2024-04-25 17:26:35, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_152888 6366 bp mRNA linear PRI 01-JUL-2013 DEFINITION Homo sapiens collagen, type XXII, alpha 1 (COL22A1), mRNA. ACCESSION NM_152888 XM_291257 VERSION NM_152888.1 GI:40805822 KEYWORDS RefSeq. SOURCE Homo sapiens (human) ORGANISM Homo sapiens Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo. REFERENCE 1 (bases 1 to 6366) AUTHORS Duan,Q.L., Lasky-Su,J., Himes,B.E., Qiu,W., Litonjua,A.A., Damask,A., Lazarus,R., Klanderman,B., Irvin,C.G., Peters,S.P., Hanrahan,J.P., Lima,J.J., Martinez,F.D., Mauger,D., Chinchilli,V.M., Soto-Quiros,M., Avila,L., Celedon,J.C., Lange,C., Weiss,S.T. and Tantisira,K.G. TITLE A genome-wide association study of bronchodilator response in asthmatics JOURNAL Pharmacogenomics J. (2013) In press PUBMED 23508266 REMARK Publication Status: Available-Online prior to print REFERENCE 2 (bases 1 to 6366) AUTHORS Pattaro,C., De Grandi,A., Vitart,V., Hayward,C., Franke,A., Aulchenko,Y.S., Johansson,A., Wild,S.H., Melville,S.A., Isaacs,A., Polasek,O., Ellinghaus,D., Kolcic,I., Nothlings,U., Zgaga,L., Zemunik,T., Gnewuch,C., Schreiber,S., Campbell,S., Hastie,N., Boban,M., Meitinger,T., Oostra,B.A., Riegler,P., Minelli,C., Wright,A.F., Campbell,H., van Duijn,C.M., Gyllensten,U., Wilson,J.F., Krawczak,M., Rudan,I. and Pramstaller,P.P. CONSRTM EUROSPAN consortium TITLE A meta-analysis of genome-wide data from five European isolates reveals an association of COL22A1, SYT1, and GABRR2 with serum creatinine level JOURNAL BMC Med. Genet. 11, 41 (2010) PUBMED 20222955 REMARK GeneRIF: association between serum creatinine level and polymorphisms in the collagen type XXII alpha 1 (COL22A1) gene, on chromosome 8, and in the synaptotagmin-1 (SYT1) gene, on chromosome 12 GeneRIF: Observational study, meta-analysis, and genome-wide association study of gene-disease association. (HuGE Navigator) Publication Status: Online-Only REFERENCE 3 (bases 1 to 6366) AUTHORS Koch,M., Schulze,J., Hansen,U., Ashwodt,T., Keene,D.R., Brunken,W.J., Burgeson,R.E., Bruckner,P. and Bruckner-Tuderman,L. TITLE A novel marker of tissue junctions, collagen XXII JOURNAL J. Biol. Chem. 279 (21), 22514-22521 (2004) PUBMED 15016833 REMARK GeneRIF: collagen XXII is the first specific extracellular matrix protein present only at tissue junctions COMMENT VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX094632.1, AF406780.1, AA781676.1 and BC042075.1. On Jan 26, 2004 this sequence version replaced gi:30150657. Summary: COL22A1, a member of the FACIT (fibrillar-associated collagens with interrupted triple helices) subgroup of the collagen protein family, specifically localizes to tissue junctions (Koch et al., 2004 [PubMed 15016833]).[supplied by OMIM, Mar 2008]. ##Evidence-Data-START## Transcript exon combination :: AF406780.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support ERS025082, ERS025084 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-240 BX094632.1 14-253 241-1404 AF406780.1 241-1404 1405-1416 AA781676.1 291-302 c 1417-3386 AF406780.1 1417-3386 3387-3388 BC042075.1 685-686 3389-4046 AF406780.1 3389-4046 4047-4048 BC042075.1 1285-1286 4049-6346 AF406780.1 4049-6346 6347-6366 BC042075.1 3584-3603 FEATURES Location/Qualifiers source 1..6366 /organism="Homo sapiens" /mol_type="mRNA" /db_xref="taxon:9606" /chromosome="8" /map="8q24.3" gene 1..6366 /gene="COL22A1" /note="collagen, type XXII, alpha 1" /db_xref="GeneID:169044" /db_xref="HGNC:22989" /db_xref="HPRD:09885" /db_xref="MIM:610026" exon 1..375 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 376..538 /gene="COL22A1" /inference="alignment:Splign:1.39.8" misc_feature 388..390 /gene="COL22A1" /note="upstream in-frame stop codon" CDS 448..5328 /gene="COL22A1" /note="collagen alpha-1(XXII) chain" /codon_start=1 /product="collagen alpha-1(XXII) chain precursor" /protein_id="NP_690848.1" /db_xref="GI:40805823" /db_xref="CCDS:CCDS6376.1" /db_xref="GeneID:169044" /db_xref="HGNC:22989" /db_xref="HPRD:09885" /db_xref="MIM:610026" /translation="
