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Center for Computational Systems Medicine
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FusionGeneSummary

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FusionProtFeature

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FusionGeneSequence

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FusionGenePPI

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RelatedDrugs

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RelatedDiseases

Fusion gene ID: 38500

FusionGeneSummary for TMEM180_GBF1

check button Fusion gene summary
Fusion gene informationFusion gene name: TMEM180_GBF1
Fusion gene ID: 38500
HgeneTgene
Gene symbol

TMEM180

GBF1

Gene ID

80142

Gene nameprostaglandin E synthase 2
SynonymsC9orf15|GBF-1|GBF1|PGES2|mPGES-2
Cytomap

9q34.11

Type of geneprotein-coding
Descriptionprostaglandin E synthase 2GATE-binding factor 1gamma-interferon-activated transcriptional element-binding factor 1mPGE synthase-2membrane-associated prostaglandin E synthase 2microsomal prostaglandin E synthase-2prostaglandin-H(2) E-isomerase
Modification date20180519
UniProtAcc

Q92538

Ensembl transtripts involved in fusion geneENST00000366277, ENST00000238936, 
ENST00000369931, ENST00000450947, 
ENST00000369983, ENST00000476019, 
Fusion gene scores* DoF score1 X 1 X 1=19 X 8 X 5=360
# samples 112
** MAII scorelog2(1/1*10)=3.32192809488736log2(12/360*10)=-1.58496250072116
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: TMEM180 [Title/Abstract] AND GBF1 [Title/Abstract] AND fusion [Title/Abstract]

Functional or gene categories assigned by FusionGDB annotation
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

check button Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez
PartnerGeneGO IDGO termPubMed ID

check button Fusion gene information from three resources
(ChiTars (NAR, 2018), tumorfusions (NAR, 2018), Gao et al. (Cell, 2018))
* All genome coordinats were lifted-over on hg19.
* Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser.
Data typeSourceCancer typeSampleHgeneHchrHbpHstrandTgeneTchrTbpTstrand
TCGARVSTADTCGA-VQ-A91K-01ATMEM180chr10

104233769

+GBF1chr10

104111013

+
* LD: Li Ding group's fusion gene list
  RV: Roel Verhaak group's fusion gene list
  ChiTaRs fusion database

check button Open reading frame (ORF) analsis of fusion genes based on Ensembl gene isoform structure.
* Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser.
ORFHenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrand
In-frameENST00000366277ENST00000369983TMEM180chr10

104233769

+GBF1chr10

104111013

+
5CDS-intronENST00000366277ENST00000476019TMEM180chr10

104233769

+GBF1chr10

104111013

+
In-frameENST00000238936ENST00000369983TMEM180chr10

104233769

+GBF1chr10

104111013

+
5CDS-intronENST00000238936ENST00000476019TMEM180chr10

104233769

+GBF1chr10

104111013

+
intron-3CDSENST00000369931ENST00000369983TMEM180chr10

104233769

+GBF1chr10

104111013

+
intron-intronENST00000369931ENST00000476019TMEM180chr10

104233769

+GBF1chr10

104111013

+
intron-3CDSENST00000450947ENST00000369983TMEM180chr10

104233769

+GBF1chr10

104111013

+
intron-intronENST00000450947ENST00000476019TMEM180chr10

104233769

+GBF1chr10

104111013

+

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FusionProtFeatures for TMEM180_GBF1


check buttonMain function of each fusion partner protein. (from UniProt)
HgeneTgene
TMEM180

GBF1

Q92538

Lectin that binds to various sugars: galactose > mannose= fucose > N-acetylglucosamine > N-acetylgalactosamine(PubMed:10224141). Acts as a chemoattractant, probably involved inthe regulation of cell migration (PubMed:28301481).{ECO:0000269|PubMed:10224141, ECO:0000269|PubMed:28301481}. Guanine-nucleotide exchange factor (GEF) for members ofthe Arf family of small GTPases involved in trafficking in theearly secretory pathway; its GEF activity initiates the coating ofnascent vesicles via the localized generation of activated ARFsthrough replacement of GDP with GTP. Recruitment to cis-Golgimembranes requires membrane association of Arf-GDP and can beregulated by ARF1, ARF3, ARF4 and ARF5. Involved in therecruitment of the COPI coat complex to the endoplasmic reticulumexit sites (ERES), and the endoplasmic reticulum-Golgiintermediate (ERGIC) and cis-Golgi compartments which implicatesARF1 activation. Involved in COPI vesicle-dependent retrogradetransport from the ERGIC and cis-Golgi compartments to theendoplasmic reticulum (ER) (PubMed:16926190, PubMed:17956946,PubMed:18003980, PubMed:12047556, PubMed:12808027,PubMed:19039328, PubMed:24213530). Involved in the trans-Golginetwork recruitment of GGA1, GGA2, GGA3, BIG1, BIG2, and the AP-1adaptor protein complex related to chlathrin-dependent transport;the function requires its GEF activity (probably at least in parton ARF4 and ARF5) (PubMed:23386609). Has GEF activity towards ARF1(PubMed:15616190). Has in vitro GEF activity towards ARF5 (Bysimilarity). Involved in the processing of PSAP (PubMed:17666033).Required for the assembly of the Golgi apparatus (PubMed:12808027,PubMed:18003980). The AMPK-phosphorylated form is involved inGolgi disassembly during mitotis and under stress conditions(PubMed:18063581, PubMed:23418352). May be involved in the COPIvesicle-dependent recruitment of PNPLA2 to lipid droplets;however, this function is under debate (PubMed:19461073,PubMed:22185782). In neutrophils, involved in G protein-coupledreceptor (GPCR)-mediated chemotaxis und superoxide production.Proposed to be recruited by phosphatidylinositol-phosphatesgenerated upon GPCR stimulation to the leading edge where itrecruits and activates ARF1, and is involved in recruitment ofGIT2 and the NADPH oxidase complex (PubMed:22573891).{ECO:0000250|UniProtKB:Q9R1D7, ECO:0000269|PubMed:12047556,ECO:0000269|PubMed:12808027, ECO:0000269|PubMed:15616190,ECO:0000269|PubMed:16926190, ECO:0000269|PubMed:17666033,ECO:0000269|PubMed:17956946, ECO:0000269|PubMed:18003980,ECO:0000269|PubMed:18063581, ECO:0000269|PubMed:19461073,ECO:0000269|PubMed:22185782, ECO:0000269|PubMed:22573891,ECO:0000269|PubMed:23386609, ECO:0000269|PubMed:23418352,ECO:0000269|PubMed:24213530, ECO:0000305|PubMed:19039328,ECO:0000305|PubMed:22573891}.

check buttonRetention analysis result of each fusion partner protein across 39 protein features of UniProt such as six molecule processing features, 13 region features, four site features, six amino acid modification features, two natural variation features, five experimental info features, and 3 secondary structure features. Here, because of limited space for viewing, we only show the protein feature retention information belong to the 13 regional features. All retention annotation result can be downloaded at

download page

.

