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LOC9302245 cDNA ORF clone, Arabidopsis lyrata subsp. lyrata

Summary

Gene Symbol LOC9302245
Entrez Gene ID 9302245
Full Name receptor-like serine/threonine-protein kinase ALE2
Gene Type protein-coding
Organism Arabidopsis lyrata subsp. lyrata

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_002866125.1 XP_002866171.1 hypothetical protein
XM_002866125.2 XP_002866171.1 receptor-like serine/threonine-protein kinase ALE2

Pathways from BioSystems


Gene Ontology

The following LOC9302245 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC9302245 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
OAa03659 XM_002866125.2
Latest version!		 Arabidopsis lyrata subsp. lyrata receptor-like serine/threonine-protein kinase ALE2 (LOC9302245), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
View Old Accession Versions >>
OAa03659 XM_002866125.1 Arabidopsis lyrata subsp. lyrata hypothetical protein, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
Hide Old Accession Versions >>

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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 OAa03659
Clone ID Related Accession (Same CDS sequence) XM_002866125.1 , XM_002866125.2
Accession Version XM_002866125.1 Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3330bp)
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 2010-06-10
Organism Arabidopsis lyrata subsp. lyrata
Product hypothetical protein
Comment PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003302548). 

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
ATGGAGATTT TGATTCTCCT CCTTTGGATC TGTCTTCTTT CGTCGGTTTT AGTTGTTGGT 
TCTTCTTCCT CTGGATTGGA TTTGTTACCT CCGTTATCAT CACCACCGTC TCCACTACCG 
GAAACTCCAA AAGGGTTTGG TCAAGCACCG AGTAATTCAC CTGAATCCGG CAATGTGCCG 
CCGTCTAAAG CTTCTCAACC GTCTCTTCCT CCTTTAGCTG ATGTGGCAGC TCCACCGCCG 
TCAGATTCCG CCGGAGGTAA TGCACCGGCC GGTGAGCCTA TTGTCTTGGT TCCTAATGCT 
CCAGCTCCAG CAGCAATACC CGTGAAGGAT TTGCCCGGAA CTTCGCCTCC GGTTCAACCC 
ATTACACCGG TTGCTTCACC ACCTCCATTC GTTCCAGGAG ATGCACCAAA GGAGCCTCCT 
TTCTCAGGAA GAGTTACTCC GGGCCCAATT TCATCCCCTG TTTCGGATAT TCCTCCAATT 
CCATCAGTGG CTCTATCTCC GCCTACACCG AGCATTGTAC CTCATAGAAA TGCCTCTAAC 
AATCACAAGC CTCCTATCGA AAAGCCTAGT GCTCCTGTTG CATCTCCACC AACGATATCT 
ATTGACATTT CACAGCCAGT CCATCCCGTC ATACCCAAGT TAACACCCTC TAGTTCACCT 
GTACCCACCT CGACTCCAAC TAAGGGATCT CCGAGAAGAA ATCCGCCAAC TACGCACCCA 
GTATTCCCCA TAGAATCTCC TGCCGTCTCA CCAGATCCTG CTGCAAATCC AGTAAAACAT 
CCACCACCCA GTGAGAATGG AGATGATAAC AAAAGTCCGG GTGCTGCACC CTCAAATGAA 
ACTGCTAAAC CCTTACCTGT CTTCCCACAT AAAGCTCCTC CTCCTTCGAT AGCTCCCTCA 
GCCCCAAAAT TCAACAGACA CTCACATCAT ACATCTCCAT CTACTACTCC ACCGCCAGAT 
TCTACTCCGA GTAATGTACA CCGCCATCCT TCATCATCAT CTCCTCCTCC TCCTCTATCT 
TCACACCATC AACATCATCA AGAACGAAAG AAAATCACAA ATAGTCCAGC TCCTTCGTCA 
CCACCACCGC ACCTCATATC TCCAAAGAAG TCAAACCGTA AAGGTTTAAT GACTCCTCCT 
CCATCATCAC ATTATGCTCC TTCTCCTCCC ATTCCTGCTT CTTTGATTTC TCCTGCTCAC 
GCTCCAATCC CTTCCACTAT GCAACGCATC TCCCCGGCTC CATCACCTTC TCCAACCCAA 
GTGTTTCCTC TCAGGTCCTC TTCAAGACCT TCAAAATCTC GGAAATTCCC ACTCGGTCCA 
CCGCTTCAAG CATTTCCCCC TCCTCCCCCT AATTCAGATT GTACTTCAAC TATTTGCTTG 
GAACCGTACA CAAACACACC TCCAGGATCT CCATGTGGCT GTGTCTGGCC AATTCAGGTT 
GAGCTACGGC TTAGCATGGC GCTCTACGAC TTCTTCCCAA TGGTTTCAGA ATTTGCTCGA 
GAAATCAGCG CGGGGGTTTT CATGAAACAG AGCCAAGTCC GTATAATGGG AGCTAACGCG 
GCTAGCGAAC AACCTGACAA ATCCATTGTT CTTATCGATT TAGTCCCGCT TGGTGATAAA 
TTTGATAACT TGACCGCAAT GGTGACTTAT CAGAGATTCT GGAGTAAAAA TGTCTATATA 
GATGAACCAA TCTTTGGCGG ATACGATGTG ATTTACGTGC GTTATCCTGG TTTACCGGCT 
TCCCCGCCAA CTTCCGGTAT GACCATTATA GATCCAGGGC CATACTCTGG TAATAATAAC 
GGAAGGGCAA TCAAACCACT CGGAGTTGAT GTTCCAAAGA AGCCGCACAA GAAAGATCTC 
AATGCTGGAA GTATTGCTGT GATTGTTTTA TCGGCAGCTG CTTTTATCGG TTTATGTTTC 
ATTATTGTTT GGTTCTTGGT TTTCCGGCGA CAAAGAGATC GACGGCGTCT TTCTAAAAGA 
GCACCACTTG CTCGCCCTTC ACTGCCTTCC CTCTCGAAAC CATCAGGCTC GGCGAGATCT 
TTAACTGGAA GCCGGTTTAG CTCAACTTCG TTGTCATTTG AATCCAGCAT TGCTCCGTTT 
ACTCTCTCTG CAAAGACATT CACCGCAAGC GAAATAATGA AAGCTACTAA TAACTTTGAT 
GAATCGAGGG TTCTTGGTGA AGGCGGATTT GGACGAGTTT ATGAAGGTGT TTTCGATGAC 
GGAACTAAAG TAGCAGTTAA GGTATTGAAG AGAGATGACC AGCAGGGTAG CCGAGAGTTC 
TTGGCCGAAG TGGAAATGCT TAGTCGTCTT CATCACAGAA ACCTCGTGAA TTTAATTGGT 
ATTTGTATCG AAGATCGTAA CCGTTCCCTG GTTTATGAAC TCATACCAAA TGGCAGCGTT 
GAATCTCACC TCCACGGAAT CGATAAAGAA TCTTCGCCTT TAGATTGGGA TGCTCGGTTG 
AAGATAGCTC TTGGTGCGGC CCGTGGTTTA GCGTATTTAC ATGAAGACTC AAGTCCGCGA 
GTTATACACA GAGACTTCAA GTCCAGCAAC ATCTTGCTTG AAAACGATTT CACACCTAAA 
GTCTCTGACT TTGGATTGGC TCGTAATGCC CTTGATGATG AAGATAACAG ACATATATCA 
ACACGCGTTA TGGGAACTTT TGGGTATGTG GCGCCGGAAT ATGCAATGAC GGGGCATCTT 
TTGGTGAAGA GTGATGTGTA TAGCTACGGA GTTGTGCTTC TCGAGCTACT TACAGGGCGG 
AAACCAGTGG ATATGTCTCA ACCACCCGGA CAGGAGAACT TAGTTTCATG GACTCGGTCT 
TTTCTTACGA GCACAGAAGG GCTTGCAGCT ATTATAGATC AGTCTTTAGG ACCCGAGATC 
TCATTCGATA GCATAGCTAA AGTCGCGGCG ATAGCTTCGA TGTGCGTTCA ACCGGAAGTA 
TCACACCGTC CTTTCATGGG AGAAGTAGTG CAAGCTTTGA AACTTGTCAG CAACGAATGC 
GATGAAGCTA AAGAACTCAA CTCTGCAACT TCAATCACTC AAGACGATTT TAGAGATGAC 
ACTCGAGCTG AGAGCTCTTG TGGTGAAGGC TCAGCGAGGA TGGCGCGGTA TCCATTGCTA 
CCGAATTACG ACTCTGAGCC TGACACAGAG AGAGGACTAT CTACATCGGA AATGTACTCG 
GGGTCAGGGA GGTTCGAGAG ACAGTCTAAC TCGGGTCCCT TGACCTCAGG TCGAGGCAAG 
AGGTTCTGGC AAAAGATGAG GAGATTATCA ACCGGAAGCT TGAGCGAGCA TGGAACACCA 
ACGGTGATGT TACGATCCGG TTCTCGTTGA

