTGCCTA GGAAGGGTGC TGGAGGTCGT 
AGTCCTGCGC CGGCGCCGCC CCGTCGCGAC CCACGCACTA CGCTTAGCGT TGGTCGCGCG 
AGAGCCAAGT CTATGGTTGC GGGGCTTGAA AATGGCGGCG AAAAGGAAGA GTCCTGTGAG 
CCACTGAGTG TAGCCGGAAA ATCGTCTTCA GCAGAATCTG TACAATTACA CCCCGGAAGT 
AATAATGGCA CCCCTTGTCT TGGTACACCA GTAGCGCCTC GTACAGCCAG CATTCGACAA 
CGACCAGCCT CCTCTCGTAT CACAGCATCT GAGTTAGAAG AACTATTCCA ACGACAAGCT 
GGGGCTGACG CCGCGGGTGG CAGCAGCGCA ATGATGACTC GATCTGCATT CCAAGACGGA 
TGCGCGTCGC CTGGAGGATC GCCTGCCCGA ATCCCAACAA GGGTCTATGC TTCCGTCGCT 
GACATGAAGA GAGCTAAGGG CAAGTTCTGG AGCAAGTCAG CCAGCATCAG TGCGGGCGGC 
AGCGCGACAC TTAGACGCGA GTTCCACTCG ACTCCTGACT TGGCCGCTGC GCTCGCCGCA 
CGCCCCACAC GAACGCGCTC TAGTGAAGAC GTACACGCTA ATGATATGTC CCGTGCTCCC 
CCACCACCCT CTGCGCCCGC GCCTCCGCCC CCTGGGGCCG TGACGTCATC GTTCCGTCCG 
GCGGCGCCCG CTAAGCTATA TGCGGCGCCT AAAGACCTCG CCCAGGTTGC ATACAGGCCG 
CACACTGAGC AACCTCGTAA AGCTGTACGC GGCTGGTCAC GCGCTTTATC AGCTGAAGAA 
AGCTCTCACC AATACGCGCA GCCAATCGCT CTGCACAAGA CCTTTGCGAG ACAGAACTCA 
ACACCCGCAC CCCCTATCCC AGAGCCGGAC TATAGCATGT CAGAGTCTGA TGAGGACGAA 
CACAAGCTTA AAGCAGACCC ACCCGTCGCG GAGACCAGCG CTAACAGCAA TACCAGCGGC 
AGCAGTTCCG GATCGAGTTC CATGCAGCAC TCGTTCTCTG TGGACGAAAT ACAAAAGATT 
AGAACGCGAC TTAAATCGTC CAAGTCCTGC GGTGACGAAC TCGGTATCGC CGAGAGAGAC 
GACGGCGACA ATTCATCCTC TGGAGTCTCA TCCGACCAAG AAGCTCAAGC GCGTCCACCG 
AGACGAGACA AAGTGTCTTT CTGCAGCTCG GTCACAGTGA AGTCCTCAAA CGATGTGATC 
AGCACGGAAC CCGTGCACAG TTCGTCCGAA AGCCTCGCGA CCCCTCCCCC TCCCATGCAG 
AGGCATAATT CCCTCACGCG GAAAAGAGCG ACGGCGGCGC TCTTGCGAGG GACGGTGGGC 
AGCGCGCGAG GGAGGTCAGC AGCCGAGCGT CTGGGAGTGG ACATAGATAA AGCGCCAGGT 
CGGAGGGCTC GCGCCGCCGT GCTTCTGGCT GAACTGCCCC CGCCCCCCGA GGAGCCCGCG 
GGCCCGGCGG ACCCCACGGC CCCGGTGCTG GCGCCGCCCC CACAGTTCAG TGATCGGGTG 
CGAGTAGTCG CCGCTCTGCC TAAGTTGGCT CATCTGCAGT AA

