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LMAN1L cDNA ORF clone, Homo sapiens(human)

Summary

Gene Symbol LMAN1L
Entrez Gene ID 79748
Full Name lectin, mannose binding 1 like
Synonyms ERGIC-53L,ERGL
General protein information
Preferred Names

lectin, mannose binding 1 like

Names

protein ERGIC-53-like
ERGIC53-like protein
LMAN1-like protein
Gene Type protein-coding
Organism Homo sapiens(human)
Genome

15

15q24.1
Summary This gene encodes a mannose-binding type 1 transmembrane protein that contains an N-terminal lectin-like carbohydrate recognition domain. The encoded protein is similar in structure to lectins found in leguminous plants. This lectin is thought to transport newly synthesized glycoproteins from the endoplasmic reticulum (ER) to the ER-Golgi intermediate compartment. [provided by RefSeq, Jan 2017].
Disorder MIM:

609548


Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
NM_021819.2 NP_068591.2 protein ERGIC-53-like precursor
NM_021819.3 NP_068591.2 protein ERGIC-53-like precursor

Pathways from BioSystems


Homologies


Pan troglodytes (chimpanzee) LMAN1L XP_003952751.1
Homo sapiens (human) LMAN1L NP_068591.2
Canis lupus familiaris (dog) LMAN1L XP_005638684.1
Mus musculus (house mouse) Lman1l NP_954692.2
LOC709457 XP_001097975.2
Bos taurus (cattle) LMAN1L XP_002696725.3
Rattus norvegicus (Norway rat) Lman1l NP_001012483.1

Gene Ontology


Bibliography

Related articles in PubMed

Characterization of the Extracellular Matrix of Normal and Diseased Tissues Using Proteomics.
Naba A, Pearce OMT, Del Rosario A, Ma D, Ding H, Rajeeve V, Cutillas PR, Balkwill FR, Hynes RO
Journal of proteome research16(8)3083-3091(2017 Aug)

Genome-wide meta-analysis identifies regions on 7p21 (AHR) and 15q24 (CYP1A2) as determinants of habitual caffeine consumption.
Cornelis MC, Monda KL, Yu K, Paynter N, Azzato EM, Bennett SN, Berndt SI, Boerwinkle E, Chanock S, Chatterjee N, Couper D, Curhan G, Heiss G, Hu FB, Hunter DJ, Jacobs K, Jensen MK, Kraft P, Landi MT, Nettleton JA, Purdue MP, Rajaraman P, Rimm EB, Rose LM, Rothman N, Silverman D, Stolzenberg-Solomon R, Subar A, Yeager M, Chasman DI, van Dam RM, Caporaso NE
PLoS genetics7(4)e1002033(2011 Apr)

New genetic associations detected in a host response study to hepatitis B vaccine.
Davila S, Froeling FE, Tan A, Bonnard C, Boland GJ, Snippe H, Hibberd ML, Seielstad M
Genes and immunity11(3)232-8(2010 Apr)

