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RELN cDNA ORF clone, Homo sapiens (human)

Gene Symbol RELN
Entrez Gene ID 5649
Full Name reelin
Synonyms ETL7, LIS2, PRO1598, RL
General protein information
Preferred Names
reelin
Names
reelin
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

7

7q22

Summary This gene encodes a large secreted extracellular matrix protein thought to control cell-cell interactions critical for cell positioning and neuronal migration during brain development. This protein may be involved in schizophrenia, autism, bipolar disorder, major depression and in migration defects associated with temporal lobe epilepsy. Mutations of this gene are associated with autosomal recessive lissencephaly with cerebellar hypoplasia. Two transcript variants encoding distinct isoforms have been identified for this gene. Other transcript variants have been described but their full length nature has not been determined. [provided by RefSeq, Jul 2008]. lac of sum
Disorder MIM:

600514

Disorder Html: Lissencephaly syndrome, Norman-Roberts type, 257320 (3)

mRNA and Protein(s)

mRNA Protein Name
NM_173054 NP_774959 reelin isoform b precursor
NM_005045 NP_005036 reelin isoform a precursor



Homo sapiens (human) RELN NP_005036.2
Pan troglodytes (chimpanzee) RELN XP_519291.3
Macaca mulatta (Rhesus monkey) RELN XP_001087945.1
Canis lupus familiaris (dog) RELN XP_849464.1
Bos taurus (cattle) RELN NP_001193387.1
Mus musculus (house mouse) Reln NP_035391.2
Rattus norvegicus (Norway rat) Reln NP_536319.2
Gallus gallus (chicken) RELN XP_425424.3
Danio rerio (zebrafish) reln NP_001233205.1
Xenopus (Silurana) tropicalis (western clawed frog) reln NP_001131084.1


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

The following RELN gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RELN 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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu22822 NM_173054 Homo sapiens reelin (RELN), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD Quote Price
OHu22578 NM_005045 Homo sapiens reelin (RELN), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD Quote Price

*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.


CloneID OHu22822
Clone ID Related Accession (Same CDS sequence) NM_173054
Accession Version NM_173054.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 10377bp)
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
Structure linear
Update Date 29-JUN-2015
Organism Homo sapiens (human)
Product reelin isoform b precursor
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC002067.2, KF458525.1, AC073208.4, AC005101.2, AC000121.1, AC006316.2 and AC005064.3. On Feb 19, 2009 this sequence version replaced gi:27436939. Transcript Variant: This variant (2) lacks an in-frame, 6 nt microexon in the coding region compared to variant 1, resulting in an isoform (b) that is 2 aa shorter than isoform a. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
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121
181
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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
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
ATGGAGCGCA GTGGCTGGGC CCGGCAGACT TTCCTCCTAG CGCTGTTGCT GGGGGCGACG 
CTGAGGGCGC GCGCGGCGGC TGGCTATTAC CCCCGCTTTT CGCCCTTCTT TTTCCTGTGC
ACCCACCACG GGGAGCTGGA AGGGGATGGG GAGCAGGGCG AGGTGCTCAT TTCCCTGCAT
ATTGCGGGCA ACCCCACCTA CTACGTTCCG GGACAAGAAT ACCATGTGAC AATTTCAACA
AGCACCTTTT TTGACGGCTT GCTGGTGACA GGACTATACA CATCTACAAG TGTTCAGGCA
TCACAGAGCA TTGGAGGTTC CAGTGCTTTC GGATTTGGGA TCATGTCTGA CCACCAGTTT
GGTAACCAGT TTATGTGCAG TGTGGTAGCC TCTCACGTGA GTCACCTGCC CACAACCAAC
CTCAGTTTCA TCTGGATTGC TCCACCTGCG GGCACAGGCT GTGTGAATTT CATGGCTACA
GCAACACACC GGGGCCAGGT TATTTTCAAA GATGCTTTAG CCCAGCAGTT GTGTGAACAA
GGAGCTCCAA CAGATGTCAC TGTGCACCCA CATCTAGCTG AAATACATAG TGACAGCATT
ATCCTGAGAG ATGACTTTGA CTCCTACCAC CAACTGCAAT TAAATCCAAA TATATGGGTT
GAATGTAACA ACTGTGAGAC TGGAGAACAG TGTGGCGCGA TTATGCATGG CAATGCCGTC
ACCTTCTGTG AACCATATGG CCCACGAGAA CTGATTACCA CAGGCCTTAA TACAACAACA
GCTTCTGTCC TCCAATTTTC CATTGGGTCA GGTTCATGTC GCTTTAGTTA TTCAGACCCC
AGCATCATCG TGTTATATGC CAAGAATAAC TCTGCGGACT GGATTCAGCT AGAGAAAATT
AGAGCCCCTT CCAATGTCAG CACAATCATC CATATCCTCT ACCTTCCTGA GGACGCCAAA
GGGGAGAATG TCCAATTTCA GTGGAAGCAG GAAAATCTTC GTGTAGGTGA AGTGTATGAA
GCCTGCTGGG CCTTAGATAA CATCTTGATC ATCAATTCAG CTCACAGACA AGTCGTTTTA
GAAGATAGTC TCGACCCAGT GGACACAGGC AACTGGCTTT TCTTCCCAGG AGCTACAGTT
AAGCATAGCT GTCAGTCAGA TGGGAACTCC ATTTATTTCC ATGGAAATGA AGGCAGCGAG
TTCAATTTTG CCACCACCAG GGATGTAGAT CTTTCCACAG AAGATATTCA AGAGCAATGG
TCAGAAGAAT TTGAGAGCCA GCCTACAGGA TGGGATGTCT TGGGAGCTGT CATTGGTACA
GAATGTGGAA CGATAGAATC AGGCTTATCA ATGGTCTTCC TCAAAGATGG AGAGAGGAAA
TTATGCACTC CATCCATGGA CACTACCGGT TATGGGAACC TGAGGTTTTA CTTTGTGATG
GGAGGAATTT GTGACCCTGG AAATTCTCAT GAAAATGACA TAATCCTGTA TGCAAAAATT
GAAGGAAGAA AAGAGCATAT AACACTGGAT ACCCTTTCCT ATTCCTCATA TAAGGTTCCG
TCTTTGGTTT CTGTGGTCAT CAATCCTGAA CTTCAGACTC CTGCTACCAA ATTTTGTCTC
AGGCAAAAGA ACCATCAAGG ACATAATAGG AATGTCTGGG CTGTAGACTT TTTCCATGTC
TTGCCTGTTC TCCCTTCTAC AATGTCTCAC ATGATACAGT TTTCCATCAA TCTGGGATGT
GGAACGCATC AGCCTGGTAA CAGTGTCAGC TTGGAATTTT CTACCAACCA TGGGCGCTCC
TGGTCCCTCC TTCACACTGA ATGCTTACCT GAGATCTGTG CTGGACCCCA CCTCCCCCAC
AGCACTGTCT ACTCCTCTGA AAACTACAGT GGGTGGAACC GAATAACAAT TCCCCTTCCT
AACGCAGCAC TAACCCGGAA CACCAGGATT CGCTGGAGAC AAACAGGACC AATCCTTGGA
AACATGTGGG CAATTGATAA TGTTTATATT GGCCCGTCAT GTCTCAAATT CTGTTCTGGC
AGAGGACAGT GCACTAGACA TGGTTGCAAG TGTGACCCTG GATTTTCTGG CCCAGCTTGT
GAGATGGCAT CCCAGACATT CCCAATGTTT ATTTCTGAAA GCTTTGGCAG TTCCAGGCTC
TCCTCTTACC ATAACTTTTA CTCTATCCGT GGTGCTGAAG TCAGCTTTGG TTGTGGTGTC
TTGGCCAGTG GTAAGGCCCT GGTTTTCAAC AAAGATGGGC GGCGTCAGCT AATTACATCT
TTCCTTGACA GCTCACAATC CAGGTTTCTC CAGTTCACAC TGAGACTGGG GAGCAAATCT
GTTCTGAGCA CGTGCAGAGC CCCTGATCAG CCTGGTGAAG GAGTTTTGTT GCATTATTCT
TATGATAATG GGATAACTTG GAAACTCCTG GAGCATTATT CATATCTCAG CTATCATGAG
CCCAGAATAA TCTCCGTAGA ACTACCAGGT GATGCAAAGC AGTTTGGAAT TCAGTTCAGA
TGGTGGCAAC CGTATCATTC TTCCCAGAGA GAAGATGTAT GGGCTATTGA TGAGATTATC
ATGACATCTG TGCTTTTCAA CAGCATTAGT CTTGACTTTA CCAATCTTGT GGAGGTCACT
CAGTCTCTGG GATTCTACCT TGGAAATGTT CAGCCATACT GTGGCCACGA CTGGACCCTT
TGTTTTACAG GAGATTCTAA ACTTGCCTCA AGTATGCGCT ATGTGGAAAC ACAATCAATG
CAGATAGGAG CATCCTATAT GATTCAGTTC AGTTTGGTGA TGGGATGTGG CCAGAAATAC
ACCCCACACA TGGACAACCA GGTGAAGCTG GAGTACTCAA CCAACCACGG CCTTACCTGG
CACCTCGTCC AAGAAGAATG CCTTCCAAGT ATGCCAAGTT GTCAGGAATT TACATCAGCA
AGTATTTACC ATGCCAGTGA GTTTACACAG TGGAGGAGAG TCATAGTGCT TCTTCCCCAG
AAAACTTGGT CCAGTGCTAC CCGTTTCCGC TGGAGCCAGA GCTATTACAC AGCTCAAGAC
GAGTGGGCTT TGGACAGCAT TTACATTGGG CAGCAGTGCC CCAACATGTG CAGTGGGCAT
GGCTCATGCG ATCATGGCAT ATGCAGGTGT GACCAGGGGT ACCAAGGCAC TGAATGCCAC
CCAGAAGCTG CCCTTCCGTC CACAATTATG TCAGATTTTG AGAACCAGAA TGGCTGGGAG
TCTGACTGGC AAGAAGTTAT TGGGGGAGAA ATTGTAAAAC CAGAACAAGG GTGTGGTGTC
ATCTCTTCTG GATCATCTCT GTACTTCAGC AAGGCTGGGA AAAGACAGCT GGTGAGTTGG
GACCTGGATA CTTCTTGGGT GGACTTTGTC CAGTTCTACA TCCAGATAGG CGGAGAGAGT
GCTTCATGCA ACAAGCCTGA CAGCAGAGAG GAGGGCGTCC TCCTTCAGTA CAGCAACAAT
GGGGGCATCC AGTGGCACCT GCTAGCAGAG ATGTACTTTT CAGACTTCAG CAAACCCAGA
TTTGTCTATC TGGAGCTTCC AGCTGCTGCC AAGACCCCTT GCACCAGGTT CCGCTGGTGG
CAGCCCGTGT TCTCAGGGGA GGACTATGAC CAGTGGGCAG TCGATGACAT CATCATTCTG
TCCGAGAAGC AGAAGCAGAT CATCCCAGTT ATCAATCCAA CTTTACCTCA GAACTTTTAT