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

LOC111001399 ( XM_022271292.1 ) cDNA ORF clone, Pieris rapae(cabbage white) -> XP_022126984.1 Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPi87142
Clone ID Related Accession (Same CDS sequence)	XM_022271292.1
Accession Version	XM_022271292.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3360bp) 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	2017-08-09
Organism	Pieris rapae(cabbage white)
Product	SH3 and multiple ankyrin repeat domains protein 3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019094045.1) and transcript sequence (GFMO01013077.1) 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 :: Pieris rapae Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 120 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGCTTAAAC TTGATGAGAA GACGTTAAAA GCGCTCCACT CCCGCGCAAA TCTCCGCCGA 
TTCCTGGAGA ATGTGCAACA CGGACAGATC GACAAAATAA CTAAAGCCTG TGCCAAGGGC 
CTAGACCCAA ACTTCCATTG TCAGGAGACT GGTGAAACCC CCTTATCCAT AGCGGCCGGC 
CTAAAGACAC CTGCAAAAAT CTTAATCGCC CTTGTCAATG GCGGGGCCTT GCTCGATTAC 
CGAACAAAGG ATGGAAGCAC CTCCATGCAC AGAGCTGTTG AAAAGAACTC ACTAGAAGCT 
GTGAAAACCC TGCTAGAACT TGGCGCGTCA CCTAATTATA AAGATGGCAA GGGATTAACG 
CCCTTGTACC TCTCTGTGAC AAACAAAACT GATCCGTTAT TGTGTGAAAC GCTTCTTCAT 
GATCACGCAA CTATTGGGGC TACCGATTTG CAGGGATGGC AGGAAGTGCA TCAGGCGTGT 
CGTAACGGTC TGGTCCAACA TCTGGACCAT CTTTTATTCT ACGGAGCTGA TATGAACAGT 
CGTAATGCTT CTGGCAACAC GCCGCTTCAC GTGTGTGCAG TCAACGCACA AGACTCATGC 
GCACGACAAC TACTCTTCAG GGGCTGCGAC AAGGAGTCCT TGAATTATGC TAACCAGACA 
CCGTATCAGG TTGCCGTAAT AGCTGGAAAT TTAGAATTAG CTGAGGTTAT AAAGAATTAC 
AAAACGGACG AAGTCGTTCC GTTTCGTGGC CCGCCGCGGT TTAACCCGAA GAGACGGTCG 
GCCGCTTGGG GCGGATGGTG GAGCGCCGGA GATAGGTCCT CCTTGGCCTC GTCGACTCGC 
ATTCCGGCTG ACCTTGATGC CTTACTGCGA CGGCCTCAGG GCTCAACCAA CTCGCCTTGC 
AGCCTCGAAC GACCATTCTC GTCCGCATCA TCAAGCATTA GTGACGCGAG CCACCCGAGC 
CACGAAGACG ACGCGAGCAT CATCACAGGG CGACCCATGT TGACAGATAA GAGCCTGGGC 
GACACTAGCG ACATCATCTC GGACTCGAGT GGGGTTGGCA CCAGCAATTC GGACACTACC 
ACGTGTTCGC TGCAGGCGCC GGGTGCTACA CTTGTATGTC TACAGCCCTA TGAGCCCACA 
CAGTCTGGTC ATGTAAGACT GAATCAGGGA GACATCATTG AAGTAACGGG TTCGACAGAC 
GATGGTTTCC TTGAGGGTCG GGTCCGAGGG TCTGGAGCTA CAGGGCTGTT CCCTCCGCAC 
TGCGTGCAAG AAGTCCGCTT GAGACAAAAC GCACATATAC ACCAGGTTTC TTCAAATACT 
