Difference between revisions of "ENST00000500949.2"

Latest revision as of 05:12, 17 November 2018

CYRANO- long noncoding RNA required for proper embryonic development

Annotated Information

Approved Symbol

CYRANO

Approved Name

CYRANO. linc-oip5 ^[1]. 1700020I14Rik ^[1].

Characteristics

8.2-kb CYRANO molecule is a long intergenic ncRNA (lincRNA) transcribed in mouse ESCs ^[1]^[2]^[3]^[4]. CYRANO shares unique sequence complementarity with the differentiation-associated microRNA ^[4]. CYRANO distribution in the cell could indicate that nuclear and cytoplasmic CYRANO pools that have distinct functions or that it interacts with proteins that shuttle from the nucleus to the cytoplasm ^[4]. CYRANO posseses an almost complete binding site to mir-7 in mouse ESCs and this binding site is conserved across vertebrates ^[5].

Function

lincRNA CYRANO is required for proper embryonic development ^[3]. Depletion of CYRANO results in disarray in the pluripotent gene expression signature and defects in self-renewal maintenance ^[4]. CYRANO is one factor that presents a barrier to lineage commitment in conditions of suboptimal fluctuations in Nanog levels ^[4]. CYRANO function as a sponge of RBPs from mRNAs ^[6]. CYRANO in various systems include anti-proliferative functions and play roles in organogenesis/embryonic development ^[4].

Regulation

mir-7 regulates CYRANO ^[3].

Disease

Astrocytoma ^[7]
Glioma ^[8]
Hepatoblastoma ^[9]

Expression

CYRANO is expressed in zebrafish nervous system. Brain and notochord at 24 hours post fertilization (hpf), expression at 72 hpf also includes zebrafish spinal cord. Mouse and human homolgoues are widely expressed in adult and developing tissues and cell lines including the brain. RNA stability half-life of mouse homologue was 3-4 hr in neuroblastoma cells, close to lncRNA median ^[10]

Labs working on this lncRNA

Department of Genetics, University of North Carolina, Chapel Hill, NC 27599, USA
Department of General Surgery, the First Hospital of Jilin University, Changchun, 130021, China
Department of General Surgery, the First Hospital of Jilin University, Changchun, 130021, China
Laboratory of Genetics and Genomics, National Institute on Aging-Intramural Research Program, NIH, Baltimore, MD 21224, USA

References

↑ ^1.0 ^1.1 ^1.2 Chew G.L., Pauli A., Rinn J.L., Regev A., Schier A.F., Valen E. Ribosome profiling reveals resemblance between long non-coding RNAs and 5' leaders of coding RNAs. Development. 2013;140:2828–2834
↑ Guttman M., Garber M., Levin J.Z., Donaghey J., Robinson J., Adiconis X., Fan L., Koziol M.J., Gnirke A., Nusbaum C. Ab initio reconstruction of cell type-specific transcriptomes in mouse reveals the conserved multi-exonic structure of lincRNAs. Nat. Biotechnol. 2010;28:503–510
↑ ^3.0 ^3.1 ^3.2 Ulitsky I., Shkumatava A., Jan C.H., Sive H., Bartel D.P. Conserved function of lincRNAs in vertebrate embryonic development despite rapid sequence evolution. Cell. 2011;147:1537–1550.
↑ ^4.0 ^4.1 ^4.2 ^4.3 ^4.4 ^4.5 Smith KN, Starmer J, Miller SC, Sethupathy P & Magnuson T. Long Noncoding RNA Moderates MicroRNA Activity to Maintain Self-Renewal in Embryonic Stem Cells[J]. Stem Cell Rep. 2017, 9(1):108-121.
↑ Sigova A.A., Mullen A.C., Molinie B., Gupta S., Orlando D.A., Guenther M.G., Almada A.E., Lin C., Sharp P.A., Giallourakis C.C. Divergent transcription of noncoding RNA/mRNA gene pairs in embryonic stem cells. Proc. Natl. Acad. Sci. USA. 2013;110:2876–2881.
↑ Kim J., Abdelmohsen K., Yang X., De S., Grammatikakis I., Noh J.H., Gorospe M. LncRNA OIP5-AS1/cyrano sponges RNA-binding protein HuR. Nucleic Acids Res. 2016;44:2378–2392
↑ Zhi F, Wang Q, Xue L, Shao NY, Wang R, Deng DN et al. The Use of Three Long Non-Coding RNAs as Potential Prognostic Indicators of Astrocytoma[J]. Plos One. 2015, 10(8).
↑ Hu GW, Wu L, Kuang W, Chen Y, Zhu XG, Guo H et al. Knockdown of linc-OIP5 inhibits proliferation and migration of glioma cells through down-regulation of YAP-NOTCH signaling pathway[J]. Gene. 2017, 610(24-31
↑ Zhang Z, Liu F, Yang F & Liu YH. Kockdown of OIP5-AS1 expression inhibits proliferation, metastasis and EMT progress in hepatoblastoma cells through up-regulating miR-186a-5p and down-regulating ZEB1[J]. Biomed Pharmacother. 2018.
↑ Clark MB, Johnston RL, Inostroza-Ponta M, Fox AH, Fortini E, Moscato P et al. Genome-wide analysis of long noncoding RNA stability[J]. Genome Res. 2012, 22(5):885-898.

Sequence

>gi|729082|ref|NR_026757.2|Homo sapiens OIP5 antisense RNA 1 (OIP5-AS1), transcript variant 1, long non-coding RNA