* Minus value of BPloci means that the break pointn is located before the CDS.
- In-frame and retained protein feature among the 13 regional features.
>>>
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910101_123430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910127_149430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910164_184430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910194_214430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910266_288430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910306_326430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910332_354430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910401_421430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+91052_72430518TransmembraneHelical
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+9109_29430518TransmembraneHelical
TgeneGBF1chr10:104233769chr10:104111013ENST00000369983+3401751_1854981860Compositional biasNote=Pro-rich
TgeneGBF1chr10:104233769chr10:104111013ENST00000369983+340692_882981860DomainSEC7
TgeneGBF1chr10:104233769chr10:104111013ENST00000369983+340886_1370981860RegionPhosphatidylinositol-phosphate binding%3B required for translocation to the leading edge and for ARF1 activation upon GPCR signaling

- In-frame and not-retained protein feature among the 13 regional features.
>
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneTMEM180chr10:104233769chr10:104111013ENST00000238936+910466_486430518TransmembraneHelical


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FusionGeneSequence for TMEM180_GBF1


check button For in-frame fusion transcripts, we provide the fusion transcript sequences and fusion amino acid sequences.
(nt: nucleotides, aa: amino acids)

* Fusion amino acid sequences.
>In-frame_TMEM180_ENST00000366277_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_1921aa
MDLVQVFHCHFNSNFFPLFLEHLLSDHISLSTGSILLGLSYVAPHLNNLYFLSLCRRWGVYAVVRGLFLLKLGLSLLMLLAGPDHLSLLC
LFIASNRVFTEGTCKLLTLVVTDLVDEDLVLNHRKQAASALLFGMVALVTKPGQTFAPLLGTWLLCFYTDPTHEGTAEGMENMADAVTHA
RFVGTDPASDEVVLMKILQVLRTLLLTPVGAHLTNESVCEIMQSCFRICFEMRLSELLRKSAEHTLVDMVQLLFTRLPQFKEEPKNYVGT
NMKKLKMRAGGMSDSSKWKKQKRSPRPPRHMTKVTPGSELPTPNGTTLSSNLTGGMPFIDVPTPISSASSEAASAVVSPSTDSGLEFSSQ
TTSKEDLTDLEQPGSPGYSTATEPGSSELGVPEQPDLQEGTHVEKSQSASVESIPEVLEECTSPADHSDSASVHDMDYVNPRGVRFTQSS
QKEGTALVPYGLPCIRELFRFLISLTNPHDRHNSEVMIHMGLHLLTVALESAPVAQCQTLLGLIKDEMCRHLFQLLSIERLNLYAASLRV
CFLLFESMREHLKFQMEMYIKKLMEIITVENPKMPYEMKEMALEAIVQLWRIPSFVTELYINYDCDYYCSNLFEELTKLLSKNAFPVSGQ
LYTTHLLSLDALLTVIDSTEAHCQAKVLNSLTQQEKKETARPSCEIVDGTREASNTERTASDGKAVGMASDIPGLHLPGGGRLPPEHGKS
GCSDLEEAVDSGADKKFARKPPRFSCLLPDPRELIEIKNKKKLLITGTEQFNQKPKKGIQFLQEKGLLTIPMDNTEVAQWLRENPRLDKK
MIGEFVSDRKNIDLLESFVSTFSFQGLRLDEALRLYLEAFRLPGEAPVIQRLLEAFTERWMNCNGSPFANSDACFSLAYAVIMLNTDQHN
HNVRKQNAPMTLEEFRKNLKGVNGGKDFEQDILEDMYHAIKNEEIVMPEEQTGLVRENYVWNVLLHRGATPEGIFLRVPTASYDLDLFTM
TWGPTIAALSYVFDKSLEETIIQKAISGFRKCAMISAHYGLSDVFDNLIISLCKFTALSSESIENLPSVFGSNPKAHIAAKTVFHLAHRH
GDILREGWKNIMEAMLQLFRAQLLPKAMIEVEDFVDPNGKISLQREETPSNRGESTVLSFVSWLTLSGPEQSSVRGPSTENQEAKRVALE
CIKQCDPEKMITESKFLQLESLQELMKALVSVTPDEETYDEEDAAFCLEMLLRIVLENRDRVGCVWQTVRDHLYHLCVQAQDFCFLVERA
VVGLLRLAIRLLRREEISAQVLLSLRILLLMKPSVLSRVSHQVAYGLHELLKTNAANIHSGDDWATLFTLLECIGSGVKPPAALQATARA
DAPDAGAQSDSELPSYHQNDVSLDRGYTSDSEVYTDHGRPGKIHRSATDADVVNSGWLVVGKDDVDNSKPGPSRPGPSPLINQYSLTVGL
DLGPHDTKSLLKCVESLSFIVRDAAHITPDNFELCVKTLRIFVEASLNGGCKSQEKRGKSHKYDSKGNRFKKKSKEGSMLRRPRTSSQHA
SRGGQSDDDEDEGVPASYHTVSLQVSQDLLDLMHTLHTRAASIYSSWAEEQRHLETGGQKIEADSRTLWAHCWCPLLQGIACLCCDARRQ
VRMQALTYLQRALLVHDLQKLDALEWESCFNKVLFPLLTKLLENISPADVGGMEETRMRASTLLSKVFLQHLSPLLSLSTFAALWLTILD
FMDKYMHAGSSDLLSEAIPESLKNMLLVMDTAEIFHSADARGGGPSALWEITWERIDCFLPHLRDELFKQTVIQDPMPMEPQGQKPLASA
HLTSAAGDTRTPGHPPPPEIPSELGACDFEKPESPRAASSSSPGSPVASSPSRLSPTPDGPPPLAQPPLILQPLASPLQVGVPPMTLPII