GTACACCACT CTCGTGTCAG TGGTCGGAGA GAGGTGGGCC TCAGTAAGAC TTACAGTGCT 
ACAGCGCCCA GAGTTAAGAA AACGTATGGA AACATGGAAA CACGAACCGT GGTGCTGCAC 
CGAGCCCGTC GAGGCTTCGG TTTTGTACTT CGCGGAGCGA AGGCTTCGTC ACCACTAATG 
GAGCTTCGCC CCTCAGAGCG ATGTCCTGGA CTACAGTATC TAGACGATGT GGATGCTGGC 
GGCGTTGCTG ATAGAGCAGG ATTGAAAAAG GGAGATTTTC TCATAGCGAT AAACGGCGAA 
GATGTGTCAG GCGCGTCCCA TGAGCACGTA GTGGAGCTGA TTCGAGGTTC TGGTGCTCTG 
GTCTCCATGA CCGTTGTATC GCTGAGCTCA GTAGCCACGG AAACTTGTGT GGTCCCCCCG 
AGCAAGTCTC AGGGTCAGCT GTCTACCAGC GGACGACCCT ATGCTGCTAC ACTGCCTAGG 
AAGGGTGCTG GAGGTCGTAG TCCTGCGCCG GCGCCGCCCC GTCGCGACCC ACGCACTACG 
CTTAGCGTTG GTCGCGCGAG AGCCAAGTCT ATGGTTGCGG GGCTTGAAAA TGGCGGCGAA 
AAGGAAGAGT CCTGTGAGCC ACTGAGTGTA GCCGGAAAAT CGTCTTCAGC AGAATCTGTA 
CAATTACACC CCGGAAGTAA TAATGGCACC CCTTGTCTTG GTACACCAGT AGCGCCTCGT 
ACAGCCAGCA TTCGACAACG ACCAGCCTCC TCTCGTATCA CAGCATCTGA GTTAGAAGAA 
CTATTCCAAC GACAAGCTGG GGCTGACGCC GCGGGTGGCA GCAGCGCAAT GATGACTCGA 
TCTGCATTCC AAGACGGATG CGCGTCGCCT GGAGGATCGC CTGCCCGAAT CCCAACAAGG 
GTCTATGCTT CCGTCGCTGA CATGAAGAGA GCTAAGGGCA AGTTCTGGAG CAAGTCAGCC 
AGCATCAGTG CGGGCGGCAG CGCGACACTT AGACGCGAGT TCCACTCGAC TCCTGACTTG 
GCCGCTGCGC TCGCCGCACG CCCCACACGA ACGCGCTCTA GTGAAGACGT ACACGCTAAT 
GATATGTCCC GTGCTCCCCC ACCACCCTCT GCGCCCGCGC CTCCGCCCCC TGGGGCCGTG 
ACGTCATCGT TCCGTCCGGC GGCGCCCGCT AAGCTATATG CGGCGCCTAA AGACCTCGCC 
CAGGTTGCAT ACAGGCCGCA CACTGAGCAA CCTCGTAAAG CTGTACGCGG CTGGTCACGC 
GCTTTATCAG CTGAAGAAAG CTCTCACCAA TACGCGCAGC CAATCGCTCT GCACAAGACC 
TTTGCGAGAC AGAACTCAAC ACCCGCACCC CCTATCCCAG AGCCGGACTA TAGCATGTCA 
GAGTCTGATG AGGACGAACA CAAGCTTAAA GCAGACCCAC CCGTCGCGGA GACCAGCGCT 
AACAGCAATA CCAGCGGCAG CAGTTCCGGA TCGAGTTCCA TGCAGCACTC GTTCTCTGTG 
GACGAAATAC AAAAGATTAG AACGCGACTT AAATCGTCCA AGTCCTGCGG TGACGAACTC 
GGTATCGCCG AGAGAGACGA CGGCGACAAT TCATCCTCTG GAGTCTCATC CGACCAAGAA 
GCTCAAGCGC GTCCACCGAG ACGAGACAAA GTGTCTTTCT GCAGCTCGGT CACAGTGAAG 
TCCTCAAACG ATGTGATCAG CACGGAACCC GTGCACAGTT CGTCCGAAAG CCTCGCGACC 
CCTCCCCCTC CCATGCAGAG GCATAATTCC CTCACGCGGA AAAGAGCGAC GGCGGCGCTC 
TTGCGAGGGA CGGTGGGCAG CGCGCGAGGG AGGTCAGCAG CCGAGCGTCT GGGAGTGGAC 
ATAGATAAAG CGCCAGGTCG GAGGGCTCGC GCCGCCGTGC TTCTGGCTGA ACTGCCCCCG 
CCCCCCGAGG AGCCCGCGGG CCCGGCGGAC CCCACGGCCC CGGTGCTGGC GCCGCCCCCA 
CAGTTCAGTG ATCGGGTGCG AGTAGTCGCC GCTCTGCCTA AGTTGGCTCA TCTGCAGTAA