Genome-wide association study identifies eight loci associated with blood pressure.
Newton-Cheh C, Johnson T, Gateva V, Tobin MD, Bochud M, Coin L, Najjar SS, Zhao JH, Heath SC, Eyheramendy S, Papadakis K, Voight BF, Scott LJ, Zhang F, Farrall M, Tanaka T, Wallace C, Chambers JC, Khaw KT, Nilsson P, van der Harst P, Polidoro S, Grobbee DE, Onland-Moret NC, Bots ML, Wain LV, Elliott KS, Teumer A, Luan J, Lucas G, Kuusisto J, Burton PR, Hadley D, McArdle WL, , Brown M, Dominiczak A, Newhouse SJ, Samani NJ, Webster J, Zeggini E, Beckmann JS, Bergmann S, Lim N, Song K, Vollenweider P, Waeber G, Waterworth DM, Yuan X, Groop L, Orho-Melander M, Allione A, Di Gregorio A, Guarrera S, Panico S, Ricceri F, Romanazzi V, Sacerdote C, Vineis P, Barroso I, Sandhu MS, Luben RN, Crawford GJ, Jousilahti P, Perola M, Boehnke M, Bonnycastle LL, Collins FS, Jackson AU, Mohlke KL, Stringham HM, Valle TT, Willer CJ, Bergman RN, Morken MA, D?ring A, Gieger C, Illig T, Meitinger T, Org E, Pfeufer A, Wichmann HE, Kathiresan S, Marrugat J, O'Donnell CJ, Schwartz SM, Siscovick DS, Subirana I, Freimer NB, Hartikainen AL, McCarthy MI, O'Reilly PF, Peltonen L, Pouta A, de Jong PE, Snieder H, van Gilst WH, Clarke R, Goel A, Hamsten A, Peden JF, Seedorf U, Syv?nen AC, Tognoni G, Lakatta EG, Sanna S, Scheet P, Schlessinger D, Scuteri A, D?rr M, Ernst F, Felix SB, Homuth G, Lorbeer R, Reffelmann T, Rettig R, V?lker U, Galan P, Gut IG, Hercberg S, Lathrop GM, Zelenika D, Deloukas P, Soranzo N, Williams FM, Zhai G, Salomaa V, Laakso M, Elosua R, Forouhi NG, V?lzke H, Uiterwaal CS, van der Schouw YT, Numans ME, Matullo G, Navis G, Berglund G, Bingham SA, Kooner JS, Connell JM, Bandinelli S, Ferrucci L, Watkins H, Spector TD, Tuomilehto J, Altshuler D, Strachan DP, Laan M, Meneton P, Wareham NJ, Uda M, Jarvelin MR, Mooser V, Melander O, Loos RJ, Elliott P, Abecasis GR, Caulfield M, Munroe PB
Nature genetics41(6)666-76(2009 Jun)

Identification of ERGIC-53 as an intracellular transport receptor of alpha1-antitrypsin.
Nyfeler B, Reiterer V, Wendeler MW, Stefan E, Zhang B, Michnick SW, Hauri HP
The Journal of cell biology180(4)705-12(2008 Feb)

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

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

Observational study of gene-disease association. (HuGE Navigator)
Title: New genetic associations detected in a host response study to hepatitis B vaccine.

Binding of ERGIC-53 to sugar is enhanced by its interaction with MCFD2, and defects in this interaction in factor V and VIII deeficient patients may be the cause for reduced secretion of factors V and VIII.
Title: The sugar-binding ability of ERGIC-53 is enhanced by its interaction with MCFD2.

The results reveal ERGIC-53 to be an intracellular transport receptor of alpha1-AT and provide direct evidence for active receptor-mediated ER export of a soluble secretory protein in higher eukaryotes
Title: Identification of ERGIC-53 as an intracellular transport receptor of alpha1-antitrypsin.

ERGIC-53 provides a platform that receives micro(2)L(2) subunits from the BiP-dependent checkpoint, assisting polymerization. In this process, ERp44 couples thiol-dependent assembly and quality control.
Title: Sequential steps and checkpoints in the early exocytic compartment during secretory IgM biogenesis.