GAGAAGCCAG CTTTTGATTA CCCTATGAAT CAGATGAGTG TGTGGTTGAT GTTGGCTAAT
GAAGGAATGG TTAAAAATGA AACCTTCTGT GCTGCCACAC CATCAGCAAT GATATTTGGA
AAATCAGATG GAGATCGATT TGCAGTAACT CGAGATTTGA CCCTGAAACC TGGATATGTG
CTACAGTTCA AGCTAAACAT AGGTTGTGCC AATCAATTCA GCAGTACTGC TCCAGTTCTT
CTTCAGTACT CTCATGATGC TGGTATGTCC TGGTTTCTGG TGAAAGAAGG CTGTTACCCG
GCTTCTGCAG GCAAAGGATG CGAAGGAAAC TCCAGAGAAC TAAGTGAGCC CACCATGTAT
CACACAGGGG ACTTTGAAGA ATGGACAAGA ATCACCATTG TTATTCCAAG GTCTCTTGCA
TCCAGCAAGA CCAGATTCCG ATGGATCCAG GAGAGCAGCT CACAGAAAAA CGTGCCTCCA
TTTGGTTTAG ATGGAGTGTA CATATCCGAG CCTTGTCCCA GTTACTGCAG TGGCCATGGG
GACTGCATTT CAGGAGTGTG TTTCTGTGAC CTGGGATATA CTGCTGCACA AGGAACCTGT
GTGTCAAATG TCCCCAATCA CAATGAGATG TTCGATAGGT TTGAGGGGAA GCTCAGCCCT
CTGTGGTACA AGATAACAGG TGCCCAGGTT GGAACTGGCT GTGGAACACT TAACGATGGC
AAATCTCTCT ACTTCAATGG CCCTGGGAAA AGGGAAGCCC GGACGGTCCC TCTGGACACC
AGGAATATCA GACTTGTTCA ATTTTATATA CAAATTGGAA GCAAAACTTC AGGCATTACC
TGCATCAAAC CAAGAACTAG AAATGAAGGG CTTATTGTTC AGTATTCAAA TGACAATGGG
ATACTCTGGC ATTTGCTTCG AGAGTTGGAC TTCATGTCCT TCCTGGAACC ACAGATCATT
TCCATTGACC TGCCACAGGA CGCGAAGACA CCTGCAACGG CATTTCGATG GTGGCAACCG
CAACATGGGA AGCATTCAGC CCAGTGGGCT TTGGATGATG TTCTTATAGG AATGAATGAC
AGCTCTCAAA CTGGATTTCA AGACAAATTT GATGGCTCTA TAGATTTGCA AGCCAACTGG
TATCGAATCC AAGGAGGTCA AGTTGATATT GACTGTCTCT CTATGGATAC TGCTCTGATA
TTCACTGAAA ACATAGGAAA ACCTCGTTAT GCTGAGACCT GGGATTTTCA TGTGTCAGCA
TCTACCTTTT TGCAGTTTGA AATGAGCATG GGCTGTAGCA AGCCCTTCAG CAACTCCCAC
AGTGTACAGC TCCAGTATTC TCTGAACAAT GGCAAGGACT GGCATCTTGT CACCGAAGAG
TGTGTTCCTC CAACCATTGG CTGTCTGCAT TACACGGAAA GTTCAATTTA CACCTCGGAA
AGATTCCAGA ATTGGAAGCG GATCACTGTC TACCTTCCAC TCTCCACCAT TTCTCCCAGG
ACCCGGTTCA GATGGATTCA GGCCAACTAC ACTGTGGGGG CTGATTCCTG GGCGATTGAT
AATGTTGTAC TGGCCTCAGG GTGCCCTTGG ATGTGCTCAG GACGAGGGAT TTGTGATGCT
GGACGCTGTG TGTGTGACCG GGGCTTTGGT GGACCCTATT GTGTTCCTGT TGTTCCTCTG
CCCTCGATTC TTAAAGACGA TTTCAATGGG AATTTACATC CTGACCTTTG GCCTGAAGTG
TATGGTGCAG AGAGGGGGAA TCTGAATGGT GAAACCATCA AATCTGGAAC ATCTCTAATT
TTTAAAGGGG AAGGACTAAG GATGCTTATT TCAAGAGATC TAGATTGTAC AAATACAATG
TATGTCCAGT TTTCACTTAG ATTTATAGCA AAAAGTACCC CAGAGAGATC TCACTCTATT
CTGTTACAAT TCTCCATCAG TGGAGGAATC ACTTGGCACC TGATGGATGA ATTTTACTTT
CCTCAAACAA CGAATATACT TTTCATCAAT GTTCCCTTGC CATACACTGC CCAAACCAAT
GCTACAAGAT TCAGACTCTG GCAACCTTAT AATAACGGTA AGAAAGAAGA AATCTGGATT
GTTGATGACT TCATTATCGA TGGAAATAAT GTAAACAACC CTGTGATGCT CTTGGATACA
TTTGATTTTG GGCCCAGAGA AGACAATTGG TTTTTCTATC CTGGTGGTAA CATCGGTCTT
TATTGTCCAT ATTCTTCAAA GGGGGCACCT GAAGAAGATT CAGCTATGGT GTTTGTTTCA
AATGAAGTTG GTGAGCATTC CATTACCACC CGTGACCTAA ATGTGAATGA GAACACCATC
ATACAATTTG AGATCAACGT TGGCTGTTCG ACTGATAGCT CATCCGCGGA TCCAGTGAGA
CTGGAATTTT CAAGGGACTT CGGGGCGACC TGGCACCTTC TGCTGCCCCT CTGCTACCAC
AGCAGCAGCC ACGTCAGCTC TTTATGCTCC ACCGAGCACC ACCCCAGCAG CACCTACTAC
GCAGGAACCA TGCAGGGCTG GAGGAGGGAG GTCGTGCACT TTGGGAAGCT GCACCTTTGT
GGATCTGTCC GTTTCAGATG GTACCAGGGA TTTTACCCTG CCGGCTCTCA GCCAGTGACA
TGGGCCATTG ATAATGTCTA CATCGGTCCC CAGTGTGAGG AGATGTGTAA TGGACAGGGG
AGCTGTATCA ATGGAACCAA ATGTATATGT GACCCTGGCT ACTCAGGTCC AACCTGTAAA
ATAAGCACCA AAAATCCTGA TTTTCTCAAA GATGATTTCG AAGGTCAGCT AGAATCTGAT
AGATTCTTAT TAATGAGTGG TGGGAAACCA TCTCGAAAGT GTGGAATCCT TTCTAGTGGA
AACAACCTCT TTTTCAATGA AGATGGCTTG CGCATGTTGA TGACACGAGA CCTGGATTTA
TCACATGCTA GATTTGTGCA GTTCTTCATG AGACTGGGAT GTGGTAAAGG CGTTCCTGAC
CCCAGGAGTC AACCCGTGCT CCTACAGTAT TCTCTCAACG GTGGCCTCTC GTGGAGTCTT
CTTCAGGAGT TCCTTTTCAG CAATTCCAGC AATGTGGGCA GGTACATTGC CCTGGAGATA
CCCTTGAAAG CCCGTTCTGG TTCTACTCGC CTTCGCTGGT GGCAACCGTC TGAGAATGGG
CACTTCTACA GCCCCTGGGT TATCGATCAG ATTCTTATTG GAGGAAATAT TTCTGGTAAT
ACGGTCTTGG AAGATGATTT CACAACCCTT GATAGTAGGA AATGGCTGCT TCACCCAGGA
GGCACCAAGA TGCCCGTGTG TGGCTCTACT GGTGATGCCC TGGTCTTCAT TGAAAAGGCC
AGCACCCGTT ACGTGGTCAG CACAGACGTT GCCGTGAATG AGGATTCCTT CCTACAGATA
GACTTCGCTG CCTCCTGCTC AGTCACAGAC TCTTGTTATG CGATTGAATT GGAATACTCA
GTAGATCTTG GATTGTCATG GCACCCATTG GTAAGGGACT GTCTGCCTAC CAATGTGGAA
TGCAGTCGCT ATCATCTGCA ACGGATCCTG GTGTCAGACA CTTTCAACAA GTGGACTAGA
ATCACTCTGC CTCTCCCTCC TTATACCAGG TCCCAAGCCA CTCGTTTCCG TTGGCATCAA
CCAGCTCCTT TTGACAAGCA GCAGACATGG GCAATAGATA ATGTCTATAT CGGGGATGGC
TGCATAGACA TGTGCAGTGG CCATGGGAGA TGCATCCAGG GAAACTGCGT CTGTGATGAA
CAGTGGGGTG GCCTGTACTG TGATGACCCC GAGACCTCTC TTCCAACCCA ACTCAAAGAC
AACTTCAATC GAGCTCCATC CAGTCAGAAC TGGCTGACTG TGAACGGAGG GAAATTGAGT
ACAGTGTGTG GAGCCGTGGC GTCGGGAATG GCTCTCCATT TCAGTGGGGG TTGTAGTCGA
TTATTAGTCA CTGTGGATCT AAACCTCACT AATGCTGAGT TCATCCAATT TTACTTCATG
TATGGGTGCC TGATTACACC AAACAACCGT AACCAAGGTG TTCTCTTGGA ATATTCTGTC
AATGGAGGCA TTACCTGGAA CCTGCTCATG GAGATTTTCT ATGACCAGTA CAGTAAGCCC
GGATTTGTGA ATATCCTTCT CCCTCCTGAT GCTAAAGAGA TTGCCACTCG CTTCCGCTGG
TGGCAGCCAA GACATGACGG CCTGGATCAG AACGACTGGG CCATTGACAA TGTCCTCATC
TCAGGCTCTG CTGACCAAAG GACCGTTATG CTGGACACCT TCAGCAGCGC CCCAGTACCC
CAGCATGAGC GCTCCCCTGC AGATGCCGGC CCTGTCGGGA GGATCGCCTT TGACATGTTT
ATGGAAGACA AAACTTCAGT GAATGAGCAC TGGCTATTCC ATGATGATTG TACAGTAGAA
AGATTCTGTG ACTCCCCTGA TGGTGTGATG CTCTGTGGCA GTCATGATGG ACGGGAGGTG
TATGCAGTGA CCCATGACCT GACTCCCACT GAAGGCTGGA TTATGCAATT CAAGATCTCA
GTTGGATGTA AGGTGTCTGA AAAAATTGCC CAGAATCAAA TTCATGTGCA GTATTCTACT
GACTTCGGTG TGAGTTGGAA TTATCTGGTC CCTCAGTGCT TGCCTGCTGA CCCAAAATGC
TCTGGAAGTG TTTCTCAGCC ATCTGTATTC TTTCCAACTA AAGGGTGGAA AAGGATCACC
TACCCACTTC CTGAAAGCTT AGTGGGAAAT CCGGTAAGGT TTAGGTTCTA TCAGAAGTAC
TCAGACATGC AGTGGGCAAT CGATAATTTC TACCTGGGCC CTGGATGCTT GGACAACTGC
AGGGGCCATG GAGATTGCTT AAGGGAACAG TGCATCTGTG ATCCGGGATA CTCAGGGCCA
AACTGCTACT TGACCCACAC TCTGAAGACT TTCCTGAAGG AACGCTTTGA CAGTGAAGAA
ATCAAACCTG ACTTATGGAT GTCCTTAGAA GGTGGAAGTA CTTGCACTGA GTGTGGAATT
CTTGCCGAGG ACACTGCACT CTATTTTGGG GGATCCACTG TGAGACAAGC GGTTACACAA
GATTTGGATC TTCGAGGTGC AAAGTTCCTG CAATACTGGG GGCGCATCGG TAGTGAGAAC
AACATGACCT CTTGCCATCG TCCCATCTGC CGGAAGGAAG GCGTGCTGTT GGACTACTCT
ACCGATGGAG GAATTACCTG GACTTTGCTC CATGAGATGG ATTACCAGAA ATACATTTCT
GTTAGACACG ACTACATACT TCTTCCTGAA GATGCCCTCA CCAACACAAC TCGACTTCGC
TGGTGGCAGC CTTTTGTGAT CAGCAATGGA ATTGTGGTCT CTGGGGTGGA GCGTGCTCAG
TGGGCACTGG ACAACATTTT GATTGGTGGA GCAGAAATCA ATCCCAGCCA ATTGGTGGAC
ACTTTTGATG ATGAAGGCAC TTCCCATGAA GAAAACTGGA GTTTTTACCC TAATGCTGTA
AGGACAGCAG GATTTTGTGG CAATCCATCC TTTCACCTCT ATTGGCCAAA TAAAAAGAAG
GACAAGACTC ACAATGCTCT CTCCTCCCGA GAACTCATTA TACAGCCAGG ATACATGATG
CAGTTTAAAA TTGTGGTGGG TTGTGAAGCC ACTTCTTGTG GTGACCTTCA TTCCGTAATG
CTGGAATACA CTAAGGATGC AAGATCGGAT TCCTGGCAGC TCGTACAGAC CCAGTGCCTT
CCTTCCTCTT CTAACAGCAT TGGCTGCTCC CCTTTCCAGT TCCATGAAGC CACCATCTAC
AACTCTGTCA ACAGCTCAAG CTGGAAAAGA ATCACCATCC AGCTGCCTGA CCATGTCTCC
TCTAGTGCAA CACAGTTCCG CTGGATCCAG AAGGGAGAAG AAACTGAGAA GCAAAGCTGG
GCAATTGACC ACGTGTACAT TGGAGAGGCT TGCCCCAAGC TCTGCAGCGG GCACGGATAC
TGCACGACCG GTGCCATCTG CATCTGCGAC GAGAGCTTCC AAGGTGATGA CTGCTCTGTT
TTCAGTCACG ACCTTCCCAG TTATATTAAA GATAATTTTG AGTCCGCAAG AGTCACCGAG
GCAAACTGGG AGACCATTCA AGGTGGAGTC ATAGGAAGTG GCTGTGGGCA GCTGGCCCCC
TACGCCCATG GAGACTCACT GTACTTTAAT GGCTGTCAGA TCAGGCAAGC AGCTACCAAG
CCTCTGGATC TCACTCGAGC AAGCAAAATC ATGTTTGTTT TGCAAATTGG GAGCATGTCG
CAGACGGACA GCTGCAACAG TGACCTGAGT GGCCCCCACG CTGTGGACAA GGCAGTGCTG
CTGCAATACA GCGTCAACAA CGGGATCACC TGGCATGTCA TCGCCCAGCA CCAGCCAAAG
GACTTCACAC AAGCTCAGAG AGTGTCTTAC AATGTCCCCC TGGAGGCACG GATGAAAGGA
GTCTTACTGC GCTGGTGGCA ACCACGCCAC AATGGAACAG GTCATGATCA ATGGGCTTTG
GACCATGTGG AGGTCGTCCT CACTCGCAAA CAAAATTACA TGATGAATTT TTCACGACAA
CATGGGCTCA GACATTTCTA CAACAGAAGA CGAAGGTCAC TTAGGCGATA CCCATGA