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

RefSeq	XP_022126984.1
CDS	151..3510
Translation	MLKLDEKTLKALHSRANLRRFLENVQHGQIDKITKACAKGLDPNFHCQETGETPLSIAAGLKTPAKILIALVNGGALLDYRTKDGSTSMHRAVEKNSLEAVKTLLELGASPNYKDGKGLTPLYLSVTNKTDPLLCETLLHDHATIGATDLQGWQEVHQACRNGLVQHLDHLLFYGADMNSRNASGNTPLHVCAVNAQDSCARQLLFRGCDKESLNYANQTPYQVAVIAGNLELAEVIKNYKTDEVVPFRGPPRFNPKRRSAAWGGWWSAGDRSSLASSTRIPADLDALLRRPQGSTNSPCSLERPFSSASSSISDASHPSHEDDASIITGRPMLTDKSLGDTSDIISDSSGVGTSNSDTTTCSLQAPGATLVCLQPYEPTQSGHVRLNQGDIIEVTGSTDDGFLEGRVRGSGATGLFPPHCVQEVRLRQNAHIHQVSSNTVHHSRVSGRREVGLSKTYSATAPRVKKTYGNMETRTVVLHRARRGFGFVLRGAKASSPLMELRPSERCPGLQYLDDVDAGGVADRAGLKKGDFLIAINGEDVSGASHEHVVELIRGSGALVSMTVVSLSSVATETCVVPPSKSQGQLSTSGRPYAATLPRKGAGGRSPAPAPPRRDPRTTLSVGRARAKSMVAGLENGGEKEESCEPLSVAGKSSSAESVQLHPGSNNGTPCLGTPVAPRTASIRQRPASSRITASELEELFQRQAGADAAGGSSAMMTRSAFQDGCASPGGSPARIPTRVYASVADMKRAKGKFWSKSASISAGGSATLRREFHSTPDLAAALAARPTRTRSSEDVHANDMSRAPPPPSAPAPPPPGAVTSSFRPAAPAKLYAAPKDLAQVAYRPHTEQPRKAVRGWSRALSAEESSHQYAQPIALHKTFARQNSTPAPPIPEPDYSMSESDEDEHKLKADPPVAETSANSNTSGSSSGSSSMQHSFSVDEIQKIRTRLKSSKSCGDELGIAERDDGDNSSSGVSSDQEAQARPPRRDKVSFCSSVTVKSSNDVISTEPVHSSSESLATPPPPMQRHNSLTRKRATAALLRGTVGSARGRSAAERLGVDIDKAPGRRARAAVLLAELPPPPEEPAGPADPTAPVLAPPPQFSDRVRVVAALPKLAHLQ

Target ORF information:

RefSeq Version	XM_022271292.1
Organism	Pieris rapae(cabbage white)
Definition	Pieris rapae SH3 and multiple ankyrin repeat domains protein 3 (LOC111001399), transcript variant X2, mRNA.

Target ORF information:

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

XM_022271292.1

ORF Insert Sequence:

