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2024-04-19 20:25:07, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_198461 13920 bp mRNA linear PRI 17-APR-2013
DEFINITION Homo sapiens LON peptidase N-terminal domain and ring finger 2
(LONRF2), mRNA.
ACCESSION NM_198461 XM_092184
VERSION NM_198461.3 GI:148528974
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 13920)
AUTHORS Trynka,G., Zhernakova,A., Romanos,J., Franke,L., Hunt,K.A.,
Turner,G., Bruinenberg,M., Heap,G.A., Platteel,M., Ryan,A.W., de
Kovel,C., Holmes,G.K., Howdle,P.D., Walters,J.R., Sanders,D.S.,
Mulder,C.J., Mearin,M.L., Verbeek,W.H., Trimble,V., Stevens,F.M.,
Kelleher,D., Barisani,D., Bardella,M.T., McManus,R., van Heel,D.A.
and Wijmenga,C.
TITLE Coeliac disease-associated risk variants in TNFAIP3 and REL
implicate altered NF-kappaB signalling
JOURNAL Gut 58 (8), 1078-1083 (2009)
PUBMED 19240061
REMARK GeneRIF: Observational study of gene-disease association. (HuGE
Navigator)
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
DQ020495.1, BC101664.1, AC012493.9, AC104782.5 and BF436808.1.
On Jun 1, 2007 this sequence version replaced gi:94967024.
##Evidence-Data-START##
CDS exon combination :: DQ020495.1 [ECO:0000331]
RNAseq introns :: single sample supports all introns
ERS025083, ERS025084 [ECO:0000348]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-1341 DQ020495.1 1-1341
1342-1779 BC101664.1 1-438
1780-1780 AC012493.9 8931-8931 c
1781-1916 BC101664.1 440-575
1917-1917 AC012493.9 8397-8397 c
1918-2972 BC101664.1 577-1631
2973-13904 AC104782.5 130396-141327 c
13905-13920 BF436808.1 1-16 c
FEATURES Location/Qualifiers
source 1..13920
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="2"
/map="2q11.2"
gene 1..13920
/gene="LONRF2"
/gene_synonym="RNF192"
/note="LON peptidase N-terminal domain and ring finger 2"
/db_xref="GeneID:164832"
/db_xref="HGNC:24788"
exon 1..1319
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
misc_feature 83..85
/gene="LONRF2"
/gene_synonym="RNF192"
/note="upstream in-frame stop codon"
CDS 641..2905
/gene="LONRF2"
/gene_synonym="RNF192"
/note="neuroblastoma apoptosis-related protease; RING
finger protein 192"
/codon_start=1
/product="LON peptidase N-terminal domain and RING finger
protein 2"
/protein_id="NP_940863.3"
/db_xref="GI:148528975"
/db_xref="CCDS:CCDS2046.2"
/db_xref="GeneID:164832"
/db_xref="HGNC:24788"
/translation="