000001  AGGGTTGGCC ACCTTGAGAA GCTGCGAAGA TGGCGGAGTA AGGCGTGCCG CTGCAAACTG GCCTCTGGGC CGGGGGCGAG  000080
000081  CAGCCCCCGG GAGGCCGAGT GCATCTGTTG GACCGTGCGA GGAGAAGAAA AAAAATATCG GCCAGAGGAG AGGAACTAAC  000160
000161  CGAACATTCT TCCTCCCTAC CTTATAGAGG GGAGTGGTCA TCTACACTAA AGCAAAGTGT TAGGCGCGTC CGTGCGAAGA  000240
000241  GACCACCAAA CAGGCTTTGT GTTCCTTATC ACAGGAAGAA AATTTTCCTT GACCTTTAGG TGCTTTTATA TTCATCTCAA  000320
000321  AAACAAAATT CTGAACTCAG GACTTGGCAA GTGTCTCTAT GTTGTCTCCT AGAGTGGGTA GTCCTGCTTC TTTTACCCAG  000400
000401  TTACTTTCCC GTTTTTGAAA TGTGGCTATC ACTTCTCTAC ACATTACCTC CATGATTTGG AATGGAAAAG GCCACTTTTC  000480
000481  TTTTTGTTCT GCCTCTCAAA TTCAACACAG AGGAGCTCCT AGGATTCCAG TTATCCTGCT AACATCTCCA GGAAGAAAGA  000560
000561  AGCAACTCAC ATGGGTCTTT TGCTGTTTGC TTAATTATAA AGACATCATT TTGCAAGCAG AAGGCTGAGT TTCATTTGAA  000640
000641  ACAGGTGCTT AGGTGGTGGT ATTTGTGAAT ACTTTTCATT CCAAGCAAGA AGACTAAAGA AGTAGCAAGT ATGAATGACT  000720
000721  TCAGGGTTTA AAAAAAATGT CTTCCAGTTT CAGCCACTAC CATGATAAGC ACAGTTGAGA CTGCAGCAGT AAATTCCAAA  000800
000801  TATGTGTTTC TAATTTGACG TGAAAGATAC TAAAAATTTA TATTTGTATA TTTAAATCCT GGCTCATCCT GTGACATAGA  000880
000881  TTTACTGAAT AGGAACAAAG GCCCAATTTT AAACAAAAAC CTAGGCCGGG TGTGGTGGCT CACACCTGTA ATCCCAACAC  000960
000961  TTTGGGAGGC CAAGGCAGGC AAATCACCTG AGGTTGGGAG TTTGAGACCA GCCTGACCAA CATGGAGAAA CCCCATCTCT  001040
001041  ACTAAAAATA GAAAATTAGC CAGGTGTGGT GGTAGATACG TGTAATCCCA GCTACTCGTG AGGCTGAGGC AGGAGAATTG  001120
001121  CTTGAATCCG GGAGGCGGAG GTTGCAGTGA ACTGAGATTG CACCACTGCA CTCCAGCCTG GGCGACAGAG TGAGACTCCG  001200
001201  TCTCAGAAAA ATAAAAAACA ACTTTGGACA TAGAGGAGTT GGGGGCAGAG GGGGGAGGAT GAGAGAATTT TCCATGTAAC  001280
001281  TCCTTTTCCT TAAGAAAAAG AAGCAAAAAT CCCTCATGCA GTGCCATCTG ACTTTATGGT GTTTCACATT ATATAGTTAC  001360
001361  TTTTTTTAAT AAACGCATAA GATTAACTCT TCCTGCAACC CAAGGTGGAT ACTTGGATGT TTGATTTTTA TTTATTTATT  001440
001441  TATTTATTTT TTGAGGCAGT CTCTCTCTGT TGCCCAGGCT GGAGTGATGC GTGATTTCTG CTCACTGCAG TCTCTCCCAC  001520
001521  CCGGGTTCAA GCGATTCTCC TGCCTCAGCC TCCCAAGTAG CTAGGATTAC AGGCGCGCAC CACCACGCTC AGCCTGATTT  001600
001601  CTAGGCTGAA AAGGCTGGGA CTCAGGTACT TTCCCCAGTT GGGACTGAAC TTTCTCATCA GAGAATGGGC CTCAGAAGCA  001680
001681  ATGTTCCCAA ACTTGTGGTT GGGTCATCGT GGAAAAGAAA CCTCAAATAA GAAAAATAAT TACAATAAGA AATGGATTTT  001760
001761  CTTTTTTCCC ACAACAGTTA TACATTATAA AGAACAGACT GTCGTAGAAA ACTGTCTTTG CTTCCAAATC AGCAGAGGAC  001840
001841  CATTGTATGT ATTGTCAGGT CTTTATATAA GAGTGAAACC TTTATTTATG CTTCTTGTGA GTAGAGAATA AATTTTAAAA  001920
001921  CTAATTAGAT GAAATTAAGA ACAGAGTATT GGAACATCTC TGTGTTTTCC GGAATGTTTA CTCAGGTCCA TGAATGCTGT  002000
002001  GATGCTGGGA ACTTAGGGAA GATTCACCAA AATTTGAGAG TGATAAAAAT GGCCTAAAAT GGGAAATGGT GAGCACTCTT  002080
002081  ATTATTAGTG AGATTGGTCA ATCAGCCCAT TTGAAATGGG TAAAAAATAC TTTCAGTAAA ATAATTACAT ATTATATATA  002160
002161  AAATATTTCT TTTTTTGAGG GCAGCTACTG AGTGATAAAA GCATAGTAGA AATCACTTTG GTTAAAAGTA ACTCAAATTT  002240
002241  TTCTCTTAAG TAATCTACCA ACTTCCTGAT GTTTTTCTTT AATATTTTGG AACTGTTCAA GACAGAATGG AGCCTACATA  002320
002321  TATGGTGTTC CACTAGTATG TTGAAAATGT CATATCATGG AGAATGGAGA CACCTTCCAG GTGTCTGTTA AACCCATCTT  002400
002401  CTCTGTGTAC TTCTGGCATC TTTTTTGGTA GGATCATTTG GCAGGGGGTA GAGTACCTGT ACTTTTGGCA CCATTGAAAC  002480
002481  CAGCTCTGGC CCACTTGTTT GAATAGCTAT CAGACTCAGC GTCTCTATAT GCTTTATATA CAGTTGAGAG AACCAGTGTT  002560
002561  TAATGCTCTT GAAATTGTAT CTTCCATGCT TCAGACCAGA TGCATTTAAC AAAATGGATA TATTCCAGCT GTAGTTGCCC  002640
002641  AGTGTTTACT TAACACATCT ACATTTTTTT CTTGTCTATT TTGGTCCCCT TGATAGGAAA AGCTATAATT TTAGGCAGGA  002720
002721  CTATACGTCG ATTTGTAGCC ATGCTTCCTT CCTTTCCCTT GCTCATCCAT GTTAGCTGGC AGTTTTTCTT TTGAAAAGTT  002800
002801  AAAACCGGGA TATGTGCAAT AGAAATATAT ATATATATAT GTATATTTTA ATACTTGTGG ACAAATGTTA CAAGTTGTTT  002880
002881  AAGAACAACA AAATCACCAA TGTCTTCCAT TTTGAGATGT GTATAGTTTT GTAAGCATTA GTGCTTGGTA GCATATTGTA  002960
002961  GTGCCATGTT AGGGGTTAGT GCATGAGTCT AGTGATTTTA AACTTCAGGA TGAATTATTG ATAATAACAA ATAGTGTAAA  003040
003041  AAGAGTGGAA AATCTAAACC TTTTCTTTTT CCATAATGTC TAAATCTGTT ATATTCTTCC TGGGGAAAAG AGATTAAGGC  003120
003121  CCAAAAGACT CATTTATGAA TAGAAATGTG GGGTCAAAAT CTGAGATACT ATATTTGAGG ACATTTCAGC TTTCCATAAG  003200
003201  GTATCTGGAA ACCAGCTGTC TTTGTGTCTT ATGAAACCTC AAGTCAAAAT GAGACCGCAT TTAATTATTC TGCTTTGCTC  003280
003281  TTTTTTTGGG GTGGGGGGGA GATAGAGTTT CACTCTGTCA CCCAGGCTGG AGTGCAGTGG CACAATCTTT GCTCACTGTA  003360
003361  ACCTCTGCCT CTTGGGTTCA AGTGATTCTC GTGCCCCAGC CTCCCGAGTA GCTGGGACTA CAGGCACGTG CCACCACGCC  003440
003441  CAGCTAATTT TTATATTTTT AGTAGAGACG GGGTTTTGCT GTGTTGGCCA GGCTGGTCTC AAACTCCTGA CCTCAAGTAA  003520
003521  TCCACCTGGC CTGCTCTTTT CATGTCTTAA CATGGCATGT CTTTTAGTTT CATTATTTTC CTACTCCTTG TATGTCAAGA  003600
003601  AATTACATTT TGCATGTCTT ATGGAGATGC TGTTAATTGC TTCAGTGAGT GCTTTTCTAA TCTGCAGACC ATTTACATTT  003680
003681  CCTGTTTGCA GCATGCTGTG TGCAAACACT CAGTAATTTG GAGTATTCAA TTATTTGTTA GGGCTCTTCC TATTTCCAAA  003760
003761  TGTGCTGAAT TGTCTATTGA TGGGATTTTC AGATCTTTTC ATGAGAACTG GAAATGTAGC TGGGTGGCAC CTACCTAGGT  003840
003841  TGCTACGTAG TGAGTAGACT TTCTCTTGGG TATAGTAAGC CTCAGACAGC TTTCACTTTT ATCTACTTTA CTTGTGGAAA  003920
003921  TAAAACAGTC ATTTTGTTCT GAAAGAATAA GATAGCTTTC TGTAGAGAAG GAATTCCTAC CTCTAAAAGC TGCCTTGAGA  004000
004001  ACTCAGAACT GGCAGTTTTC TGAGGTGATT TTTAAATTTC AGTATTAGGG AGAGTCCAGC ATTTGCTGAC ACAGATTCTA  004080
004081  CATAACTAAT GTATGATAGC AAATGCAAAA CTATTATAAT GTGGTGTATC TTGCGCATAC ACAGGTTAGA ACAAGTAGAC  004160
004161  TCTGGCAGCA GATCTCCAGA GACCCAAGTT TAGGTTCTCA TAGTGTATTT GAAGTAGTTA TACTCCTGGC TTAAGTAGTT  004240
004241  TAGTGCCTGG GAGAATCCAT TACTGAAAAG CATTTAACTT AAAAAAAAAA AAAAAAAAAA AAAAAAAAAC TGAAAAGGTA  004320
004321  GTGAATACAG AATAGCACAA TATATAGGAA AGGATATTTC CTGTTGAAAA AAAAAGCCAT AAAATTAATA GTAATTTTCA  004400
004401  AGAGGTAGAA TTTTAGTAGC AATAAGTTTG TGCATGTATA GTAATTTGCA TTAGCAAGGT TGTACAATAG AATAAGTGAT  004480
004481  ACTACTGGAG TTTGTGGGGC TCTGCAACCA AGAGTTGCAC AAGGGCCAGG TGCGGTGGCT TACACCTATA ATCCCAGCAC  004560
004561  TTTGGGAGGC CAAGGTGGGC GGATCACAAG GTCAAGAGAT CAGGACCATC CTGGCCAACA TGGTGAAATG CCATCTCTAC  004640
004641  TAAAAATACA AAACTTAGCT GGGCATGGTG GCACATGCCT GTAATCCCAG CTACTCAGGA GGCTGAGGCA GTAGAATCAC  004720
004721  TTAAACCTGA GAGGCGGAGG TTGCAGTGAG CTGAGATCAC ACCACTGTAC TCCAGCCTGG TGACAGTAAG ACTCCACCTC  004800
004801  AAACAAACAA AAAATGCACA AAAGGAAAAA ATGTTCTGGA TAAAGAGCAT ATGAAAGGTA CTTTCTTTTA GAACAGTATG  004880
004881  AATGTATATG AATTTATCTT TATGTGAGAA ATAATCTTTT TTGTAAGTTA AAGGTTAAAG ACCCTGCTTG TTTCCTAAAT  004960
004961  CAGAGGGTTA GAGCTGTTGA AATTAAACCT TTATAGTGCT TAACCTGGAA ACAAATGTAC TACAGCCCCA CTGAAGCCGC  005040
005041  TCTATGGGTT TTTTGCTTAC GATGTTTTAG CAACAGGCAT TTATTTTGTA GAATGGTATA CTTTCTGCTT TGTCTCCTCA  005120
005121  TCTTTCTCCA CTGGTTTCCT GGGTACATTT TTTTTAAAGG GAGAGAAGTT TGTGAGTTTA ATGTTTTAAA AAAACTCCCA  005200
005201  AGAACATGGA TAAGCCGGAT TTCTCTCATG CTTATGATTA GGGAGTTAGG ATTTAAAGAT GCAAAGCAGA AGGACTGAAA  005280
005281  GGAATAGCCA GTGAATATGT TTCAGTGGGT GAGGTGTGAA ACCTTGTCTA ATATAGATGT GTCCTATGGC CTGTGACTGC  005360
005361  TTATTCTTTA TCAATGAGAA CTCAGCAAAC TAGTTTCTTT CTTGATCTGA GGAACCACAC AGCTCACATC AGAATATAAT  005440
005441  AGTGGAACTA GGGTGACTTC ACTCCCTTTC ACCTGATGTC TATCTTGGCC TTTTAGCACC TTGACTATCC CTGAAAAGAC  005520
005521  TGGGTCTTTG TTTTCCCAGG GAAAAAACGA AGTGATGTAG ATCTAAGAAA TAGTGCCTCT TTAATATTTA ATTCTTACAT  005600
005601  GACAACTAAC ACACAGGGAA AAGGCTATGT TAAGTTGATT ATAGCTCCTC TTAAAATGTC CTATGCTGTC AGTTGGTCTT  005680
005681  AGAGACATGG GAATAACCAA GCAATATTCA GACATCTGCA CTATCTGGGG ACAGCGCTAC ATAGTACAAT GATGTCAGCA  005760
005761  GTTCAGTTAC TTGGAACAAT TAAAGATTAC CCTTAACAGC CATGTTAATA CATCTAAATG CTAAAATATA CTACGAGTTT  005840
005841  TTCATAGTCT TGAAAGTATA CAGTTAATTA CTTTTCAAAG TTACTGTGGT CTCATGTTTA CTCTTCTTGT ATCTGTGATA  005920
005921  TGCAAAAAGA TGAAGACTCT TGGCCTCCAG GAGTTTACAT TCTCATGGTG CTGTTGGTTC AAGCAGATTG CTTTAGTTTA  006000
006001  TTAATGAACA TTGCTTGGCT ATTAATTATA TCCTATTTGG AAGGATCCCT TGGTGAACAG TTTTAAAAAG CAGAGGGCTG  006080
006081  TGCTAAATTT CAGGGTATTG ATAGCTTGAG TTTACATTGT ATTAGCCCTG CTCGTTATCA TTTTTTTCCC CAGGGAGCTA  006160
006161  TGCAGGTAAT GCTCATTAGC ATGAATCAGA AAAGAAACCA TTCTGCCTAA GAGCATCTTA ACCATCCCCC TAAACCACCT  006240
006241  ATGCTCTCCT GTTATAGTTG TCAGTAAATC ACGAAGAAAA TTAACAGCTC CTTAAGACTC TACATCCCTC AATTCTCTTT  006320
006321  CTTTTCCCAG AGTTTGTACA TCATTCTCTA CTCAGATGGA CCAGGATTTG CATATAAGCC TTTTAAAACT GACTAGTGGT  006400
006401  CCTAATTTTA ACATTTTTGT GTATGACTCC TATCCCTTTT CTGAAGCAGC ATTGTGATAG ATGTGGAGCT TCTACCTGCA  006480
006481  TTTCTAAGCA ATTATTAACC CAACTTTTGA GTTGAAACTT GCATGGATCC TTGTTATGTC CCGTAATTCC TCTGAATCAA  006560
006561  GGAATTTATT TTGCATGCTT ATTAAACTCA AACTGGGTCT GATTGAAAGT GCAAGCAATA GTGACAGGAC CTTAACTCTG  006640
006641  GTTTTAGAGT ACGAACATTC TAATGCATGA CTCAAAATGT CCAGTGTTGT GGTTACTAGT TATTTTATAT ATGCATTTGT  006720
006721  TAATAATGAA GCAATAGAGA CTAAGACCAA TAGCTTGAAT ATATTCAGAT TATTTTCATG TTTTAATAAA GGATTTTTCT  006800
006801  TACTTCCATT GAAAATGGGA AGTAGAAGAT AAACAGGGGC AACCACAAGA CATTCAAACT GTCAGGACTA GGGCGTAGCA  006880
006881  GTGCCCACCC TCTAACCACT TGCCTGGTTC CATTAGTCCC CAAGCATGTT TGAAAACAAA AGACACAAAC TAAGCATGCT  006960
006961  GAATAAAACT AGCTGCTATG GCTGTAATAA TCAGAAAGGT GCAGAGTTTC AGAAAGAGTA GGAAAGTAGG GAATGCCAGT  007040
007041  ATGGAGTATG TAAAATAACT AGATATGGAT ATGGGGTTTG TTTATGATAT GCTTTATGTA GACAAAGTTT GAGGTCTTTT  007120
007121  AAAACTGGGA TTTGAGTTGA AAAGAGTCAG GATGCACATA TTTCCACTAT TTCAGGATTT TCAGATGACT AGGCACATGT  007200
007201  TGTGGATGAT ACTGGTACCA ACTACCAATG ACCAACTATA AAGTACCCCT GCAATAAGGG AGACTTCCTT TTTGTAGAAT  007280
007281  AGTCCTGAAA ATACTGACAG ATCTGTGGTT AGTTTGTTAT TTTATTGCAT AAAAAACAGT TTAAACAAAT TTTATAGCCA  007360
007361  AAGTTTTATC CTTGATGGGT TTGGCCAGAC TGCAATTTCT TGACTAAAGC TTTTAATGCC AGGTTAAACA GGAGAAACTT  007440
007441  TTTCCACTAG AAGAAAATCC TTGCTATCTA TTTTTTCCAA TAGAAGAAAA TCCTTGCTAT TTATTTTATT TGATGAATAA  007520
007521  ACAAATTTAT TGCAGTAGCT TAAAAAAATT TTTTTTTTAA ACAGTCTCAC TCTGTCGCCC AGGCTGGAGT GAAGCAATGT  007600
007601  GATCTCAGCT CACTGCAACC TCCACCTCCC GAGTAGCTGG GATTACAGAC ATGCACCACC ACCCTCAGCT AATTTTTGTA  007680
007681  TTTTTAGTAG AGACGGGGTT TCGCCATGTT GGCCAGGCTG GTCTTTAACT CCTGGCCTTA CGTGATCCGC CCCCCCTTAG  007760
007761  CCTTCCAAAG TGCTGGGATT ACAGGTGTGA GCCACTGCAC CTGGCCTGTA GTAGCTTAAA ATTTTCCTTG AGAAAATTCC  007840
007841  TGACTTTAAA AATAACCCTT ATATAAGTAC AAGTGATTGT GACAAATGAC GTAAAAATGG CATTCATGAT GTCTGAAACA  007920
007921  AGCCTAAATA GAATTCAAGA TTAGACTAAA TGATTTTCAC AAAGCACATT CAAGGTTTTA CATTCTATGA TTGAAAAAAA  008000
008001  TTTTTTGAAA ACTTTTTATT TCATTCTTTC CTGTAGGATT TTGCTACAAA TAACTTTGGG AATGAATAAA GTGGAATGGT  008080
008081  AACTTTCCAG TGGTTCAGAA TTGAATTAGA CTTCTTGTGA CTGTGATGTT TGGTTTCCAT TGAAATATAT GAAGTGAGAT  008160
008161  GTCATATCCT GAATATAGTT TGTCTTCCCC AATTACTTGA TAGCATGTCT GTCAGCCAGT AAAGATTAAG AACAGAGTTT  008240
008241  CTCTAAATTC CTCCGATTAT TCCACTAAGG CACATTAAAA TACTTAATTT TGGGAAACCA GACATCACAG ATTTCTCCAT  008320
008321  GAAGTCCTAA ATCTTCTTTA AAGTCAGAAT AGGTATCTTA GTTACTGACA GTATTCAGGT TTTTTTCTCC CTTGGTGATA  008400
008401  TGTCATTCCA TCAGTGAAAA AATATTTTCT CCCAGGGATA AGAAAGGTAT TCTGGTAATA CATTATCATC AATCCTTAAA  008480
008481  CAGTAACAGT CTTGGCACTT ATCACAAAAC CGACCCATTT CTTATAACCA GAAAGATTAT CTTAGACTGT CCTTCACATT  008560
008561  ATACTTTACC TACTGCCTTG TAAGAATAAG AGTTGCTCAC TGTGTTTACT TGCTGTCCTC CATATTCTCC ATTGCACCAT  008640
008641  TGGTGTATAA CGTTAAGAGT TTCATTGAAT ATTATTTTAA GTATTACAAA AGGCAGCTTG CTTCTTAATC TATGCATCTT  008720
008721  TGGGGTTTTT GAAGAAATTT AATTCTTTGA TGTAAAAAGG AACTGTTAAA AAAGTTGGAA GCTCTGCACC TGTGTATATA  008800
008801  TATATTTTAG CAATAAAGCA GCATGGGCTG AGAATGCACT GAAA