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

RefSeq NP_774959.1
CDS161..10537
Misc Feature(1)302..694(+)
Misc Feature(2)764..1213(+)
Misc Feature(3)1421..1828(+)
Misc Feature(4)1736..2173(+)
Misc Feature(5)1772..2107(+)
Misc Feature(6)1871..2173(+)
Misc Feature(7)1916..2074(+)
Misc Feature(8)1934..1969(+)
Misc Feature(9)2282..2746(+)
Misc Feature(10)2288..2740(+)
Misc Feature(11)2348..2596(+)
Misc Feature(12)2441..2575(+)
Misc Feature(13)2552..2587(+)
Misc Feature(14)2759..3262(+)
Misc Feature(15)2810..3184(+)
Misc Feature(16)2939..3250(+)
Misc Feature(17)2993..3151(+)
Misc Feature(18)3011..3046(+)
Misc Feature(19)3260..3337(+)
Misc Feature(20)3353..3820(+)
Misc Feature(21)3362..3814(+)
Misc Feature(22)3419..3670(+)
Misc Feature(23)3521..3649(+)
Misc Feature(24)3626..3661(+)
Misc Feature(25)3878..4387(+)
Misc Feature(26)3929..4315(+)
Misc Feature(27)4058..4387(+)
Misc Feature(28)4106..4282(+)
Misc Feature(29)4124..4159(+)
Misc Feature(30)4499..4951(+)
Misc Feature(31)4505..4945(+)
Misc Feature(32)4556..4804(+)
Misc Feature(33)4649..4783(+)
Misc Feature(34)4760..4795(+)
Misc Feature(35)4973..5482(+)
Misc Feature(36)5021..5386(+)
Misc Feature(37)5147..5455(+)
Misc Feature(38)5195..5353(+)
Misc Feature(39)5213..5248(+)
Misc Feature(40)5558..6007(+)
Misc Feature(41)5567..5995(+)
Misc Feature(42)5621..5851(+)
Misc Feature(43)5717..5830(+)
Misc Feature(44)5807..5842(+)
Misc Feature(45)6026..6550(+)
Misc Feature(46)6071..6472(+)
Misc Feature(47)6218..6547(+)
Misc Feature(48)6224..6550(+)
Misc Feature(49)6284..6319(+)
Misc Feature(50)6566..6637(+)
Misc Feature(51)6653..7102(+)
Misc Feature(52)6662..7096(+)
Misc Feature(53)6716..6949(+)
Misc Feature(54)6809..6928(+)
Misc Feature(55)6905..6940(+)
Misc Feature(56)7124..7594(+)
Misc Feature(57)7166..7525(+)
Misc Feature(58)7190..7567(+)
Misc Feature(59)7289..7594(+)
Misc Feature(60)7334..7492(+)
Misc Feature(61)7352..7387(+)
Misc Feature(62)7700..8143(+)
Misc Feature(63)7709..8137(+)
Misc Feature(64)7763..7993(+)
Misc Feature(65)7856..7972(+)
Misc Feature(66)7949..7984(+)
Misc Feature(67)8165..8719(+)
Misc Feature(68)8294..8653(+)
Misc Feature(69)8420..8719(+)
Misc Feature(70)8471..8626(+)
Misc Feature(71)8489..8524(+)
Misc Feature(72)8825..9310(+)
Misc Feature(73)8831..9301(+)
Misc Feature(74)8888..9136(+)
Misc Feature(75)8981..9115(+)
Misc Feature(76)9092..9127(+)
Misc Feature(77)9323..9847(+)
Misc Feature(78)9380..9775(+)
Misc Feature(79)9515..9844(+)
Misc Feature(80)9566..9742(+)
Misc Feature(81)9584..9622(+)
Misc Feature(82)9956..10438(+)
Misc Feature(83)9962..10432(+)
Misc Feature(84)10019..10288(+)
Misc Feature(85)10121..10267(+)
Misc Feature(86)10244..10279(+)
Exon (1)1..386
Gene:RELN
Gene Synonym:
Exon (2)387..497
Gene:RELN
Gene Synonym:
Exon (3)498..633
Gene:RELN
Gene Synonym:
Exon (4)634..704
Gene:RELN
Gene Synonym:
Exon (5)705..737
Gene:RELN
Gene Synonym:
Exon (6)738..816
Gene:RELN
Gene Synonym:
Exon (7)817..913
Gene:RELN
Gene Synonym:
Exon (8)914..965
Gene:RELN
Gene Synonym:
Exon (9)966..1062
Gene:RELN
Gene Synonym:
Exon (10)1063..1303
Gene:RELN
Gene Synonym:
Exon (11)1304..1449
Gene:RELN
Gene Synonym:
Exon (12)1450..1601
Gene:RELN
Gene Synonym:
Exon (13)1602..1714
Gene:RELN
Gene Synonym:
Exon (14)1715..1923
Gene:RELN
Gene Synonym:
Exon (15)1924..2052
Gene:RELN
Gene Synonym:
Exon (16)2053..2162
Gene:RELN
Gene Synonym:
Exon (17)2163..2229
Gene:RELN
Gene Synonym:
Exon (18)2230..2463
Gene:RELN
Gene Synonym:
Exon (19)2464..2625
Gene:RELN
Gene Synonym:
Exon (20)2626..2862
Gene:RELN
Gene Synonym:
Exon (21)2863..3055
Gene:RELN
Gene Synonym:
Exon (22)3056..3168
Gene:RELN
Gene Synonym:
Exon (23)3169..3306
Gene:RELN
Gene Synonym:
Exon (24)3307..3493
Gene:RELN
Gene Synonym:
Exon (25)3494..3699
Gene:RELN
Gene Synonym:
Exon (26)3700..3871
Gene:RELN
Gene Synonym:
Exon (27)3872..4072
Gene:RELN
Gene Synonym:
Exon (28)4073..4305
Gene:RELN
Gene Synonym:
Exon (29)4306..4463
Gene:RELN
Gene Synonym:
Exon (30)4464..4671
Gene:RELN
Gene Synonym:
Exon (31)4672..4748
Gene:RELN
Gene Synonym:
Exon (32)4749..4907
Gene:RELN
Gene Synonym:
Exon (33)4908..5096
Gene:RELN
Gene Synonym:
Exon (34)5097..5370
Gene:RELN
Gene Synonym:
Exon (35)5371..5511
Gene:RELN
Gene Synonym:
Exon (36)5512..5689
Gene:RELN
Gene Synonym:
Exon (37)5690..5774
Gene:RELN
Gene Synonym:
Exon (38)5775..5957
Gene:RELN
Gene Synonym:
Exon (39)5958..6129
Gene:RELN
Gene Synonym:
Exon (40)6130..6232
Gene:RELN
Gene Synonym:
Exon (41)6233..6462
Gene:RELN
Gene Synonym:
Exon (42)6463..6683
Gene:RELN
Gene Synonym:
Exon (43)6684..6831
Gene:RELN
Gene Synonym:
Exon (44)6832..7090
Gene:RELN
Gene Synonym:
Exon (45)7091..7340
Gene:RELN
Gene Synonym:
Exon (46)7341..7509
Gene:RELN
Gene Synonym:
Exon (47)7510..7650
Gene:RELN
Gene Synonym:
Exon (48)7651..7828
Gene:RELN
Gene Synonym:
Exon (49)7829..8022
Gene:RELN
Gene Synonym:
Exon (50)8023..8279
Gene:RELN
Gene Synonym:
Exon (51)8280..8434
Gene:RELN
Gene Synonym:
Exon (52)8435..8649
Gene:RELN
Gene Synonym:
Exon (53)8650..8827
Gene:RELN
Gene Synonym:
Exon (54)8828..9003
Gene:RELN
Gene Synonym:
Exon (55)9004..9110
Gene:RELN
Gene Synonym:
Exon (56)9111..9353
Gene:RELN
Gene Synonym:
Exon (57)9354..9529
Gene:RELN
Gene Synonym:
Exon (58)9530..9603
Gene:RELN
Gene Synonym:
Exon (59)9604..9765
Gene:RELN
Gene Synonym:
Exon (60)9766..9923
Gene:RELN
Gene Synonym:
Exon (61)9924..10143
Gene:RELN
Gene Synonym:
Exon (62)10144..10341
Gene:RELN
Gene Synonym:
Exon (63)10342..10440
Gene:RELN
Gene Synonym:
Exon (64)10441..11565
Gene:RELN
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_173054
Organism Homo sapiens (human)
Definition Homo sapiens reelin (RELN), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_173054