MSPEPVPPPPPPQCPGCDRAEPIAQRLEEGDEAFRAGDYEMAAELFRSMLAGLAQPDRGLCLRLGDALARAGRLPEALGAFRGAARLGALRPEELEELAGGLVRAVGLRDRPLSAENPGGEPEAPGEGGPAPEPRAPRDLLGCPRCRRLLHKPVTLPCGLTVCKRCVEPGPARPQVRRVNVVLSGLLEKCFPAECRLRRLAGQARSLQRQQQPEAALLRCDQALELAPDDNSLLLLRAELYLTMKNYEQALQDASAACQNEPLLIKGHQVKAQALSGLGRSKEVLKEFLYCLALNPECNSVKKEAQKVMCEVLFSATANVHENLTSSIQSRLKAQGHSHMNAQALLEEGDAGSSENSSEKSDMLGNTNSSVLYFILGLHFEEDKKALESILPTAPSAGLKRQFPDDVEDAPDLNAPGKIPKKDLSLQRSPNSETEESQGLSLDVTDFECALCMRLLFEPVTTPCGHTFCLKCLERCLDHAPHCPLCKDKLSELLASRNFNITVLAEELIFRYLPDELSDRKRIYDEEMSELSNLTRDVPIFVCAMAFPTVPCPLHVFEPRYRLMIRRCMETGTKRFGMCLSAEHAGLSEYGCMLEIKDVRTFPDGSSVVDAIGISRFRVLSHRHRDGYNTADIEYLEDEKVEGPEYEELAALHDSVHQQSVSWFASLQDRMKEQILSHFGVMPDREPEPQSNPSGPAWSWWILAVLPLERKAQLAILGMTSLKERLLAIRRILVIITRKMNSRQELANARERNN
"
misc_feature 707..814
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 1"
misc_feature 815..913
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 2"
misc_feature 1229..1330
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 3"
misc_feature 1238..1531
/gene="LONRF2"
/gene_synonym="RNF192"
/note="Tetratricopeptide repeat domain; typically contains
34 amino acids
[WLF]-X(2)-[LIM]-[GAS]-X(2)-[YLF]-X(8)-[ASE]-X(3)-[FYL]-
X(2)-[ASL]-X(4)-[PKE] is the consensus sequence; found in
a variety of organisms including bacteria, cyanobacteria,
yeast, fungi; Region: TPR; cd00189"
/db_xref="CDD:29151"
misc_feature order(1241..1246,1253..1258,1343..1348,1352..1357,
1364..1369,1445..1450,1457..1462,1469..1474)
/gene="LONRF2"
/gene_synonym="RNF192"
/note="binding surface"
/db_xref="CDD:29151"
misc_feature 1247..1426
/gene="LONRF2"
/gene_synonym="RNF192"
/note="Tetratricopeptide repeat; Region: TPR_16;
pfam13432"
/db_xref="CDD:205610"
misc_feature order(1250..1252,1286..1288,1298..1300,1307..1309,
1352..1354,1388..1390,1400..1402,1409..1411,1454..1456,
1490..1492,1502..1504,1511..1513)
/gene="LONRF2"
/gene_synonym="RNF192"
/note="TPR motif; other site"
/db_xref="CDD:29151"
misc_feature 1331..1432
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 4"
misc_feature 1337..1528
/gene="LONRF2"
/gene_synonym="RNF192"
/note="TPR repeat; Region: TPR_11; pfam13414"
/db_xref="CDD:205592"
misc_feature 1436..1534
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 5"
misc_feature 1973..2101
/gene="LONRF2"
/gene_synonym="RNF192"
/note="Zinc finger, C3HC4 type (RING finger); Region:
zf-C3HC4_2; pfam13923"
/db_xref="CDD:206094"
misc_feature 1979..2089
/gene="LONRF2"
/gene_synonym="RNF192"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q1L5Z9.3);
Region: TPR 6"
misc_feature 1982..2110
/gene="LONRF2"
/gene_synonym="RNF192"
/note="RING-finger (Really Interesting New Gene) domain, a
specialized type of Zn-finger of 40 to 60 residues that
binds two atoms of zinc; defined by the 'cross-brace'
motif C-X2-C-X(9-39)-C-X(1-3)-
H-X(2-3)-(N/C/H)-X2-C-X(4-48)C-X2-C; probably involved
in...; Region: RING; cd00162"
/db_xref="CDD:29102"
misc_feature order(1985..1987,1994..1996,2030..2032,2036..2038,