ATGCTTAAAC TTGATGAGAA GACGTTAAAA GCGCTCCACT CCCGCGCAAA TCTCCGCCGA 
TTCCTGGAGA ATGTGCAACA CGGACAGATC GACAAAATAA CTAAAGCCTG TGCCAAGGGC 
CTAGACCCAA ACTTCCATTG TCAGGAGACT GGTGAAACCC CCTTATCCAT AGCGGCCGGC 
CTAAAGACAC CTGCAAAAAT CTTAATCGCC CTTGTCAATG GCGGGGCCTT GCTCGATTAC 
CGAACAAAGG ATGGAAGCAC CTCCATGCAC AGAGCTGTTG AAAAGAACTC ACTAGAAGCT 
GTGAAAACCC TGCTAGAACT TGGCGCGTCA CCTAATTATA AAGATGGCAA GGGATTAACG 
CCCTTGTACC TCTCTGTGAC AAACAAAACT GATCCGTTAT TGTGTGAAAC GCTTCTTCAT 
GATCACGCAA CTATTGGGGC TACCGATTTG CAGGGATGGC AGGAAGTGCA TCAGGCGTGT 
CGTAACGGTC TGGTCCAACA TCTGGACCAT CTTTTATTCT ACGGAGCTGA TATGAACAGT 
CGTAATGCTT CTGGCAACAC GCCGCTTCAC GTGTGTGCAG TCAACGCACA AGACTCATGC 
GCACGACAAC TACTCTTCAG GGGCTGCGAC AAGGAGTCCT TGAATTATGC TAACCAGACA 
CCGTATCAGG TTGCCGTAAT AGCTGGAAAT TTAGAATTAG CTGAGGTTAT AAAGAATTAC 
AAAACGGACG AAGTCGTTCC GTTTCGTGGC CCGCCGCGGT TTAACCCGAA GAGACGGTCG 
GCCGCTTGGG GCGGATGGTG GAGCGCCGGA GATAGGTCCT CCTTGGCCTC GTCGACTCGC 
ATTCCGGCTG ACCTTGATGC CTTACTGCGA CGGCCTCAGG GCTCAACCAA CTCGCCTTGC 
AGCCTCGAAC GACCATTCTC GTCCGCATCA TCAAGCATTA GTGACGCGAG CCACCCGAGC 
CACGAAGACG ACGCGAGCAT CATCACAGGG CGACCCATGT TGACAGATAA GAGCCTGGGC 
GACACTAGCG ACATCATCTC GGACTCGAGT GGGGTTGGCA CCAGCAATTC GGACACTACC 
ACGTGTTCGC TGCAGGCGCC GGGTGCTACA CTTGTATGTC TACAGCCCTA TGAGCCCACA 
CAGTCTGGTC ATGTAAGACT GAATCAGGGA GACATCATTG AAGTAACGGG TTCGACAGAC 
GATGGTTTCC TTGAGGGTCG GGTCCGAGGG TCTGGAGCTA CAGGGCTGTT CCCTCCGCAC 
TGCGTGCAAG AAGTCCGCTT GAGACAAAAC GCACATATAC ACCAGGTTTC TTCAAATACT 
GTACACCACT CTCGTGTCAG TGGTCGGAGA GAGGTGGGCC TCAGTAAGAC TTACAGTGCT 
ACAGCGCCCA GAGTTAAGAA AACGTATGGA AACATGGAAA CACGAACCGT GGTGCTGCAC 
CGAGCCCGTC GAGGCTTCGG TTTTGTACTT CGCGGAGCGA AGGCTTCGTC ACCACTAATG 
GAGCTTCGCC CCTCAGAGCG ATGTCCTGGA CTACAGTATC TAGACGATGT GGATGCTGGC 
GGCGTTGCTG ATAGAGCAGG ATTGAAAAAG GGAGATTTTC TCATAGCGAT AAACGGCGAA 
GATGTGTCAG GCGCGTCCCA TGAGCACGTA GTGGAGCTGA TTCGAGGTTC TGGTGCTCTG 
GTCTCCATGA CCGTTGTATC GCTGAGCTCA GTAGCCACGG AAACTTGTGT GGTCCCCCCG 
AGCAAGTCTC AGGGTCAGCT GTCTACCAGC GGACGACCCT ATGCTGCTAC ACTGCCTAGG 
AAGGGTGCTG GAGGTCGTAG TCCTGCGCCG GCGCCGCCCC GTCGCGACCC ACGCACTACG 
CTTAGCGTTG GTCGCGCGAG AGCCAAGTCT ATGGTTGCGG GGCTTGAAAA TGGCGGCGAA 