>In-frame_TMEM180_ENST00000238936_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_2192aa
MGLGQPQAWLLGLPTAVVYGSLALFTTILHNVFLLYYVDTFVSVYKINKMAFWVGETVFLLWNSLNDPLFGWLSDRQFLSSQPRSGAGLS
SRAVVLARVQALGWHGPLLALSFLAFWVPWAPAGLQFLLCLCLYDGFLTLVDLHHHALLADLALSAHDRTHLNFYCSLFSAAGSLSVFAS
YAFWNKEDFSSFRAFCVTLAVSSGLGFLGATQLLRRRVEAARKDPGCSGLVVDSGLCGEELLVGSEEADSITLGRYLRQLARHRNFLWFV
SMDLVQVFHCHFNSNFFPLFLEHLLSDHISLSTGSILLGLSYVAPHLNNLYFLSLCRRWGVYAVVRGLFLLKLGLSLLMLLAGPDHLSLL
CLFIASNRVFTEGTCKLLTLVVTDLVDEDLVLNHRKQAASALLFGMVALVTKPGQTFAPLLGTWLLCFYTDPTHEGTAEGMENMADAVTH
ARFVGTDPASDEVVLMKILQVLRTLLLTPVGAHLTNESVCEIMQSCFRICFEMRLSELLRKSAEHTLVDMVQLLFTRLPQFKEEPKNYVG
TNMKKLKMRAGGMSDSSKWKKQKRSPRPPRHMTKVTPGSELPTPNGTTLSSNLTGGMPFIDVPTPISSASSEAASAVVSPSTDSGLEFSS
QTTSKEDLTDLEQPGSPGYSTATEPGSSELGVPEQPDLQEGTHVEKSQSASVESIPEVLEECTSPADHSDSASVHDMDYVNPRGVRFTQS
SQKEGTALVPYGLPCIRELFRFLISLTNPHDRHNSEVMIHMGLHLLTVALESAPVAQCQTLLGLIKDEMCRHLFQLLSIERLNLYAASLR
VCFLLFESMREHLKFQMEMYIKKLMEIITVENPKMPYEMKEMALEAIVQLWRIPSFVTELYINYDCDYYCSNLFEELTKLLSKNAFPVSG
QLYTTHLLSLDALLTVIDSTEAHCQAKVLNSLTQQEKKETARPSCEIVDGTREASNTERTASDGKAVGMASDIPGLHLPGGGRLPPEHGK
SGCSDLEEAVDSGADKKFARKPPRFSCLLPDPRELIEIKNKKKLLITGTEQFNQKPKKGIQFLQEKGLLTIPMDNTEVAQWLRENPRLDK
KMIGEFVSDRKNIDLLESFVSTFSFQGLRLDEALRLYLEAFRLPGEAPVIQRLLEAFTERWMNCNGSPFANSDACFSLAYAVIMLNTDQH
NHNVRKQNAPMTLEEFRKNLKGVNGGKDFEQDILEDMYHAIKNEEIVMPEEQTGLVRENYVWNVLLHRGATPEGIFLRVPTASYDLDLFT
MTWGPTIAALSYVFDKSLEETIIQKAISGFRKCAMISAHYGLSDVFDNLIISLCKFTALSSESIENLPSVFGSNPKAHIAAKTVFHLAHR
HGDILREGWKNIMEAMLQLFRAQLLPKAMIEVEDFVDPNGKISLQREETPSNRGESTVLSFVSWLTLSGPEQSSVRGPSTENQEAKRVAL
ECIKQCDPEKMITESKFLQLESLQELMKALVSVTPDEETYDEEDAAFCLEMLLRIVLENRDRVGCVWQTVRDHLYHLCVQAQDFCFLVER
AVVGLLRLAIRLLRREEISAQVLLSLRILLLMKPSVLSRVSHQVAYGLHELLKTNAANIHSGDDWATLFTLLECIGSGVKPPAALQATAR
ADAPDAGAQSDSELPSYHQNDVSLDRGYTSDSEVYTDHGRPGKIHRSATDADVVNSGWLVVGKDDVDNSKPGPSRPGPSPLINQYSLTVG
LDLGPHDTKSLLKCVESLSFIVRDAAHITPDNFELCVKTLRIFVEASLNGGCKSQEKRGKSHKYDSKGNRFKKKSKEGSMLRRPRTSSQH
ASRGGQSDDDEDEGVPASYHTVSLQVSQDLLDLMHTLHTRAASIYSSWAEEQRHLETGGQKIEADSRTLWAHCWCPLLQGIACLCCDARR
QVRMQALTYLQRALLVHDLQKLDALEWESCFNKVLFPLLTKLLENISPADVGGMEETRMRASTLLSKVFLQHLSPLLSLSTFAALWLTIL
DFMDKYMHAGSSDLLSEAIPESLKNMLLVMDTAEIFHSADARGGGPSALWEITWERIDCFLPHLRDELFKQTVIQDPMPMEPQGQKPLAS
AHLTSAAGDTRTPGHPPPPEIPSELGACDFEKPESPRAASSSSPGSPVASSPSRLSPTPDGPPPLAQPPLILQPLASPLQVGVPPMTLPI