[ref1-1] 1.0 ^1.1 ^1.2 Chew G.L., Pauli A., Rinn J.L., Regev A., Schier A.F., Valen E. Ribosome profiling reveals resemblance between long non-coding RNAs and 5' leaders of coding RNAs. Development. 2013;140:2828–2834

[ref2-2] Guttman M., Garber M., Levin J.Z., Donaghey J., Robinson J., Adiconis X., Fan L., Koziol M.J., Gnirke A., Nusbaum C. Ab initio reconstruction of cell type-specific transcriptomes in mouse reveals the conserved multi-exonic structure of lincRNAs. Nat. Biotechnol. 2010;28:503–510

[ref3-3] 3.0 ^3.1 ^3.2 Ulitsky I., Shkumatava A., Jan C.H., Sive H., Bartel D.P. Conserved function of lincRNAs in vertebrate embryonic development despite rapid sequence evolution. Cell. 2011;147:1537–1550.

[ref4-4] 4.0 ^4.1 ^4.2 ^4.3 ^4.4 ^4.5 Smith KN, Starmer J, Miller SC, Sethupathy P & Magnuson T. Long Noncoding RNA Moderates MicroRNA Activity to Maintain Self-Renewal in Embryonic Stem Cells[J]. Stem Cell Rep. 2017, 9(1):108-121.

[ref5-5] Sigova A.A., Mullen A.C., Molinie B., Gupta S., Orlando D.A., Guenther M.G., Almada A.E., Lin C., Sharp P.A., Giallourakis C.C. Divergent transcription of noncoding RNA/mRNA gene pairs in embryonic stem cells. Proc. Natl. Acad. Sci. USA. 2013;110:2876–2881.