AAGGAAGAGT CCTGTGAGCC ACTGAGTGTA GCCGGAAAAT CGTCTTCAGC AGAATCTGTA 
CAATTACACC CCGGAAGTAA TAATGGCACC CCTTGTCTTG GTACACCAGT AGCGCCTCGT 
ACAGCCAGCA TTCGACAACG ACCAGCCTCC TCTCGTATCA CAGCATCTGA GTTAGAAGAA 
CTATTCCAAC GACAAGCTGG GGCTGACGCC GCGGGTGGCA GCAGCGCAAT GATGACTCGA 
TCTGCATTCC AAGACGGATG CGCGTCGCCT GGAGGATCGC CTGCCCGAAT CCCAACAAGG 
GTCTATGCTT CCGTCGCTGA CATGAAGAGA GCTAAGGGCA AGTTCTGGAG CAAGTCAGCC 
AGCATCAGTG CGGGCGGCAG CGCGACACTT AGACGCGAGT TCCACTCGAC TCCTGACTTG 
GCCGCTGCGC TCGCCGCACG CCCCACACGA ACGCGCTCTA GTGAAGACGT ACACGCTAAT 
GATATGTCCC GTGCTCCCCC ACCACCCTCT GCGCCCGCGC CTCCGCCCCC TGGGGCCGTG 
ACGTCATCGT TCCGTCCGGC GGCGCCCGCT AAGCTATATG CGGCGCCTAA AGACCTCGCC 
CAGGTTGCAT ACAGGCCGCA CACTGAGCAA CCTCGTAAAG CTGTACGCGG CTGGTCACGC 
GCTTTATCAG CTGAAGAAAG CTCTCACCAA TACGCGCAGC CAATCGCTCT GCACAAGACC 
TTTGCGAGAC AGAACTCAAC ACCCGCACCC CCTATCCCAG AGCCGGACTA TAGCATGTCA 
GAGTCTGATG AGGACGAACA CAAGCTTAAA GCAGACCCAC CCGTCGCGGA GACCAGCGCT 
AACAGCAATA CCAGCGGCAG CAGTTCCGGA TCGAGTTCCA TGCAGCACTC GTTCTCTGTG 
GACGAAATAC AAAAGATTAG AACGCGACTT AAATCGTCCA AGTCCTGCGG TGACGAACTC 
GGTATCGCCG AGAGAGACGA CGGCGACAAT TCATCCTCTG GAGTCTCATC CGACCAAGAA 
GCTCAAGCGC GTCCACCGAG ACGAGACAAA GTGTCTTTCT GCAGCTCGGT CACAGTGAAG 
TCCTCAAACG ATGTGATCAG CACGGAACCC GTGCACAGTT CGTCCGAAAG CCTCGCGACC 
CCTCCCCCTC CCATGCAGAG GCATAATTCC CTCACGCGGA AAAGAGCGAC GGCGGCGCTC 
TTGCGAGGGA CGGTGGGCAG CGCGCGAGGG AGGTCAGCAG CCGAGCGTCT GGGAGTGGAC 
ATAGATAAAG CGCCAGGTCG GAGGGCTCGC GCCGCCGTGC TTCTGGCTGA ACTGCCCCCG 
CCCCCCGAGG AGCCCGCGGG CCCGGCGGAC CCCACGGCCC CGGTGCTGGC GCCGCCCCCA 
CAGTTCAGTG ATCGGGTGCG AGTAGTCGCC GCTCTGCCTA AGTTGGCTCA TCTGCAGTAA

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

PubMed

Genomic adaptation to agricultural environments: cabbage white butterflies (Pieris rapae) as a case study.
BMC genomics18(1)412(2017 May)
Sikkink KL,Kobiela ME,Snell-Rood EC

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オンライン注文

LOC111001399 cDNA ORF clone, Pieris rapae(cabbage white)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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見積依頼

Eメール

電話

FAX

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