* Fusion transcript sequences (only coding sequence (CDS) region).
>In-frame_TMEM180_ENST00000366277_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_5763nt
ATGGACCTGGTGCAGGTCTTCCACTGCCACTTCAACAGCAACTTCTTCCCTCTCTTCCTGGAGCATCTGTTGTCCGACCATATCTCCCTT
TCCACGGGCTCCATCCTGTTGGGCCTCTCCTATGTCGCTCCCCATCTCAACAACCTCTACTTCCTGTCCCTGTGCCGGCGCTGGGGCGTC
TACGCGGTGGTGCGGGGGCTCTTCCTGCTCAAGCTGGGACTTAGCCTGCTCATGTTGTTGGCCGGCCCGGACCACCTCAGCCTGCTGTGC
CTCTTCATTGCCAGCAACCGCGTCTTCACTGAGGGCACCTGTAAGCTGCTGACCTTGGTGGTCACTGACCTGGTAGACGAGGACCTGGTG
CTGAACCACCGCAAGCAGGCAGCCTCGGCACTCCTCTTTGGCATGGTTGCCTTGGTGACCAAGCCAGGCCAGACCTTTGCCCCGCTGCTG
GGCACCTGGCTGCTCTGTTTCTACACAGATCCCACCCATGAGGGCACAGCAGAGGGCATGGAGAACATGGCAGATGCTGTCACCCATGCT
CGTTTTGTGGGCACGGATCCTGCCAGTGATGAAGTTGTCCTGATGAAAATCCTTCAGGTTCTACGGACTCTGCTGCTAACCCCAGTGGGT
GCCCACCTAACCAATGAATCTGTGTGTGAGATTATGCAGTCTTGCTTCCGGATCTGCTTTGAAATGAGGCTCAGTGAGTTATTGAGAAAA
TCCGCAGAGCACACTCTCGTAGACATGGTGCAGCTGCTCTTCACAAGGTTACCTCAGTTTAAAGAAGAACCCAAGAACTATGTGGGGACC
AACATGAAGAAGCTGAAAATGAGAGCCGGAGGCATGAGTGATTCATCCAAATGGAAGAAACAGAAGAGATCCCCTCGGCCCCCACGCCAT
ATGACCAAAGTCACACCAGGTTCAGAGCTGCCCACTCCCAATGGAACCACCTTATCATCTAACCTCACTGGTGGCATGCCCTTCATTGAT
GTGCCCACTCCCATCTCCTCTGCAAGTTCAGAAGCTGCCTCAGCAGTGGTCAGTCCCTCTACAGACAGTGGCCTGGAATTCTCCTCCCAA
ACCACTTCCAAGGAAGACCTTACTGATCTAGAGCAACCTGGCTCTCCAGGGTACAGCACAGCTACAGAGCCTGGAAGCAGTGAGCTAGGT
GTTCCCGAGCAGCCTGACCTCCAGGAAGGGACCCATGTGGAAAAGTCCCAGTCAGCATCTGTGGAGTCCATCCCTGAAGTGTTAGAGGAG
TGCACGTCCCCTGCCGACCACTCTGACTCTGCCTCTGTCCATGACATGGATTACGTCAATCCCCGGGGCGTGCGCTTTACACAGTCCTCC
CAGAAAGAAGGCACAGCTTTGGTCCCCTATGGTCTTCCCTGCATCCGCGAGCTCTTCCGCTTCCTCATCTCCCTCACCAATCCACACGAC
CGCCATAACTCAGAGGTTATGATTCACATGGGACTGCATTTGCTGACAGTGGCCCTTGAGTCAGCCCCTGTAGCCCAGTGCCAGACCCTC
TTGGGCCTCATCAAGGATGAGATGTGCCGTCACTTATTCCAGCTACTCAGCATAGAGCGACTAAACCTTTATGCTGCTTCCCTGCGAGTA
TGCTTCCTACTGTTTGAGAGCATGCGAGAGCACCTCAAGTTCCAAATGGAGATGTACATCAAAAAGCTTATGGAGATCATCACTGTGGAG
AACCCCAAGATGCCTTATGAGATGAAGGAGATGGCACTGGAGGCCATTGTGCAGCTCTGGCGCATCCCCAGCTTTGTCACAGAGCTCTAC
ATCAACTATGATTGTGACTACTACTGTTCCAACCTCTTTGAGGAACTCACAAAGCTGCTGTCCAAGAATGCCTTCCCTGTGTCTGGTCAA
CTCTATACAACACACCTACTATCTCTTGATGCCCTATTGACAGTGATTGACAGCACCGAGGCCCACTGCCAGGCTAAAGTCCTCAACAGC
CTCACCCAGCAAGAGAAGAAGGAGACAGCCAGACCAAGCTGTGAGATAGTAGATGGCACCCGAGAAGCTAGCAATACTGAGAGAACTGCC
AGCGATGGGAAAGCTGTAGGCATGGCCTCAGACATCCCAGGCCTGCATCTGCCAGGTGGAGGGCGGCTGCCACCAGAACATGGGAAATCA
GGATGCAGTGATCTGGAGGAAGCTGTTGACTCTGGGGCTGACAAAAAGTTTGCCCGGAAGCCACCCCGATTTTCCTGTCTCCTGCCAGAT
CCACGGGAACTAATTGAAATTAAAAACAAAAAGAAGCTGCTAATCACTGGCACAGAGCAGTTCAATCAGAAACCAAAGAAGGGGATTCAG
TTTCTGCAAGAGAAAGGCCTCCTCACCATCCCAATGGACAACACAGAGGTTGCTCAGTGGCTCCGAGAGAACCCTCGGCTGGACAAGAAG
ATGATTGGAGAGTTTGTGAGTGACCGCAAAAACATTGACCTGTTGGAGAGCTTTGTGAGCACCTTCAGTTTTCAGGGTCTGCGACTGGAC
GAAGCCCTCCGCCTCTACCTGGAAGCCTTCCGTTTGCCTGGGGAAGCACCAGTCATCCAGAGGTTGCTGGAGGCATTCACAGAGCGTTGG
ATGAATTGTAATGGCTCCCCATTTGCCAATAGCGATGCCTGCTTTTCCCTGGCCTATGCTGTCATCATGCTTAATACTGACCAGCACAAC
CACAATGTTCGTAAACAGAATGCACCCATGACCCTGGAGGAGTTTCGCAAAAATCTGAAAGGTGTGAATGGAGGCAAGGACTTTGAGCAA
GACATCCTGGAGGACATGTACCATGCCATCAAGAATGAGGAAATTGTAATGCCTGAGGAGCAGACAGGCTTGGTTCGGGAGAACTATGTG
TGGAATGTGCTGCTTCATCGAGGTGCCACCCCTGAGGGCATATTCCTGCGTGTGCCTACTGCCAGCTATGATCTTGACCTCTTCACCATG
ACCTGGGGCCCCACTATTGCTGCTCTCTCTTATGTCTTTGACAAAAGCCTTGAGGAGACAATCATCCAGAAAGCCATCTCAGGCTTCAGG
AAGTGCGCCATGATCTCCGCCCACTATGGCCTCAGCGATGTGTTTGACAATCTCATCATCTCTCTATGCAAATTCACAGCTCTCAGCAGT
GAGTCTATTGAGAACCTGCCCAGTGTATTTGGAAGCAACCCTAAAGCCCATATTGCAGCCAAGACAGTATTCCATTTGGCCCATCGTCAT
GGTGACATCCTGCGGGAGGGCTGGAAGAATATCATGGAGGCCATGCTGCAGCTCTTCCGAGCCCAACTACTGCCCAAGGCTATGATAGAG
GTAGAAGATTTCGTGGATCCCAATGGCAAGATCTCTCTACAGCGGGAAGAGACACCATCAAACCGAGGAGAGTCAACAGTGCTGAGCTTT
GTGAGCTGGCTAACACTGAGTGGTCCTGAGCAGTCTAGTGTTCGGGGCCCATCCACTGAAAACCAAGAGGCCAAGAGAGTGGCCTTAGAG
TGTATAAAGCAATGTGACCCAGAAAAAATGATCACAGAAAGCAAGTTCCTCCAGCTGGAGTCACTACAGGAGCTCATGAAGGCTCTGGTC
TCAGTGACACCAGATGAAGAGACATATGATGAGGAAGATGCTGCTTTCTGCCTAGAGATGCTGCTAAGGATTGTGTTGGAGAACAGGGAT
CGTGTGGGCTGTGTGTGGCAGACTGTTCGAGACCATCTATACCACCTCTGTGTTCAGGCACAAGATTTCTGCTTCCTTGTGGAGCGGGCA
GTGGTGGGGTTGCTACGCCTGGCCATTCGGCTTCTCCGGAGAGAAGAGATCAGTGCTCAGGTGCTGCTCTCCCTGCGCATTTTGCTACTG
ATGAAGCCCAGTGTGCTATCCCGAGTCAGCCACCAGGTTGCGTATGGGCTCCATGAACTCCTGAAGACCAATGCAGCCAACATCCACTCA
GGTGATGACTGGGCCACACTCTTCACACTGCTGGAGTGCATCGGCTCAGGTGTGAAGCCTCCAGCTGCTCTGCAGGCCACAGCCAGGGCA
GATGCACCTGATGCCGGGGCCCAGTCAGATAGTGAGCTCCCATCCTACCATCAGAATGACGTGAGCCTGGATCGAGGGTACACTTCCGAC
TCAGAGGTCTACACTGACCATGGCAGGCCGGGCAAGATACACCGATCAGCCACAGATGCCGATGTGGTCAACAGTGGTTGGTTAGTGGTT
GGGAAGGATGACGTTGATAACTCCAAGCCAGGGCCCAGCCGCCCAGGCCCTTCACCCCTGATCAATCAATACAGCCTAACAGTGGGACTG
GATTTGGGGCCACACGACACTAAGTCTCTGCTTAAGTGTGTGGAATCGCTGTCCTTCATTGTGCGTGATGCTGCCCACATCACACCTGAC
AACTTTGAGCTCTGCGTCAAGACTCTCCGGATCTTTGTGGAGGCCAGTCTGAATGGCGGATGCAAGTCCCAGGAGAAACGTGGCAAGAGT
CACAAATATGACAGCAAAGGGAACCGCTTCAAGAAGAAATCCAAAGAGGGATCAATGCTTCGCCGGCCTCGAACCTCCAGCCAACATGCC
TCTCGGGGCGGGCAGAGTGATGATGATGAGGACGAAGGCGTGCCTGCCAGCTACCATACGGTGTCTTTACAGGTCAGTCAGGACTTGCTA
GACCTGATGCACACCCTGCACACGCGGGCAGCCTCTATCTACAGCTCATGGGCGGAGGAGCAACGCCACCTGGAGACAGGTGGCCAGAAG
ATTGAAGCTGATTCTCGCACCCTCTGGGCCCACTGCTGGTGCCCTTTACTGCAGGGTATTGCCTGCCTGTGCTGCGATGCCCGGCGCCAG
GTACGGATGCAGGCACTGACCTATCTGCAGCGAGCACTACTTGTACATGATCTGCAAAAGCTAGATGCCCTGGAATGGGAGTCCTGTTTT
AACAAGGTGCTGTTTCCTCTACTTACCAAGCTCTTGGAGAACATCAGCCCTGCAGATGTGGGTGGGATGGAGGAGACCCGGATGAGGGCT
TCCACATTGCTCTCTAAGGTCTTCCTGCAGCACCTGTCTCCACTGCTGTCACTCTCTACCTTTGCGGCCCTCTGGCTCACCATCTTGGAC
TTCATGGACAAGTACATGCACGCAGGCTCCAGCGACTTACTGTCAGAGGCGATCCCTGAGTCTCTGAAGAACATGCTTCTGGTGATGGAC
ACAGCGGAGATTTTCCACAGTGCAGATGCACGGGGAGGCGGCCCCTCGGCCCTCTGGGAGATCACCTGGGAACGCATTGACTGTTTTCTC
CCTCACCTACGAGATGAACTCTTCAAGCAGACCGTCATCCAGGACCCCATGCCCATGGAGCCTCAAGGCCAAAAGCCTCTCGCCTCAGCC
CACCTGACTTCCGCTGCTGGCGACACTAGGACACCTGGCCATCCACCGCCCCCAGAGATTCCATCTGAGCTGGGGGCCTGTGACTTTGAG
AAGCCCGAGAGCCCCCGAGCCGCCAGCAGCAGCTCCCCAGGATCACCAGTGGCCTCAAGCCCCAGCAGGCTGAGCCCCACCCCCGACGGG
CCTCCACCCTTGGCTCAGCCCCCACTGATCCTGCAGCCCTTGGCCTCCCCACTGCAGGTGGGCGTGCCACCTATGACTCTGCCCATCATC
CTCAACCCTGCGCTCATCGAGGCCACCTCACCAGTGCCCCTCCTGGCCACACCCCGCCCCACAGATCCCATACCCACCTCTGAGGTCAAC