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

RefSeq XP_002866171.1
CDS107..3436
Translation

Target ORF information:

RefSeq Version XM_002866125.1
Organism Arabidopsis lyrata subsp. lyrata
Definition Arabidopsis lyrata subsp. lyrata hypothetical protein, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_002866125.1

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
ATGGAGATTT TGATTCTCCT CCTTTGGATC TGTCTTCTTT CGTCGGTTTT AGTTGTTGGT 
TCTTCTTCCT CTGGATTGGA TTTGTTACCT CCGTTATCAT CACCACCGTC TCCACTACCG 
GAAACTCCAA AAGGGTTTGG TCAAGCACCG AGTAATTCAC CTGAATCCGG CAATGTGCCG 
CCGTCTAAAG CTTCTCAACC GTCTCTTCCT CCTTTAGCTG ATGTGGCAGC TCCACCGCCG 
TCAGATTCCG CCGGAGGTAA TGCACCGGCC GGTGAGCCTA TTGTCTTGGT TCCTAATGCT 
CCAGCTCCAG CAGCAATACC CGTGAAGGAT TTGCCCGGAA CTTCGCCTCC GGTTCAACCC 
ATTACACCGG TTGCTTCACC ACCTCCATTC GTTCCAGGAG ATGCACCAAA GGAGCCTCCT 
TTCTCAGGAA GAGTTACTCC GGGCCCAATT TCATCCCCTG TTTCGGATAT TCCTCCAATT 
CCATCAGTGG CTCTATCTCC GCCTACACCG AGCATTGTAC CTCATAGAAA TGCCTCTAAC 
AATCACAAGC CTCCTATCGA AAAGCCTAGT GCTCCTGTTG CATCTCCACC AACGATATCT 
ATTGACATTT CACAGCCAGT CCATCCCGTC ATACCCAAGT TAACACCCTC TAGTTCACCT 
GTACCCACCT CGACTCCAAC TAAGGGATCT CCGAGAAGAA ATCCGCCAAC TACGCACCCA 
GTATTCCCCA TAGAATCTCC TGCCGTCTCA CCAGATCCTG CTGCAAATCC AGTAAAACAT 
CCACCACCCA GTGAGAATGG AGATGATAAC AAAAGTCCGG GTGCTGCACC CTCAAATGAA 
ACTGCTAAAC CCTTACCTGT CTTCCCACAT AAAGCTCCTC CTCCTTCGAT AGCTCCCTCA 
GCCCCAAAAT TCAACAGACA CTCACATCAT ACATCTCCAT CTACTACTCC ACCGCCAGAT 
TCTACTCCGA GTAATGTACA CCGCCATCCT TCATCATCAT CTCCTCCTCC TCCTCTATCT 
TCACACCATC AACATCATCA AGAACGAAAG AAAATCACAA ATAGTCCAGC TCCTTCGTCA 
CCACCACCGC ACCTCATATC TCCAAAGAAG TCAAACCGTA AAGGTTTAAT GACTCCTCCT 
CCATCATCAC ATTATGCTCC TTCTCCTCCC ATTCCTGCTT CTTTGATTTC TCCTGCTCAC 
GCTCCAATCC CTTCCACTAT GCAACGCATC TCCCCGGCTC CATCACCTTC TCCAACCCAA 
GTGTTTCCTC TCAGGTCCTC TTCAAGACCT TCAAAATCTC GGAAATTCCC ACTCGGTCCA 
CCGCTTCAAG CATTTCCCCC TCCTCCCCCT AATTCAGATT GTACTTCAAC TATTTGCTTG 
GAACCGTACA CAAACACACC TCCAGGATCT CCATGTGGCT GTGTCTGGCC AATTCAGGTT 
GAGCTACGGC TTAGCATGGC GCTCTACGAC TTCTTCCCAA TGGTTTCAGA ATTTGCTCGA 