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
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
ATGGAGCGCA GTGGCTGGGC CCGGCAGACT TTCCTCCTAG CGCTGTTGCT GGGGGCGACG 
CTGAGGGCGC GCGCGGCGGC TGGCTATTAC CCCCGCTTTT CGCCCTTCTT TTTCCTGTGC
ACCCACCACG GGGAGCTGGA AGGGGATGGG GAGCAGGGCG AGGTGCTCAT TTCCCTGCAT
ATTGCGGGCA ACCCCACCTA CTACGTTCCG GGACAAGAAT ACCATGTGAC AATTTCAACA
AGCACCTTTT TTGACGGCTT GCTGGTGACA GGACTATACA CATCTACAAG TGTTCAGGCA
TCACAGAGCA TTGGAGGTTC CAGTGCTTTC GGATTTGGGA TCATGTCTGA CCACCAGTTT
GGTAACCAGT TTATGTGCAG TGTGGTAGCC TCTCACGTGA GTCACCTGCC CACAACCAAC
CTCAGTTTCA TCTGGATTGC TCCACCTGCG GGCACAGGCT GTGTGAATTT CATGGCTACA
GCAACACACC GGGGCCAGGT TATTTTCAAA GATGCTTTAG CCCAGCAGTT GTGTGAACAA
GGAGCTCCAA CAGATGTCAC TGTGCACCCA CATCTAGCTG AAATACATAG TGACAGCATT
ATCCTGAGAG ATGACTTTGA CTCCTACCAC CAACTGCAAT TAAATCCAAA TATATGGGTT
GAATGTAACA ACTGTGAGAC TGGAGAACAG TGTGGCGCGA TTATGCATGG CAATGCCGTC
ACCTTCTGTG AACCATATGG CCCACGAGAA CTGATTACCA CAGGCCTTAA TACAACAACA
GCTTCTGTCC TCCAATTTTC CATTGGGTCA GGTTCATGTC GCTTTAGTTA TTCAGACCCC
AGCATCATCG TGTTATATGC CAAGAATAAC TCTGCGGACT GGATTCAGCT AGAGAAAATT
AGAGCCCCTT CCAATGTCAG CACAATCATC CATATCCTCT ACCTTCCTGA GGACGCCAAA
GGGGAGAATG TCCAATTTCA GTGGAAGCAG GAAAATCTTC GTGTAGGTGA AGTGTATGAA
GCCTGCTGGG CCTTAGATAA CATCTTGATC ATCAATTCAG CTCACAGACA AGTCGTTTTA
GAAGATAGTC TCGACCCAGT GGACACAGGC AACTGGCTTT TCTTCCCAGG AGCTACAGTT
AAGCATAGCT GTCAGTCAGA TGGGAACTCC ATTTATTTCC ATGGAAATGA AGGCAGCGAG
TTCAATTTTG CCACCACCAG GGATGTAGAT CTTTCCACAG AAGATATTCA AGAGCAATGG
TCAGAAGAAT TTGAGAGCCA GCCTACAGGA TGGGATGTCT TGGGAGCTGT CATTGGTACA
GAATGTGGAA CGATAGAATC AGGCTTATCA ATGGTCTTCC TCAAAGATGG AGAGAGGAAA
TTATGCACTC CATCCATGGA CACTACCGGT TATGGGAACC TGAGGTTTTA CTTTGTGATG
GGAGGAATTT GTGACCCTGG AAATTCTCAT GAAAATGACA TAATCCTGTA TGCAAAAATT
GAAGGAAGAA AAGAGCATAT AACACTGGAT ACCCTTTCCT ATTCCTCATA TAAGGTTCCG
TCTTTGGTTT CTGTGGTCAT CAATCCTGAA CTTCAGACTC CTGCTACCAA ATTTTGTCTC
AGGCAAAAGA ACCATCAAGG ACATAATAGG AATGTCTGGG CTGTAGACTT TTTCCATGTC
TTGCCTGTTC TCCCTTCTAC AATGTCTCAC ATGATACAGT TTTCCATCAA TCTGGGATGT
GGAACGCATC AGCCTGGTAA CAGTGTCAGC TTGGAATTTT CTACCAACCA TGGGCGCTCC
TGGTCCCTCC TTCACACTGA ATGCTTACCT GAGATCTGTG CTGGACCCCA CCTCCCCCAC
AGCACTGTCT ACTCCTCTGA AAACTACAGT GGGTGGAACC GAATAACAAT TCCCCTTCCT
AACGCAGCAC TAACCCGGAA CACCAGGATT CGCTGGAGAC AAACAGGACC AATCCTTGGA
AACATGTGGG CAATTGATAA TGTTTATATT GGCCCGTCAT GTCTCAAATT CTGTTCTGGC
AGAGGACAGT GCACTAGACA TGGTTGCAAG TGTGACCCTG GATTTTCTGG CCCAGCTTGT
GAGATGGCAT CCCAGACATT CCCAATGTTT ATTTCTGAAA GCTTTGGCAG TTCCAGGCTC
TCCTCTTACC ATAACTTTTA CTCTATCCGT GGTGCTGAAG TCAGCTTTGG TTGTGGTGTC
TTGGCCAGTG GTAAGGCCCT GGTTTTCAAC AAAGATGGGC GGCGTCAGCT AATTACATCT
TTCCTTGACA GCTCACAATC CAGGTTTCTC CAGTTCACAC TGAGACTGGG GAGCAAATCT
GTTCTGAGCA CGTGCAGAGC CCCTGATCAG CCTGGTGAAG GAGTTTTGTT GCATTATTCT
TATGATAATG GGATAACTTG GAAACTCCTG GAGCATTATT CATATCTCAG CTATCATGAG
CCCAGAATAA TCTCCGTAGA ACTACCAGGT GATGCAAAGC AGTTTGGAAT TCAGTTCAGA
TGGTGGCAAC CGTATCATTC TTCCCAGAGA GAAGATGTAT GGGCTATTGA TGAGATTATC
ATGACATCTG TGCTTTTCAA CAGCATTAGT CTTGACTTTA CCAATCTTGT GGAGGTCACT
CAGTCTCTGG GATTCTACCT TGGAAATGTT CAGCCATACT GTGGCCACGA CTGGACCCTT
TGTTTTACAG GAGATTCTAA ACTTGCCTCA AGTATGCGCT ATGTGGAAAC ACAATCAATG
CAGATAGGAG CATCCTATAT GATTCAGTTC AGTTTGGTGA TGGGATGTGG CCAGAAATAC
ACCCCACACA TGGACAACCA GGTGAAGCTG GAGTACTCAA CCAACCACGG CCTTACCTGG
CACCTCGTCC AAGAAGAATG CCTTCCAAGT ATGCCAAGTT GTCAGGAATT TACATCAGCA
AGTATTTACC ATGCCAGTGA GTTTACACAG TGGAGGAGAG TCATAGTGCT TCTTCCCCAG
AAAACTTGGT CCAGTGCTAC CCGTTTCCGC TGGAGCCAGA GCTATTACAC AGCTCAAGAC
GAGTGGGCTT TGGACAGCAT TTACATTGGG CAGCAGTGCC CCAACATGTG CAGTGGGCAT
GGCTCATGCG ATCATGGCAT ATGCAGGTGT GACCAGGGGT ACCAAGGCAC TGAATGCCAC
CCAGAAGCTG CCCTTCCGTC CACAATTATG TCAGATTTTG AGAACCAGAA TGGCTGGGAG
TCTGACTGGC AAGAAGTTAT TGGGGGAGAA ATTGTAAAAC CAGAACAAGG GTGTGGTGTC
ATCTCTTCTG GATCATCTCT GTACTTCAGC AAGGCTGGGA AAAGACAGCT GGTGAGTTGG
GACCTGGATA CTTCTTGGGT GGACTTTGTC CAGTTCTACA TCCAGATAGG CGGAGAGAGT
GCTTCATGCA ACAAGCCTGA CAGCAGAGAG GAGGGCGTCC TCCTTCAGTA CAGCAACAAT
GGGGGCATCC AGTGGCACCT GCTAGCAGAG ATGTACTTTT CAGACTTCAG CAAACCCAGA
TTTGTCTATC TGGAGCTTCC AGCTGCTGCC AAGACCCCTT GCACCAGGTT CCGCTGGTGG
CAGCCCGTGT TCTCAGGGGA GGACTATGAC CAGTGGGCAG TCGATGACAT CATCATTCTG
TCCGAGAAGC AGAAGCAGAT CATCCCAGTT ATCAATCCAA CTTTACCTCA GAACTTTTAT
GAGAAGCCAG CTTTTGATTA CCCTATGAAT CAGATGAGTG TGTGGTTGAT GTTGGCTAAT
GAAGGAATGG TTAAAAATGA AACCTTCTGT GCTGCCACAC CATCAGCAAT GATATTTGGA
AAATCAGATG GAGATCGATT TGCAGTAACT CGAGATTTGA CCCTGAAACC TGGATATGTG
CTACAGTTCA AGCTAAACAT AGGTTGTGCC AATCAATTCA GCAGTACTGC TCCAGTTCTT
CTTCAGTACT CTCATGATGC TGGTATGTCC TGGTTTCTGG TGAAAGAAGG CTGTTACCCG
GCTTCTGCAG GCAAAGGATG CGAAGGAAAC TCCAGAGAAC TAAGTGAGCC CACCATGTAT
CACACAGGGG ACTTTGAAGA ATGGACAAGA ATCACCATTG TTATTCCAAG GTCTCTTGCA
TCCAGCAAGA CCAGATTCCG ATGGATCCAG GAGAGCAGCT CACAGAAAAA CGTGCCTCCA
TTTGGTTTAG ATGGAGTGTA CATATCCGAG CCTTGTCCCA GTTACTGCAG TGGCCATGGG
GACTGCATTT CAGGAGTGTG TTTCTGTGAC CTGGGATATA CTGCTGCACA AGGAACCTGT
GTGTCAAATG TCCCCAATCA CAATGAGATG TTCGATAGGT TTGAGGGGAA GCTCAGCCCT
CTGTGGTACA AGATAACAGG TGCCCAGGTT GGAACTGGCT GTGGAACACT TAACGATGGC
AAATCTCTCT ACTTCAATGG CCCTGGGAAA AGGGAAGCCC GGACGGTCCC TCTGGACACC
AGGAATATCA GACTTGTTCA ATTTTATATA CAAATTGGAA GCAAAACTTC AGGCATTACC
TGCATCAAAC CAAGAACTAG AAATGAAGGG CTTATTGTTC AGTATTCAAA TGACAATGGG
ATACTCTGGC ATTTGCTTCG AGAGTTGGAC TTCATGTCCT TCCTGGAACC ACAGATCATT
TCCATTGACC TGCCACAGGA CGCGAAGACA CCTGCAACGG CATTTCGATG GTGGCAACCG
CAACATGGGA AGCATTCAGC CCAGTGGGCT TTGGATGATG TTCTTATAGG AATGAATGAC
AGCTCTCAAA CTGGATTTCA AGACAAATTT GATGGCTCTA TAGATTTGCA AGCCAACTGG
TATCGAATCC AAGGAGGTCA AGTTGATATT GACTGTCTCT CTATGGATAC TGCTCTGATA
TTCACTGAAA ACATAGGAAA ACCTCGTTAT GCTGAGACCT GGGATTTTCA TGTGTCAGCA
TCTACCTTTT TGCAGTTTGA AATGAGCATG GGCTGTAGCA AGCCCTTCAG CAACTCCCAC
AGTGTACAGC TCCAGTATTC TCTGAACAAT GGCAAGGACT GGCATCTTGT CACCGAAGAG
TGTGTTCCTC CAACCATTGG CTGTCTGCAT TACACGGAAA GTTCAATTTA CACCTCGGAA
AGATTCCAGA ATTGGAAGCG GATCACTGTC TACCTTCCAC TCTCCACCAT TTCTCCCAGG
ACCCGGTTCA GATGGATTCA GGCCAACTAC ACTGTGGGGG CTGATTCCTG GGCGATTGAT
AATGTTGTAC TGGCCTCAGG GTGCCCTTGG ATGTGCTCAG GACGAGGGAT TTGTGATGCT
GGACGCTGTG TGTGTGACCG GGGCTTTGGT GGACCCTATT GTGTTCCTGT TGTTCCTCTG
CCCTCGATTC TTAAAGACGA TTTCAATGGG AATTTACATC CTGACCTTTG GCCTGAAGTG
TATGGTGCAG AGAGGGGGAA TCTGAATGGT GAAACCATCA AATCTGGAAC ATCTCTAATT
TTTAAAGGGG AAGGACTAAG GATGCTTATT TCAAGAGATC TAGATTGTAC AAATACAATG
TATGTCCAGT TTTCACTTAG ATTTATAGCA AAAAGTACCC CAGAGAGATC TCACTCTATT
CTGTTACAAT TCTCCATCAG TGGAGGAATC ACTTGGCACC TGATGGATGA ATTTTACTTT
CCTCAAACAA CGAATATACT TTTCATCAAT GTTCCCTTGC CATACACTGC CCAAACCAAT
GCTACAAGAT TCAGACTCTG GCAACCTTAT AATAACGGTA AGAAAGAAGA AATCTGGATT
GTTGATGACT TCATTATCGA TGGAAATAAT GTAAACAACC CTGTGATGCT CTTGGATACA
TTTGATTTTG GGCCCAGAGA AGACAATTGG TTTTTCTATC CTGGTGGTAA CATCGGTCTT
TATTGTCCAT ATTCTTCAAA GGGGGCACCT GAAGAAGATT CAGCTATGGT GTTTGTTTCA
AATGAAGTTG GTGAGCATTC CATTACCACC CGTGACCTAA ATGTGAATGA GAACACCATC
ATACAATTTG AGATCAACGT TGGCTGTTCG ACTGATAGCT CATCCGCGGA TCCAGTGAGA
CTGGAATTTT CAAGGGACTT CGGGGCGACC TGGCACCTTC TGCTGCCCCT CTGCTACCAC
AGCAGCAGCC ACGTCAGCTC TTTATGCTCC ACCGAGCACC ACCCCAGCAG CACCTACTAC
GCAGGAACCA TGCAGGGCTG GAGGAGGGAG GTCGTGCACT TTGGGAAGCT GCACCTTTGT
GGATCTGTCC GTTTCAGATG GTACCAGGGA TTTTACCCTG CCGGCTCTCA GCCAGTGACA
TGGGCCATTG ATAATGTCTA CATCGGTCCC CAGTGTGAGG AGATGTGTAA TGGACAGGGG
AGCTGTATCA ATGGAACCAA ATGTATATGT GACCCTGGCT ACTCAGGTCC AACCTGTAAA
ATAAGCACCA AAAATCCTGA TTTTCTCAAA GATGATTTCG AAGGTCAGCT AGAATCTGAT
AGATTCTTAT TAATGAGTGG TGGGAAACCA TCTCGAAAGT GTGGAATCCT TTCTAGTGGA
AACAACCTCT TTTTCAATGA AGATGGCTTG CGCATGTTGA TGACACGAGA CCTGGATTTA
TCACATGCTA GATTTGTGCA GTTCTTCATG AGACTGGGAT GTGGTAAAGG CGTTCCTGAC
CCCAGGAGTC AACCCGTGCT CCTACAGTAT TCTCTCAACG GTGGCCTCTC GTGGAGTCTT
CTTCAGGAGT TCCTTTTCAG CAATTCCAGC AATGTGGGCA GGTACATTGC CCTGGAGATA
CCCTTGAAAG CCCGTTCTGG TTCTACTCGC CTTCGCTGGT GGCAACCGTC TGAGAATGGG
CACTTCTACA GCCCCTGGGT TATCGATCAG ATTCTTATTG GAGGAAATAT TTCTGGTAAT
ACGGTCTTGG AAGATGATTT CACAACCCTT GATAGTAGGA AATGGCTGCT TCACCCAGGA
GGCACCAAGA TGCCCGTGTG TGGCTCTACT GGTGATGCCC TGGTCTTCAT TGAAAAGGCC
AGCACCCGTT ACGTGGTCAG CACAGACGTT GCCGTGAATG AGGATTCCTT CCTACAGATA
GACTTCGCTG CCTCCTGCTC AGTCACAGAC TCTTGTTATG CGATTGAATT GGAATACTCA
GTAGATCTTG GATTGTCATG GCACCCATTG GTAAGGGACT GTCTGCCTAC CAATGTGGAA
TGCAGTCGCT ATCATCTGCA ACGGATCCTG GTGTCAGACA CTTTCAACAA GTGGACTAGA
ATCACTCTGC CTCTCCCTCC TTATACCAGG TCCCAAGCCA CTCGTTTCCG TTGGCATCAA
CCAGCTCCTT TTGACAAGCA GCAGACATGG GCAATAGATA ATGTCTATAT CGGGGATGGC
TGCATAGACA TGTGCAGTGG CCATGGGAGA TGCATCCAGG GAAACTGCGT CTGTGATGAA
CAGTGGGGTG GCCTGTACTG TGATGACCCC GAGACCTCTC TTCCAACCCA ACTCAAAGAC
AACTTCAATC GAGCTCCATC CAGTCAGAAC TGGCTGACTG TGAACGGAGG GAAATTGAGT
ACAGTGTGTG GAGCCGTGGC GTCGGGAATG GCTCTCCATT TCAGTGGGGG TTGTAGTCGA
TTATTAGTCA CTGTGGATCT AAACCTCACT AATGCTGAGT TCATCCAATT TTACTTCATG
TATGGGTGCC TGATTACACC AAACAACCGT AACCAAGGTG TTCTCTTGGA ATATTCTGTC
AATGGAGGCA TTACCTGGAA CCTGCTCATG GAGATTTTCT ATGACCAGTA CAGTAAGCCC
GGATTTGTGA ATATCCTTCT CCCTCCTGAT GCTAAAGAGA TTGCCACTCG CTTCCGCTGG
TGGCAGCCAA GACATGACGG CCTGGATCAG AACGACTGGG CCATTGACAA TGTCCTCATC
TCAGGCTCTG CTGACCAAAG GACCGTTATG CTGGACACCT TCAGCAGCGC CCCAGTACCC
CAGCATGAGC GCTCCCCTGC AGATGCCGGC CCTGTCGGGA GGATCGCCTT TGACATGTTT
ATGGAAGACA AAACTTCAGT GAATGAGCAC TGGCTATTCC ATGATGATTG TACAGTAGAA
AGATTCTGTG ACTCCCCTGA TGGTGTGATG CTCTGTGGCA GTCATGATGG ACGGGAGGTG
TATGCAGTGA CCCATGACCT GACTCCCACT GAAGGCTGGA TTATGCAATT CAAGATCTCA
GTTGGATGTA AGGTGTCTGA AAAAATTGCC CAGAATCAAA TTCATGTGCA GTATTCTACT
GACTTCGGTG TGAGTTGGAA TTATCTGGTC CCTCAGTGCT TGCCTGCTGA CCCAAAATGC
TCTGGAAGTG TTTCTCAGCC ATCTGTATTC TTTCCAACTA AAGGGTGGAA AAGGATCACC
TACCCACTTC CTGAAAGCTT AGTGGGAAAT CCGGTAAGGT TTAGGTTCTA TCAGAAGTAC
TCAGACATGC AGTGGGCAAT CGATAATTTC TACCTGGGCC CTGGATGCTT GGACAACTGC
AGGGGCCATG GAGATTGCTT AAGGGAACAG TGCATCTGTG ATCCGGGATA CTCAGGGCCA
AACTGCTACT TGACCCACAC TCTGAAGACT TTCCTGAAGG AACGCTTTGA CAGTGAAGAA
ATCAAACCTG ACTTATGGAT GTCCTTAGAA GGTGGAAGTA CTTGCACTGA GTGTGGAATT
CTTGCCGAGG ACACTGCACT CTATTTTGGG GGATCCACTG TGAGACAAGC GGTTACACAA
GATTTGGATC TTCGAGGTGC AAAGTTCCTG CAATACTGGG GGCGCATCGG TAGTGAGAAC
AACATGACCT CTTGCCATCG TCCCATCTGC CGGAAGGAAG GCGTGCTGTT GGACTACTCT
ACCGATGGAG GAATTACCTG GACTTTGCTC CATGAGATGG ATTACCAGAA ATACATTTCT
GTTAGACACG ACTACATACT TCTTCCTGAA GATGCCCTCA CCAACACAAC TCGACTTCGC
TGGTGGCAGC CTTTTGTGAT CAGCAATGGA ATTGTGGTCT CTGGGGTGGA GCGTGCTCAG
TGGGCACTGG ACAACATTTT GATTGGTGGA GCAGAAATCA ATCCCAGCCA ATTGGTGGAC
ACTTTTGATG ATGAAGGCAC TTCCCATGAA GAAAACTGGA GTTTTTACCC TAATGCTGTA
AGGACAGCAG GATTTTGTGG CAATCCATCC TTTCACCTCT ATTGGCCAAA TAAAAAGAAG
GACAAGACTC ACAATGCTCT CTCCTCCCGA GAACTCATTA TACAGCCAGG ATACATGATG
CAGTTTAAAA TTGTGGTGGG TTGTGAAGCC ACTTCTTGTG GTGACCTTCA TTCCGTAATG
CTGGAATACA CTAAGGATGC AAGATCGGAT TCCTGGCAGC TCGTACAGAC CCAGTGCCTT
CCTTCCTCTT CTAACAGCAT TGGCTGCTCC CCTTTCCAGT TCCATGAAGC CACCATCTAC
AACTCTGTCA ACAGCTCAAG CTGGAAAAGA ATCACCATCC AGCTGCCTGA CCATGTCTCC
TCTAGTGCAA CACAGTTCCG CTGGATCCAG AAGGGAGAAG AAACTGAGAA GCAAAGCTGG
GCAATTGACC ACGTGTACAT TGGAGAGGCT TGCCCCAAGC TCTGCAGCGG GCACGGATAC
TGCACGACCG GTGCCATCTG CATCTGCGAC GAGAGCTTCC AAGGTGATGA CTGCTCTGTT
TTCAGTCACG ACCTTCCCAG TTATATTAAA GATAATTTTG AGTCCGCAAG AGTCACCGAG
GCAAACTGGG AGACCATTCA AGGTGGAGTC ATAGGAAGTG GCTGTGGGCA GCTGGCCCCC
TACGCCCATG GAGACTCACT GTACTTTAAT GGCTGTCAGA TCAGGCAAGC AGCTACCAAG
CCTCTGGATC TCACTCGAGC AAGCAAAATC ATGTTTGTTT TGCAAATTGG GAGCATGTCG
CAGACGGACA GCTGCAACAG TGACCTGAGT GGCCCCCACG CTGTGGACAA GGCAGTGCTG
CTGCAATACA GCGTCAACAA CGGGATCACC TGGCATGTCA TCGCCCAGCA CCAGCCAAAG
GACTTCACAC AAGCTCAGAG AGTGTCTTAC AATGTCCCCC TGGAGGCACG GATGAAAGGA
GTCTTACTGC GCTGGTGGCA ACCACGCCAC AATGGAACAG GTCATGATCA ATGGGCTTTG
GACCATGTGG AGGTCGTCCT CACTCGCAAA CAAAATTACA TGATGAATTT TTCACGACAA
CATGGGCTCA GACATTTCTA CAACAGAAGA CGAAGGTCAC TTAGGCGATA CCCATGA