The following LMAN1L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LMAN1L 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
OHu03743 NM_021819.3
Latest version!		 Homo sapiens lectin, mannose binding 1 like (LMAN1L), mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $219.50-$307.30
$439.00
View Old Accession Versions >>
OHu03743 NM_021819.2 Homo sapiens lectin, mannose binding 1 like (LMAN1L), mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK		 $219.50-$307.30
$439.00
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 OHu03743
Clone ID Related Accession (Same CDS sequence) NM_021819.2 , NM_021819.3
Accession Version NM_021819.2 Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 1581bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2019-02-16
Organism Homo sapiens(human)
Product protein ERGIC-53-like precursor
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AY358724.1 and AF303398.1. This sequence is a reference standard in the RefSeqGene project. On Sep 15, 2005 this sequence version replaced NM_021819.1. ##Evidence-Data-START## Transcript exon combination :: AF303398.1, AK291819.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968832, SAMEA2150585 [ECO:0000348] ##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
ATGCCGGCGG TCAGTGGTCC AGGTCCCTTA TTCTGCCTTC TCCTCCTGCT CCTGGACCCC 
CACAGCCCTG AGACGGGGTG TCCTCCTCTA CGCAGGTTTG AGTACAAGCT CAGCTTCAAA 
GGCCCAAGGC TGGCATTGCC TGGGGCTGGA ATACCCTTCT GGAGCCATCA TGGAGACGCC 
ATCCTGGGCC TGGAGGAAGT GCGGCTGACG CCATCCATGA GGAACCGGAG TGGCGCCGTG 
TGGAGCAGGG CCTCTGTCCC CTTCTCTGCC TGGGAAGTAG AGGTGCAGAT GAGGGTGACG 
GGACTGGGGC GCCGGGGAGC CCAGGGCATG GCCGTGTGGT ACACCCGGGG CAGGGGCCAT 
GTAGGCTCTG TCCTTGGGGG GCTGGCTTCG TGGGACGGCA TCGGGATCTT CTTTGACTCT 
CCGGCAGAGG ATACTCAGGA CAGTCCTGCC ATCCGTGTGC TGGCCAGCGA CGGGCACATC 
CCCTCTGAGC AGCCTGGGGA TGGAGCTAGC CAAGGGCTGG GCTCCTGTCA TTGGGACTTC 
CGGAACCGGC CACACCCCTT CAGAGCACGG ATCACCTACT GGGGGCAGAG GCTGCGCATG 
TCCTTGAACA GTGGCCTCAC TCCCAGTGAT CCAGGTGAGT TCTGTGTGGA TGTGGGGCCC 
CTGCTTTTGG TCCCTGGAGG TTTCTTTGGG GTCTCAGCAG CCACCGGCAC CCTGGCAGAT 
GATCATGATG TCCTGTCCTT CCTGACCTTC AGCCTGAGTG AGCCCAGCCC AGAGGTTCCC 
CCTCAGCCCT TCCTGGAGAT GCAGCAGCTC CGCCTGGCGA GGCAGCTGGA AGGGCTGTGG 
GCAAGGCTGG GCTTGGGCAC CAGGGAGGAT GTAACTCCAA AATCAGACTC TGAAGCTCAA 
GGAGAAGGGG AAAGGCTCTT TGACCTGGAG GAGACGCTGG GCAGACACCG CCGGATCCTG 
CAGGCTCTGC GGGGTCTCTC CAAGCAGCTG GCCCAGGCTG AGAGACAATG GAAGAAGCAG 
CTGGGGCCCC CAGGCCAAGC CAGGCCTGAC GGAGGCTGGG CCCTGGATGC TTCCTGCCAG 
ATTCCATCCA CCCCAGGGAG GGGTGGCCAC CTCTCCATGT CACTCAATAA GGACTCTGCC 
AAGGTCGGTG CCCTGCTCCA TGGACAGTGG ACTCTGCTCC AGGCCCTGCA AGAGATGAGG 
GATGCAGCTG TCCGCATGGC TGCAGAAGCC CAGGTCTCCT ACCTGCCTGT GGGCATTGAG 
CATCATTTCT TAGAGCTGGA CCACATCCTG GGCCTCCTGC AGGAGGAGCT TCGGGGCCCG 
GCGAAGGCAG CAGCCAAGGC CCCCCGCCCA CCTGGCCAGC CCCCAAGGGC CTCCTCGTGC 
CTGCAGCCTG GCATCTTCCT GTTCTACCTC CTCATTCAGA CTGTAGGCTT CTTCGGCTAC 
GTGCACTTCA GGCAGGAGCT GAACAAGAGC CTTCAGGAGT GTCTGTCCAC AGGCAGCCTT 
CCTCTGGGTC CTGCACCACA CACCCCCAGG GCCCTGGGGA TTCTGAGGAG GCAGCCTCTC 
CCTGCCAGCA TGCCTGCCTG A

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

RefSeq NP_068591.2
CDS3..1583
Translation

Target ORF information:

RefSeq Version NM_021819.2
Organism Homo sapiens(human)
Definition Homo sapiens lectin, mannose binding 1 like (LMAN1L), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_021819.2