>In-frame_TMEM180_ENST00000238936_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_6576nt
ATGGGGCTGGGTCAGCCCCAGGCCTGGTTGCTGGGTCTGCCCACAGCTGTGGTCTATGGCTCCCTGGCTCTCTTCACCACCATCCTGCAC
AATGTCTTCCTGCTCTACTATGTGGACACCTTTGTCTCAGTGTACAAGATCAACAAAATGGCCTTCTGGGTCGGAGAGACAGTGTTTCTC
CTCTGGAACAGCCTCAATGACCCCCTCTTCGGTTGGCTCAGTGACCGGCAGTTCCTCAGCTCCCAGCCCCGGTCAGGCGCCGGGCTCTCC
TCAAGGGCTGTGGTGCTGGCCCGGGTGCAGGCCCTGGGCTGGCATGGGCCGCTGCTGGCGCTGTCGTTCCTGGCGTTCTGGGTGCCCTGG
GCCCCAGCTGGCCTGCAGTTCTTGCTGTGCCTGTGCCTCTATGATGGCTTCCTGACGCTCGTGGACCTGCACCACCATGCCTTGCTGGCC
GACCTGGCCCTCTCAGCCCACGACCGCACCCACCTCAACTTCTACTGCTCCCTCTTCAGCGCGGCCGGCTCCCTCTCTGTCTTTGCATCC
TATGCCTTTTGGAACAAGGAGGATTTCTCCTCCTTCCGCGCTTTCTGCGTGACACTGGCTGTCAGCTCTGGGCTGGGCTTTCTGGGGGCC
ACACAGCTGCTGAGGCGGCGGGTTGAGGCGGCCCGAAAGGACCCAGGGTGCTCAGGCCTGGTTGTGGATAGCGGCCTGTGTGGAGAGGAG
CTGCTTGTAGGCAGTGAGGAGGCGGACAGCATCACCTTGGGCCGGTATCTCCGGCAGCTGGCACGCCATCGGAACTTCCTGTGGTTCGTG
AGCATGGACCTGGTGCAGGTCTTCCACTGCCACTTCAACAGCAACTTCTTCCCTCTCTTCCTGGAGCATCTGTTGTCCGACCATATCTCC
CTTTCCACGGGCTCCATCCTGTTGGGCCTCTCCTATGTCGCTCCCCATCTCAACAACCTCTACTTCCTGTCCCTGTGCCGGCGCTGGGGC
GTCTACGCGGTGGTGCGGGGGCTCTTCCTGCTCAAGCTGGGACTTAGCCTGCTCATGTTGTTGGCCGGCCCGGACCACCTCAGCCTGCTG
TGCCTCTTCATTGCCAGCAACCGCGTCTTCACTGAGGGCACCTGTAAGCTGCTGACCTTGGTGGTCACTGACCTGGTAGACGAGGACCTG
GTGCTGAACCACCGCAAGCAGGCAGCCTCGGCACTCCTCTTTGGCATGGTTGCCTTGGTGACCAAGCCAGGCCAGACCTTTGCCCCGCTG
CTGGGCACCTGGCTGCTCTGTTTCTACACAGATCCCACCCATGAGGGCACAGCAGAGGGCATGGAGAACATGGCAGATGCTGTCACCCAT
GCTCGTTTTGTGGGCACGGATCCTGCCAGTGATGAAGTTGTCCTGATGAAAATCCTTCAGGTTCTACGGACTCTGCTGCTAACCCCAGTG
GGTGCCCACCTAACCAATGAATCTGTGTGTGAGATTATGCAGTCTTGCTTCCGGATCTGCTTTGAAATGAGGCTCAGTGAGTTATTGAGA
AAATCCGCAGAGCACACTCTCGTAGACATGGTGCAGCTGCTCTTCACAAGGTTACCTCAGTTTAAAGAAGAACCCAAGAACTATGTGGGG
ACCAACATGAAGAAGCTGAAAATGAGAGCCGGAGGCATGAGTGATTCATCCAAATGGAAGAAACAGAAGAGATCCCCTCGGCCCCCACGC
CATATGACCAAAGTCACACCAGGTTCAGAGCTGCCCACTCCCAATGGAACCACCTTATCATCTAACCTCACTGGTGGCATGCCCTTCATT
GATGTGCCCACTCCCATCTCCTCTGCAAGTTCAGAAGCTGCCTCAGCAGTGGTCAGTCCCTCTACAGACAGTGGCCTGGAATTCTCCTCC
CAAACCACTTCCAAGGAAGACCTTACTGATCTAGAGCAACCTGGCTCTCCAGGGTACAGCACAGCTACAGAGCCTGGAAGCAGTGAGCTA
GGTGTTCCCGAGCAGCCTGACCTCCAGGAAGGGACCCATGTGGAAAAGTCCCAGTCAGCATCTGTGGAGTCCATCCCTGAAGTGTTAGAG
GAGTGCACGTCCCCTGCCGACCACTCTGACTCTGCCTCTGTCCATGACATGGATTACGTCAATCCCCGGGGCGTGCGCTTTACACAGTCC
TCCCAGAAAGAAGGCACAGCTTTGGTCCCCTATGGTCTTCCCTGCATCCGCGAGCTCTTCCGCTTCCTCATCTCCCTCACCAATCCACAC
GACCGCCATAACTCAGAGGTTATGATTCACATGGGACTGCATTTGCTGACAGTGGCCCTTGAGTCAGCCCCTGTAGCCCAGTGCCAGACC
CTCTTGGGCCTCATCAAGGATGAGATGTGCCGTCACTTATTCCAGCTACTCAGCATAGAGCGACTAAACCTTTATGCTGCTTCCCTGCGA
GTATGCTTCCTACTGTTTGAGAGCATGCGAGAGCACCTCAAGTTCCAAATGGAGATGTACATCAAAAAGCTTATGGAGATCATCACTGTG
GAGAACCCCAAGATGCCTTATGAGATGAAGGAGATGGCACTGGAGGCCATTGTGCAGCTCTGGCGCATCCCCAGCTTTGTCACAGAGCTC
TACATCAACTATGATTGTGACTACTACTGTTCCAACCTCTTTGAGGAACTCACAAAGCTGCTGTCCAAGAATGCCTTCCCTGTGTCTGGT
CAACTCTATACAACACACCTACTATCTCTTGATGCCCTATTGACAGTGATTGACAGCACCGAGGCCCACTGCCAGGCTAAAGTCCTCAAC
AGCCTCACCCAGCAAGAGAAGAAGGAGACAGCCAGACCAAGCTGTGAGATAGTAGATGGCACCCGAGAAGCTAGCAATACTGAGAGAACT
GCCAGCGATGGGAAAGCTGTAGGCATGGCCTCAGACATCCCAGGCCTGCATCTGCCAGGTGGAGGGCGGCTGCCACCAGAACATGGGAAA
TCAGGATGCAGTGATCTGGAGGAAGCTGTTGACTCTGGGGCTGACAAAAAGTTTGCCCGGAAGCCACCCCGATTTTCCTGTCTCCTGCCA
GATCCACGGGAACTAATTGAAATTAAAAACAAAAAGAAGCTGCTAATCACTGGCACAGAGCAGTTCAATCAGAAACCAAAGAAGGGGATT
CAGTTTCTGCAAGAGAAAGGCCTCCTCACCATCCCAATGGACAACACAGAGGTTGCTCAGTGGCTCCGAGAGAACCCTCGGCTGGACAAG