[ref6-6] Kim J., Abdelmohsen K., Yang X., De S., Grammatikakis I., Noh J.H., Gorospe M. LncRNA OIP5-AS1/cyrano sponges RNA-binding protein HuR. Nucleic Acids Res. 2016;44:2378–2392

[ref8-7] Zhi F, Wang Q, Xue L, Shao NY, Wang R, Deng DN et al. The Use of Three Long Non-Coding RNAs as Potential Prognostic Indicators of Astrocytoma[J]. Plos One. 2015, 10(8).

[ref9-8] Hu GW, Wu L, Kuang W, Chen Y, Zhu XG, Guo H et al. Knockdown of linc-OIP5 inhibits proliferation and migration of glioma cells through down-regulation of YAP-NOTCH signaling pathway[J]. Gene. 2017, 610(24-31

[ref10-9] Zhang Z, Liu F, Yang F & Liu YH. Kockdown of OIP5-AS1 expression inhibits proliferation, metastasis and EMT progress in hepatoblastoma cells through up-regulating miR-186a-5p and down-regulating ZEB1[J]. Biomed Pharmacother. 2018.

[ref7-10] Clark MB, Johnston RL, Inostroza-Ponta M, Fox AH, Fortini E, Moscato P et al. Genome-wide analysis of long noncoding RNA stability[J]. Genome Res. 2012, 22(5):885-898.

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Difference between revisions of "ENST00000500949.2"