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
ATGCCGGCGG TCAGTGGTCC AGGTCCCTTA TTCTGCCTTC TCCTCCTGCT CCTGGACCCC 
CACAGCCCTG AGACGGGGTG TCCTCCTCTA CGCAGGTTTG AGTACAAGCT CAGCTTCAAA 
GGCCCAAGGC TGGCATTGCC TGGGGCTGGA ATACCCTTCT GGAGCCATCA TGGAGACGCC 
ATCCTGGGCC TGGAGGAAGT GCGGCTGACG CCATCCATGA GGAACCGGAG TGGCGCCGTG 
TGGAGCAGGG CCTCTGTCCC CTTCTCTGCC TGGGAAGTAG AGGTGCAGAT GAGGGTGACG 
GGACTGGGGC GCCGGGGAGC CCAGGGCATG GCCGTGTGGT ACACCCGGGG CAGGGGCCAT 
GTAGGCTCTG TCCTTGGGGG GCTGGCTTCG TGGGACGGCA TCGGGATCTT CTTTGACTCT 
CCGGCAGAGG ATACTCAGGA CAGTCCTGCC ATCCGTGTGC TGGCCAGCGA CGGGCACATC 
CCCTCTGAGC AGCCTGGGGA TGGAGCTAGC CAAGGGCTGG GCTCCTGTCA TTGGGACTTC 
CGGAACCGGC CACACCCCTT CAGAGCACGG ATCACCTACT GGGGGCAGAG GCTGCGCATG 
TCCTTGAACA GTGGCCTCAC TCCCAGTGAT CCAGGTGAGT TCTGTGTGGA TGTGGGGCCC 
CTGCTTTTGG TCCCTGGAGG TTTCTTTGGG GTCTCAGCAG CCACCGGCAC CCTGGCAGAT 
GATCATGATG TCCTGTCCTT CCTGACCTTC AGCCTGAGTG AGCCCAGCCC AGAGGTTCCC 
CCTCAGCCCT TCCTGGAGAT GCAGCAGCTC CGCCTGGCGA GGCAGCTGGA AGGGCTGTGG 
GCAAGGCTGG GCTTGGGCAC CAGGGAGGAT GTAACTCCAA AATCAGACTC TGAAGCTCAA 
GGAGAAGGGG AAAGGCTCTT TGACCTGGAG GAGACGCTGG GCAGACACCG CCGGATCCTG 
CAGGCTCTGC GGGGTCTCTC CAAGCAGCTG GCCCAGGCTG AGAGACAATG GAAGAAGCAG 
CTGGGGCCCC CAGGCCAAGC CAGGCCTGAC GGAGGCTGGG CCCTGGATGC TTCCTGCCAG 
ATTCCATCCA CCCCAGGGAG GGGTGGCCAC CTCTCCATGT CACTCAATAA GGACTCTGCC 
AAGGTCGGTG CCCTGCTCCA TGGACAGTGG ACTCTGCTCC AGGCCCTGCA AGAGATGAGG 
GATGCAGCTG TCCGCATGGC TGCAGAAGCC CAGGTCTCCT ACCTGCCTGT GGGCATTGAG 
CATCATTTCT TAGAGCTGGA CCACATCCTG GGCCTCCTGC AGGAGGAGCT TCGGGGCCCG 
GCGAAGGCAG CAGCCAAGGC CCCCCGCCCA CCTGGCCAGC CCCCAAGGGC CTCCTCGTGC 
CTGCAGCCTG GCATCTTCCT GTTCTACCTC CTCATTCAGA CTGTAGGCTT CTTCGGCTAC 
GTGCACTTCA GGCAGGAGCT GAACAAGAGC CTTCAGGAGT GTCTGTCCAC AGGCAGCCTT 
CCTCTGGGTC CTGCACCACA CACCCCCAGG GCCCTGGGGA TTCTGAGGAG GCAGCCTCTC 
CCTGCCAGCA TGCCTGCCTG A