GAAATCAGCG CGGGGGTTTT CATGAAACAG AGCCAAGTCC GTATAATGGG AGCTAACGCG 
GCTAGCGAAC AACCTGACAA ATCCATTGTT CTTATCGATT TAGTCCCGCT TGGTGATAAA 
TTTGATAACT TGACCGCAAT GGTGACTTAT CAGAGATTCT GGAGTAAAAA TGTCTATATA 
GATGAACCAA TCTTTGGCGG ATACGATGTG ATTTACGTGC GTTATCCTGG TTTACCGGCT 
TCCCCGCCAA CTTCCGGTAT GACCATTATA GATCCAGGGC CATACTCTGG TAATAATAAC 
GGAAGGGCAA TCAAACCACT CGGAGTTGAT GTTCCAAAGA AGCCGCACAA GAAAGATCTC 
AATGCTGGAA GTATTGCTGT GATTGTTTTA TCGGCAGCTG CTTTTATCGG TTTATGTTTC 
ATTATTGTTT GGTTCTTGGT TTTCCGGCGA CAAAGAGATC GACGGCGTCT TTCTAAAAGA 
GCACCACTTG CTCGCCCTTC ACTGCCTTCC CTCTCGAAAC CATCAGGCTC GGCGAGATCT 
TTAACTGGAA GCCGGTTTAG CTCAACTTCG TTGTCATTTG AATCCAGCAT TGCTCCGTTT 
ACTCTCTCTG CAAAGACATT CACCGCAAGC GAAATAATGA AAGCTACTAA TAACTTTGAT 
GAATCGAGGG TTCTTGGTGA AGGCGGATTT GGACGAGTTT ATGAAGGTGT TTTCGATGAC 
GGAACTAAAG TAGCAGTTAA GGTATTGAAG AGAGATGACC AGCAGGGTAG CCGAGAGTTC 
TTGGCCGAAG TGGAAATGCT TAGTCGTCTT CATCACAGAA ACCTCGTGAA TTTAATTGGT 
ATTTGTATCG AAGATCGTAA CCGTTCCCTG GTTTATGAAC TCATACCAAA TGGCAGCGTT 
GAATCTCACC TCCACGGAAT CGATAAAGAA TCTTCGCCTT TAGATTGGGA TGCTCGGTTG 
AAGATAGCTC TTGGTGCGGC CCGTGGTTTA GCGTATTTAC ATGAAGACTC AAGTCCGCGA 
GTTATACACA GAGACTTCAA GTCCAGCAAC ATCTTGCTTG AAAACGATTT CACACCTAAA 
GTCTCTGACT TTGGATTGGC TCGTAATGCC CTTGATGATG AAGATAACAG ACATATATCA 
ACACGCGTTA TGGGAACTTT TGGGTATGTG GCGCCGGAAT ATGCAATGAC GGGGCATCTT 
TTGGTGAAGA GTGATGTGTA TAGCTACGGA GTTGTGCTTC TCGAGCTACT TACAGGGCGG 
AAACCAGTGG ATATGTCTCA ACCACCCGGA CAGGAGAACT TAGTTTCATG GACTCGGTCT 
TTTCTTACGA GCACAGAAGG GCTTGCAGCT ATTATAGATC AGTCTTTAGG ACCCGAGATC 
TCATTCGATA GCATAGCTAA AGTCGCGGCG ATAGCTTCGA TGTGCGTTCA ACCGGAAGTA 
TCACACCGTC CTTTCATGGG AGAAGTAGTG CAAGCTTTGA AACTTGTCAG CAACGAATGC 
GATGAAGCTA AAGAACTCAA CTCTGCAACT TCAATCACTC AAGACGATTT TAGAGATGAC 
ACTCGAGCTG AGAGCTCTTG TGGTGAAGGC TCAGCGAGGA TGGCGCGGTA TCCATTGCTA 
CCGAATTACG ACTCTGAGCC TGACACAGAG AGAGGACTAT CTACATCGGA AATGTACTCG 
GGGTCAGGGA GGTTCGAGAG ACAGTCTAAC TCGGGTCCCT TGACCTCAGG TCGAGGCAAG 
AGGTTCTGGC AAAAGATGAG GAGATTATCA ACCGGAAGCT TGAGCGAGCA TGGAACACCA 
ACGGTGATGT TACGATCCGG TTCTCGTTGA