Latest revision as of 05:12, 17 November 2018

Contents

Annotated Information

Approved Symbol

Approved Name

Characteristics

Function

Regulation

Disease

Expression

Labs working on this lncRNA

References

Sequence

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@@ Line 1: / Line 1: @@
-Please input one-sentence summary here.
+''CYRANO''- long noncoding RNA required for proper embryonic development
 ==Annotated Information==
-===Name===
+===Approved Symbol===
-cyrano
+''CYRANO''
+===Approved Name===
+''CYRANO''.
+linc-oip5 <ref name="ref1" />.
+1700020I14Rik <ref name="ref1" />.
 ===Characteristics===
-Has similar structural characteristics in different vertebrate species. Spliced transcript with long (4-8kb) terminal exon which contains a number of conserved sequences.
+.2-kb ''CYRANO'' molecule is a long intergenic ncRNA (lincRNA) transcribed in mouse ESCs <ref name="ref1" /><ref name="ref2" /><ref name="ref3" /><ref name="ref4" />.
+''CYRANO'' shares unique sequence complementarity with the differentiation-associated microRNA <ref name="ref4" />.
-Zebrafish: ~4.5kb, 3 exons with long terminal exon. Terminal exon contain several DNA transposons. Convergent transcription with oip5.
+''CYRANO'' distribution in the cell could indicate that nuclear and cytoplasmic ''CYRANO'' pools that have distinct functions or that it interacts with proteins that shuttle from the nucleus to the cytoplasm <ref name="ref4" />.
+''CYRANO'' posseses an almost complete binding site to mir-7 in mouse ESCs and this binding site is conserved across vertebrates <ref name="ref5" />.
-Human: ~8.8kb transcript has positional synteny, generally 3 or 4 exons, full length transcript has a long terminal exon.
-Mouse: ~8.2kb, transcript has positional synteny, 3 exons, full length transcript has a long terminal exon.
-===Transcriptomic Nomeclature===
-Please input transcriptomic nomeclature information here.
 ===Function===
-* Required for normal embronyic development in Zebrafish. Morpholinos to decrease transcript level or block conserved (miR-7 recognition) site had neural development defects and short tails.
+lincRNA ''CYRANO'' is required for proper embryonic development <ref name="ref3" />.
-- Lack of functional cyrano caused small heads and eyes, “defect in neural tube opening, loss of NeuroD-positive cells in the retina and tectum and enlarged nasal placodes”.
+Depletion of ''CYRANO'' results in disarray in the pluripotent gene expression signature and defects in self-renewal maintenance <ref name="ref4" />.
+''CYRANO'' is one factor that presents a barrier to lineage commitment in conditions of suboptimal fluctuations in Nanog levels <ref name="ref4" />.
+''CYRANO'' function as a sponge of RBPs from mRNAs <ref name="ref6" />.
+''CYRANO'' in various systems include anti-proliferative functions and play roles in organogenesis/embryonic development <ref name="ref4" />.
-* Defects could be recused by mature zebrafish cyrano transcript as well as the human and mouse orthologues.
+===Regulation===
+mir-7 regulates ''CYRANO'' <ref name="ref3" />.
-* Conserved site was necessary but not sufficient to explain cyrano function in zebrafish.
+===Disease===
+*Astrocytoma <ref name="ref8" />
+*Glioma <ref name="ref9" />
+*Hepatoblastoma <ref name="ref10" />
-===Regulation===
-Please input regulation information here.
 ===Expression===
-Expressed in zebrafish nervous system. Brain and notochord at 24 hours post fertilization (hpf), expression at 72 hpf also includes zebrafish spinal cord. Mouse and human homolgoues are widely expressed in adult and developing tissues and cell lines including the brain (ENCODE, Gascoigne et al). RNA stability half-life of mouse homologue was 3-4 hr in neuroblastoma cells, close to lncRNA median [http://www.ncbi.nlm.nih.gov/pubmed/22406755 (Clark (2012))].
+''CYRANO'' is expressed in zebrafish nervous system. Brain and notochord at 24 hours post fertilization (hpf), expression at 72 hpf also includes zebrafish spinal cord. Mouse and human homolgoues are widely expressed in adult and developing tissues and cell lines including the brain. RNA stability half-life of mouse homologue was 3-4 hr in neuroblastoma cells, close to lncRNA median <ref name="ref7" />
-===Allelic Information and Variation===
-Please input allelic information and variation information here.
-===Evolution===
-Please input evolution information here.
-You can also add sub-section(s) at will.
 ==Labs working on this lncRNA==
-Please input related labs here.
+*Department of Genetics, University of North Carolina, Chapel Hill, NC 27599, USA
+*Department of General Surgery, the First Hospital of Jilin University, Changchun, 130021, China
+*Department of General Surgery, the First Hospital of Jilin University, Changchun, 130021, China
+*Laboratory of Genetics and Genomics, National Institute on Aging-Intramural Research Program, NIH, Baltimore, MD 21224, USA
 ==References==
-Please input cited references here.
+<references>
+<ref name="ref1"> Chew G.L., Pauli A., Rinn J.L., Regev A., Schier A.F., Valen E. Ribosome profiling reveals resemblance between long non-coding RNAs and 5' leaders of coding RNAs. Development. 2013;140:2828–2834
+</ref>(1)
+<ref name="ref2"> Guttman M., Garber M., Levin J.Z., Donaghey J., Robinson J., Adiconis X., Fan L., Koziol M.J., Gnirke A., Nusbaum C. Ab initio reconstruction of cell type-specific transcriptomes in mouse reveals the conserved multi-exonic structure of lincRNAs. Nat. Biotechnol. 2010;28:503–510
+</ref>(2)
+<ref name="ref3"> Ulitsky I., Shkumatava A., Jan C.H., Sive H., Bartel D.P. Conserved function of lincRNAs in vertebrate embryonic development despite rapid sequence evolution. Cell. 2011;147:1537–1550.
+</ref>(3)
+<ref name="ref4"> Smith KN, Starmer J, Miller SC, Sethupathy P & Magnuson T. Long Noncoding RNA Moderates MicroRNA Activity to Maintain Self-Renewal in Embryonic Stem Cells[J]. Stem Cell Rep. 2017, 9(1):108-121.
+</ref>(4)
+<ref name="ref5"> Sigova A.A., Mullen A.C., Molinie B., Gupta S., Orlando D.A., Guenther M.G., Almada A.E., Lin C., Sharp P.A., Giallourakis C.C. Divergent transcription of noncoding RNA/mRNA gene pairs in embryonic stem cells. Proc. Natl. Acad. Sci. USA. 2013;110:2876–2881.
+</ref>(5)
+<ref name="ref6"> Kim J., Abdelmohsen K., Yang X., De S., Grammatikakis I., Noh J.H., Gorospe M. LncRNA OIP5-AS1/cyrano sponges RNA-binding protein HuR. Nucleic Acids Res. 2016;44:2378–2392
+</ref>(6)
+<ref name="ref7"> Clark MB, Johnston RL, Inostroza-Ponta M, Fox AH, Fortini E, Moscato P et al. Genome-wide analysis of long noncoding RNA stability[J]. Genome Res. 2012, 22(5):885-898.