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

CloneID OHu03743
Clone ID Related Accession (Same CDS sequence) NM_021819.2 , NM_021819.3
Accession Version NM_021819.3 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 1581bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ™ Seamless cloning technology
Insert Structure linear
Update Date 2019-10-25
Organism Homo sapiens(human)
Product protein ERGIC-53-like precursor
Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC091230.23, AY358724.1 and AF303398.1. This sequence is a reference standard in the RefSeqGene project. On May 17, 2019 this sequence version replaced NM_021819.2. ##Evidence-Data-START## Transcript exon combination :: AK291819.1, AF303398.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968832, SAMEA2150585 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000309664.10/ ENSP00000310431.5 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-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
ATGCCGGCGG TCAGTGGTCC AGGTCCCTTA TTCTGCCTTC TCCTCCTGCT CCTGGACCCC 
CACAGCCCTG AGACGGGGTG TCCTCCTCTA CGCAGGTTTG AGTACAAGCT CAGCTTCAAA 
GGCCCAAGGC TGGCATTGCC TGGGGCTGGA ATACCCTTCT GGAGCCATCA TGGAGACGCC 
ATCCTGGGCC TGGAGGAAGT GCGGCTGACG CCATCCATGA GGAACCGGAG TGGCGCCGTG 
TGGAGCAGGG CCTCTGTCCC CTTCTCTGCC TGGGAAGTAG AGGTGCAGAT GAGGGTGACG 
GGACTGGGGC GCCGGGGAGC CCAGGGCATG GCCGTGTGGT ACACCCGGGG CAGGGGCCAT 
GTAGGCTCTG TCCTTGGGGG GCTGGCTTCG TGGGACGGCA TCGGGATCTT CTTTGACTCT 
CCGGCAGAGG ATACTCAGGA CAGTCCTGCC ATCCGTGTGC TGGCCAGCGA CGGGCACATC 
CCCTCTGAGC AGCCTGGGGA TGGAGCTAGC CAAGGGCTGG GCTCCTGTCA TTGGGACTTC 
CGGAACCGGC CACACCCCTT CAGAGCACGG ATCACCTACT GGGGGCAGAG GCTGCGCATG 
TCCTTGAACA GTGGCCTCAC TCCCAGTGAT CCAGGTGAGT TCTGTGTGGA TGTGGGGCCC 
CTGCTTTTGG TCCCTGGAGG TTTCTTTGGG GTCTCAGCAG CCACCGGCAC CCTGGCAGAT 
GATCATGATG TCCTGTCCTT CCTGACCTTC AGCCTGAGTG AGCCCAGCCC AGAGGTTCCC 
CCTCAGCCCT TCCTGGAGAT GCAGCAGCTC CGCCTGGCGA GGCAGCTGGA AGGGCTGTGG 
GCAAGGCTGG GCTTGGGCAC CAGGGAGGAT GTAACTCCAA AATCAGACTC TGAAGCTCAA 
GGAGAAGGGG AAAGGCTCTT TGACCTGGAG GAGACGCTGG GCAGACACCG CCGGATCCTG 
CAGGCTCTGC GGGGTCTCTC CAAGCAGCTG GCCCAGGCTG AGAGACAATG GAAGAAGCAG 
CTGGGGCCCC CAGGCCAAGC CAGGCCTGAC GGAGGCTGGG CCCTGGATGC TTCCTGCCAG 
ATTCCATCCA CCCCAGGGAG GGGTGGCCAC CTCTCCATGT CACTCAATAA GGACTCTGCC 
AAGGTCGGTG CCCTGCTCCA TGGACAGTGG ACTCTGCTCC AGGCCCTGCA AGAGATGAGG 
GATGCAGCTG TCCGCATGGC TGCAGAAGCC CAGGTCTCCT ACCTGCCTGT GGGCATTGAG 
CATCATTTCT TAGAGCTGGA CCACATCCTG GGCCTCCTGC AGGAGGAGCT TCGGGGCCCG 
GCGAAGGCAG CAGCCAAGGC CCCCCGCCCA CCTGGCCAGC CCCCAAGGGC CTCCTCGTGC 
CTGCAGCCTG GCATCTTCCT GTTCTACCTC CTCATTCAGA CTGTAGGCTT CTTCGGCTAC 
GTGCACTTCA GGCAGGAGCT GAACAAGAGC CTTCAGGAGT GTCTGTCCAC AGGCAGCCTT 
CCTCTGGGTC CTGCACCACA CACCCCCAGG GCCCTGGGGA TTCTGAGGAG GCAGCCTCTC 
CCTGCCAGCA TGCCTGCCTG A

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

RefSeq NP_068591.2
CDS21..1601
Translation

Target ORF information:

RefSeq Version NM_021819.3
Organism Homo sapiens(human)
Definition Homo sapiens lectin, mannose binding 1 like (LMAN1L), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_021819.3