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

CloneID OHu22578
Clone ID Related Accession (Same CDS sequence) NM_005045
Accession Version NM_005045.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 10383bp)
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
Structure linear
Update Date 30-JUN-2015
Organism Homo sapiens (human)
Product reelin isoform a precursor
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC002067.2, KF458525.1, AC073208.4, AC005101.2, AC000121.1, AC006316.2 and AC005064.3. This sequence is a reference standard in the RefSeqGene project. On Feb 19, 2009 this sequence version replaced gi:27436937. Transcript Variant: This variant (1) represents the longer transcript, and encodes the longer isoform (a). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: U79716.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
10381
ATGGAGCGCA GTGGCTGGGC CCGGCAGACT TTCCTCCTAG CGCTGTTGCT GGGGGCGACG 
CTGAGGGCGC GCGCGGCGGC TGGCTATTAC CCCCGCTTTT CGCCCTTCTT TTTCCTGTGC
ACCCACCACG GGGAGCTGGA AGGGGATGGG GAGCAGGGCG AGGTGCTCAT TTCCCTGCAT
ATTGCGGGCA ACCCCACCTA CTACGTTCCG GGACAAGAAT ACCATGTGAC AATTTCAACA
AGCACCTTTT TTGACGGCTT GCTGGTGACA GGACTATACA CATCTACAAG TGTTCAGGCA
TCACAGAGCA TTGGAGGTTC CAGTGCTTTC GGATTTGGGA TCATGTCTGA CCACCAGTTT
GGTAACCAGT TTATGTGCAG TGTGGTAGCC TCTCACGTGA GTCACCTGCC CACAACCAAC
CTCAGTTTCA TCTGGATTGC TCCACCTGCG GGCACAGGCT GTGTGAATTT CATGGCTACA
GCAACACACC GGGGCCAGGT TATTTTCAAA GATGCTTTAG CCCAGCAGTT GTGTGAACAA
GGAGCTCCAA CAGATGTCAC TGTGCACCCA CATCTAGCTG AAATACATAG TGACAGCATT
ATCCTGAGAG ATGACTTTGA CTCCTACCAC CAACTGCAAT TAAATCCAAA TATATGGGTT
GAATGTAACA ACTGTGAGAC TGGAGAACAG TGTGGCGCGA TTATGCATGG CAATGCCGTC
ACCTTCTGTG AACCATATGG CCCACGAGAA CTGATTACCA CAGGCCTTAA TACAACAACA
GCTTCTGTCC TCCAATTTTC CATTGGGTCA GGTTCATGTC GCTTTAGTTA TTCAGACCCC
AGCATCATCG TGTTATATGC CAAGAATAAC TCTGCGGACT GGATTCAGCT AGAGAAAATT
AGAGCCCCTT CCAATGTCAG CACAATCATC CATATCCTCT ACCTTCCTGA GGACGCCAAA
GGGGAGAATG TCCAATTTCA GTGGAAGCAG GAAAATCTTC GTGTAGGTGA AGTGTATGAA
GCCTGCTGGG CCTTAGATAA CATCTTGATC ATCAATTCAG CTCACAGACA AGTCGTTTTA
GAAGATAGTC TCGACCCAGT GGACACAGGC AACTGGCTTT TCTTCCCAGG AGCTACAGTT
AAGCATAGCT GTCAGTCAGA TGGGAACTCC ATTTATTTCC ATGGAAATGA AGGCAGCGAG
TTCAATTTTG CCACCACCAG GGATGTAGAT CTTTCCACAG AAGATATTCA AGAGCAATGG
TCAGAAGAAT TTGAGAGCCA GCCTACAGGA TGGGATGTCT TGGGAGCTGT CATTGGTACA
GAATGTGGAA CGATAGAATC AGGCTTATCA ATGGTCTTCC TCAAAGATGG AGAGAGGAAA
TTATGCACTC CATCCATGGA CACTACCGGT TATGGGAACC TGAGGTTTTA CTTTGTGATG
GGAGGAATTT GTGACCCTGG AAATTCTCAT GAAAATGACA TAATCCTGTA TGCAAAAATT
GAAGGAAGAA AAGAGCATAT AACACTGGAT ACCCTTTCCT ATTCCTCATA TAAGGTTCCG
TCTTTGGTTT CTGTGGTCAT CAATCCTGAA CTTCAGACTC CTGCTACCAA ATTTTGTCTC
AGGCAAAAGA ACCATCAAGG ACATAATAGG AATGTCTGGG CTGTAGACTT TTTCCATGTC
TTGCCTGTTC TCCCTTCTAC AATGTCTCAC ATGATACAGT TTTCCATCAA TCTGGGATGT
GGAACGCATC AGCCTGGTAA CAGTGTCAGC TTGGAATTTT CTACCAACCA TGGGCGCTCC
TGGTCCCTCC TTCACACTGA ATGCTTACCT GAGATCTGTG CTGGACCCCA CCTCCCCCAC
AGCACTGTCT ACTCCTCTGA AAACTACAGT GGGTGGAACC GAATAACAAT TCCCCTTCCT
AACGCAGCAC TAACCCGGAA CACCAGGATT CGCTGGAGAC AAACAGGACC AATCCTTGGA
AACATGTGGG CAATTGATAA TGTTTATATT GGCCCGTCAT GTCTCAAATT CTGTTCTGGC
AGAGGACAGT GCACTAGACA TGGTTGCAAG TGTGACCCTG GATTTTCTGG CCCAGCTTGT
GAGATGGCAT CCCAGACATT CCCAATGTTT ATTTCTGAAA GCTTTGGCAG TTCCAGGCTC
TCCTCTTACC ATAACTTTTA CTCTATCCGT GGTGCTGAAG TCAGCTTTGG TTGTGGTGTC
TTGGCCAGTG GTAAGGCCCT GGTTTTCAAC AAAGATGGGC GGCGTCAGCT AATTACATCT
TTCCTTGACA GCTCACAATC CAGGTTTCTC CAGTTCACAC TGAGACTGGG GAGCAAATCT
GTTCTGAGCA CGTGCAGAGC CCCTGATCAG CCTGGTGAAG GAGTTTTGTT GCATTATTCT
TATGATAATG GGATAACTTG GAAACTCCTG GAGCATTATT CATATCTCAG CTATCATGAG
CCCAGAATAA TCTCCGTAGA ACTACCAGGT GATGCAAAGC AGTTTGGAAT TCAGTTCAGA
TGGTGGCAAC CGTATCATTC TTCCCAGAGA GAAGATGTAT GGGCTATTGA TGAGATTATC
ATGACATCTG TGCTTTTCAA CAGCATTAGT CTTGACTTTA CCAATCTTGT GGAGGTCACT
CAGTCTCTGG GATTCTACCT TGGAAATGTT CAGCCATACT GTGGCCACGA CTGGACCCTT
TGTTTTACAG GAGATTCTAA ACTTGCCTCA AGTATGCGCT ATGTGGAAAC ACAATCAATG
CAGATAGGAG CATCCTATAT GATTCAGTTC AGTTTGGTGA TGGGATGTGG CCAGAAATAC
ACCCCACACA TGGACAACCA GGTGAAGCTG GAGTACTCAA CCAACCACGG CCTTACCTGG
CACCTCGTCC AAGAAGAATG CCTTCCAAGT ATGCCAAGTT GTCAGGAATT TACATCAGCA
AGTATTTACC ATGCCAGTGA GTTTACACAG TGGAGGAGAG TCATAGTGCT TCTTCCCCAG
AAAACTTGGT CCAGTGCTAC CCGTTTCCGC TGGAGCCAGA GCTATTACAC AGCTCAAGAC
GAGTGGGCTT TGGACAGCAT TTACATTGGG CAGCAGTGCC CCAACATGTG CAGTGGGCAT
GGCTCATGCG ATCATGGCAT ATGCAGGTGT GACCAGGGGT ACCAAGGCAC TGAATGCCAC
CCAGAAGCTG CCCTTCCGTC CACAATTATG TCAGATTTTG AGAACCAGAA TGGCTGGGAG
TCTGACTGGC AAGAAGTTAT TGGGGGAGAA ATTGTAAAAC CAGAACAAGG GTGTGGTGTC
ATCTCTTCTG GATCATCTCT GTACTTCAGC AAGGCTGGGA AAAGACAGCT GGTGAGTTGG
GACCTGGATA CTTCTTGGGT GGACTTTGTC CAGTTCTACA TCCAGATAGG CGGAGAGAGT
GCTTCATGCA ACAAGCCTGA CAGCAGAGAG GAGGGCGTCC TCCTTCAGTA CAGCAACAAT
GGGGGCATCC AGTGGCACCT GCTAGCAGAG ATGTACTTTT CAGACTTCAG CAAACCCAGA
TTTGTCTATC TGGAGCTTCC AGCTGCTGCC AAGACCCCTT GCACCAGGTT CCGCTGGTGG
CAGCCCGTGT TCTCAGGGGA GGACTATGAC CAGTGGGCAG TCGATGACAT CATCATTCTG
TCCGAGAAGC AGAAGCAGAT CATCCCAGTT ATCAATCCAA CTTTACCTCA GAACTTTTAT
GAGAAGCCAG CTTTTGATTA CCCTATGAAT CAGATGAGTG TGTGGTTGAT GTTGGCTAAT
GAAGGAATGG TTAAAAATGA AACCTTCTGT GCTGCCACAC CATCAGCAAT GATATTTGGA
AAATCAGATG GAGATCGATT TGCAGTAACT CGAGATTTGA CCCTGAAACC TGGATATGTG
CTACAGTTCA AGCTAAACAT AGGTTGTGCC AATCAATTCA GCAGTACTGC TCCAGTTCTT
CTTCAGTACT CTCATGATGC TGGTATGTCC TGGTTTCTGG TGAAAGAAGG CTGTTACCCG
GCTTCTGCAG GCAAAGGATG CGAAGGAAAC TCCAGAGAAC TAAGTGAGCC CACCATGTAT
CACACAGGGG ACTTTGAAGA ATGGACAAGA ATCACCATTG TTATTCCAAG GTCTCTTGCA
TCCAGCAAGA CCAGATTCCG ATGGATCCAG GAGAGCAGCT CACAGAAAAA CGTGCCTCCA
TTTGGTTTAG ATGGAGTGTA CATATCCGAG CCTTGTCCCA GTTACTGCAG TGGCCATGGG
GACTGCATTT CAGGAGTGTG TTTCTGTGAC CTGGGATATA CTGCTGCACA AGGAACCTGT
GTGTCAAATG TCCCCAATCA CAATGAGATG TTCGATAGGT TTGAGGGGAA GCTCAGCCCT
CTGTGGTACA AGATAACAGG TGCCCAGGTT GGAACTGGCT GTGGAACACT TAACGATGGC
AAATCTCTCT ACTTCAATGG CCCTGGGAAA AGGGAAGCCC GGACGGTCCC TCTGGACACC
AGGAATATCA GACTTGTTCA ATTTTATATA CAAATTGGAA GCAAAACTTC AGGCATTACC
TGCATCAAAC CAAGAACTAG AAATGAAGGG CTTATTGTTC AGTATTCAAA TGACAATGGG
ATACTCTGGC ATTTGCTTCG AGAGTTGGAC TTCATGTCCT TCCTGGAACC ACAGATCATT
TCCATTGACC TGCCACAGGA CGCGAAGACA CCTGCAACGG CATTTCGATG GTGGCAACCG
CAACATGGGA AGCATTCAGC CCAGTGGGCT TTGGATGATG TTCTTATAGG AATGAATGAC
AGCTCTCAAA CTGGATTTCA AGACAAATTT GATGGCTCTA TAGATTTGCA AGCCAACTGG
TATCGAATCC AAGGAGGTCA AGTTGATATT GACTGTCTCT CTATGGATAC TGCTCTGATA
TTCACTGAAA ACATAGGAAA ACCTCGTTAT GCTGAGACCT GGGATTTTCA TGTGTCAGCA
TCTACCTTTT TGCAGTTTGA AATGAGCATG GGCTGTAGCA AGCCCTTCAG CAACTCCCAC
AGTGTACAGC TCCAGTATTC TCTGAACAAT GGCAAGGACT GGCATCTTGT CACCGAAGAG
TGTGTTCCTC CAACCATTGG CTGTCTGCAT TACACGGAAA GTTCAATTTA CACCTCGGAA
AGATTCCAGA ATTGGAAGCG GATCACTGTC TACCTTCCAC TCTCCACCAT TTCTCCCAGG
ACCCGGTTCA GATGGATTCA GGCCAACTAC ACTGTGGGGG CTGATTCCTG GGCGATTGAT
AATGTTGTAC TGGCCTCAGG GTGCCCTTGG ATGTGCTCAG GACGAGGGAT TTGTGATGCT
GGACGCTGTG TGTGTGACCG GGGCTTTGGT GGACCCTATT GTGTTCCTGT TGTTCCTCTG
CCCTCGATTC TTAAAGACGA TTTCAATGGG AATTTACATC CTGACCTTTG GCCTGAAGTG
TATGGTGCAG AGAGGGGGAA TCTGAATGGT GAAACCATCA AATCTGGAAC ATCTCTAATT
TTTAAAGGGG AAGGACTAAG GATGCTTATT TCAAGAGATC TAGATTGTAC AAATACAATG
TATGTCCAGT TTTCACTTAG ATTTATAGCA AAAAGTACCC CAGAGAGATC TCACTCTATT
CTGTTACAAT TCTCCATCAG TGGAGGAATC ACTTGGCACC TGATGGATGA ATTTTACTTT
CCTCAAACAA CGAATATACT TTTCATCAAT GTTCCCTTGC CATACACTGC CCAAACCAAT
GCTACAAGAT TCAGACTCTG GCAACCTTAT AATAACGGTA AGAAAGAAGA AATCTGGATT
GTTGATGACT TCATTATCGA TGGAAATAAT GTAAACAACC CTGTGATGCT CTTGGATACA
TTTGATTTTG GGCCCAGAGA AGACAATTGG TTTTTCTATC CTGGTGGTAA CATCGGTCTT
TATTGTCCAT ATTCTTCAAA GGGGGCACCT GAAGAAGATT CAGCTATGGT GTTTGTTTCA
AATGAAGTTG GTGAGCATTC CATTACCACC CGTGACCTAA ATGTGAATGA GAACACCATC
ATACAATTTG AGATCAACGT TGGCTGTTCG ACTGATAGCT CATCCGCGGA TCCAGTGAGA
CTGGAATTTT CAAGGGACTT CGGGGCGACC TGGCACCTTC TGCTGCCCCT CTGCTACCAC
AGCAGCAGCC ACGTCAGCTC TTTATGCTCC ACCGAGCACC ACCCCAGCAG CACCTACTAC
GCAGGAACCA TGCAGGGCTG GAGGAGGGAG GTCGTGCACT TTGGGAAGCT GCACCTTTGT
GGATCTGTCC GTTTCAGATG GTACCAGGGA TTTTACCCTG CCGGCTCTCA GCCAGTGACA
TGGGCCATTG ATAATGTCTA CATCGGTCCC CAGTGTGAGG AGATGTGTAA TGGACAGGGG
AGCTGTATCA ATGGAACCAA ATGTATATGT GACCCTGGCT ACTCAGGTCC AACCTGTAAA
ATAAGCACCA AAAATCCTGA TTTTCTCAAA GATGATTTCG AAGGTCAGCT AGAATCTGAT
AGATTCTTAT TAATGAGTGG TGGGAAACCA TCTCGAAAGT GTGGAATCCT TTCTAGTGGA
AACAACCTCT TTTTCAATGA AGATGGCTTG CGCATGTTGA TGACACGAGA CCTGGATTTA
TCACATGCTA GATTTGTGCA GTTCTTCATG AGACTGGGAT GTGGTAAAGG CGTTCCTGAC
CCCAGGAGTC AACCCGTGCT CCTACAGTAT TCTCTCAACG GTGGCCTCTC GTGGAGTCTT
CTTCAGGAGT TCCTTTTCAG CAATTCCAGC AATGTGGGCA GGTACATTGC CCTGGAGATA
CCCTTGAAAG CCCGTTCTGG TTCTACTCGC CTTCGCTGGT GGCAACCGTC TGAGAATGGG
CACTTCTACA GCCCCTGGGT TATCGATCAG ATTCTTATTG GAGGAAATAT TTCTGGTAAT
ACGGTCTTGG AAGATGATTT CACAACCCTT GATAGTAGGA AATGGCTGCT TCACCCAGGA
GGCACCAAGA TGCCCGTGTG TGGCTCTACT GGTGATGCCC TGGTCTTCAT TGAAAAGGCC
AGCACCCGTT ACGTGGTCAG CACAGACGTT GCCGTGAATG AGGATTCCTT CCTACAGATA
GACTTCGCTG CCTCCTGCTC AGTCACAGAC TCTTGTTATG CGATTGAATT GGAATACTCA
GTAGATCTTG GATTGTCATG GCACCCATTG GTAAGGGACT GTCTGCCTAC CAATGTGGAA
TGCAGTCGCT ATCATCTGCA ACGGATCCTG GTGTCAGACA CTTTCAACAA GTGGACTAGA
ATCACTCTGC CTCTCCCTCC TTATACCAGG TCCCAAGCCA CTCGTTTCCG TTGGCATCAA
CCAGCTCCTT TTGACAAGCA GCAGACATGG GCAATAGATA ATGTCTATAT CGGGGATGGC
TGCATAGACA TGTGCAGTGG CCATGGGAGA TGCATCCAGG GAAACTGCGT CTGTGATGAA
CAGTGGGGTG GCCTGTACTG TGATGACCCC GAGACCTCTC TTCCAACCCA ACTCAAAGAC
AACTTCAATC GAGCTCCATC CAGTCAGAAC TGGCTGACTG TGAACGGAGG GAAATTGAGT
ACAGTGTGTG GAGCCGTGGC GTCGGGAATG GCTCTCCATT TCAGTGGGGG TTGTAGTCGA
TTATTAGTCA CTGTGGATCT AAACCTCACT AATGCTGAGT TCATCCAATT TTACTTCATG
TATGGGTGCC TGATTACACC AAACAACCGT AACCAAGGTG TTCTCTTGGA ATATTCTGTC
AATGGAGGCA TTACCTGGAA CCTGCTCATG GAGATTTTCT ATGACCAGTA CAGTAAGCCC
GGATTTGTGA ATATCCTTCT CCCTCCTGAT GCTAAAGAGA TTGCCACTCG CTTCCGCTGG
TGGCAGCCAA GACATGACGG CCTGGATCAG AACGACTGGG CCATTGACAA TGTCCTCATC
TCAGGCTCTG CTGACCAAAG GACCGTTATG CTGGACACCT TCAGCAGCGC CCCAGTACCC
CAGCATGAGC GCTCCCCTGC AGATGCCGGC CCTGTCGGGA GGATCGCCTT TGACATGTTT
ATGGAAGACA AAACTTCAGT GAATGAGCAC TGGCTATTCC ATGATGATTG TACAGTAGAA
AGATTCTGTG ACTCCCCTGA TGGTGTGATG CTCTGTGGCA GTCATGATGG ACGGGAGGTG
TATGCAGTGA CCCATGACCT GACTCCCACT GAAGGCTGGA TTATGCAATT CAAGATCTCA
GTTGGATGTA AGGTGTCTGA AAAAATTGCC CAGAATCAAA TTCATGTGCA GTATTCTACT
GACTTCGGTG TGAGTTGGAA TTATCTGGTC CCTCAGTGCT TGCCTGCTGA CCCAAAATGC
TCTGGAAGTG TTTCTCAGCC ATCTGTATTC TTTCCAACTA AAGGGTGGAA AAGGATCACC
TACCCACTTC CTGAAAGCTT AGTGGGAAAT CCGGTAAGGT TTAGGTTCTA TCAGAAGTAC
TCAGACATGC AGTGGGCAAT CGATAATTTC TACCTGGGCC CTGGATGCTT GGACAACTGC
AGGGGCCATG GAGATTGCTT AAGGGAACAG TGCATCTGTG ATCCGGGATA CTCAGGGCCA
AACTGCTACT TGACCCACAC TCTGAAGACT TTCCTGAAGG AACGCTTTGA CAGTGAAGAA
ATCAAACCTG ACTTATGGAT GTCCTTAGAA GGTGGAAGTA CTTGCACTGA GTGTGGAATT
CTTGCCGAGG ACACTGCACT CTATTTTGGG GGATCCACTG TGAGACAAGC GGTTACACAA
GATTTGGATC TTCGAGGTGC AAAGTTCCTG CAATACTGGG GGCGCATCGG TAGTGAGAAC
AACATGACCT CTTGCCATCG TCCCATCTGC CGGAAGGAAG GCGTGCTGTT GGACTACTCT
ACCGATGGAG GAATTACCTG GACTTTGCTC CATGAGATGG ATTACCAGAA ATACATTTCT
GTTAGACACG ACTACATACT TCTTCCTGAA GATGCCCTCA CCAACACAAC TCGACTTCGC
TGGTGGCAGC CTTTTGTGAT CAGCAATGGA ATTGTGGTCT CTGGGGTGGA GCGTGCTCAG
TGGGCACTGG ACAACATTTT GATTGGTGGA GCAGAAATCA ATCCCAGCCA ATTGGTGGAC
ACTTTTGATG ATGAAGGCAC TTCCCATGAA GAAAACTGGA GTTTTTACCC TAATGCTGTA
AGGACAGCAG GATTTTGTGG CAATCCATCC TTTCACCTCT ATTGGCCAAA TAAAAAGAAG
GACAAGACTC ACAATGCTCT CTCCTCCCGA GAACTCATTA TACAGCCAGG ATACATGATG
CAGTTTAAAA TTGTGGTGGG TTGTGAAGCC ACTTCTTGTG GTGACCTTCA TTCCGTAATG
CTGGAATACA CTAAGGATGC AAGATCGGAT TCCTGGCAGC TCGTACAGAC CCAGTGCCTT
CCTTCCTCTT CTAACAGCAT TGGCTGCTCC CCTTTCCAGT TCCATGAAGC CACCATCTAC
AACTCTGTCA ACAGCTCAAG CTGGAAAAGA ATCACCATCC AGCTGCCTGA CCATGTCTCC
TCTAGTGCAA CACAGTTCCG CTGGATCCAG AAGGGAGAAG AAACTGAGAA GCAAAGCTGG
GCAATTGACC ACGTGTACAT TGGAGAGGCT TGCCCCAAGC TCTGCAGCGG GCACGGATAC
TGCACGACCG GTGCCATCTG CATCTGCGAC GAGAGCTTCC AAGGTGATGA CTGCTCTGTT
TTCAGTCACG ACCTTCCCAG TTATATTAAA GATAATTTTG AGTCCGCAAG AGTCACCGAG
GCAAACTGGG AGACCATTCA AGGTGGAGTC ATAGGAAGTG GCTGTGGGCA GCTGGCCCCC
TACGCCCATG GAGACTCACT GTACTTTAAT GGCTGTCAGA TCAGGCAAGC AGCTACCAAG
CCTCTGGATC TCACTCGAGC AAGCAAAATC ATGTTTGTTT TGCAAATTGG GAGCATGTCG
CAGACGGACA GCTGCAACAG TGACCTGAGT GGCCCCCACG CTGTGGACAA GGCAGTGCTG
CTGCAATACA GCGTCAACAA CGGGATCACC TGGCATGTCA TCGCCCAGCA CCAGCCAAAG
GACTTCACAC AAGCTCAGAG AGTGTCTTAC AATGTCCCCC TGGAGGCACG GATGAAAGGA
GTCTTACTGC GCTGGTGGCA ACCACGCCAC AATGGAACAG GTCATGATCA ATGGGCTTTG
GACCATGTGG AGGTCGTCCT AGTAAGCACT CGCAAACAAA ATTACATGAT GAATTTTTCA
CGACAACATG GGCTCAGACA TTTCTACAAC AGAAGACGAA GGTCACTTAG GCGATACCCA
TGA