MAGLRGNAVAGLLWMLLLWSGGGGCQAQRAGCKSVHYDLVFLLDTSSSVGKEDFEKVRQWVANLVDTFEVGPDRTRVGVVRYSDRPTTAFELGLFGSQEEVKAAARRLAYHGGNTNTGDALRYITARSFSPHAGGRPRDRAYKQVAILLTDGRSQDLVLDAAAAAHRAGIRIFAVGVGEALKEELEEIASEPKSAHVFHVSDFNAIDKIRGKLRRRLCENVLCPSVRVEGDRFKHTNGGTKEITGFDLMDLFSVKEILGKRENGAQSSYVRMGSFPVVQSTEDVFPQGLPDEYAFVTTFRFRKTSRKEDWYIWQVIDQYSIPQVSIRLDGENKAVEYNAVGAMKDAVRVVFRGSRVNDLFDRDWHKMALSIQAQNVSLHIDCALVQTLPIEERENIDIQGKTVIGKRLYDSVPIDFDLQRIVIYCDSRHAELETCCDIPSGPCQVTVVTEPPPPPPPQRPPTPGSEQIGFLKTINCSCPAGEKGEMGVAGPMGLPGPKGDIGAIGPVGAPGPKGEKGDVGIGPFGQGEKGEKGSLGLPGPPGRDGSKGMRGEPGELGEPGLPGEVGMRGPQGPPGLPGPPGRVGAPGLQGERGEKGTRGEKGERGLDGFPGKPGDTGQQGRPGPSGVAGPQGEKGDVGPAGPPGVPGSVVQQEGLKGEQGAPGPRGHQGAPGPPGARGPIGPEGRDGPPGLQGLRGKKGDMGPPGIPGLLGLQGPPGPPGVPGPPGPGGSPGLPGEIGFPGKPGPPGPTGPPGKDGPNGPPGPPGTKGEPGERGEDGLPGKPGLRGEIGEQGLAGRPGEKGEAGLPGAPGFPGVRGEKGDQGEKGELGLPGLKGDRGEKGEAGPAGPPGLPGTTSLFTPHPRMPGEQGPKGEKGDPGLPGEPGLQGRPGELGPQGPTGPPGAKGQEGAHGAPGAAGNPGAPGHVGAPGPSGPPGSVGAPGLRGTPGKDGERGEKGAAGEEGSPGPVGPRGDPGAPGLPGPPGKGKDGEPGLRGSPGLPGPLGTKAACGKVRGSENCALGGQCVKGDRGAPGIPGSPGSRGDPGIGVAGPPGPSGPPGDKGSPGSRGLPGFPGPQGPAGRDGAPGNPGERGPPGKPGLSSLLSPGDINLLAKDVCNDCPPGPPGLPGLPGFKGDKGVPGKPGREGTEGKKGEAGPPGLPGPPGIAGPQGSQGERGADGEVGQKGDQGHPGVPGFMGPPGNPGPPGADGIAGAAGPPGIQGSPGKEGPPGPQGPSGLPGIPGEEGKEGRDGKPGPPGEPGKAGEPGLPGPEGARGPPGFKGHTGDSGAPGPRGESGAMGLPGQEGLPGKDGDTGPTGPQGPQGPRGPPGKNGSPGSPGEPGPSGTPGQKGSKGENGSPGLPGFLGPRGPPGEPGEKGVPGKEGVPGKPGEPGFKGERGDPGIKGDKGPPGGKGQPGDPGIPGHKGHTGLMGPQGLPGENGPVGPPGPPGQPGFPGLRGESPSMETLRRLIQEELGKQLETRLAYLLAQMPPAYMKSSQGRPGPPGPPGKDGLPGRAGPMGEPGRPGQGGLEGPSGPIGPKGERGAKGDPGAPGVGLRGEMGPPGIPGQPGEPGYAKDGLPGIPGPQGETGPAGHPGLPGPPGPPGQCDPSQCAYFASLAARPGNVKGP
" sig_peptide 448..528 /gene="COL22A1" /inference="COORDINATES: ab initio prediction:SignalP:4.0" mat_peptide 529..5325 /gene="COL22A1" /product="Collagen alpha-1(XXII) chain" /experiment="experimental evidence, no additional details recorded" /note="propagated from UniProtKB/Swiss-Prot (Q8NFW1.2)" misc_feature 553..1104 /gene="COL22A1" /note="Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF). Typically, the vWA domain is made up of approximately 200 amino acid residues folded into a classic a/b para-rossmann type of...; Region: vWFA; cl00057" /db_xref="CDD:206808" misc_feature order(577..579,790..792,898..900) /gene="COL22A1" /note="metal ion-dependent adhesion site (MIDAS); other site" /db_xref="CDD:29222" misc_feature 1162..1725 /gene="COL22A1" /note="Laminin G domain; Laminin G-like domains are usually Ca++ mediated receptors that can have binding sites for steroids, beta1 integrins, heparin, sulfatides, fibulin-1, and alpha-dystroglycans. Proteins that contain LamG domains serve a variety of...; Region: LamG; cl00102" /db_xref="CDD:206838" misc_feature 2770..2904 /gene="COL22A1" /note="Collagen triple helix repeat (20 copies); Region: Collagen; pfam01391" /db_xref="CDD:189968" misc_feature <3037..3162 /gene="COL22A1" /note="Collagen triple helix repeat (20 copies); Region: Collagen; pfam01391" /db_xref="CDD:189968" misc_feature 3502..3732 /gene="COL22A1" /note="Collagen triple helix repeat (20 copies); Region: Collagen; pfam01391" /db_xref="CDD:189968" misc_feature 4984..