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
ATGCCGGCGG TCAGTGGTCC AGGTCCCTTA TTCTGCCTTC TCCTCCTGCT CCTGGACCCC 
CACAGCCCTG AGACGGGGTG TCCTCCTCTA CGCAGGTTTG AGTACAAGCT CAGCTTCAAA 
GGCCCAAGGC TGGCATTGCC TGGGGCTGGA ATACCCTTCT GGAGCCATCA TGGAGACGCC 
ATCCTGGGCC TGGAGGAAGT GCGGCTGACG CCATCCATGA GGAACCGGAG TGGCGCCGTG 
TGGAGCAGGG CCTCTGTCCC CTTCTCTGCC TGGGAAGTAG AGGTGCAGAT GAGGGTGACG 
GGACTGGGGC GCCGGGGAGC CCAGGGCATG GCCGTGTGGT ACACCCGGGG CAGGGGCCAT 
GTAGGCTCTG TCCTTGGGGG GCTGGCTTCG TGGGACGGCA TCGGGATCTT CTTTGACTCT 
CCGGCAGAGG ATACTCAGGA CAGTCCTGCC ATCCGTGTGC TGGCCAGCGA CGGGCACATC 
CCCTCTGAGC AGCCTGGGGA TGGAGCTAGC CAAGGGCTGG GCTCCTGTCA TTGGGACTTC 
CGGAACCGGC CACACCCCTT CAGAGCACGG ATCACCTACT GGGGGCAGAG GCTGCGCATG 
TCCTTGAACA GTGGCCTCAC TCCCAGTGAT CCAGGTGAGT TCTGTGTGGA TGTGGGGCCC 
CTGCTTTTGG TCCCTGGAGG TTTCTTTGGG GTCTCAGCAG CCACCGGCAC CCTGGCAGAT 
GATCATGATG TCCTGTCCTT CCTGACCTTC AGCCTGAGTG AGCCCAGCCC AGAGGTTCCC 
CCTCAGCCCT TCCTGGAGAT GCAGCAGCTC CGCCTGGCGA GGCAGCTGGA AGGGCTGTGG 
GCAAGGCTGG GCTTGGGCAC CAGGGAGGAT GTAACTCCAA AATCAGACTC TGAAGCTCAA 
GGAGAAGGGG AAAGGCTCTT TGACCTGGAG GAGACGCTGG GCAGACACCG CCGGATCCTG 
CAGGCTCTGC GGGGTCTCTC CAAGCAGCTG GCCCAGGCTG AGAGACAATG GAAGAAGCAG 
CTGGGGCCCC CAGGCCAAGC CAGGCCTGAC GGAGGCTGGG CCCTGGATGC TTCCTGCCAG 
ATTCCATCCA CCCCAGGGAG GGGTGGCCAC CTCTCCATGT CACTCAATAA GGACTCTGCC 
AAGGTCGGTG CCCTGCTCCA TGGACAGTGG ACTCTGCTCC AGGCCCTGCA AGAGATGAGG 
GATGCAGCTG TCCGCATGGC TGCAGAAGCC CAGGTCTCCT ACCTGCCTGT GGGCATTGAG 
CATCATTTCT TAGAGCTGGA CCACATCCTG GGCCTCCTGC AGGAGGAGCT TCGGGGCCCG 
GCGAAGGCAG CAGCCAAGGC CCCCCGCCCA CCTGGCCAGC CCCCAAGGGC CTCCTCGTGC 
CTGCAGCCTG GCATCTTCCT GTTCTACCTC CTCATTCAGA CTGTAGGCTT CTTCGGCTAC 
GTGCACTTCA GGCAGGAGCT GAACAAGAGC CTTCAGGAGT GTCTGTCCAC AGGCAGCCTT 
CCTCTGGGTC CTGCACCACA CACCCCCAGG GCCCTGGGGA TTCTGAGGAG GCAGCCTCTC 
CCTGCCAGCA TGCCTGCCTG A