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

RefSeq NP_005036.2
CDS161..10543
Misc Feature(1)302..694(+)
Misc Feature(2)764..1213(+)
Misc Feature(3)1421..1828(+)
Misc Feature(4)1736..2173(+)
Misc Feature(5)1772..2107(+)
Misc Feature(6)1871..2173(+)
Misc Feature(7)1916..2074(+)
Misc Feature(8)1934..1969(+)
Misc Feature(9)2282..2746(+)
Misc Feature(10)2288..2740(+)
Misc Feature(11)2348..2596(+)
Misc Feature(12)2441..2575(+)
Misc Feature(13)2552..2587(+)
Misc Feature(14)2759..3262(+)
Misc Feature(15)2810..3184(+)
Misc Feature(16)2939..3250(+)
Misc Feature(17)2993..3151(+)
Misc Feature(18)3011..3046(+)
Misc Feature(19)3260..3337(+)
Misc Feature(20)3353..3820(+)
Misc Feature(21)3362..3814(+)
Misc Feature(22)3419..3670(+)
Misc Feature(23)3521..3649(+)
Misc Feature(24)3626..3661(+)
Misc Feature(25)3878..4387(+)
Misc Feature(26)3929..4315(+)
Misc Feature(27)4058..4387(+)
Misc Feature(28)4106..4282(+)
Misc Feature(29)4124..4159(+)
Misc Feature(30)4499..4951(+)
Misc Feature(31)4505..4945(+)
Misc Feature(32)4556..4804(+)
Misc Feature(33)4649..4783(+)
Misc Feature(34)4760..4795(+)
Misc Feature(35)4973..5482(+)
Misc Feature(36)5021..5386(+)
Misc Feature(37)5147..5455(+)
Misc Feature(38)5195..5353(+)
Misc Feature(39)5213..5248(+)
Misc Feature(40)5558..6007(+)
Misc Feature(41)5567..5995(+)
Misc Feature(42)5621..5851(+)
Misc Feature(43)5717..5830(+)
Misc Feature(44)5807..5842(+)
Misc Feature(45)6026..6550(+)
Misc Feature(46)6071..6472(+)
Misc Feature(47)6218..6547(+)
Misc Feature(48)6224..6550(+)
Misc Feature(49)6284..6319(+)
Misc Feature(50)6566..6637(+)
Misc Feature(51)6653..7102(+)
Misc Feature(52)6662..7096(+)
Misc Feature(53)6716..6949(+)
Misc Feature(54)6809..6928(+)
Misc Feature(55)6905..6940(+)
Misc Feature(56)7124..7594(+)
Misc Feature(57)7166..7525(+)
Misc Feature(58)7190..7567(+)
Misc Feature(59)7289..7594(+)
Misc Feature(60)7334..7492(+)
Misc Feature(61)7352..7387(+)
Misc Feature(62)7700..8143(+)
Misc Feature(63)7709..8137(+)
Misc Feature(64)7763..7993(+)
Misc Feature(65)7856..7972(+)
Misc Feature(66)7949..7984(+)
Misc Feature(67)8165..8719(+)
Misc Feature(68)8294..8653(+)
Misc Feature(69)8420..8719(+)
Misc Feature(70)8471..8626(+)
Misc Feature(71)8489..8524(+)
Misc Feature(72)8825..9310(+)
Misc Feature(73)8831..9301(+)
Misc Feature(74)8888..9136(+)
Misc Feature(75)8981..9115(+)
Misc Feature(76)9092..9127(+)
Misc Feature(77)9323..9847(+)
Misc Feature(78)9380..9775(+)
Misc Feature(79)9515..9844(+)
Misc Feature(80)9566..9742(+)
Misc Feature(81)9584..9622(+)
Misc Feature(82)9956..10438(+)
Misc Feature(83)9962..10432(+)
Misc Feature(84)10019..10288(+)
Misc Feature(85)10121..10267(+)
Misc Feature(86)10244..10279(+)
Exon (1)1..386
Gene:RELN
Gene Synonym:
Exon (2)387..497
Gene:RELN
Gene Synonym:
Exon (3)498..633
Gene:RELN
Gene Synonym:
Exon (4)634..704
Gene:RELN
Gene Synonym:
Exon (5)705..737
Gene:RELN
Gene Synonym:
Exon (6)738..816
Gene:RELN
Gene Synonym:
Exon (7)817..913
Gene:RELN
Gene Synonym:
Exon (8)914..965
Gene:RELN
Gene Synonym:
Exon (9)966..1062
Gene:RELN
Gene Synonym:
Exon (10)1063..1303
Gene:RELN
Gene Synonym:
Exon (11)1304..1449
Gene:RELN
Gene Synonym:
Exon (12)1450..1601
Gene:RELN
Gene Synonym:
Exon (13)1602..1714
Gene:RELN
Gene Synonym:
Exon (14)1715..1923
Gene:RELN
Gene Synonym:
Exon (15)1924..2052
Gene:RELN
Gene Synonym:
Exon (16)2053..2162
Gene:RELN
Gene Synonym:
Exon (17)2163..2229
Gene:RELN
Gene Synonym:
Exon (18)2230..2463
Gene:RELN
Gene Synonym:
Exon (19)2464..2625
Gene:RELN
Gene Synonym:
Exon (20)2626..2862
Gene:RELN
Gene Synonym:
Exon (21)2863..3055
Gene:RELN
Gene Synonym:
Exon (22)3056..3168
Gene:RELN
Gene Synonym:
Exon (23)3169..3306
Gene:RELN
Gene Synonym:
Exon (24)3307..3493
Gene:RELN
Gene Synonym:
Exon (25)3494..3699
Gene:RELN
Gene Synonym:
Exon (26)3700..3871
Gene:RELN
Gene Synonym:
Exon (27)3872..4072
Gene:RELN
Gene Synonym:
Exon (28)4073..4305
Gene:RELN
Gene Synonym:
Exon (29)4306..4463
Gene:RELN
Gene Synonym:
Exon (30)4464..4671
Gene:RELN
Gene Synonym:
Exon (31)4672..4748
Gene:RELN
Gene Synonym:
Exon (32)4749..4907
Gene:RELN
Gene Synonym:
Exon (33)4908..5096
Gene:RELN
Gene Synonym:
Exon (34)5097..5370
Gene:RELN
Gene Synonym:
Exon (35)5371..5511
Gene:RELN
Gene Synonym:
Exon (36)5512..5689
Gene:RELN
Gene Synonym:
Exon (37)5690..5774
Gene:RELN
Gene Synonym:
Exon (38)5775..5957
Gene:RELN
Gene Synonym:
Exon (39)5958..6129
Gene:RELN
Gene Synonym:
Exon (40)6130..6232
Gene:RELN
Gene Synonym:
Exon (41)6233..6462
Gene:RELN
Gene Synonym:
Exon (42)6463..6683
Gene:RELN
Gene Synonym:
Exon (43)6684..6831
Gene:RELN
Gene Synonym:
Exon (44)6832..7090
Gene:RELN
Gene Synonym:
Exon (45)7091..7340
Gene:RELN
Gene Synonym:
Exon (46)7341..7509
Gene:RELN
Gene Synonym:
Exon (47)7510..7650
Gene:RELN
Gene Synonym:
Exon (48)7651..7828
Gene:RELN
Gene Synonym:
Exon (49)7829..8022
Gene:RELN
Gene Synonym:
Exon (50)8023..8279
Gene:RELN
Gene Synonym:
Exon (51)8280..8434
Gene:RELN
Gene Synonym:
Exon (52)8435..8649
Gene:RELN
Gene Synonym:
Exon (53)8650..8827
Gene:RELN
Gene Synonym:
Exon (54)8828..9003
Gene:RELN
Gene Synonym:
Exon (55)9004..9110
Gene:RELN
Gene Synonym:
Exon (56)9111..9353
Gene:RELN
Gene Synonym:
Exon (57)9354..9529
Gene:RELN
Gene Synonym:
Exon (58)9530..9603
Gene:RELN
Gene Synonym:
Exon (59)9604..9765
Gene:RELN
Gene Synonym:
Exon (60)9766..9923
Gene:RELN
Gene Synonym:
Exon (61)9924..10143
Gene:RELN
Gene Synonym:
Exon (62)10144..10341
Gene:RELN
Gene Synonym:
Exon (63)10342..10440
Gene:RELN
Gene Synonym:
Exon (64)10441..10446
Gene:RELN
Gene Synonym:
Exon (65)10447..11571
Gene:RELN
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_005045
Organism Homo sapiens (human)
Definition Homo sapiens reelin (RELN), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_005045