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

CloneID OAa03659
Clone ID Related Accession (Same CDS sequence) XM_002866125.1 , XM_002866125.2
Accession Version XM_002866125.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3330bp)
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 2017-05-10
Organism Arabidopsis lyrata subsp. lyrata
Product receptor-like serine/threonine-protein kinase ALE2
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003302548.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 11, 2017 this sequence version replaced XM_002866125.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Arabidopsis lyrata subsp. lyrata Annotation Release 101 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## 

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
ATGGAGATTT TGATTCTCCT CCTTTGGATC TGTCTTCTTT CGTCGGTTTT AGTTGTTGGT 
TCTTCTTCCT CTGGATTGGA TTTGTTACCT CCGTTATCAT CACCACCGTC TCCACTACCG 
GAAACTCCAA AAGGGTTTGG TCAAGCACCG AGTAATTCAC CTGAATCCGG CAATGTGCCG 
CCGTCTAAAG CTTCTCAACC GTCTCTTCCT CCTTTAGCTG ATGTGGCAGC TCCACCGCCG 
TCAGATTCCG CCGGAGGTAA TGCACCGGCC GGTGAGCCTA TTGTCTTGGT TCCTAATGCT 
CCAGCTCCAG CAGCAATACC CGTGAAGGAT TTGCCCGGAA CTTCGCCTCC GGTTCAACCC 
ATTACACCGG TTGCTTCACC ACCTCCATTC GTTCCAGGAG ATGCACCAAA GGAGCCTCCT 
TTCTCAGGAA GAGTTACTCC GGGCCCAATT TCATCCCCTG TTTCGGATAT TCCTCCAATT 
CCATCAGTGG CTCTATCTCC GCCTACACCG AGCATTGTAC CTCATAGAAA TGCCTCTAAC 
AATCACAAGC CTCCTATCGA AAAGCCTAGT GCTCCTGTTG CATCTCCACC AACGATATCT 
ATTGACATTT CACAGCCAGT CCATCCCGTC ATACCCAAGT TAACACCCTC TAGTTCACCT 
GTACCCACCT CGACTCCAAC TAAGGGATCT CCGAGAAGAA ATCCGCCAAC TACGCACCCA 
GTATTCCCCA TAGAATCTCC TGCCGTCTCA CCAGATCCTG CTGCAAATCC AGTAAAACAT 
CCACCACCCA GTGAGAATGG AGATGATAAC AAAAGTCCGG GTGCTGCACC CTCAAATGAA 
ACTGCTAAAC CCTTACCTGT CTTCCCACAT AAAGCTCCTC CTCCTTCGAT AGCTCCCTCA 
GCCCCAAAAT TCAACAGACA CTCACATCAT ACATCTCCAT CTACTACTCC ACCGCCAGAT 
TCTACTCCGA GTAATGTACA CCGCCATCCT TCATCATCAT CTCCTCCTCC TCCTCTATCT 
TCACACCATC AACATCATCA AGAACGAAAG AAAATCACAA ATAGTCCAGC TCCTTCGTCA 
CCACCACCGC ACCTCATATC TCCAAAGAAG TCAAACCGTA AAGGTTTAAT GACTCCTCCT 
CCATCATCAC ATTATGCTCC TTCTCCTCCC ATTCCTGCTT CTTTGATTTC TCCTGCTCAC 
GCTCCAATCC CTTCCACTAT GCAACGCATC TCCCCGGCTC CATCACCTTC TCCAACCCAA 
GTGTTTCCTC TCAGGTCCTC TTCAAGACCT TCAAAATCTC GGAAATTCCC ACTCGGTCCA 