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

PubMed

book

Characterization of the Extracellular Matrix of Normal and Diseased Tissues Using Proteomics.
Journal of proteome research16(8)3083-3091(2017 Aug)
Naba A,Pearce OMT,Del Rosario A,Ma D,Ding H,Rajeeve V,Cutillas PR,Balkwill FR,Hynes RO


book

Genome-wide meta-analysis identifies regions on 7p21 (AHR) and 15q24 (CYP1A2) as determinants of habitual caffeine consumption.
PLoS genetics7(4)e1002033(2011 Apr)
Cornelis MC,Monda KL,Yu K,Paynter N,Azzato EM,Bennett SN,Berndt SI,Boerwinkle E,Chanock S,Chatterjee N,Couper D,Curhan G,Heiss G,Hu FB,Hunter DJ,Jacobs K,Jensen MK,Kraft P,Landi MT,Nettleton JA,Purdue MP,Rajaraman P,Rimm EB,Rose LM,Rothman N,Silverman D,Stolzenberg-Solomon R,Subar A,Yeager M,Chasman DI,van Dam RM,Caporaso NE


book

New genetic associations detected in a host response study to hepatitis B vaccine.
Genes and immunity11(3)232-8(2010 Apr)
Davila S,Froeling FE,Tan A,Bonnard C,Boland GJ,Snippe H,Hibberd ML,Seielstad M


book

Genome-wide association study identifies eight loci associated with blood pressure.
Nature genetics41(6)666-76(2009 Jun)
Newton-Cheh C,Johnson T,Gateva V,Tobin MD,Bochud M,Coin L,Najjar SS,Zhao JH,Heath SC,Eyheramendy S,Papadakis K,Voight BF,Scott LJ,Zhang F,Farrall M,Tanaka T,Wallace C,Chambers JC,Khaw KT,Nilsson P,van der Harst P,Polidoro S,Grobbee DE,Onland-Moret NC,Bots ML,Wain LV,Elliott KS,Teumer A,Luan J,Lucas G,Kuusisto J,Burton PR,Hadley D,McArdle WL,,Brown M,Dominiczak A,Newhouse SJ,Samani NJ,Webster J,Zeggini E,Beckmann JS,Bergmann S,Lim N,Song K,Vollenweider P,Waeber G,Waterworth DM,Yuan X,Groop L,Orho-Melander M,Allione A,Di Gregorio A,Guarrera S,Panico S,Ricceri F,Romanazzi V,Sacerdote C,Vineis P,Barroso I,Sandhu MS,Luben RN,Crawford GJ,Jousilahti P,Perola M,Boehnke M,Bonnycastle LL,Collins FS,Jackson AU,Mohlke KL,Stringham HM,Valle TT,Willer CJ,Bergman RN,Morken MA,D?ring A,Gieger C,Illig T,Meitinger T,Org E,Pfeufer A,Wichmann HE,Kathiresan S,Marrugat J,O'Donnell CJ,Schwartz SM,Siscovick DS,Subirana I,Freimer NB,Hartikainen AL,McCarthy MI,O'Reilly PF,Peltonen L,Pouta A,de Jong PE,Snieder H,van Gilst WH,Clarke R,Goel A,Hamsten A,Peden JF,Seedorf U,Syv?nen AC,Tognoni G,Lakatta EG,Sanna S,Scheet P,Schlessinger D,Scuteri A,D?rr M,Ernst F,Felix SB,Homuth G,Lorbeer R,Reffelmann T,Rettig R,V?lker U,Galan P,Gut IG,Hercberg S,Lathrop GM,Zelenika D,Deloukas P,Soranzo N,Williams FM,Zhai G,Salomaa V,Laakso M,Elosua R,Forouhi NG,V?lzke H,Uiterwaal CS,van der Schouw YT,Numans ME,Matullo G,Navis G,Berglund G,Bingham SA,Kooner JS,Connell JM,Bandinelli S,Ferrucci L,Watkins H,Spector TD,Tuomilehto J,Altshuler D,Strachan DP,Laan M,Meneton P,Wareham NJ,Uda M,Jarvelin MR,Mooser V,Melander O,Loos RJ,Elliott P,Abecasis GR,Caulfield M,Munroe PB


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Identification of ERGIC-53 as an intracellular transport receptor of alpha1-antitrypsin.
The Journal of cell biology180(4)705-12(2008 Feb)
Nyfeler B,Reiterer V,Wendeler MW,Stefan E,Zhang B,Michnick SW,Hauri HP