AAGATGATTGGAGAGTTTGTGAGTGACCGCAAAAACATTGACCTGTTGGAGAGCTTTGTGAGCACCTTCAGTTTTCAGGGTCTGCGACTG
GACGAAGCCCTCCGCCTCTACCTGGAAGCCTTCCGTTTGCCTGGGGAAGCACCAGTCATCCAGAGGTTGCTGGAGGCATTCACAGAGCGT
TGGATGAATTGTAATGGCTCCCCATTTGCCAATAGCGATGCCTGCTTTTCCCTGGCCTATGCTGTCATCATGCTTAATACTGACCAGCAC
AACCACAATGTTCGTAAACAGAATGCACCCATGACCCTGGAGGAGTTTCGCAAAAATCTGAAAGGTGTGAATGGAGGCAAGGACTTTGAG
CAAGACATCCTGGAGGACATGTACCATGCCATCAAGAATGAGGAAATTGTAATGCCTGAGGAGCAGACAGGCTTGGTTCGGGAGAACTAT
GTGTGGAATGTGCTGCTTCATCGAGGTGCCACCCCTGAGGGCATATTCCTGCGTGTGCCTACTGCCAGCTATGATCTTGACCTCTTCACC
ATGACCTGGGGCCCCACTATTGCTGCTCTCTCTTATGTCTTTGACAAAAGCCTTGAGGAGACAATCATCCAGAAAGCCATCTCAGGCTTC
AGGAAGTGCGCCATGATCTCCGCCCACTATGGCCTCAGCGATGTGTTTGACAATCTCATCATCTCTCTATGCAAATTCACAGCTCTCAGC
AGTGAGTCTATTGAGAACCTGCCCAGTGTATTTGGAAGCAACCCTAAAGCCCATATTGCAGCCAAGACAGTATTCCATTTGGCCCATCGT
CATGGTGACATCCTGCGGGAGGGCTGGAAGAATATCATGGAGGCCATGCTGCAGCTCTTCCGAGCCCAACTACTGCCCAAGGCTATGATA
GAGGTAGAAGATTTCGTGGATCCCAATGGCAAGATCTCTCTACAGCGGGAAGAGACACCATCAAACCGAGGAGAGTCAACAGTGCTGAGC
TTTGTGAGCTGGCTAACACTGAGTGGTCCTGAGCAGTCTAGTGTTCGGGGCCCATCCACTGAAAACCAAGAGGCCAAGAGAGTGGCCTTA
GAGTGTATAAAGCAATGTGACCCAGAAAAAATGATCACAGAAAGCAAGTTCCTCCAGCTGGAGTCACTACAGGAGCTCATGAAGGCTCTG
GTCTCAGTGACACCAGATGAAGAGACATATGATGAGGAAGATGCTGCTTTCTGCCTAGAGATGCTGCTAAGGATTGTGTTGGAGAACAGG
GATCGTGTGGGCTGTGTGTGGCAGACTGTTCGAGACCATCTATACCACCTCTGTGTTCAGGCACAAGATTTCTGCTTCCTTGTGGAGCGG
GCAGTGGTGGGGTTGCTACGCCTGGCCATTCGGCTTCTCCGGAGAGAAGAGATCAGTGCTCAGGTGCTGCTCTCCCTGCGCATTTTGCTA
CTGATGAAGCCCAGTGTGCTATCCCGAGTCAGCCACCAGGTTGCGTATGGGCTCCATGAACTCCTGAAGACCAATGCAGCCAACATCCAC
TCAGGTGATGACTGGGCCACACTCTTCACACTGCTGGAGTGCATCGGCTCAGGTGTGAAGCCTCCAGCTGCTCTGCAGGCCACAGCCAGG
GCAGATGCACCTGATGCCGGGGCCCAGTCAGATAGTGAGCTCCCATCCTACCATCAGAATGACGTGAGCCTGGATCGAGGGTACACTTCC
GACTCAGAGGTCTACACTGACCATGGCAGGCCGGGCAAGATACACCGATCAGCCACAGATGCCGATGTGGTCAACAGTGGTTGGTTAGTG
GTTGGGAAGGATGACGTTGATAACTCCAAGCCAGGGCCCAGCCGCCCAGGCCCTTCACCCCTGATCAATCAATACAGCCTAACAGTGGGA
CTGGATTTGGGGCCACACGACACTAAGTCTCTGCTTAAGTGTGTGGAATCGCTGTCCTTCATTGTGCGTGATGCTGCCCACATCACACCT
GACAACTTTGAGCTCTGCGTCAAGACTCTCCGGATCTTTGTGGAGGCCAGTCTGAATGGCGGATGCAAGTCCCAGGAGAAACGTGGCAAG
AGTCACAAATATGACAGCAAAGGGAACCGCTTCAAGAAGAAATCCAAAGAGGGATCAATGCTTCGCCGGCCTCGAACCTCCAGCCAACAT
GCCTCTCGGGGCGGGCAGAGTGATGATGATGAGGACGAAGGCGTGCCTGCCAGCTACCATACGGTGTCTTTACAGGTCAGTCAGGACTTG
CTAGACCTGATGCACACCCTGCACACGCGGGCAGCCTCTATCTACAGCTCATGGGCGGAGGAGCAACGCCACCTGGAGACAGGTGGCCAG
AAGATTGAAGCTGATTCTCGCACCCTCTGGGCCCACTGCTGGTGCCCTTTACTGCAGGGTATTGCCTGCCTGTGCTGCGATGCCCGGCGC
CAGGTACGGATGCAGGCACTGACCTATCTGCAGCGAGCACTACTTGTACATGATCTGCAAAAGCTAGATGCCCTGGAATGGGAGTCCTGT
TTTAACAAGGTGCTGTTTCCTCTACTTACCAAGCTCTTGGAGAACATCAGCCCTGCAGATGTGGGTGGGATGGAGGAGACCCGGATGAGG
GCTTCCACATTGCTCTCTAAGGTCTTCCTGCAGCACCTGTCTCCACTGCTGTCACTCTCTACCTTTGCGGCCCTCTGGCTCACCATCTTG
GACTTCATGGACAAGTACATGCACGCAGGCTCCAGCGACTTACTGTCAGAGGCGATCCCTGAGTCTCTGAAGAACATGCTTCTGGTGATG
GACACAGCGGAGATTTTCCACAGTGCAGATGCACGGGGAGGCGGCCCCTCGGCCCTCTGGGAGATCACCTGGGAACGCATTGACTGTTTT
CTCCCTCACCTACGAGATGAACTCTTCAAGCAGACCGTCATCCAGGACCCCATGCCCATGGAGCCTCAAGGCCAAAAGCCTCTCGCCTCA
GCCCACCTGACTTCCGCTGCTGGCGACACTAGGACACCTGGCCATCCACCGCCCCCAGAGATTCCATCTGAGCTGGGGGCCTGTGACTTT
GAGAAGCCCGAGAGCCCCCGAGCCGCCAGCAGCAGCTCCCCAGGATCACCAGTGGCCTCAAGCCCCAGCAGGCTGAGCCCCACCCCCGAC
GGGCCTCCACCCTTGGCTCAGCCCCCACTGATCCTGCAGCCCTTGGCCTCCCCACTGCAGGTGGGCGTGCCACCTATGACTCTGCCCATC
ATCCTCAACCCTGCGCTCATCGAGGCCACCTCACCAGTGCCCCTCCTGGCCACACCCCGCCCCACAGATCCCATACCCACCTCTGAGGTC