CCGCTTCAAG CATTTCCCCC TCCTCCCCCT AATTCAGATT GTACTTCAAC TATTTGCTTG 
GAACCGTACA CAAACACACC TCCAGGATCT CCATGTGGCT GTGTCTGGCC AATTCAGGTT 
GAGCTACGGC TTAGCATGGC GCTCTACGAC TTCTTCCCAA TGGTTTCAGA ATTTGCTCGA 
GAAATCAGCG CGGGGGTTTT CATGAAACAG AGCCAAGTCC GTATAATGGG AGCTAACGCG 
GCTAGCGAAC AACCTGACAA ATCCATTGTT CTTATCGATT TAGTCCCGCT TGGTGATAAA 
TTTGATAACT TGACCGCAAT GGTGACTTAT CAGAGATTCT GGAGTAAAAA TGTCTATATA 
GATGAACCAA TCTTTGGCGG ATACGATGTG ATTTACGTGC GTTATCCTGG TTTACCGGCT 
TCCCCGCCAA CTTCCGGTAT GACCATTATA GATCCAGGGC CATACTCTGG TAATAATAAC 
GGAAGGGCAA TCAAACCACT CGGAGTTGAT GTTCCAAAGA AGCCGCACAA GAAAGATCTC 
AATGCTGGAA GTATTGCTGT GATTGTTTTA TCGGCAGCTG CTTTTATCGG TTTATGTTTC 
ATTATTGTTT GGTTCTTGGT TTTCCGGCGA CAAAGAGATC GACGGCGTCT TTCTAAAAGA 
GCACCACTTG CTCGCCCTTC ACTGCCTTCC CTCTCGAAAC CATCAGGCTC GGCGAGATCT 
TTAACTGGAA GCCGGTTTAG CTCAACTTCG TTGTCATTTG AATCCAGCAT TGCTCCGTTT 
ACTCTCTCTG CAAAGACATT CACCGCAAGC GAAATAATGA AAGCTACTAA TAACTTTGAT 
GAATCGAGGG TTCTTGGTGA AGGCGGATTT GGACGAGTTT ATGAAGGTGT TTTCGATGAC 
GGAACTAAAG TAGCAGTTAA GGTATTGAAG AGAGATGACC AGCAGGGTAG CCGAGAGTTC 
TTGGCCGAAG TGGAAATGCT TAGTCGTCTT CATCACAGAA ACCTCGTGAA TTTAATTGGT 
ATTTGTATCG AAGATCGTAA CCGTTCCCTG GTTTATGAAC TCATACCAAA TGGCAGCGTT 
GAATCTCACC TCCACGGAAT CGATAAAGAA TCTTCGCCTT TAGATTGGGA TGCTCGGTTG 
AAGATAGCTC TTGGTGCGGC CCGTGGTTTA GCGTATTTAC ATGAAGACTC AAGTCCGCGA 
GTTATACACA GAGACTTCAA GTCCAGCAAC ATCTTGCTTG AAAACGATTT CACACCTAAA 
GTCTCTGACT TTGGATTGGC TCGTAATGCC CTTGATGATG AAGATAACAG ACATATATCA 
ACACGCGTTA TGGGAACTTT TGGGTATGTG GCGCCGGAAT ATGCAATGAC GGGGCATCTT 
TTGGTGAAGA GTGATGTGTA TAGCTACGGA GTTGTGCTTC TCGAGCTACT TACAGGGCGG 
AAACCAGTGG ATATGTCTCA ACCACCCGGA CAGGAGAACT TAGTTTCATG GACTCGGTCT 
TTTCTTACGA GCACAGAAGG GCTTGCAGCT ATTATAGATC AGTCTTTAGG ACCCGAGATC 
TCATTCGATA GCATAGCTAA AGTCGCGGCG ATAGCTTCGA TGTGCGTTCA ACCGGAAGTA 
TCACACCGTC CTTTCATGGG AGAAGTAGTG CAAGCTTTGA AACTTGTCAG CAACGAATGC 
GATGAAGCTA AAGAACTCAA CTCTGCAACT TCAATCACTC AAGACGATTT TAGAGATGAC 
ACTCGAGCTG AGAGCTCTTG TGGTGAAGGC TCAGCGAGGA TGGCGCGGTA TCCATTGCTA 
CCGAATTACG ACTCTGAGCC TGACACAGAG AGAGGACTAT CTACATCGGA AATGTACTCG 
GGGTCAGGGA GGTTCGAGAG ACAGTCTAAC TCGGGTCCCT TGACCTCAGG TCGAGGCAAG 
AGGTTCTGGC AAAAGATGAG GAGATTATCA ACCGGAAGCT TGAGCGAGCA TGGAACACCA 
ACGGTGATGT TACGATCCGG TTCTCGTTGA