2045..2047,2054..2056,2087..2089,2096..2098)
/gene="LONRF2"
/gene_synonym="RNF192"
/note="cross-brace motif; other site"
/db_xref="CDD:29102"
misc_feature 2249..2812
/gene="LONRF2"
/gene_synonym="RNF192"
/note="ATP-dependent protease La (LON) domain; Region:
LON; pfam02190"
/db_xref="CDD:202145"
exon 1320..1438
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
STS 1342..2977
/gene="LONRF2"
/gene_synonym="RNF192"
/db_xref="UniSTS:484446"
exon 1439..1561
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 1562..1705
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 1706..1907
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
variation 1780
/gene="LONRF2"
/gene_synonym="RNF192"
/replace="c"
/replace="t"
/db_xref="dbSNP:2033748"
exon 1908..2001
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2002..2116
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2117..2238
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2239..2397
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2398..2560
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2561..2710
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
exon 2711..13912
/gene="LONRF2"
/gene_synonym="RNF192"
/inference="alignment:Splign:1.39.8"
STS 3280..3403
/gene="LONRF2"
/gene_synonym="RNF192"
/standard_name="RH98157"
/db_xref="UniSTS:86515"
variation 3286
/gene="LONRF2"
/gene_synonym="RNF192"
/replace="a"
/replace="g"
/db_xref="dbSNP:3748928"
variation 4337..4353
/gene="LONRF2"
/gene_synonym="RNF192"
/replace=""
/replace="t"
/db_xref="dbSNP:70943007"
variation 5920
/gene="LONRF2"
/gene_synonym="RNF192"
/replace=""
/replace="aaaa"
/db_xref="dbSNP:70943006"
STS 6497..6622
/gene="LONRF2"
/gene_synonym="RNF192"
/standard_name="D11S2560"
/db_xref="UniSTS:37928"
STS 13506..13641
/gene="LONRF2"
/gene_synonym="RNF192"
/standard_name="D2S1675E"
/db_xref="UniSTS:67485"
ORIGIN
cctccccagtcatttaggacaatttcctaagtcgaagctagagatgcgtgatgcgtttggtgacttttcctgggttcttgcttaagcggagccacaggttgtgggggcggccaggcctctggggaagagcaggtgccgcggtgccggcgcgccagcagcccgcggccaaggccacctgctcccagggccccggcacctctgcggggaggcggcaggcagaggacgcgcgcgcagtcgcgcaggagccctcaggcgagtgggggaagcatcgcaagagacgcggacctggagcgcggtcactgcgttaccgcagcgacctgggttacctaagccggcgggactgagaggccgctgcgcgtgggcaggggctcagattgcgcccgcggtgcctgtcccggcccccaccccggaacgattgcagccctgcggggctcgccgcccacaccgcgctgaggacgctgcccaagccaggcgcccgcccccgcccgcggtctcagccgctcgcagcgcgccgcccccagacgcgcgtggctgctggcgagggctgagaccgcgctcccgccggccagttcccagcagcagcgcatcctccctgctccgcgccttcgctccggacccgcgtcgtcgcagccccgcggtgatgagccccgagccggtcccgccgccgccgccgccccagtgtcctggctgcgaccgcgcggagccgatcgcccagcgcttagaggagggcgacgaggccttccgcgcgggcgactacgagatggcagccgagctctttcgctccatgctagccgggctggcgcagccggaccgcggcctgtgcctgaggctgggggacgcgctggcccgcgccggccgcctccccgaagccctgggcgcgttccgcggcgccgcgcggctcggggcgctgcggccggaggagctggaagagctggcgggcggcctggtgcgcgccgtgggcctgcgcgaccggccgctgtccgcggagaacccgggcggcgagcccgaggcgcccggcgagggagggccggccccggagccccgcgcgccccgcgacctgctcggctgcccgcgctgccggcggctgctgcataagccggtgacgctgccctgcgggctcacagtctgcaagcgctgcgtggagccagggcccgcgcggccgcaggtgcggcgcgtgaacgtggtgctgagcggcctgctggagaagtgcttcccggccgagtgccggctgcgcaggctggcaggccaggcgcggagcctgcagcgccagcagcagccggaggccgcgctgctcaggtgcgaccaggccctggagctggctcctgatgataattcattattgctgctgcgggcggagttatatttgaccatgaagaactatgagcaagctctccaagatgccagtgcagcttgtcagaatgaacctctcttgattaagggacatcaagtaaaagctcaggctctttctggattgggaagaagtaaggaagtgttaaaggaatttctctactgccttgctctgaatcctgaatgtaactctgtgaagaaagaagcacagaaggtaatgtgtgaagtgctgttttcagctacagcaaatgtgcatgaaaatttaacatcttccatccaaagcagattaaaggctcagggtcacagccacatgaatgcccaggctctgctggaagaaggtgatgcagggagctcggagaattcatctgagaaatctgatatgcttggaaataccaattcttcagttttgtattttatactgggtctacactttgaagaggataaaaaggcgttagaaagcatccttccaacagcacccagcgctggcttaaagagacagtttccggatgacgtggaggatgcacctgacctgaacgcccctggaaaaattcccaagaaagatctctcacttcaaaggagcccaaactctgagacagaagaaagtcaggggctctcgcttgatgtaactgactttgagtgtgccctctgcatgagattgctctttgaacctgtcactacgccctgtggacacacattttgcctaaaatgccttgagcgctgccttgaccacgccccacactgtcctttgtgcaaagacaaactttcggaattattggcaagcagaaactttaacataactgttctggccgaagaattaatatttcgatatttgccggatgaattgtctgataggaagagaatttatgatgaagaaatgtcagaactgtcaaatctgaccagagacgtccccatctttgtgtgtgccatggccttccccacggtcccatgtccactccacgtttttgagccccgctatcggcttatgataagaagatgcatggaaactggcaccaagcggtttggcatgtgtttatctgctgagcacgcggggctttcagagtatggatgcatgctggagattaaggacgtgagaacgtttcctgatggaagttctgttgtagacgcgattggcatcagtcggttccgagtgctaagccaccgccacagagatggctataacacagcggacattgaatatcttgaagatgaaaaggtggagggtccagagtatgaagaacttgccgctctccacgattctgtgcatcaacagtctgtttcctggttcgcgtctctccaggatcgcatgaaagaacaaattttaagtcattttggggtaatgccagacagagaacctgagcctcagagtaatcccagcggccctgcctggtcctggtggatcctggccgtgctgcccctggagcgcaaggctcagctggccatcctcggcatgacctcgctcaaagagcggctccttgccatccgacggatattagtcatcatcacgcgtaagatgaatagtcggcaagagctggctaatgccagggagagaaataattgatttttctctctgtcaaggtttctggcagcccttgtgcttttataaatgtcaggcatggacgaatagccgtccattcattgtgcttcatcaagtgcttgtggatgaggttccaaaatgggacgcttgccaaacattgagtcctcctcaaaaatgacaattctgtgtctggtgggatctgaccttgtgtgaggttagcctgaagtctgaatggagcccatagttggaaaacaacctaagaaaatctcttagaagcaggtgcttggggaatgcagttcactgacagcacaggaccctgcagatggtttacatgtggtttgggtttcacgagaaagaaggattcacttcccagtcagcatctggctctgccagatggtaaaggcgtgctttagtgtgtagacaatatgggggaaccacgtttttatctggaagtggatttcttagaacacaggctaaccaaaactacgcttaggctttgcgtgttgctgtgaagttgtctgtgaaatcgaataatcacaccattgttcagtgcaggagcccaaactagtccttacccaagaagtagtagcctctggatagaactgtgtttaatgtcctgttgtagtcccaggtgttgtaaattgcatgttgtaatcaaacgaatgtcaaaacataagaaagtataccttggatatagaaaaacctgagaacagtatcattcacttgaggatatatatatatatatttacacacaataaagtgagttaaaattgtatatgcattgggatgtcaaacataaaaccaccaagtgcaaagaatgctttgaaagtagaaccttgtctcattgatcagtggttactaagcatttaggaaacagtcatctttttctattgggatttgcattagaaattagccccatcagtaaatttcagtttactatccatttattaatatacaaaaacattaaaaaatctgccatgccatggtaatctatctattccaggaaaatagatcagaatatatgaagggaggatggccggtatgggatgtaaatattcagtaagtttttctccaacaccaacctaaaattatctttatttttttgaaagaaagttttacggtgatcagaccaggtgttatctgttaaaggacagtagtatgacttccatcctgtaatgcacgttggtgatattgattggaataactgaatctgagatactcatatgttctctctggcccaaccagctggtgcatttggttggcttcctcgtctgtaaggtggacattcttaaccagagggtcacgaccacatcacagctgcaagttttgctttgttcattgaaggtgattttttagttttaaaatatatatatctcataatatacaatgttgatggtatatcaatccatcaagcattttattagaaagactttataatattattaatttttctttagttttcagtagataaagtagtttcagtagataaagactttataatattattaatttttcttttagttttcagtctcatcatgggagttagaaaataccagcatcacttaattgtaaagagaaaatgtgaaagtattttccaatccaatgtttcaagtgcctcacttattgtgaatctcaaatatcatcttgagatggtttaatggcagtttggccaagtgatttctaagagattttattaatttatgcattaacaatagtattcaactttcttaggcattataacctaacccgatcatttgattggaataactgaatcattcattgattggaataaaataaagaaaacaaaatgcatctcacatgccagaagacctttaccagaagtggttcatgaaaatcagtatgcattgaccattctctgcctttcccttttggaaaatttttttgtaccttcatatcacagctgaatagttatcaatgccatttccatttggaagtatctaaataaccacaatgtgatcacagcttctccacgagccttcctgaagtaaagctggtatgcttgctataatacttggaacctgttgctttctcttcctcactctttaaatgtcataaggtcacacagttcttggaatcagaactattcagttatttcttcatgattctgcctggctttctgagtcttctccttcggcatgttatgtaaaagtctgaacaacaatgatgacgcagacgagagcaacatacgtttttattttttgataggtttttatttttttgataccagagggaattaactatgatcacatcgtgctctctctgttcagcatcacacgcccacatactgcagtgtgggagtagattggtacttactgagcacttagaaacatcacgcatcaggaaccgggtcagggtgacagcatcctacggtcatatcatgaaggaagcctcccttacaaacctaaaaaaaaaaaaccccagcttcagtttgctaccaattaagctaaagcagaacggtctgcttcctcctccgcctgcccccttctgcctcttttctgttggggagatgccaattctaaggatttctcagaaaataatgtaatctctcattcaatgtcaggacattccagcttaattgtactgaaagtgctccaataggcatgctctcgttacattggaatcaaagcagaaaagagtaatagcagcgtgggggagtcatttttcttcttgaggaacaatacatgctgttctgtatttttccattcatcgcccaaacctgcctgtgtctttgaaatgcaagtaagatcccaaaggcagctttctgaaagcccgtggcatttttagcttatcccatcccccgtgtgtgtcctcatcttcagaattgaaagttaggatactttttaaagtttcaaaagaaaataatttaaaatgttaaggtttatccatagaaacacaataattcttaaccaattcatgtaccaaattcaacagtattatctcatttttagggtcacaaatgtgtcctttttgcacttaaacctcctccctctctcaaaaacaaaaacaaacaaacaaacaaaaaacacaccaagactgtttaacaaattgtatctcaactcttaatatatgttaagtcttaccacaggacatttgaatcatcaaggaacagttgaagtttatggatggtagaataacaatgaactatgatattatcactttattataaactttttggaaaattggcagttgctaccatcgaaatactccattgcctgtgttacatagaatttgttataatttttaagggctttaaaaaaatacccatctgtttcttctccttcttgttttcttttgtgccccaccacttaaattacttgggtaaataccactcttcaaaatttgaatactgtctatcaaataagaagaagtgtgaaagatatgaagaagaaaggtgatagcaaattagaagaaaataaatgtgggtgatttcttttagttgaaagcacagagttttatttttccccagtataactattgagtagggtagggaggtccctgtatccccatttttattttttttgagatggggtctcactctgtcacccaggctggagtgcaatggcgcaatctcgtctcaccacaacctccgcctcctgggttcaagtgattctcttgccttggccccctgagtagctgggattacaggcacgcgccaccacacccagctaatttttgtattttttttttttagtagagatggggtttcaccatgttggtcaggctggtctcgaactcctgaccccatgatctgcccgcctcggcctcccacagtgctgggattacaggcgtgagccaccgtgcccggcccatctccccatgttttagcatagacagcagcggcattcagtggaaggagttcttccccttcaacatcgtccttcccaaaggccacattctgattctattgttcaccaaaaactaattcccagggaagcccgctctggatgggaaggatgagctgcgtgagccatcgcccacacagggagataaccgaacccctttgccagcatcaccccctctctactggggtgagacacttcattcagagcactggctctgactcccaggggaaagtctttttccctttacaactcctcacctcagcctcaccttgactttcacttctcaactgctgaattctataaaatagccttttagcagtgactcagcttttaggtgagcacagataatgaagaaattgaagtgccaccattgcactcccccaagttggggacataaactcgaatttgcacccaggtctgataaaagtaactgattgaggacgcagaaaggtggatgccattgacagcgttgactgttctcacaattcctacagaaatgaaagaaggagaggcccagcagaccacaccgggccatgaggggaagcatgggagacaggcagaagcaggagtgaggaggaacgtggctcagaccctctactgtatgttctgcaggaaagggcagggaaatagctaagactggctggtctgaataacagctcagactctaggctatacaggtggtctctagccatctggcacctagccccgggtcgttagggtgggggatattgcttcctaggttgtaagagccagatagaggaggatgggctctggattggtcactttgctcccagggtagccctttgctgtatctaagaattggctcaccctgggatgggcagtttctcctgggtcagcgaggcccctgagatgtcaaaatatcataaaatatagaaatcatgattaatacaattggtcctctgctgttttgacatactaaggtcacttttgatagcagaaacttttaaagagtagggcatacgttgccctgaagagcatagaaaacattttattctgagagtagaaaggaggaagacacgtggagatacaggagtcccttaggctggcccatagctgagtctctcatgtgtgtggcattagtcaagaatgtagttctgcagtttgcggggggggggtctctaacatttcttggtgcagttgttaacatgtgttaaacatatgagtctgatgatgatatcgcggtgtttctcggctcggggtggcaggtctggcggttgtgtggctgggggtgtgcactgatagttcagtaaaggataagtagagactcgtggtgttcatgtgtcaccacagggagggagtggctgtggagacccaggacaggaagtcgcggtggaaagcaggctggggtggtaggagaaggcaccgggggtgggtgctcctcccccaggggttgaggagttgactgatagggggcagttacctcctgggaaagcaagacgctcccttaagttttagaatggtacagagagtagtcccttctaccagagtttccatttagacatgggagtgtagggggccatgtttcggcagaagcagggcatgtatcagcattagtggactcctcagtattaaaaggaagaacagcaaacatgtcatgtgcccactttgtgcctcaggagaggtagcccgtggacatcgctagggcagaggttttaatatctgggacaaagttatctcccacggcgaggtcgtggctgggaccatgtcatcttcagccgtgagctgctgggctgggcaatgtcttctgggatgtgagacgtggggtctcctttctaagcggacccccactcgtgctgatgtgggtcccagcatttgccgcgtttggttgaaacagtggcttacctggagggtctgggtctctggatcataaaccagcgaaagcccccacatcagtggtgacaagatcaatagaccccagaatgtgtgcagctgtgcttgatagggttttggttcttgctttttggtggaagtttaggctcaagtgggtcccgtatcggatgagcagctgcacggcctgtgggagccctggggttagtgggtccaggagagaatgtgttctctctctgggctccagccctgatggggtggggataagatgcaagatttataggaatagggggaaacattatggaaggccccaatatgtaatgagcttttatatacaagaatgcaagacatagccctctttttatgtttaaaggggactatggtaatgttttttaaagtttgtgtgaggtgtgagtcaaccgaaaggccctaaattaagagagattcaggtttgtggtgcaagatagaggcccatttcggggtctgtttgcagaccagaatttgaaatggagttgtttgaggagaccattgtgtgtcttcgtgaaaccgattgtgtggaacctatcagggctgtggaagttgtagcgaatgccttttcccagagcccagcattgtggattccgagaagtggcatgtgtgtctcagtgacttccagtgatgcctgccactctgaagagatgaaggagtgtcctggcaagacctggaatcccagctgtagcacctgtggagagatgtgatttagatttggatttggggtatctgtgaggaagagtcccagagtttttcatcctgaagggggcaactcttgggcagtggtccaacagttggccataaatgtgaagctggggcgctgtgctgaccagggcatccagcgttaagacgactgcctaactttggccacatgcgttgttttttgggttccgtttcgtatcagggcatgctggctaaaagatgggaagcagcaacattctcttgggctccatcatttatatgagggttggcaatgccatctgtaccctctgtgaactcccactgctgttcactcagttaatctaagggacaccaaggggtctgcgggaggatgacctcacaagggactgaggacatgggagaccaccctcctgtgggtagaatacaccagagggcccaggcttgactctgtcctgtgttaaggaggcatcggtagttttgctgagcttgtcaggtgtttataatggacagttggagattggggtcctaggcttaggtctttgagagcctctgtgtccaggagagcccagtaggcatccagccatttactgctttaatagggtagcatgaggctgagagggatagtttcttgcatccaaagcccttaggcaccttatgtccatcctaagtgggccagagactccagggctgcatagagcttgccagagcttctataatgaaggggtctctgagggcaccaacaggagtgcccatggattttaaggtttgattatagaggttgtttatggagggtgccccatttaaagcaagctgatttgtaagcagcagcaagaagattaagtaaaatttgtaaatgaggactacattgccatcagaacctcgaaagtatctaaagatgttggacttgtatgtccttaatgagtgtgacaatgagtttcctcatttgtgctcctggagaaggcggatgtggtgaagaccctgtctgcagacattgtgtgccatggcaaagccgtggagctccctgtgggtggcctgcaaaggtgtatgtgcccctcagggcagaaggcaaacggcagccaagaagctgtgcaagtagacacttaatgggacatgttagccaaatctgtaagagcaaaatattggccagttatttattgtgtagaattaataattttaataataatggaaattgggtaatggatgggactgcagcaataaggttgtagtaatccaccatgaggcacacttgtttttttccaggtttaaggataggaaagattgggctgttcaatggagaaacaagggtataatcacccctttattaattagtaagttttaatccttgaatacctcatattaactgttttaactggaggtccatggggcatcattttatcaagctagtttataactgccaaagactgactttaattttaatttattatttgttttattagagtgtctgtgttcaatatgggatattagggcgttgggtactatgaccacaggaaatttagacaggctacagttaaagtgaagcataccttacccatccaccccccattttatatttagttgcctttttaaaaagattataggggtacaatgtttagatttagtgggatctccaggtataactgtaatttgagccccagtgttaagactatgaagctttgtcaatgggtacattttagcaaatgttacaattaatttagaacctaagttatggagacacaaaagccaataggcacccttttatgttttggttaaatgtttcagtatatacatcttatttatttgtaatattagtatataatttgttgtatacatttttagtgtataagcgttggatttctaattggatcagattagggaccttccgtttagctgcatatgtacatatacatgtacaatttattatatatttgcgttaaaatagcctatctgcatgtgtatatatgtgtgtatgtgtatgtatatgcactcacacgcataaatacacagtctatttagttacctttaatgttttttcccttgtacctaggctttttctcgctttttcctttttttctgattttgtggcaatttagttggaaggaggcggtcccagcatgttgacaggcagggtgttcagagtgcccaggcacactggtggggggtggttacaggctcacgtagctcaggggcttctgcaggtctcaggggagtgggaacaaagtgtcccaccccttccccttttcctcaaacctcaagccactggtctctatggatagatcctttgcatcccaccggattgaggaatgagtcacaacagctgcaaggctcttaaagcaacatttaaaccttttggcggctgtcatttctgtgaggagggtgcctctcaccggccgcatggccggaggatccctgcagcgctttggagaccaacacccagatcctttgcccaggagtgcgattaattcctcactggatgctgggggagggcccctcaggtgagcagcccaccactgacttcagcgttgctggctcggttatcagactctcatccaacacaagctcacagggaaagccgttccttgctccttgtggagggagctaccgtcattgccctgagaccaccagccaagaaagtaggtatgtccaggtagggaattcagagggacccagtgcatccaattatacaattatacccagaaggtcctgtgtaggggactgcgattgacatcaccctagtctgcagcaccaaggactgaatgagctcagtcctcttataatttaggctggactgtcacagacactggcagacacagcatacgtggtgcagccaaagtgcaaacatgccagcagcggccatgctccccagggtgggggtccagttagtaagccacgcgcagccaagaggcgaggcatgccctgtgccacacacggactcaccctgctcactgtgcccgtggtatcgaaatgtacccacgtttaattcataaaggagaggctgctgtcattgaaagaaaagtttgttacttgcatttctggagaaaaggagcgcaccaggccacgcagggccacaggaggaggacgcaccagagtggtcaggaggcagaactaggcgagcagctttccactgtgtctccatggcaaaggcgaagatgggcgggggcagagtgtaggattggcaggtttgaatgtcttgggcagtagctacaggggtggtctccagctgcctggtgcctggccctgggtgatcagggtgaggggatactgccttctgcagtggaagagtcaaatcgaggagatggactctgagttggttagtgtgcaaaggtgcactcccaagggacccctttgctatctctaagaattggcctgccctgggaagggcagtctctccccagtcagtgaggtccccaagatgtgaaaacattatacattataaaaaagcatgattaatataagctcattctagcatttcaggttacagcttctagaagaggtttgtagtctcaaatgagtaggtttttcctctagagaggggcgggcctggaccttcaagcaccccttggtgtgtttaggagctcaggagcagaagcacctgcctgcagccctgcagctaaggaagttctctcagtcactcagagcagggaggggctgagagagtcatgtgaggctcccggggtactacgacagccctcgaggtgaaggattggccctgatcataatagagaaccctgaggaagtttactgtcatgagtctcggctggttggcgcatgtgacctttgaaggatgaagatggagtttgcaacatgagtatctctaaccttttgcttttcagggatcattttcaaaaattgcattggggccttcgttatttaccatagtattttcactttcatagttttgtcacctttttgtactgtgaacagttcaaccagtgaccgacttctctctcatgctgtttaccccacacacaatttcccactcaattctgaaaataagaacctgttaataggttggaaagctgtgtactctattcatatattgttctttcatgctagtggagagtggtgtcattagcatcttaattttagagttgtgaaatgattttaccaattaggaattgaatgtgtattttttttctgtttaataagaagagcaaatttgaataaataagctggtgtagataaacttaataatcatgctttttcttgtttggagataggtgatgtgttgtcatatcctgtgatacaggtcactcatctggccttctgtttctgaagtttaagtctggtttgaatatgtaataatactactcagcatttcttgttgcctaagtgagacgaaacttaaatgttatgatatttacttcatgtattcttgtactgttcatttcaattaattggtattgtatatctaatatgtgatatttgaactgaataaaacttacagtgttgtaaatgttctttaataaataatcacacctaagtaataggctagactgatgagaaattagatcaaatcagtgcctaggcctttgtgtttgtgtcgtagggatgtactaacacatcaccacagactgacggcttttcacaataaatcagttttcttcgctcaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:164832 -> Molecular function: GO:0004176 [ATP-dependent peptidase activity] evidence: IEA
GeneID:164832 -> Molecular function: GO:0008270 [zinc ion binding] evidence: IEA
GeneID:164832 -> Biological process: GO:0006508 [proteolysis] evidence: IEA
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