+</ref>(7)
+<ref name="ref8"> Zhi F, Wang Q, Xue L, Shao NY, Wang R, Deng DN et al. The Use of Three Long Non-Coding RNAs as Potential Prognostic Indicators of Astrocytoma[J]. Plos One. 2015, 10(8).
+</ref>(8)
+<ref name="ref9"> Hu GW, Wu L, Kuang W, Chen Y, Zhu XG, Guo H et al. Knockdown of linc-OIP5 inhibits proliferation and migration of glioma cells through down-regulation of YAP-NOTCH signaling pathway[J]. Gene. 2017, 610(24-31
+</ref>(9)
+<ref name="ref10"> Zhang Z, Liu F, Yang F & Liu YH. Kockdown of OIP5-AS1 expression inhibits proliferation, metastasis and EMT progress in hepatoblastoma cells through up-regulating miR-186a-5p and down-regulating ZEB1[J]. Biomed Pharmacother. 2018.
+</ref>(10)
+</references>
-{{basic|
+===Sequence===
-tID = ENST00000500949.2|
+>gi|729082|ref|NR_026757.2|Homo sapiens OIP5 antisense RNA 1 (OIP5-AS1), transcript variant 1, long non-coding RNA
-source = Gencode19|
+<dnaseq>AGGGTTGGCCACCTTGAGAAGCTGCGAAGATGGCGGAGTAAGGCGTGCCGCTGCAAACTGGCCTCTGGGC
-same = lnc-AC012652.1.1-1:5|
+CGGGGGCGAGCAGCCCCCGGGAGGCCGAGTGCATCTGTTGGACCGTGCGAGGAGAAGAAAAAAAATATCG
-classification = intergenic|
+GCCAGAGGAGAGGAACTAACCGAACATTCTTCCTCCCTACCTTATAGAGGGGAGTGGTCATCTACACTAA
-length = 8829 nt|
+AGCAAAGTGTTAGGCGCGTCCGTGCGAAGAGACCACCAAACAGGCTTTGTGTTCCTTATCACAGGAAGAA
-location = chr15+:41576203..41598732|
+AATTTTCCTTGACCTTTAGGTGCTTTTATATTCATCTCAAAAACAAAATTCTGAACTCAGGACTTGGCAA
-number = 4|
+GTGTCTCTATGTTGTCTCCTAGAGTGGGTAGTCCTGCTTCTTTTACCCAGTTACTTTCCCGTTTTTGAAA
-exons = 41576203..41576308,41577423..41577561,41578209..41578298,41590239..41598732|
+TGTGGCTATCACTTCTCTACACATTACCTCCATGATTTGGAATGGAAAAGGCCACTTTTCTTTTTGTTCT
-context = <html><div align="center">
+GCCTCTCAAATTCAACACAGAGGAGCTCCTAGGATTCCAGTTATCCTGCTAACATCTCCAGGAAGAAAGA
-<iframe src="http://lncrna.big.ac.cn/view/?data=species/human&loc=chr15:41576203..41598732&tracklist=0&overview=0&tracks=DNA,RefGene,lncRNA" style=" border-width:0 " width="100%" height="250" scrolling="yes"></iframe>
+AGCAACTCACATGGGTCTTTTGCTGTTTGCTTAATTATAAAGACATCATTTTGCAAGCAGAAGGCTGAGT
-</div></html>|
+TTCATTTGAAACAGGTGCTTAGGTGGTGGTATTTGTGAATACTTTTCATTCCAAGCAAGAAGACTAAAGA
-sequence = <dnaseq>GAGAAGCTGCGAAGATGGCGGAGTAAGGCGTGCCGCTGCAAACTGGCCTCTGGGCCGGGGGCGAGCAGCCCCCGGGAGGCCGAGTGCATCTGTTGGACCGTGCGAGGAGAAGAAAAAAAATATCGGCCAGAGGAGAGGAACTAACCGAACATTCTTCCTCCCTACCTTATAGAGGGGAGTGGTCATCTACACTAAAGCAAAGTGTTAGGCGCGTCCGTGCGAAGAGACCACCAAACAGGCTTTGTGTTCCTTATCACAGGAAGAAAATTTTCCTTGACCTTTAGGTGCTTTTATATTCATCTCAAAAACAAAATTCTGAACTCAGGACTTGGCAAGTGTCTCTATGTTGTCTCCTAGAGTGGGTAGTCCTGCTTCTTTTACCCAGTTACTTTCCCGTTTTTGAAATGTGGCTATCACTTCTCTACACATTACCTCCATGATTTGGAATGGAAAAGGCCACTTTTCTTTTTGTTCTGCCTCTCAAATTCAACACAGAGGAGCTCCTAGGATTCCAGTTATCCTGCTAACATCTCCAGGAAGAAAGAAGCAACTCACATGGGTCTTTTGCTGTTTGCTTAATTATAAAGACATCATTTTGCAAGCAGAAGGCTGAGTTTCATTTGAAACAGGTGCTTAGGTGGTGGTATTTGTGAATACTTTTCATTCCAAGCAAGAAGACTAAAGAAGTAGCAAGTATGAATGACTTCAGGGTTTAAAAAAAATGTCTTCCAGTTTCAGCCACTACCATGATAAGCACAGTTGAGACTGCAGCAGTAAATTCCAAATATGTGTTTCTAATTTGACGTGAAAGATACTAAAAATTTATATTTGTATATTTAAATCCTGGCTCATCCTGTGACATAGATTTACTGAATAGGAACAAAGGCCCAATTTTAAACAAAAACCTAGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGCAAATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATAGAAAATTAGCCAGGTGTGGTGGTAGATACGTGTAATCCCAGCTACTCGTGAGGCTGAGGCAGGAGAATTGCTTGAATCCGGGAGGCGGAGGTTGCAGTGAACTGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAGTGAGACTCCGTCTCAGAAAAATAAAAAACAACTTTGGACATAGAGGAGTTGGGGGCAGAGGGGGGAGGATGAGAGAATTTTCCATGTAACTCCTTTTCCTTAAGAAAAAGAAGCAAAAATCCCTCATGCAGTGCCATCTGACTTTATGGTGTTTCACATTATATAGTTACTTTTTTTAATAAACGCATAAGATTAACTCTTCCTGCAACCCAAGGTGGATACTTGGATGTTTGATTTTTATTTATTTATTTATTTATTTTTTGAGGCAGTCTCTCTCTGTTGCCCAGGCTGGAGTGATGCGTGATTTCTGCTCACTGCAGTCTCTCCCACCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCGCGCACCACCACGCTCAGCCTGATTTCTAGGCTGAAAAGGCTGGGACTCAGGTACTTTCCCCAGTTGGGACTGAACTTTCTCATCAGAGAATGGGCCTCAGAAGCAATGTTCCCAAACTTGTGGTTGGGTCATCGTGGAAAAGAAACCTCAAATAAGAAAAATAATTACAATAAGAAATGGATTTTCTTTTTTCCCACAACAGTTATACATTATAAAGAACAGACTGTCGTAGAAAACTGTCTTTGCTTCCAAATCAGCAGAGGACCATTGTATGTATTGTCAGGTCTTTATATAAGAGTGAAACCTTTATTTATGCTTCTTGTGAGTAGAGAATAAATTTTAAAACTAATTAGATGAAATTAAGAACAGAGTATTGGAACATCTCTGTGTTTTCCGGAATGTTTACTCAGGTCCATGAATGCTGTGATGCTGGGAACTTAGGGAAGATTCACCAAAATTTGAGAGTGATAAAAATGGCCTAAAATGGGAAATGGTGAGCACTCTTATTATTAGTGAGATTGGTCAATCAGCCCATTTGAAATGGGTAAAAAATACTTTCAGTAAAATAATTACATATTATATATAAAATATTTCTTTTTTTGAGGGCAGCTACTGAGTGATAAAAGCATAGTAGAAATCACTTTGGTTAAAAGTAACTCAAATTTTTCTCTTAAGTAATCTACCAACTTCCTGATGTTTTTCTTTAATATTTTGGAACTGTTCAAGACAGAATGGAGCCTACATATATGGTGTTCCACTAGTATGTTGAAAATGTCATATCATGGAGAATGGAGACACCTTCCAGGTGTCTGTTAAACCCATCTTCTCTGTGTACTTCTGGCATCTTTTTTGGTAGGATCATTTGGCAGGGGGTAGAGTACCTGTACTTTTGGCACCATTGAAACCAGCTCTGGCCCACTTGTTTGAATAGCTATCAGACTCAGCGTCTCTATATGCTTTATATACAGTTGAGAGAACCAGTGTTTAATGCTCTTGAAATTGTATCTTCCATGCTTCAGACCAGATGCATTTAACAAAATGGATATATTCCAGCTGTAGTTGCCCAGTGTTTACTTAACACATCTACATTTTTTTCTTGTCTATTTTGGTCCCCTTGATAGGAAAAGCTATAATTTTAGGCAGGACTATACGTCGATTTGTAGCCATGCTTCCTTCCTTTCCCTTGCTCATCCATGTTAGCTGGCAGTTTTTCTTTTGAAAAGTTAAAACCGGGATATGTGCAATAGAAATATATATATATATATGTATATTTTAATACTTGTGGACAAATGTTACAAGTTGTTTAAGAACAACAAAATCACCAATGTCTTCCATTTTGAGATGTGTATAGTTTTGTAAGCATTAGTGCTTGGTAGCATATTGTAGTGCCATGTTAGGGGTTAGTGCATGAGTCTAGTGATTTTAAACTTCAGGATGAATTATTGATAATAACAAATAGTGTAAAAAGAGTGGAAAATCTAAACCTTTTCTTTTTCCATAATGTCTAAATCTGTTATATTCTTCCTGGGGAAAAGAGATTAAGGCCCAAAAGACTCATTTATGAATAGAAATGTGGGGTCAAAATCTGAGATACTATATTTGAGGACATTTCAGCTTTCCATAAGGTATCTGGAAACCAGCTGTCTTTGTGTCTTATGAAACCTCAAGTCAAAATGAGACCGCATTTAATTATTCTGCTTTGCTCTTTTTTTGGGGTGGGGGGGAGATAGAGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTTGCTCACTGTAACCTCTGCCTCTTGGGTTCAAGTGATTCTCGTGCCCCAGCCTCCCGAGTAGCTGGGACTACAGGCACGTGCCACCACGCCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTTGCTGTGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGTAATCCACCTGGCCTGCTCTTTTCATGTCTTAACATGGCATGTCTTTTAGTTTCATTATTTTCCTACTCCTTGTATGTCAAGAAATTACATTTTGCATGTCTTATGGAGATGCTGTTAATTGCTTCAGTGAGTGCTTTTCTAATCTGCAGACCATTTACATTTCCTGTTTGCAGCATGCTGTGTGCAAACACTCAGTAATTTGGAGTATTCAATTATTTGTTAGGGCTCTTCCTATTTCCAAATGTGCTGAATTGTCTATTGATGGGATTTTCAGATCTTTTCATGAGAACTGGAAATGTAGCTGGGTGGCACCTACCTAGGTTGCTACGTAGTGAGTAGACTTTCTCTTGGGTATAGTAAGCCTCAGACAGCTTTCACTTTTATCTACTTTACTTGTGGAAATAAAACAGTCATTTTGTTCTGAAAGAATAAGATAGCTTTCTGTAGAGAAGGAATTCCTACCTCTAAAAGCTGCCTTGAGAACTCAGAACTGGCAGTTTTCTGAGGTGATTTTTAAATTTCAGTATTAGGGAGAGTCCAGCATTTGCTGACACAGATTCTACATAACTAATGTATGATAGCAAATGCAAAACTATTATAATGTGGTGTATCTTGCGCATACACAGGTTAGAACAAGTAGACTCTGGCAGCAGATCTCCAGAGACCCAAGTTTAGGTTCTCATAGTGTATTTGAAGTAGTTATACTCCTGGCTTAAGTAGTTTAGTGCCTGGGAGAATCCATTACTGAAAAGCATTTAACTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTGAAAAGGTAGTGAATACAGAATAGCACAATATATAGGAAAGGATATTTCCTGTTGAAAAAAAAAGCCATAAAATTAATAGTAATTTTCAAGAGGTAGAATTTTAGTAGCAATAAGTTTGTGCATGTATAGTAATTTGCATTAGCAAGGTTGTACAATAGAATAAGTGATACTACTGGAGTTTGTGGGGCTCTGCAACCAAGAGTTGCACAAGGGCCAGGTGCGGTGGCTTACACCTATAATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACAAGGTCAAGAGATCAGGACCATCCTGGCCAACATGGTGAAATGCCATCTCTACTAAAAATACAAAACTTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGGCAGTAGAATCACTTAAACCTGAGAGGCGGAGGTTGCAGTGAGCTGAGATCACACCACTGTACTCCAGCCTGGTGACAGTAAGACTCCACCTCAAACAAACAAAAAATGCACAAAAGGAAAAAATGTTCTGGATAAAGAGCATATGAAAGGTACTTTCTTTTAGAACAGTATGAATGTATATGAATTTATCTTTATGTGAGAAATAATCTTTTTTGTAAGTTAAAGGTTAAAGACCCTGCTTGTTTCCTAAATCAGAGGGTTAGAGCTGTTGAAATTAAACCTTTATAGTGCTTAACCTGGAAACAAATGTACTACAGCCCCACTGAAGCCGCTCTATGGGTTTTTTGCTTACGATGTTTTAGCAACAGGCATTTATTTTGTAGAATGGTATACTTTCTGCTTTGTCTCCTCATCTTTCTCCACTGGTTTCCTGGGTACATTTTTTTTAAAGGGAGAGAAGTTTGTGAGTTTAATGTTTTAAAAAAACTCCCAAGAACATGGATAAGCCGGATTTCTCTCATGCTTATGATTAGGGAGTTAGGATTTAAAGATGCAAAGCAGAAGGACTGAAAGGAATAGCCAGTGAATATGTTTCAGTGGGTGAGGTGTGAAACCTTGTCTAATATAGATGTGTCCTATGGCCTGTGACTGCTTATTCTTTATCAATGAGAACTCAGCAAACTAGTTTCTTTCTTGATCTGAGGAACCACACAGCTCACATCAGAATATAATAGTGGAACTAGGGTGACTTCACTCCCTTTCACCTGATGTCTATCTTGGCCTTTTAGCACCTTGACTATCCCTGAAAAGACTGGGTCTTTGTTTTCCCAGGGAAAAAACGAAGTGATGTAGATCTAAGAAATAGTGCCTCTTTAATATTTAATTCTTACATGACAACTAACACACAGGGAAAAGGCTATGTTAAGTTGATTATAGCTCCTCTTAAAATGTCCTATGCTGTCAGTTGGTCTTAGAGACATGGGAATAACCAAGCAATATTCAGACATCTGCACTATCTGGGGACAGCGCTACATAGTACAATGATGTCAGCAGTTCAGTTACTTGGAACAATTAAAGATTACCCTTAACAGCCATGTTAATACATCTAAATGCTAAAATATACTACGAGTTTTTCATAGTCTTGAAAGTATACAGTTAATTACTTTTCAAAGTTACTGTGGTCTCATGTTTACTCTTCTTGTATCTGTGATATGCAAAAAGATGAAGACTCTTGGCCTCCAGGAGTTTACATTCTCATGGTGCTGTTGGTTCAAGCAGATTGCTTTAGTTTATTAATGAACATTGCTTGGCTATTAATTATATCCTATTTGGAAGGATCCCTTGGTGAACAGTTTTAAAAAGCAGAGGGCTGTGCTAAATTTCAGGGTATTGATAGCTTGAGTTTACATTGTATTAGCCCTGCTCGTTATCATTTTTTTCCCCAGGGAGCTATGCAGGTAATGCTCATTAGCATGAATCAGAAAAGAAACCATTCTGCCTAAGAGCATCTTAACCATCCCCCTAAACCACCTATGCTCTCCTGTTATAGTTGTCAGTAAATCACGAAGAAAATTAACAGCTCCTTAAGACTCTACATCCCTCAATTCTCTTTCTTTTCCCAGAGTTTGTACATCATTCTCTACTCAGATGGACCAGGATTTGCATATAAGCCTTTTAAAACTGACTAGTGGTCCTAATTTTAACATTTTTGTGTATGACTCCTATCCCTTTTCTGAAGCAGCATTGTGATAGATGTGGAGCTTCTACCTGCATTTCTAAGCAATTATTAACCCAACTTTTGAGTTGAAACTTGCATGGATCCTTGTTATGTCCCGTAATTCCTCTGAATCAAGGAATTTATTTTGCATGCTTATTAAACTCAAACTGGGTCTGATTGAAAGTGCAAGCAATAGTGACAGGACCTTAACTCTGGTTTTAGAGTACGAACATTCTAATGCATGACTCAAAATGTCCAGTGTTGTGGTTACTAGTTATTTTATATATGCATTTGTTAATAATGAAGCAATAGAGACTAAGACCAATAGCTTGAATATATTCAGATTATTTTCATGTTTTAATAAAGGATTTTTCTTACTTCCATTGAAAATGGGAAGTAGAAGATAAACAGGGGCAACCACAAGACATTCAAACTGTCAGGACTAGGGCGTAGCAGTGCCCACCCTCTAACCACTTGCCTGGTTCCATTAGTCCCCAAGCATGTTTGAAAACAAAAGACACAAACTAAGCATGCTGAATAAAACTAGCTGCTATGGCTGTAATAATCAGAAAGGTGCAGAGTTTCAGAAAGAGTAGGAAAGTAGGGAATGCCAGTATGGAGTATGTAAAATAACTAGATATGGATATGGGGTTTGTTTATGATATGCTTTATGTAGACAAAGTTTGAGGTCTTTTAAAACTGGGATTTGAGTTGAAAAGAGTCAGGATGCACATATTTCCACTATTTCAGGATTTTCAGATGACTAGGCACATGTTGTGGATGATACTGGTACCAACTACCAATGACCAACTATAAAGTACCCCTGCAATAAGGGAGACTTCCTTTTTGTAGAATAGTCCTGAAAATACTGACAGATCTGTGGTTAGTTTGTTATTTTATTGCATAAAAAACAGTTTAAACAAATTTTATAGCCAAAGTTTTATCCTTGATGGGTTTGGCCAGACTGCAATTTCTTGACTAAAGCTTTTAATGCCAGGTTAAACAGGAGAAACTTTTTCCACTAGAAGAAAATCCTTGCTATCTATTTTTTCCAATAGAAGAAAATCCTTGCTATTTATTTTATTTGATGAATAAACAAATTTATTGCAGTAGCTTAAAAAAATTTTTTTTTTAAACAGTCTCACTCTGTCGCCCAGGCTGGAGTGAAGCAATGTGATCTCAGCTCACTGCAACCTCCACCTCCCGAGTAGCTGGGATTACAGACATGCACCACCACCCTCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTTTAACTCCTGGCCTTACGTGATCCGCCCCCCCTTAGCCTTCCAAAGTGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTGTAGTAGCTTAAAATTTTCCTTGAGAAAATTCCTGACTTTAAAAATAACCCTTATATAAGTACAAGTGATTGTGACAAATGACGTAAAAATGGCATTCATGATGTCTGAAACAAGCCTAAATAGAATTCAAGATTAGACTAAATGATTTTCACAAAGCACATTCAAGGTTTTACATTCTATGATTGAAAAAAATTTTTTGAAAACTTTTTATTTCATTCTTTCCTGTAGGATTTTGCTACAAATAACTTTGGGAATGAATAAAGTGGAATGGTAACTTTCCAGTGGTTCAGAATTGAATTAGACTTCTTGTGACTGTGATGTTTGGTTTCCATTGAAATATATGAAGTGAGATGTCATATCCTGAATATAGTTTGTCTTCCCCAATTACTTGATAGCATGTCTGTCAGCCAGTAAAGATTAAGAACAGAGTTTCTCTAAATTCCTCCGATTATTCCACTAAGGCACATTAAAATACTTAATTTTGGGAAACCAGACATCACAGATTTCTCCATGAAGTCCTAAATCTTCTTTAAAGTCAGAATAGGTATCTTAGTTACTGACAGTATTCAGGTTTTTTTCTCCCTTGGTGATATGTCATTCCATCAGTGAAAAAATATTTTCTCCCAGGGATAAGAAAGGTATTCTGGTAATACATTATCATCAATCCTTAAACAGTAACAGTCTTGGCACTTATCACAAAACCGACCCATTTCTTATAACCAGAAAGATTATCTTAGACTGTCCTTCACATTATACTTTACCTACTGCCTTGTAAGAATAAGAGTTGCTCACTGTGTTTACTTGCTGTCCTCCATATTCTCCATTGCACCATTGGTGTATAACGTTAAGAGTTTCATTGAATATTATTTTAAGTATTACAAAAGGCAGCTTGCTTCTTAATCTATGCATCTTTGGGGTTTTTGAAGAAATTTAATTCTTTGATGTAAAAAGGAACTGTTAAAAAAGTTGGAAGCTCTGCACCTGTGTATATATATATTTTAGCAATAAAGCAGCATGGGCTGAGAATGCACTGAAA</dnaseq>|
+AGTAGCAAGTATGAATGACTTCAGGGTTTAAAAAAAATGTCTTCCAGTTTCAGCCACTACCATGATAAGC
-}}
+ACAGTTGAGACTGCAGCAGTAAATTCCAAATATGTGTTTCTAATTTGACGTGAAAGATACTAAAAATTTA
-[[Category:Intergenic]][[Category:ENSG00000247556.2]][[Category:lnc-AC012652.1.1-1]]
+TATTTGTATATTTAAATCCTGGCTCATCCTGTGACATAGATTTACTGAATAGGAACAAAGGCCCAATTTT
+AAACAAAAACCTAGGCCGGGTGTGGTGGCTCACACCTGTAATCCCAACACTTTGGGAGGCCAAGGCAGGC
+AAATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGACCAACATGGAGAAACCCCATCTCTACTAAAAATA
+GAAAATTAGCCAGGTGTGGTGGTAGATACGTGTAATCCCAGCTACTCGTGAGGCTGAGGCAGGAGAATTG
+CTTGAATCCGGGAGGCGGAGGTTGCAGTGAACTGAGATTGCACCACTGCACTCCAGCCTGGGCGACAGAG
+TGAGACTCCGTCTCAGAAAAATAAAAAACAACTTTGGACATAGAGGAGTTGGGGGCAGAGGGGGGAGGAT
+GAGAGAATTTTCCATGTAACTCCTTTTCCTTAAGAAAAAGAAGCAAAAATCCCTCATGCAGTGCCATCTG
+ACTTTATGGTGTTTCACATTATATAGTTACTTTTTTTAATAAACGCATAAGATTAACTCTTCCTGCAACC
+CAAGGTGGATACTTGGATGTTTGATTTTTATTTATTTATTTATTTATTTTTTGAGGCAGTCTCTCTCTGT
+TGCCCAGGCTGGAGTGATGCGTGATTTCTGCTCACTGCAGTCTCTCCCACCCGGGTTCAAGCGATTCTCC
+TGCCTCAGCCTCCCAAGTAGCTAGGATTACAGGCGCGCACCACCACGCTCAGCCTGATTTCTAGGCTGAA
+AAGGCTGGGACTCAGGTACTTTCCCCAGTTGGGACTGAACTTTCTCATCAGAGAATGGGCCTCAGAAGCA
+ATGTTCCCAAACTTGTGGTTGGGTCATCGTGGAAAAGAAACCTCAAATAAGAAAAATAATTACAATAAGA
+AATGGATTTTCTTTTTTCCCACAACAGTTATACATTATAAAGAACAGACTGTCGTAGAAAACTGTCTTTG
+CTTCCAAATCAGCAGAGGACCATTGTATGTATTGTCAGGTCTTTATATAAGAGTGAAACCTTTATTTATG
+CTTCTTGTGAGTAGAGAATAAATTTTAAAACTAATTAGATGAAATTAAGAACAGAGTATTGGAACATCTC
+TGTGTTTTCCGGAATGTTTACTCAGGTCCATGAATGCTGTGATGCTGGGAACTTAGGGAAGATTCACCAA
+AATTTGAGAGTGATAAAAATGGCCTAAAATGGGAAATGGTGAGCACTCTTATTATTAGTGAGATTGGTCA
+ATCAGCCCATTTGAAATGGGTAAAAAATACTTTCAGTAAAATAATTACATATTATATATAAAATATTTCT
+TTTTTTGAGGGCAGCTACTGAGTGATAAAAGCATAGTAGAAATCACTTTGGTTAAAAGTAACTCAAATTT
+TTCTCTTAAGTAATCTACCAACTTCCTGATGTTTTTCTTTAATATTTTGGAACTGTTCAAGACAGAATGG
+AGCCTACATATATGGTGTTCCACTAGTATGTTGAAAATGTCATATCATGGAGAATGGAGACACCTTCCAG
+GTGTCTGTTAAACCCATCTTCTCTGTGTACTTCTGGCATCTTTTTTGGTAGGATCATTTGGCAGGGGGTA
+GAGTACCTGTACTTTTGGCACCATTGAAACCAGCTCTGGCCCACTTGTTTGAATAGCTATCAGACTCAGC