>5100 /gene="COL22A1" /note="Collagen triple helix repeat (20 copies); Region: Collagen; pfam01391" /db_xref="CDD:189968" exon 539..1105 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1106..1180 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1181..1292 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1293..1416 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1417..1692 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1693..1773 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1774..1896 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1897..1941 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 1942..2004 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2005..2043 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2044..2097 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2098..2151 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2152..2205 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2206..2250 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2251..2304 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2305..2349 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2350..2394 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2395..2424 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2425..2478 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2479..2532 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2533..2586 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2587..2640 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2641..2694 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2695..2748 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2749..2802 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2803..2847 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2848..2910 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2911..2964 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 2965..3006 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3007..3039 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3040..3093 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3094..3147 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3148..3201 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3202..3255 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3256..3309 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3310..3414 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3415..3459 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3460..3519 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3520..3597 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3598..3633 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3634..3687 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3688..3732 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3733..3780 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3781..3894 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3895..3948 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 3949..4002 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4003..4056 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4057..4110 /gene="COL22A1" /inference="alignment:Splign:1.39.8" variation 4074 /gene="COL22A1" /replace="a" /replace="g" /db_xref="dbSNP:4131277" exon 4111..4164 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4165..4218 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4219..4272 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4273..4317 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4318..4371 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4372..4425 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4426..4479 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4480..4551 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4552..4587 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4588..4632 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4633..4812 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4813..4879 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 4880..5062 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 5063..5140 /gene="COL22A1" /inference="alignment:Splign:1.39.8" exon 5141..6346 /gene="COL22A1" /inference="alignment:Splign:1.39.8" STS 5994..6123 /gene="COL22A1" /standard_name="RH102326" /db_xref="UniSTS:96660" polyA_signal 6321..6326 /gene="COL22A1" polyA_site 6346 /gene="COL22A1" ORIGIN