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

RefSeq XP_002866171.1
CDS527..3856
Translation

Target ORF information:

RefSeq Version XM_002866125.2
Organism Arabidopsis lyrata subsp. lyrata
Definition Arabidopsis lyrata subsp. lyrata receptor-like serine/threonine-protein kinase ALE2 (LOC9302245), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_002866125.2

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
ATGGAGATTT TGATTCTCCT CCTTTGGATC TGTCTTCTTT CGTCGGTTTT AGTTGTTGGT 
TCTTCTTCCT CTGGATTGGA TTTGTTACCT CCGTTATCAT CACCACCGTC TCCACTACCG 
GAAACTCCAA AAGGGTTTGG TCAAGCACCG AGTAATTCAC CTGAATCCGG CAATGTGCCG 
CCGTCTAAAG CTTCTCAACC GTCTCTTCCT CCTTTAGCTG ATGTGGCAGC TCCACCGCCG 
TCAGATTCCG CCGGAGGTAA TGCACCGGCC GGTGAGCCTA TTGTCTTGGT TCCTAATGCT 
CCAGCTCCAG CAGCAATACC CGTGAAGGAT TTGCCCGGAA CTTCGCCTCC GGTTCAACCC 
ATTACACCGG TTGCTTCACC ACCTCCATTC GTTCCAGGAG ATGCACCAAA GGAGCCTCCT 
TTCTCAGGAA GAGTTACTCC GGGCCCAATT TCATCCCCTG TTTCGGATAT TCCTCCAATT 
CCATCAGTGG CTCTATCTCC GCCTACACCG AGCATTGTAC CTCATAGAAA TGCCTCTAAC 
AATCACAAGC CTCCTATCGA AAAGCCTAGT GCTCCTGTTG CATCTCCACC AACGATATCT 
ATTGACATTT CACAGCCAGT CCATCCCGTC ATACCCAAGT TAACACCCTC TAGTTCACCT 
GTACCCACCT CGACTCCAAC TAAGGGATCT CCGAGAAGAA ATCCGCCAAC TACGCACCCA 
GTATTCCCCA TAGAATCTCC TGCCGTCTCA CCAGATCCTG CTGCAAATCC AGTAAAACAT 
CCACCACCCA GTGAGAATGG AGATGATAAC AAAAGTCCGG GTGCTGCACC CTCAAATGAA 
ACTGCTAAAC CCTTACCTGT CTTCCCACAT AAAGCTCCTC CTCCTTCGAT AGCTCCCTCA 
GCCCCAAAAT TCAACAGACA CTCACATCAT ACATCTCCAT CTACTACTCC ACCGCCAGAT 
TCTACTCCGA GTAATGTACA CCGCCATCCT TCATCATCAT CTCCTCCTCC TCCTCTATCT 
TCACACCATC AACATCATCA AGAACGAAAG AAAATCACAA ATAGTCCAGC TCCTTCGTCA 
CCACCACCGC ACCTCATATC TCCAAAGAAG TCAAACCGTA AAGGTTTAAT GACTCCTCCT 
CCATCATCAC ATTATGCTCC TTCTCCTCCC ATTCCTGCTT CTTTGATTTC TCCTGCTCAC 
GCTCCAATCC CTTCCACTAT GCAACGCATC TCCCCGGCTC CATCACCTTC TCCAACCCAA 
GTGTTTCCTC TCAGGTCCTC TTCAAGACCT TCAAAATCTC GGAAATTCCC ACTCGGTCCA 
CCGCTTCAAG CATTTCCCCC TCCTCCCCCT AATTCAGATT GTACTTCAAC TATTTGCTTG 
GAACCGTACA CAAACACACC TCCAGGATCT CCATGTGGCT GTGTCTGGCC AATTCAGGTT 
GAGCTACGGC TTAGCATGGC GCTCTACGAC TTCTTCCCAA TGGTTTCAGA ATTTGCTCGA 
GAAATCAGCG CGGGGGTTTT CATGAAACAG AGCCAAGTCC GTATAATGGG AGCTAACGCG 
GCTAGCGAAC AACCTGACAA ATCCATTGTT CTTATCGATT TAGTCCCGCT TGGTGATAAA 
TTTGATAACT TGACCGCAAT GGTGACTTAT CAGAGATTCT GGAGTAAAAA TGTCTATATA 
GATGAACCAA TCTTTGGCGG ATACGATGTG ATTTACGTGC GTTATCCTGG TTTACCGGCT 
TCCCCGCCAA CTTCCGGTAT GACCATTATA GATCCAGGGC CATACTCTGG TAATAATAAC 
GGAAGGGCAA TCAAACCACT CGGAGTTGAT GTTCCAAAGA AGCCGCACAA GAAAGATCTC 
AATGCTGGAA GTATTGCTGT GATTGTTTTA TCGGCAGCTG CTTTTATCGG TTTATGTTTC 
ATTATTGTTT GGTTCTTGGT TTTCCGGCGA CAAAGAGATC GACGGCGTCT TTCTAAAAGA 
GCACCACTTG CTCGCCCTTC ACTGCCTTCC CTCTCGAAAC CATCAGGCTC GGCGAGATCT 
TTAACTGGAA GCCGGTTTAG CTCAACTTCG TTGTCATTTG AATCCAGCAT TGCTCCGTTT 
ACTCTCTCTG CAAAGACATT CACCGCAAGC GAAATAATGA AAGCTACTAA TAACTTTGAT 
GAATCGAGGG TTCTTGGTGA AGGCGGATTT GGACGAGTTT ATGAAGGTGT TTTCGATGAC 
GGAACTAAAG TAGCAGTTAA GGTATTGAAG AGAGATGACC AGCAGGGTAG CCGAGAGTTC 
TTGGCCGAAG TGGAAATGCT TAGTCGTCTT CATCACAGAA ACCTCGTGAA TTTAATTGGT 
ATTTGTATCG AAGATCGTAA CCGTTCCCTG GTTTATGAAC TCATACCAAA TGGCAGCGTT 
GAATCTCACC TCCACGGAAT CGATAAAGAA TCTTCGCCTT TAGATTGGGA TGCTCGGTTG 
AAGATAGCTC TTGGTGCGGC CCGTGGTTTA GCGTATTTAC ATGAAGACTC AAGTCCGCGA 
GTTATACACA GAGACTTCAA GTCCAGCAAC ATCTTGCTTG AAAACGATTT CACACCTAAA 
GTCTCTGACT TTGGATTGGC TCGTAATGCC CTTGATGATG AAGATAACAG ACATATATCA 
ACACGCGTTA TGGGAACTTT TGGGTATGTG GCGCCGGAAT ATGCAATGAC GGGGCATCTT 
TTGGTGAAGA GTGATGTGTA TAGCTACGGA GTTGTGCTTC TCGAGCTACT TACAGGGCGG 
AAACCAGTGG ATATGTCTCA ACCACCCGGA CAGGAGAACT TAGTTTCATG GACTCGGTCT 
TTTCTTACGA GCACAGAAGG GCTTGCAGCT ATTATAGATC AGTCTTTAGG ACCCGAGATC 
TCATTCGATA GCATAGCTAA AGTCGCGGCG ATAGCTTCGA TGTGCGTTCA ACCGGAAGTA 
TCACACCGTC CTTTCATGGG AGAAGTAGTG CAAGCTTTGA AACTTGTCAG CAACGAATGC 
GATGAAGCTA AAGAACTCAA CTCTGCAACT TCAATCACTC AAGACGATTT TAGAGATGAC 
ACTCGAGCTG AGAGCTCTTG TGGTGAAGGC TCAGCGAGGA TGGCGCGGTA TCCATTGCTA 
CCGAATTACG ACTCTGAGCC TGACACAGAG AGAGGACTAT CTACATCGGA AATGTACTCG 
GGGTCAGGGA GGTTCGAGAG ACAGTCTAAC TCGGGTCCCT TGACCTCAGG TCGAGGCAAG 
AGGTTCTGGC AAAAGATGAG GAGATTATCA ACCGGAAGCT TGAGCGAGCA TGGAACACCA 
ACGGTGATGT TACGATCCGG TTCTCGTTGA

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

PubMed