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
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
10381
ATGGAGCGCA GTGGCTGGGC CCGGCAGACT TTCCTCCTAG CGCTGTTGCT GGGGGCGACG 
CTGAGGGCGC GCGCGGCGGC TGGCTATTAC CCCCGCTTTT CGCCCTTCTT TTTCCTGTGC
ACCCACCACG GGGAGCTGGA AGGGGATGGG GAGCAGGGCG AGGTGCTCAT TTCCCTGCAT
ATTGCGGGCA ACCCCACCTA CTACGTTCCG GGACAAGAAT ACCATGTGAC AATTTCAACA
AGCACCTTTT TTGACGGCTT GCTGGTGACA GGACTATACA CATCTACAAG TGTTCAGGCA
TCACAGAGCA TTGGAGGTTC CAGTGCTTTC GGATTTGGGA TCATGTCTGA CCACCAGTTT
GGTAACCAGT TTATGTGCAG TGTGGTAGCC TCTCACGTGA GTCACCTGCC CACAACCAAC
CTCAGTTTCA TCTGGATTGC TCCACCTGCG GGCACAGGCT GTGTGAATTT CATGGCTACA
GCAACACACC GGGGCCAGGT TATTTTCAAA GATGCTTTAG CCCAGCAGTT GTGTGAACAA
GGAGCTCCAA CAGATGTCAC TGTGCACCCA CATCTAGCTG AAATACATAG TGACAGCATT
ATCCTGAGAG ATGACTTTGA CTCCTACCAC CAACTGCAAT TAAATCCAAA TATATGGGTT
GAATGTAACA ACTGTGAGAC TGGAGAACAG TGTGGCGCGA TTATGCATGG CAATGCCGTC
ACCTTCTGTG AACCATATGG CCCACGAGAA CTGATTACCA CAGGCCTTAA TACAACAACA
GCTTCTGTCC TCCAATTTTC CATTGGGTCA GGTTCATGTC GCTTTAGTTA TTCAGACCCC
AGCATCATCG TGTTATATGC CAAGAATAAC TCTGCGGACT GGATTCAGCT AGAGAAAATT
AGAGCCCCTT CCAATGTCAG CACAATCATC CATATCCTCT ACCTTCCTGA GGACGCCAAA
GGGGAGAATG TCCAATTTCA GTGGAAGCAG GAAAATCTTC GTGTAGGTGA AGTGTATGAA
GCCTGCTGGG CCTTAGATAA CATCTTGATC ATCAATTCAG CTCACAGACA AGTCGTTTTA
GAAGATAGTC TCGACCCAGT GGACACAGGC AACTGGCTTT TCTTCCCAGG AGCTACAGTT
AAGCATAGCT GTCAGTCAGA TGGGAACTCC ATTTATTTCC ATGGAAATGA AGGCAGCGAG
TTCAATTTTG CCACCACCAG GGATGTAGAT CTTTCCACAG AAGATATTCA AGAGCAATGG
TCAGAAGAAT TTGAGAGCCA GCCTACAGGA TGGGATGTCT TGGGAGCTGT CATTGGTACA
GAATGTGGAA CGATAGAATC AGGCTTATCA ATGGTCTTCC TCAAAGATGG AGAGAGGAAA
TTATGCACTC CATCCATGGA CACTACCGGT TATGGGAACC TGAGGTTTTA CTTTGTGATG
GGAGGAATTT GTGACCCTGG AAATTCTCAT GAAAATGACA TAATCCTGTA TGCAAAAATT
GAAGGAAGAA AAGAGCATAT AACACTGGAT ACCCTTTCCT ATTCCTCATA TAAGGTTCCG
TCTTTGGTTT CTGTGGTCAT CAATCCTGAA CTTCAGACTC CTGCTACCAA ATTTTGTCTC
AGGCAAAAGA ACCATCAAGG ACATAATAGG AATGTCTGGG CTGTAGACTT TTTCCATGTC
TTGCCTGTTC TCCCTTCTAC AATGTCTCAC ATGATACAGT TTTCCATCAA TCTGGGATGT
GGAACGCATC AGCCTGGTAA CAGTGTCAGC TTGGAATTTT CTACCAACCA TGGGCGCTCC
TGGTCCCTCC TTCACACTGA ATGCTTACCT GAGATCTGTG CTGGACCCCA CCTCCCCCAC
AGCACTGTCT ACTCCTCTGA AAACTACAGT GGGTGGAACC GAATAACAAT TCCCCTTCCT
AACGCAGCAC TAACCCGGAA CACCAGGATT CGCTGGAGAC AAACAGGACC AATCCTTGGA
AACATGTGGG CAATTGATAA TGTTTATATT GGCCCGTCAT GTCTCAAATT CTGTTCTGGC
AGAGGACAGT GCACTAGACA TGGTTGCAAG TGTGACCCTG GATTTTCTGG CCCAGCTTGT
GAGATGGCAT CCCAGACATT CCCAATGTTT ATTTCTGAAA GCTTTGGCAG TTCCAGGCTC
TCCTCTTACC ATAACTTTTA CTCTATCCGT GGTGCTGAAG TCAGCTTTGG TTGTGGTGTC
TTGGCCAGTG GTAAGGCCCT GGTTTTCAAC AAAGATGGGC GGCGTCAGCT AATTACATCT
TTCCTTGACA GCTCACAATC CAGGTTTCTC CAGTTCACAC TGAGACTGGG GAGCAAATCT
GTTCTGAGCA CGTGCAGAGC CCCTGATCAG CCTGGTGAAG GAGTTTTGTT GCATTATTCT
TATGATAATG GGATAACTTG GAAACTCCTG GAGCATTATT CATATCTCAG CTATCATGAG
CCCAGAATAA TCTCCGTAGA ACTACCAGGT GATGCAAAGC AGTTTGGAAT TCAGTTCAGA
TGGTGGCAAC CGTATCATTC TTCCCAGAGA GAAGATGTAT GGGCTATTGA TGAGATTATC
ATGACATCTG TGCTTTTCAA CAGCATTAGT CTTGACTTTA CCAATCTTGT GGAGGTCACT
CAGTCTCTGG GATTCTACCT TGGAAATGTT CAGCCATACT GTGGCCACGA CTGGACCCTT
TGTTTTACAG GAGATTCTAA ACTTGCCTCA AGTATGCGCT ATGTGGAAAC ACAATCAATG
CAGATAGGAG CATCCTATAT GATTCAGTTC AGTTTGGTGA TGGGATGTGG CCAGAAATAC
ACCCCACACA TGGACAACCA GGTGAAGCTG GAGTACTCAA CCAACCACGG CCTTACCTGG
CACCTCGTCC AAGAAGAATG CCTTCCAAGT ATGCCAAGTT GTCAGGAATT TACATCAGCA
AGTATTTACC ATGCCAGTGA GTTTACACAG TGGAGGAGAG TCATAGTGCT TCTTCCCCAG
AAAACTTGGT CCAGTGCTAC CCGTTTCCGC TGGAGCCAGA GCTATTACAC AGCTCAAGAC
GAGTGGGCTT TGGACAGCAT TTACATTGGG CAGCAGTGCC CCAACATGTG CAGTGGGCAT
GGCTCATGCG ATCATGGCAT ATGCAGGTGT GACCAGGGGT ACCAAGGCAC TGAATGCCAC
CCAGAAGCTG CCCTTCCGTC CACAATTATG TCAGATTTTG AGAACCAGAA TGGCTGGGAG
TCTGACTGGC AAGAAGTTAT TGGGGGAGAA ATTGTAAAAC CAGAACAAGG GTGTGGTGTC
ATCTCTTCTG GATCATCTCT GTACTTCAGC AAGGCTGGGA AAAGACAGCT GGTGAGTTGG
GACCTGGATA CTTCTTGGGT GGACTTTGTC CAGTTCTACA TCCAGATAGG CGGAGAGAGT
GCTTCATGCA ACAAGCCTGA CAGCAGAGAG GAGGGCGTCC TCCTTCAGTA CAGCAACAAT
GGGGGCATCC AGTGGCACCT GCTAGCAGAG ATGTACTTTT CAGACTTCAG CAAACCCAGA
TTTGTCTATC TGGAGCTTCC AGCTGCTGCC AAGACCCCTT GCACCAGGTT CCGCTGGTGG
CAGCCCGTGT TCTCAGGGGA GGACTATGAC CAGTGGGCAG TCGATGACAT CATCATTCTG
TCCGAGAAGC AGAAGCAGAT CATCCCAGTT ATCAATCCAA CTTTACCTCA GAACTTTTAT
GAGAAGCCAG CTTTTGATTA CCCTATGAAT CAGATGAGTG TGTGGTTGAT GTTGGCTAAT
GAAGGAATGG TTAAAAATGA AACCTTCTGT GCTGCCACAC CATCAGCAAT GATATTTGGA
AAATCAGATG GAGATCGATT TGCAGTAACT CGAGATTTGA CCCTGAAACC TGGATATGTG
CTACAGTTCA AGCTAAACAT AGGTTGTGCC AATCAATTCA GCAGTACTGC TCCAGTTCTT
CTTCAGTACT CTCATGATGC TGGTATGTCC TGGTTTCTGG TGAAAGAAGG CTGTTACCCG
GCTTCTGCAG GCAAAGGATG CGAAGGAAAC TCCAGAGAAC TAAGTGAGCC CACCATGTAT
CACACAGGGG ACTTTGAAGA ATGGACAAGA ATCACCATTG TTATTCCAAG GTCTCTTGCA
TCCAGCAAGA CCAGATTCCG ATGGATCCAG GAGAGCAGCT CACAGAAAAA CGTGCCTCCA
TTTGGTTTAG ATGGAGTGTA CATATCCGAG CCTTGTCCCA GTTACTGCAG TGGCCATGGG
GACTGCATTT CAGGAGTGTG TTTCTGTGAC CTGGGATATA CTGCTGCACA AGGAACCTGT
GTGTCAAATG TCCCCAATCA CAATGAGATG TTCGATAGGT TTGAGGGGAA GCTCAGCCCT
CTGTGGTACA AGATAACAGG TGCCCAGGTT GGAACTGGCT GTGGAACACT TAACGATGGC
AAATCTCTCT ACTTCAATGG CCCTGGGAAA AGGGAAGCCC GGACGGTCCC TCTGGACACC
AGGAATATCA GACTTGTTCA ATTTTATATA CAAATTGGAA GCAAAACTTC AGGCATTACC
TGCATCAAAC CAAGAACTAG AAATGAAGGG CTTATTGTTC AGTATTCAAA TGACAATGGG
ATACTCTGGC ATTTGCTTCG AGAGTTGGAC TTCATGTCCT TCCTGGAACC ACAGATCATT
TCCATTGACC TGCCACAGGA CGCGAAGACA CCTGCAACGG CATTTCGATG GTGGCAACCG
CAACATGGGA AGCATTCAGC CCAGTGGGCT TTGGATGATG TTCTTATAGG AATGAATGAC
AGCTCTCAAA CTGGATTTCA AGACAAATTT GATGGCTCTA TAGATTTGCA AGCCAACTGG
TATCGAATCC AAGGAGGTCA AGTTGATATT GACTGTCTCT CTATGGATAC TGCTCTGATA
TTCACTGAAA ACATAGGAAA ACCTCGTTAT GCTGAGACCT GGGATTTTCA TGTGTCAGCA
TCTACCTTTT TGCAGTTTGA AATGAGCATG GGCTGTAGCA AGCCCTTCAG CAACTCCCAC
AGTGTACAGC TCCAGTATTC TCTGAACAAT GGCAAGGACT GGCATCTTGT CACCGAAGAG
TGTGTTCCTC CAACCATTGG CTGTCTGCAT TACACGGAAA GTTCAATTTA CACCTCGGAA
AGATTCCAGA ATTGGAAGCG GATCACTGTC TACCTTCCAC TCTCCACCAT TTCTCCCAGG
ACCCGGTTCA GATGGATTCA GGCCAACTAC ACTGTGGGGG CTGATTCCTG GGCGATTGAT
AATGTTGTAC TGGCCTCAGG GTGCCCTTGG ATGTGCTCAG GACGAGGGAT TTGTGATGCT
GGACGCTGTG TGTGTGACCG GGGCTTTGGT GGACCCTATT GTGTTCCTGT TGTTCCTCTG
CCCTCGATTC TTAAAGACGA TTTCAATGGG AATTTACATC CTGACCTTTG GCCTGAAGTG
TATGGTGCAG AGAGGGGGAA TCTGAATGGT GAAACCATCA AATCTGGAAC ATCTCTAATT
TTTAAAGGGG AAGGACTAAG GATGCTTATT TCAAGAGATC TAGATTGTAC AAATACAATG
TATGTCCAGT TTTCACTTAG ATTTATAGCA AAAAGTACCC CAGAGAGATC TCACTCTATT
CTGTTACAAT TCTCCATCAG TGGAGGAATC ACTTGGCACC TGATGGATGA ATTTTACTTT
CCTCAAACAA CGAATATACT TTTCATCAAT GTTCCCTTGC CATACACTGC CCAAACCAAT
GCTACAAGAT TCAGACTCTG GCAACCTTAT AATAACGGTA AGAAAGAAGA AATCTGGATT
GTTGATGACT TCATTATCGA TGGAAATAAT GTAAACAACC CTGTGATGCT CTTGGATACA
TTTGATTTTG GGCCCAGAGA AGACAATTGG TTTTTCTATC CTGGTGGTAA CATCGGTCTT
TATTGTCCAT ATTCTTCAAA GGGGGCACCT GAAGAAGATT CAGCTATGGT GTTTGTTTCA
AATGAAGTTG GTGAGCATTC CATTACCACC CGTGACCTAA ATGTGAATGA GAACACCATC
ATACAATTTG AGATCAACGT TGGCTGTTCG ACTGATAGCT CATCCGCGGA TCCAGTGAGA
CTGGAATTTT CAAGGGACTT CGGGGCGACC TGGCACCTTC TGCTGCCCCT CTGCTACCAC
AGCAGCAGCC ACGTCAGCTC TTTATGCTCC ACCGAGCACC ACCCCAGCAG CACCTACTAC
GCAGGAACCA TGCAGGGCTG GAGGAGGGAG GTCGTGCACT TTGGGAAGCT GCACCTTTGT
GGATCTGTCC GTTTCAGATG GTACCAGGGA TTTTACCCTG CCGGCTCTCA GCCAGTGACA
TGGGCCATTG ATAATGTCTA CATCGGTCCC CAGTGTGAGG AGATGTGTAA TGGACAGGGG
AGCTGTATCA ATGGAACCAA ATGTATATGT GACCCTGGCT ACTCAGGTCC AACCTGTAAA
ATAAGCACCA AAAATCCTGA TTTTCTCAAA GATGATTTCG AAGGTCAGCT AGAATCTGAT
AGATTCTTAT TAATGAGTGG TGGGAAACCA TCTCGAAAGT GTGGAATCCT TTCTAGTGGA
AACAACCTCT TTTTCAATGA AGATGGCTTG CGCATGTTGA TGACACGAGA CCTGGATTTA
TCACATGCTA GATTTGTGCA GTTCTTCATG AGACTGGGAT GTGGTAAAGG CGTTCCTGAC
CCCAGGAGTC AACCCGTGCT CCTACAGTAT TCTCTCAACG GTGGCCTCTC GTGGAGTCTT
CTTCAGGAGT TCCTTTTCAG CAATTCCAGC AATGTGGGCA GGTACATTGC CCTGGAGATA
CCCTTGAAAG CCCGTTCTGG TTCTACTCGC CTTCGCTGGT GGCAACCGTC TGAGAATGGG
CACTTCTACA GCCCCTGGGT TATCGATCAG ATTCTTATTG GAGGAAATAT TTCTGGTAAT
ACGGTCTTGG AAGATGATTT CACAACCCTT GATAGTAGGA AATGGCTGCT TCACCCAGGA
GGCACCAAGA TGCCCGTGTG TGGCTCTACT GGTGATGCCC TGGTCTTCAT TGAAAAGGCC
AGCACCCGTT ACGTGGTCAG CACAGACGTT GCCGTGAATG AGGATTCCTT CCTACAGATA
GACTTCGCTG CCTCCTGCTC AGTCACAGAC TCTTGTTATG CGATTGAATT GGAATACTCA
GTAGATCTTG GATTGTCATG GCACCCATTG GTAAGGGACT GTCTGCCTAC CAATGTGGAA
TGCAGTCGCT ATCATCTGCA ACGGATCCTG GTGTCAGACA CTTTCAACAA GTGGACTAGA
ATCACTCTGC CTCTCCCTCC TTATACCAGG TCCCAAGCCA CTCGTTTCCG TTGGCATCAA
CCAGCTCCTT TTGACAAGCA GCAGACATGG GCAATAGATA ATGTCTATAT CGGGGATGGC
TGCATAGACA TGTGCAGTGG CCATGGGAGA TGCATCCAGG GAAACTGCGT CTGTGATGAA
CAGTGGGGTG GCCTGTACTG TGATGACCCC GAGACCTCTC TTCCAACCCA ACTCAAAGAC
AACTTCAATC GAGCTCCATC CAGTCAGAAC TGGCTGACTG TGAACGGAGG GAAATTGAGT
ACAGTGTGTG GAGCCGTGGC GTCGGGAATG GCTCTCCATT TCAGTGGGGG TTGTAGTCGA
TTATTAGTCA CTGTGGATCT AAACCTCACT AATGCTGAGT TCATCCAATT TTACTTCATG
TATGGGTGCC TGATTACACC AAACAACCGT AACCAAGGTG TTCTCTTGGA ATATTCTGTC
AATGGAGGCA TTACCTGGAA CCTGCTCATG GAGATTTTCT ATGACCAGTA CAGTAAGCCC
GGATTTGTGA ATATCCTTCT CCCTCCTGAT GCTAAAGAGA TTGCCACTCG CTTCCGCTGG
TGGCAGCCAA GACATGACGG CCTGGATCAG AACGACTGGG CCATTGACAA TGTCCTCATC
TCAGGCTCTG CTGACCAAAG GACCGTTATG CTGGACACCT TCAGCAGCGC CCCAGTACCC
CAGCATGAGC GCTCCCCTGC AGATGCCGGC CCTGTCGGGA GGATCGCCTT TGACATGTTT
ATGGAAGACA AAACTTCAGT GAATGAGCAC TGGCTATTCC ATGATGATTG TACAGTAGAA
AGATTCTGTG ACTCCCCTGA TGGTGTGATG CTCTGTGGCA GTCATGATGG ACGGGAGGTG
TATGCAGTGA CCCATGACCT GACTCCCACT GAAGGCTGGA TTATGCAATT CAAGATCTCA
GTTGGATGTA AGGTGTCTGA AAAAATTGCC CAGAATCAAA TTCATGTGCA GTATTCTACT
GACTTCGGTG TGAGTTGGAA TTATCTGGTC CCTCAGTGCT TGCCTGCTGA CCCAAAATGC
TCTGGAAGTG TTTCTCAGCC ATCTGTATTC TTTCCAACTA AAGGGTGGAA AAGGATCACC
TACCCACTTC CTGAAAGCTT AGTGGGAAAT CCGGTAAGGT TTAGGTTCTA TCAGAAGTAC
TCAGACATGC AGTGGGCAAT CGATAATTTC TACCTGGGCC CTGGATGCTT GGACAACTGC
AGGGGCCATG GAGATTGCTT AAGGGAACAG TGCATCTGTG ATCCGGGATA CTCAGGGCCA
AACTGCTACT TGACCCACAC TCTGAAGACT TTCCTGAAGG AACGCTTTGA CAGTGAAGAA
ATCAAACCTG ACTTATGGAT GTCCTTAGAA GGTGGAAGTA CTTGCACTGA GTGTGGAATT
CTTGCCGAGG ACACTGCACT CTATTTTGGG GGATCCACTG TGAGACAAGC GGTTACACAA
GATTTGGATC TTCGAGGTGC AAAGTTCCTG CAATACTGGG GGCGCATCGG TAGTGAGAAC
AACATGACCT CTTGCCATCG TCCCATCTGC CGGAAGGAAG GCGTGCTGTT GGACTACTCT
ACCGATGGAG GAATTACCTG GACTTTGCTC CATGAGATGG ATTACCAGAA ATACATTTCT
GTTAGACACG ACTACATACT TCTTCCTGAA GATGCCCTCA CCAACACAAC TCGACTTCGC
TGGTGGCAGC CTTTTGTGAT CAGCAATGGA ATTGTGGTCT CTGGGGTGGA GCGTGCTCAG
TGGGCACTGG ACAACATTTT GATTGGTGGA GCAGAAATCA ATCCCAGCCA ATTGGTGGAC
ACTTTTGATG ATGAAGGCAC TTCCCATGAA GAAAACTGGA GTTTTTACCC TAATGCTGTA
AGGACAGCAG GATTTTGTGG CAATCCATCC TTTCACCTCT ATTGGCCAAA TAAAAAGAAG
GACAAGACTC ACAATGCTCT CTCCTCCCGA GAACTCATTA TACAGCCAGG ATACATGATG
CAGTTTAAAA TTGTGGTGGG TTGTGAAGCC ACTTCTTGTG GTGACCTTCA TTCCGTAATG
CTGGAATACA CTAAGGATGC AAGATCGGAT TCCTGGCAGC TCGTACAGAC CCAGTGCCTT
CCTTCCTCTT CTAACAGCAT TGGCTGCTCC CCTTTCCAGT TCCATGAAGC CACCATCTAC
AACTCTGTCA ACAGCTCAAG CTGGAAAAGA ATCACCATCC AGCTGCCTGA CCATGTCTCC
TCTAGTGCAA CACAGTTCCG CTGGATCCAG AAGGGAGAAG AAACTGAGAA GCAAAGCTGG
GCAATTGACC ACGTGTACAT TGGAGAGGCT TGCCCCAAGC TCTGCAGCGG GCACGGATAC
TGCACGACCG GTGCCATCTG CATCTGCGAC GAGAGCTTCC AAGGTGATGA CTGCTCTGTT
TTCAGTCACG ACCTTCCCAG TTATATTAAA GATAATTTTG AGTCCGCAAG AGTCACCGAG
GCAAACTGGG AGACCATTCA AGGTGGAGTC ATAGGAAGTG GCTGTGGGCA GCTGGCCCCC
TACGCCCATG GAGACTCACT GTACTTTAAT GGCTGTCAGA TCAGGCAAGC AGCTACCAAG
CCTCTGGATC TCACTCGAGC AAGCAAAATC ATGTTTGTTT TGCAAATTGG GAGCATGTCG
CAGACGGACA GCTGCAACAG TGACCTGAGT GGCCCCCACG CTGTGGACAA GGCAGTGCTG
CTGCAATACA GCGTCAACAA CGGGATCACC TGGCATGTCA TCGCCCAGCA CCAGCCAAAG
GACTTCACAC AAGCTCAGAG AGTGTCTTAC AATGTCCCCC TGGAGGCACG GATGAAAGGA
GTCTTACTGC GCTGGTGGCA ACCACGCCAC AATGGAACAG GTCATGATCA ATGGGCTTTG
GACCATGTGG AGGTCGTCCT AGTAAGCACT CGCAAACAAA ATTACATGAT GAATTTTTCA
CGACAACATG GGCTCAGACA TTTCTACAAC AGAAGACGAA GGTCACTTAG GCGATACCCA
TGA

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

book

RELN-expressing neuron density in layer I of the superior temporal lobe is similar in human brains with autism and in age-matched controls
Neurosci. Lett. 579, 163-167 (2014)
Camacho J, Ejaz E, Ariza J, Noctor SC and Martinez-Cerdeno V.


book

Value of reelin for assessing hepatic fibrogenesis in a group of Egyptian HCV infected patients
Clin. Chem. Lab. Med. 52 (9), 1319-1328 (2014)
Mansy,S.S., Nosseir,M.M., Zoheiry,M.A., Hassanein,M.H., Guda,M.F., Othman,M.M. and AbuTalab,H.


book

[The association of polymorphisms in SLC18A1, TPH1 and RELN genes with risk of paranoid schizophrenia]
Mol. Biol. (Mosk.) 48 (4), 629-639 (2014)
Galaktionova,D.Iu., Gareeva,A.E., Khusnutdinova,E.K. and Nasedkina,T.V.


book

Expression and regulation of reelin and its receptors in the enteric nervous system
Mol. Cell. Neurosci. 61, 23-33 (2014)
Bottner M, Ghorbani P, Harde J, Barrenschee M, Hellwig I, Vogel I, Ebsen M, Forster E and Wedel T.


book

Genetic association analysis in a clinically and histologically confirmed otosclerosis population confirms association with the TGFB1 gene but suggests an association of the RELN gene with a clinically indistinguishable otosclerosis-like phenotype
Otol. Neurotol. 35 (6), 1058-1064 (2014)
Sommen M, Van Camp G, Liktor B, Csomor P, Fransen E, Sziklai I, Schrauwen I and Karosi T.


book

Reelin is a ligand for lipoprotein receptors
Neuron 24 (2), 471-479 (1999)
D'Arcangelo G, Homayouni R, Keshvara L, Rice DS, Sheldon M and Curran T.


book

Evolutionarily conserved, alternative splicing of reelin during brain development
Exp. Neurol. 156 (2), 229-238 (1999)
Lambert de Rouvroit C, Bernier B, Royaux I, de Bergeyck V and Goffinet AM.


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A decrease of reelin expression as a putative vulnerability factor in schizophrenia
Proc. Natl. Acad. Sci. U.S.A. 95 (26), 15718-15723 (1998)
Impagnatiello F, Guidotti AR, Pesold C, Dwivedi Y, Caruncho H, Pisu MG, Uzunov DP, Smalheiser NR, Davis JM, Pandey GN, Pappas GD, Tueting P, Sharma RP and Costa E.


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The human reelin gene: isolation, sequencing, and mapping on chromosome 7
Genome Res. 7 (2), 157-164 (1997)
DeSilva,U., D'Arcangelo,G., Braden,V.V., Chen,J., Miao,G.G., Curran,T. and Green,E.D.


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A protein related to extracellular matrix proteins deleted in the mouse mutant reeler
Nature 374 (6524), 719-723 (1995)
D'Arcangelo G, Miao GG, Chen SC, Soares HD, Morgan JI and Curran T.


 
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