ggggctggccgaggctgcggcgtttctccccaaggaagtgtcttctccgctttccctgttcttctgtttctcacacactttctatctcattctgtaactttcaagcctttccttctaactgtatgtatttagttacttgttttcaagctggttccctctctggccccctggcctggggaaagcctccacacttactgcgggtcttgtttagagtctgagtttgtgagattatttggggcagagtgggcgagtggctgacaggtgacccccaggaggaggattcctggggctggtgtcttctcccagctgctgcttccagtgggcctgggcccaggactggacctccgctggcacccctgagtgcctccctgccaggccatgctgctgtagaccctaacagcgtctcttcctggccaagagaagcctgtccccaagaacaggagagccatggccggcctccgagggaacgctgtggctggcctcctctggatgctgctgctgtggagtgggggcggcggctgccaggctcagcgggcaggttgcaaaagtgtccactacgatctggtcttcctcctggacacctcctccagcgtgggcaaggaggactttgagaaggtccggcagtgggtggccaacctggtggacaccttcgaggtgggccccgaccgcacccgtgtgggggtcgtgcgctacagcgaccggcccaccacggccttcgagttgggactctttggctcgcaggaggaggtcaaggcggctgcccggcgtctcgcctaccacgggggcaacaccaacacgggagacgcgctccgctacatcacggcccgcagcttctccccacacgccggcggccgccccagggaccgcgcctacaagcaggtggccatcctgctcaccgacggccgcagccaggacctggtgctggacgccgcggcggcagcccaccgcgctggcatccgcatctttgccgtgggcgtgggcgaggcactcaaggaggagctggaggagatcgcctcagagcccaagtccgcccacgtcttccacgtgtccgacttcaatgccatcgacaagatccggggcaagctgcggcgccgtctttgtgaaaatgtgctctgtcctagcgttcgtgtagaaggagatcgctttaagcacaccaatggaggaaccaaggaaatcacaggttttgacctgatggatttgttcagtgtgaaggaaatcttggggaagagagagaatggagctcagagttcctatgtacggatgggatccttccctgtggtgcaaagtactgaggatgtgttcccccaaggtttacctgatgagtacgcctttgtcacaaccttccggttcaggaaaacctctcggaaggaagactggtatatctggcaggtcatcgaccagtacagcatcccacaggtctccatccggctggatggtgaaaacaaggcagtcgagtacaacgctgtgggtgccatgaaagatgctgtcagggtggtcttccgaggttctcgggtcaatgacctctttgaccgggactggcacaagatggccctgagcatccaggcccagaacgtctccctgcacattgactgtgcgctggtgcagacactacccatcgaggaacgggagaacattgacatccagggcaagactgtgattggcaagcgcctctacgacagtgtgcccattgactttgacctacagcggattgtgatctattgtgactcgagacacgcagaattggagacttgttgtgatatcccctcgggtccgtgccaggtgaccgtggtgacagagcctccacctccacccccaccccagcggcctcccaccccaggcagtgaacagattgggtttttgaagaccatcaactgctcctgcccagctggagagaagggtgaaatgggagttgctggccccatggggctccctggtccaaagggagacataggagccattgggccggttggcgctcctggacctaagggagagaaaggtgatgtgggcataggaccttttggccaaggggaaaagggtgaaaagggttccctgggcctgcccggcccccctgggagagacggcagcaaaggcatgagaggggagccaggagagctgggagagccggggctgccgggtgaggtcggcatgcgggggccccaaggaccacctggactccccggacctcctggacgtgtcggagctcctggtctccaaggagaacgaggtgaaaagggaactcgaggagaaaagggagagcgaggcctggatggattccctgggaagcctggggacacaggacagcagggcaggcccggcccttctggtgtggcaggaccccagggagaaaagggtgacgtgggacctgcggggccacctggtgtaccaggctcagtggtgcagcaagagggcttgaaaggggaacagggagctccaggacccagaggtcaccaaggcgcccccggtcctccaggagctcggggtccaataggcccagaaggcagggatggacctcctggtttgcaaggtctccgagggaagaaaggtgacatgggaccacctggaatccctggattgctggggctgcagggccctccaggaccccctggtgtcccaggcccccctggaccgggaggttctccgggtttgcctggagagatcggcttcccgggaaagcctggacctcctgggcccacgggaccccctggaaaggacgggccaaatggaccaccaggtccgccaggaaccaagggagaaccaggagaaagaggggaagatggtctgcctggaaaaccaggccttcggggagaaattggggagcagggcctggcaggccgacctggagagaagggagaagcaggcctcccaggggctccaggcttcccaggtgtgagaggagagaaaggagaccagggagaaaaaggtgaactgggacttccaggactgaaaggtgaccgaggtgaaaagggtgaagctggtcctgcaggccctcccgggttacctggaactacatccctgttcacaccacatccacggatgcccggagaacaagggcccaaaggagagaagggcgatccaggcctgcctggggaaccgggactgcagggccgtcctggagaattggggcctcagggacccactggaccaccgggtgccaagggacaggaaggtgcacatggggctcctggagcagctggaaaccccggtgctcccggacatgtcggtgcccccggtcccagtggccctccaggaagtgtgggtgctcccggcctcagaggcaccccagggaaagatggggagcgtggtgagaagggtgcagcgggggaagaaggcagcccagggccagttggtcccaggggagatcctggtgctcctgggctccctgggccgcccggaaaagggaaggatggagagccgggactccgtggatcacctggactccctggacccctaggaaccaaggctgcttgcggaaaagtcagagggtcagaaaactgtgcactgggagggcaatgtgttaagggggatcgaggagctcctgggatccctggttctcctggcagccgtggtgacccaggcattggggttgctggccctcctggcccttccggaccaccaggagacaaaggatccccgggatcacgaggcttacctggattccctggcccccagggcccagccggccgggacggtgcaccaggaaatccaggagaaagagggcctcctggcaagccgggcctctcttcactactgtctccaggggacataaatctcttggctaaggatgtgtgcaatgactgccctcctggccccccaggcctccctggtctaccaggttttaaaggggacaaaggtgtcccaggaaagccagggagagaaggcacagaagggaaaaagggagaggctgggcctccaggcctaccagggcccccaggaatagctggaccacagggaagtcaaggagaacgtggtgcagatggtgaggttgggcagaaaggtgatcagggtcatcctggagttccaggtttcatggggcccccagggaaccccgggccaccaggggcagatggaattgcaggagctgctggaccaccaggaatccaagggtcacctgggaaagaaggccctcctggcccccaaggcccatctggattacccggaatcccaggagaagaaggcaaagagggcagagatggaaagccgggtccccctggagagccgggcaaagcaggagagccaggtctaccaggaccagagggtgcccgaggcccacctggcttcaagggacacacaggcgattctggtgcacccggtccccggggagagtctggtgccatggggcttcctggtcaggaagggttaccaggaaaagatggtgacactggacccactgggccacagggtccccaaggaccaaggggcccaccgggcaagaatggatcaccgggatctccaggagagcctggcccttcaggaacccctggccagaaaggaagcaaaggggaaaatggcagcccaggacttcctggcttcctgggtccccgtgggcctccgggagaaccaggagagaaaggagtcccaggcaaggagggggtccctgggaagcctggagagcctggattcaaaggagaaaggggagatcctgggatcaaaggtgacaaaggacctcctggtggaaaaggccagcctggggaccctggaatcccaggccacaaaggccacacaggcctgatgggtccccaaggactacctggggagaatggaccagttggacccccagggcctccaggccagccgggatttccaggactgaggggggagtctccatccatggaaaccctgcgtcggcttattcaagaagagctggggaagcagcttgaaaccagactcgcctacctcctggcccagatgcccccggcgtacatgaagtcatctcaaggcagacctgggcccccagggccccctggaaaagatgggcttccaggccgggccggccccatgggggagccaggtcgtcctgggcaggggggtctggaaggaccctctggacccataggtcccaaaggtgagcgaggagccaaaggtgacccaggtgcacctggagttggcctccgaggcgagatgggaccccctggaatcccaggtcaacccggggaacctggctatgctaaagatggacttcctgggatccctggccctcaaggggagacaggaccagctggacatcctggcctcccaggacctcccggtcccccaggccaatgtgacccttcccagtgtgcctacttcgccagccttgctgcccggccgggtaatgtgaagggtccctaaaggactctggaaagccagaagactgcagtggatttctgaaacttgaactcagagcccagtgggaagccagaggtcttgaaagacttcagccatgtgttccttttttttttctttcttttatcgtttgctttttgttttattttcttgagagacctcaaaattattaaatccaacagacgctgccggtcggtcagattattattaatattattgttgttgttaattattattattatttcatatgctgatgctttgtgagttcttttccactcctttaaagttgggaaaacttgattcgtggggcaggagattgtttcttcattcttctgacagcccccatctgacgcgtaactgcccattttaaggaaactcttggtgctacaaaaccctgaccagacacttggcaaatttacctctttcttcaaaagaaaaactttaagaaaatgagccaatgggcttcattctcagtcatgcccggagatcacccaggagaaataatacaaacaccaccactgtccagagagagtaaagaagcagaaagagaaagaatttgcaaccatgaggaatgttcccacctcccgacgggacgtgcatttggaaaacacagaatcagccctcagggtgcactccagccacctcagtgctctaagctcacagaagtgaaataatgtctgtgggttggcaatggctttgtgggatcatatgtcttggccaaagatgggaaaacctatgttgaagaggcagcccttgagtgttaatttgtcttctaaactgtgtaaggccccttcaagttcctcttgttggtttcaattatattaattataaaacaagtggatgtggtgaccatccacttgtgtttccctaatgatgggcagttggccagggcactgaccagagctgggaaatttgtatctccaaggcggctctgtctctgaaataaatggcatcaagtgcatgtgtgtatgcgacatgccctgcctgaacaggtgctcaataaatccaagtttccttctcttgaaaaaaaaaaaaaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726): GeneID:169044 -> Biological process: GO:0030198 [extracellular matrix organization] evidence: TAS GeneID:169044 -> Cellular component: GO:0005576 [extracellular region] evidence: TAS GeneID:169044 -> Cellular component: GO:0005581 [collagen] evidence: IEA GeneID:169044 -> Cellular component: GO:0005788 [endoplasmic reticulum lumen] evidence: TAS
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