+GTCTCTATATGCTTTATATACAGTTGAGAGAACCAGTGTTTAATGCTCTTGAAATTGTATCTTCCATGCT
+TCAGACCAGATGCATTTAACAAAATGGATATATTCCAGCTGTAGTTGCCCAGTGTTTACTTAACACATCT
+ACATTTTTTTCTTGTCTATTTTGGTCCCCTTGATAGGAAAAGCTATAATTTTAGGCAGGACTATACGTCG
+ATTTGTAGCCATGCTTCCTTCCTTTCCCTTGCTCATCCATGTTAGCTGGCAGTTTTTCTTTTGAAAAGTT
+AAAACCGGGATATGTGCAATAGAAATATATATATATATATGTATATTTTAATACTTGTGGACAAATGTTA
+CAAGTTGTTTAAGAACAACAAAATCACCAATGTCTTCCATTTTGAGATGTGTATAGTTTTGTAAGCATTA
+GTGCTTGGTAGCATATTGTAGTGCCATGTTAGGGGTTAGTGCATGAGTCTAGTGATTTTAAACTTCAGGA
+TGAATTATTGATAATAACAAATAGTGTAAAAAGAGTGGAAAATCTAAACCTTTTCTTTTTCCATAATGTC
+TAAATCTGTTATATTCTTCCTGGGGAAAAGAGATTAAGGCCCAAAAGACTCATTTATGAATAGAAATGTG
+GGGTCAAAATCTGAGATACTATATTTGAGGACATTTCAGCTTTCCATAAGGTATCTGGAAACCAGCTGTC
+TTTGTGTCTTATGAAACCTCAAGTCAAAATGAGACCGCATTTAATTATTCTGCTTTGCTCTTTTTTTGGG
+GTGGGGGGGAGATAGAGTTTCACTCTGTCACCCAGGCTGGAGTGCAGTGGCACAATCTTTGCTCACTGTA
+ACCTCTGCCTCTTGGGTTCAAGTGATTCTCGTGCCCCAGCCTCCCGAGTAGCTGGGACTACAGGCACGTG
+CCACCACGCCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTTGCTGTGTTGGCCAGGCTGGTCTC
+AAACTCCTGACCTCAAGTAATCCACCTGGCCTGCTCTTTTCATGTCTTAACATGGCATGTCTTTTAGTTT
+CATTATTTTCCTACTCCTTGTATGTCAAGAAATTACATTTTGCATGTCTTATGGAGATGCTGTTAATTGC
+TTCAGTGAGTGCTTTTCTAATCTGCAGACCATTTACATTTCCTGTTTGCAGCATGCTGTGTGCAAACACT
+CAGTAATTTGGAGTATTCAATTATTTGTTAGGGCTCTTCCTATTTCCAAATGTGCTGAATTGTCTATTGA
+TGGGATTTTCAGATCTTTTCATGAGAACTGGAAATGTAGCTGGGTGGCACCTACCTAGGTTGCTACGTAG
+TGAGTAGACTTTCTCTTGGGTATAGTAAGCCTCAGACAGCTTTCACTTTTATCTACTTTACTTGTGGAAA
+TAAAACAGTCATTTTGTTCTGAAAGAATAAGATAGCTTTCTGTAGAGAAGGAATTCCTACCTCTAAAAGC
+TGCCTTGAGAACTCAGAACTGGCAGTTTTCTGAGGTGATTTTTAAATTTCAGTATTAGGGAGAGTCCAGC
+ATTTGCTGACACAGATTCTACATAACTAATGTATGATAGCAAATGCAAAACTATTATAATGTGGTGTATC
+TTGCGCATACACAGGTTAGAACAAGTAGACTCTGGCAGCAGATCTCCAGAGACCCAAGTTTAGGTTCTCA
+TAGTGTATTTGAAGTAGTTATACTCCTGGCTTAAGTAGTTTAGTGCCTGGGAGAATCCATTACTGAAAAG
+CATTTAACTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTGAAAAGGTAGTGAATACAGAATAGCACAA
+TATATAGGAAAGGATATTTCCTGTTGAAAAAAAAAGCCATAAAATTAATAGTAATTTTCAAGAGGTAGAA
+TTTTAGTAGCAATAAGTTTGTGCATGTATAGTAATTTGCATTAGCAAGGTTGTACAATAGAATAAGTGAT
+ACTACTGGAGTTTGTGGGGCTCTGCAACCAAGAGTTGCACAAGGGCCAGGTGCGGTGGCTTACACCTATA
+ATCCCAGCACTTTGGGAGGCCAAGGTGGGCGGATCACAAGGTCAAGAGATCAGGACCATCCTGGCCAACA
+TGGTGAAATGCCATCTCTACTAAAAATACAAAACTTAGCTGGGCATGGTGGCACATGCCTGTAATCCCAG
+CTACTCAGGAGGCTGAGGCAGTAGAATCACTTAAACCTGAGAGGCGGAGGTTGCAGTGAGCTGAGATCAC
+ACCACTGTACTCCAGCCTGGTGACAGTAAGACTCCACCTCAAACAAACAAAAAATGCACAAAAGGAAAAA
+ATGTTCTGGATAAAGAGCATATGAAAGGTACTTTCTTTTAGAACAGTATGAATGTATATGAATTTATCTT
+TATGTGAGAAATAATCTTTTTTGTAAGTTAAAGGTTAAAGACCCTGCTTGTTTCCTAAATCAGAGGGTTA
+GAGCTGTTGAAATTAAACCTTTATAGTGCTTAACCTGGAAACAAATGTACTACAGCCCCACTGAAGCCGC
+TCTATGGGTTTTTTGCTTACGATGTTTTAGCAACAGGCATTTATTTTGTAGAATGGTATACTTTCTGCTT
+TGTCTCCTCATCTTTCTCCACTGGTTTCCTGGGTACATTTTTTTTAAAGGGAGAGAAGTTTGTGAGTTTA
+ATGTTTTAAAAAAACTCCCAAGAACATGGATAAGCCGGATTTCTCTCATGCTTATGATTAGGGAGTTAGG
+ATTTAAAGATGCAAAGCAGAAGGACTGAAAGGAATAGCCAGTGAATATGTTTCAGTGGGTGAGGTGTGAA
+ACCTTGTCTAATATAGATGTGTCCTATGGCCTGTGACTGCTTATTCTTTATCAATGAGAACTCAGCAAAC
+TAGTTTCTTTCTTGATCTGAGGAACCACACAGCTCACATCAGAATATAATAGTGGAACTAGGGTGACTTC
+ACTCCCTTTCACCTGATGTCTATCTTGGCCTTTTAGCACCTTGACTATCCCTGAAAAGACTGGGTCTTTG
+TTTTCCCAGGGAAAAAACGAAGTGATGTAGATCTAAGAAATAGTGCCTCTTTAATATTTAATTCTTACAT
+GACAACTAACACACAGGGAAAAGGCTATGTTAAGTTGATTATAGCTCCTCTTAAAATGTCCTATGCTGTC
+AGTTGGTCTTAGAGACATGGGAATAACCAAGCAATATTCAGACATCTGCACTATCTGGGGACAGCGCTAC
+ATAGTACAATGATGTCAGCAGTTCAGTTACTTGGAACAATTAAAGATTACCCTTAACAGCCATGTTAATA
+CATCTAAATGCTAAAATATACTACGAGTTTTTCATAGTCTTGAAAGTATACAGTTAATTACTTTTCAAAG
+TTACTGTGGTCTCATGTTTACTCTTCTTGTATCTGTGATATGCAAAAAGATGAAGACTCTTGGCCTCCAG
+GAGTTTACATTCTCATGGTGCTGTTGGTTCAAGCAGATTGCTTTAGTTTATTAATGAACATTGCTTGGCT
+ATTAATTATATCCTATTTGGAAGGATCCCTTGGTGAACAGTTTTAAAAAGCAGAGGGCTGTGCTAAATTT
+CAGGGTATTGATAGCTTGAGTTTACATTGTATTAGCCCTGCTCGTTATCATTTTTTTCCCCAGGGAGCTA
+TGCAGGTAATGCTCATTAGCATGAATCAGAAAAGAAACCATTCTGCCTAAGAGCATCTTAACCATCCCCC
+TAAACCACCTATGCTCTCCTGTTATAGTTGTCAGTAAATCACGAAGAAAATTAACAGCTCCTTAAGACTC
+TACATCCCTCAATTCTCTTTCTTTTCCCAGAGTTTGTACATCATTCTCTACTCAGATGGACCAGGATTTG
+CATATAAGCCTTTTAAAACTGACTAGTGGTCCTAATTTTAACATTTTTGTGTATGACTCCTATCCCTTTT
+CTGAAGCAGCATTGTGATAGATGTGGAGCTTCTACCTGCATTTCTAAGCAATTATTAACCCAACTTTTGA
+GTTGAAACTTGCATGGATCCTTGTTATGTCCCGTAATTCCTCTGAATCAAGGAATTTATTTTGCATGCTT
+ATTAAACTCAAACTGGGTCTGATTGAAAGTGCAAGCAATAGTGACAGGACCTTAACTCTGGTTTTAGAGT
+ACGAACATTCTAATGCATGACTCAAAATGTCCAGTGTTGTGGTTACTAGTTATTTTATATATGCATTTGT
+TAATAATGAAGCAATAGAGACTAAGACCAATAGCTTGAATATATTCAGATTATTTTCATGTTTTAATAAA
+GGATTTTTCTTACTTCCATTGAAAATGGGAAGTAGAAGATAAACAGGGGCAACCACAAGACATTCAAACT
+GTCAGGACTAGGGCGTAGCAGTGCCCACCCTCTAACCACTTGCCTGGTTCCATTAGTCCCCAAGCATGTT
+TGAAAACAAAAGACACAAACTAAGCATGCTGAATAAAACTAGCTGCTATGGCTGTAATAATCAGAAAGGT
+GCAGAGTTTCAGAAAGAGTAGGAAAGTAGGGAATGCCAGTATGGAGTATGTAAAATAACTAGATATGGAT
+ATGGGGTTTGTTTATGATATGCTTTATGTAGACAAAGTTTGAGGTCTTTTAAAACTGGGATTTGAGTTGA
+AAAGAGTCAGGATGCACATATTTCCACTATTTCAGGATTTTCAGATGACTAGGCACATGTTGTGGATGAT
+ACTGGTACCAACTACCAATGACCAACTATAAAGTACCCCTGCAATAAGGGAGACTTCCTTTTTGTAGAAT
+AGTCCTGAAAATACTGACAGATCTGTGGTTAGTTTGTTATTTTATTGCATAAAAAACAGTTTAAACAAAT
+TTTATAGCCAAAGTTTTATCCTTGATGGGTTTGGCCAGACTGCAATTTCTTGACTAAAGCTTTTAATGCC
+AGGTTAAACAGGAGAAACTTTTTCCACTAGAAGAAAATCCTTGCTATCTATTTTTTCCAATAGAAGAAAA
+TCCTTGCTATTTATTTTATTTGATGAATAAACAAATTTATTGCAGTAGCTTAAAAAAATTTTTTTTTTAA
+ACAGTCTCACTCTGTCGCCCAGGCTGGAGTGAAGCAATGTGATCTCAGCTCACTGCAACCTCCACCTCCC
+GAGTAGCTGGGATTACAGACATGCACCACCACCCTCAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTT
+TCGCCATGTTGGCCAGGCTGGTCTTTAACTCCTGGCCTTACGTGATCCGCCCCCCCTTAGCCTTCCAAAG
+TGCTGGGATTACAGGTGTGAGCCACTGCACCTGGCCTGTAGTAGCTTAAAATTTTCCTTGAGAAAATTCC
+TGACTTTAAAAATAACCCTTATATAAGTACAAGTGATTGTGACAAATGACGTAAAAATGGCATTCATGAT
+GTCTGAAACAAGCCTAAATAGAATTCAAGATTAGACTAAATGATTTTCACAAAGCACATTCAAGGTTTTA
+CATTCTATGATTGAAAAAAATTTTTTGAAAACTTTTTATTTCATTCTTTCCTGTAGGATTTTGCTACAAA
+TAACTTTGGGAATGAATAAAGTGGAATGGTAACTTTCCAGTGGTTCAGAATTGAATTAGACTTCTTGTGA
+CTGTGATGTTTGGTTTCCATTGAAATATATGAAGTGAGATGTCATATCCTGAATATAGTTTGTCTTCCCC
+AATTACTTGATAGCATGTCTGTCAGCCAGTAAAGATTAAGAACAGAGTTTCTCTAAATTCCTCCGATTAT
+TCCACTAAGGCACATTAAAATACTTAATTTTGGGAAACCAGACATCACAGATTTCTCCATGAAGTCCTAA
+ATCTTCTTTAAAGTCAGAATAGGTATCTTAGTTACTGACAGTATTCAGGTTTTTTTCTCCCTTGGTGATA
+TGTCATTCCATCAGTGAAAAAATATTTTCTCCCAGGGATAAGAAAGGTATTCTGGTAATACATTATCATC
+AATCCTTAAACAGTAACAGTCTTGGCACTTATCACAAAACCGACCCATTTCTTATAACCAGAAAGATTAT
+CTTAGACTGTCCTTCACATTATACTTTACCTACTGCCTTGTAAGAATAAGAGTTGCTCACTGTGTTTACT
+TGCTGTCCTCCATATTCTCCATTGCACCATTGGTGTATAACGTTAAGAGTTTCATTGAATATTATTTTAA
+GTATTACAAAAGGCAGCTTGCTTCTTAATCTATGCATCTTTGGGGTTTTTGAAGAAATTTAATTCTTTGA
+TGTAAAAAGGAACTGTTAAAAAAGTTGGAAGCTCTGCACCTGTGTATATATATATTTTAGCAATAAAGCA
+GCATGGGCTGAGAATGCACTGAAA</dnaseq>