* Fusion transcript sequences (Full-length transcript).
>In-frame_TMEM180_ENST00000366277_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_7218nt
ATTGGCTCGCACCTGGCTCCCGCCAGCCGTGGGATTAGGCTTCGCCGGCTACGATTGCGGCCCCCATCTTCTGACTTTTCCTCGTGTGAC
CCATCTTTTCAAATTCCCTTACCTGAGGAAGGAGCCCGATTACAAGGATATTTACCTGCTCCTACCCTGATCTAGGGACGAGGATGGGAA
GACCGCCTGTGGCCATGAGCCCTCCCCGGTGCTCCTGGGGCTAAGGCTGGGGCTGCAGCCATGGGGCTGGGTCAGCCCCAGGCCTGGTTG
CTGGGTCTGCCCACAGCTGTGGTCTATGGCTCCCTGGCTCTCTTCACCACCATCCTGCACAATGTCTTCCTGCTCTACTATGTGGACACC
TTTGTCTCAGTGTACAAGATCAACAAAATGGCCTTCTGGGTCGGAGAGGCTGGAGTGCAATGGCGCAATCTCAGCTCACTGCAACCTCCG
CCTTCGTGGTTCAAGTGATTCTCCTGTCTCAACCTCATGAGTAGATGGGATTACAAGCACCCGCCACCACGCCCGGCTAATTTTTGTATT
TTTAGTAGAGACGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCCTCCCAAAGTGC
TGGTGTGAGCCACCAGCGCCTGGCCAGAGTGGGTTTTAGCAGAGGAACTGACACCAGCAAAGGTTTGCAGACAGTGTTTCTCCTCTGGAA
CAGCCTCAATGACCCCCTCTTCGGTTGGCTCAGTGACCGGCAGTTCCTCAGCTCCCAGCCCCGCCTGTGTGGAGAGGAGCTGCTTGTAGG
CAGTGAGGAGGCGGACAGCATCACCTTGGGCCGGTATCTCCGGCAGCTGGCACGCCATCGGAACTTCCTGTGGTTCGTGAGCATGGACCT
GGTGCAGGTCTTCCACTGCCACTTCAACAGCAACTTCTTCCCTCTCTTCCTGGAGCATCTGTTGTCCGACCATATCTCCCTTTCCACGGG
CTCCATCCTGTTGGGCCTCTCCTATGTCGCTCCCCATCTCAACAACCTCTACTTCCTGTCCCTGTGCCGGCGCTGGGGCGTCTACGCGGT
GGTGCGGGGGCTCTTCCTGCTCAAGCTGGGACTTAGCCTGCTCATGTTGTTGGCCGGCCCGGACCACCTCAGCCTGCTGTGCCTCTTCAT
TGCCAGCAACCGCGTCTTCACTGAGGGCACCTGTAAGCTGCTGACCTTGGTGGTCACTGACCTGGTAGACGAGGACCTGGTGCTGAACCA
CCGCAAGCAGGCAGCCTCGGCACTCCTCTTTGGCATGGTTGCCTTGGTGACCAAGCCAGGCCAGACCTTTGCCCCGCTGCTGGGCACCTG
GCTGCTCTGTTTCTACACAGATCCCACCCATGAGGGCACAGCAGAGGGCATGGAGAACATGGCAGATGCTGTCACCCATGCTCGTTTTGT
GGGCACGGATCCTGCCAGTGATGAAGTTGTCCTGATGAAAATCCTTCAGGTTCTACGGACTCTGCTGCTAACCCCAGTGGGTGCCCACCT
AACCAATGAATCTGTGTGTGAGATTATGCAGTCTTGCTTCCGGATCTGCTTTGAAATGAGGCTCAGTGAGTTATTGAGAAAATCCGCAGA
GCACACTCTCGTAGACATGGTGCAGCTGCTCTTCACAAGGTTACCTCAGTTTAAAGAAGAACCCAAGAACTATGTGGGGACCAACATGAA
GAAGCTGAAAATGAGAGCCGGAGGCATGAGTGATTCATCCAAATGGAAGAAACAGAAGAGATCCCCTCGGCCCCCACGCCATATGACCAA
AGTCACACCAGGTTCAGAGCTGCCCACTCCCAATGGAACCACCTTATCATCTAACCTCACTGGTGGCATGCCCTTCATTGATGTGCCCAC
TCCCATCTCCTCTGCAAGTTCAGAAGCTGCCTCAGCAGTGGTCAGTCCCTCTACAGACAGTGGCCTGGAATTCTCCTCCCAAACCACTTC
CAAGGAAGACCTTACTGATCTAGAGCAACCTGGCTCTCCAGGGTACAGCACAGCTACAGAGCCTGGAAGCAGTGAGCTAGGTGTTCCCGA
GCAGCCTGACCTCCAGGAAGGGACCCATGTGGAAAAGTCCCAGTCAGCATCTGTGGAGTCCATCCCTGAAGTGTTAGAGGAGTGCACGTC
CCCTGCCGACCACTCTGACTCTGCCTCTGTCCATGACATGGATTACGTCAATCCCCGGGGCGTGCGCTTTACACAGTCCTCCCAGAAAGA
AGGCACAGCTTTGGTCCCCTATGGTCTTCCCTGCATCCGCGAGCTCTTCCGCTTCCTCATCTCCCTCACCAATCCACACGACCGCCATAA
CTCAGAGGTTATGATTCACATGGGACTGCATTTGCTGACAGTGGCCCTTGAGTCAGCCCCTGTAGCCCAGTGCCAGACCCTCTTGGGCCT
CATCAAGGATGAGATGTGCCGTCACTTATTCCAGCTACTCAGCATAGAGCGACTAAACCTTTATGCTGCTTCCCTGCGAGTATGCTTCCT
ACTGTTTGAGAGCATGCGAGAGCACCTCAAGTTCCAAATGGAGATGTACATCAAAAAGCTTATGGAGATCATCACTGTGGAGAACCCCAA
GATGCCTTATGAGATGAAGGAGATGGCACTGGAGGCCATTGTGCAGCTCTGGCGCATCCCCAGCTTTGTCACAGAGCTCTACATCAACTA
TGATTGTGACTACTACTGTTCCAACCTCTTTGAGGAACTCACAAAGCTGCTGTCCAAGAATGCCTTCCCTGTGTCTGGTCAACTCTATAC
AACACACCTACTATCTCTTGATGCCCTATTGACAGTGATTGACAGCACCGAGGCCCACTGCCAGGCTAAAGTCCTCAACAGCCTCACCCA
GCAAGAGAAGAAGGAGACAGCCAGACCAAGCTGTGAGATAGTAGATGGCACCCGAGAAGCTAGCAATACTGAGAGAACTGCCAGCGATGG
GAAAGCTGTAGGCATGGCCTCAGACATCCCAGGCCTGCATCTGCCAGGTGGAGGGCGGCTGCCACCAGAACATGGGAAATCAGGATGCAG
TGATCTGGAGGAAGCTGTTGACTCTGGGGCTGACAAAAAGTTTGCCCGGAAGCCACCCCGATTTTCCTGTCTCCTGCCAGATCCACGGGA
ACTAATTGAAATTAAAAACAAAAAGAAGCTGCTAATCACTGGCACAGAGCAGTTCAATCAGAAACCAAAGAAGGGGATTCAGTTTCTGCA
AGAGAAAGGCCTCCTCACCATCCCAATGGACAACACAGAGGTTGCTCAGTGGCTCCGAGAGAACCCTCGGCTGGACAAGAAGATGATTGG
AGAGTTTGTGAGTGACCGCAAAAACATTGACCTGTTGGAGAGCTTTGTGAGCACCTTCAGTTTTCAGGGTCTGCGACTGGACGAAGCCCT
CCGCCTCTACCTGGAAGCCTTCCGTTTGCCTGGGGAAGCACCAGTCATCCAGAGGTTGCTGGAGGCATTCACAGAGCGTTGGATGAATTG
TAATGGCTCCCCATTTGCCAATAGCGATGCCTGCTTTTCCCTGGCCTATGCTGTCATCATGCTTAATACTGACCAGCACAACCACAATGT
TCGTAAACAGAATGCACCCATGACCCTGGAGGAGTTTCGCAAAAATCTGAAAGGTGTGAATGGAGGCAAGGACTTTGAGCAAGACATCCT
GGAGGACATGTACCATGCCATCAAGAATGAGGAAATTGTAATGCCTGAGGAGCAGACAGGCTTGGTTCGGGAGAACTATGTGTGGAATGT
GCTGCTTCATCGAGGTGCCACCCCTGAGGGCATATTCCTGCGTGTGCCTACTGCCAGCTATGATCTTGACCTCTTCACCATGACCTGGGG
CCCCACTATTGCTGCTCTCTCTTATGTCTTTGACAAAAGCCTTGAGGAGACAATCATCCAGAAAGCCATCTCAGGCTTCAGGAAGTGCGC
CATGATCTCCGCCCACTATGGCCTCAGCGATGTGTTTGACAATCTCATCATCTCTCTATGCAAATTCACAGCTCTCAGCAGTGAGTCTAT
TGAGAACCTGCCCAGTGTATTTGGAAGCAACCCTAAAGCCCATATTGCAGCCAAGACAGTATTCCATTTGGCCCATCGTCATGGTGACAT
CCTGCGGGAGGGCTGGAAGAATATCATGGAGGCCATGCTGCAGCTCTTCCGAGCCCAACTACTGCCCAAGGCTATGATAGAGGTAGAAGA
TTTCGTGGATCCCAATGGCAAGATCTCTCTACAGCGGGAAGAGACACCATCAAACCGAGGAGAGTCAACAGTGCTGAGCTTTGTGAGCTG
GCTAACACTGAGTGGTCCTGAGCAGTCTAGTGTTCGGGGCCCATCCACTGAAAACCAAGAGGCCAAGAGAGTGGCCTTAGAGTGTATAAA
GCAATGTGACCCAGAAAAAATGATCACAGAAAGCAAGTTCCTCCAGCTGGAGTCACTACAGGAGCTCATGAAGGCTCTGGTCTCAGTGAC
ACCAGATGAAGAGACATATGATGAGGAAGATGCTGCTTTCTGCCTAGAGATGCTGCTAAGGATTGTGTTGGAGAACAGGGATCGTGTGGG
CTGTGTGTGGCAGACTGTTCGAGACCATCTATACCACCTCTGTGTTCAGGCACAAGATTTCTGCTTCCTTGTGGAGCGGGCAGTGGTGGG
GTTGCTACGCCTGGCCATTCGGCTTCTCCGGAGAGAAGAGATCAGTGCTCAGGTGCTGCTCTCCCTGCGCATTTTGCTACTGATGAAGCC
CAGTGTGCTATCCCGAGTCAGCCACCAGGTTGCGTATGGGCTCCATGAACTCCTGAAGACCAATGCAGCCAACATCCACTCAGGTGATGA
CTGGGCCACACTCTTCACACTGCTGGAGTGCATCGGCTCAGGTGTGAAGCCTCCAGCTGCTCTGCAGGCCACAGCCAGGGCAGATGCACC
TGATGCCGGGGCCCAGTCAGATAGTGAGCTCCCATCCTACCATCAGAATGACGTGAGCCTGGATCGAGGGTACACTTCCGACTCAGAGGT
CTACACTGACCATGGCAGGCCGGGCAAGATACACCGATCAGCCACAGATGCCGATGTGGTCAACAGTGGTTGGTTAGTGGTTGGGAAGGA
TGACGTTGATAACTCCAAGCCAGGGCCCAGCCGCCCAGGCCCTTCACCCCTGATCAATCAATACAGCCTAACAGTGGGACTGGATTTGGG
GCCACACGACACTAAGTCTCTGCTTAAGTGTGTGGAATCGCTGTCCTTCATTGTGCGTGATGCTGCCCACATCACACCTGACAACTTTGA
GCTCTGCGTCAAGACTCTCCGGATCTTTGTGGAGGCCAGTCTGAATGGCGGATGCAAGTCCCAGGAGAAACGTGGCAAGAGTCACAAATA
TGACAGCAAAGGGAACCGCTTCAAGAAGAAATCCAAAGAGGGATCAATGCTTCGCCGGCCTCGAACCTCCAGCCAACATGCCTCTCGGGG
CGGGCAGAGTGATGATGATGAGGACGAAGGCGTGCCTGCCAGCTACCATACGGTGTCTTTACAGGTCAGTCAGGACTTGCTAGACCTGAT
GCACACCCTGCACACGCGGGCAGCCTCTATCTACAGCTCATGGGCGGAGGAGCAACGCCACCTGGAGACAGGTGGCCAGAAGATTGAAGC
TGATTCTCGCACCCTCTGGGCCCACTGCTGGTGCCCTTTACTGCAGGGTATTGCCTGCCTGTGCTGCGATGCCCGGCGCCAGGTACGGAT
GCAGGCACTGACCTATCTGCAGCGAGCACTACTTGTACATGATCTGCAAAAGCTAGATGCCCTGGAATGGGAGTCCTGTTTTAACAAGGT
GCTGTTTCCTCTACTTACCAAGCTCTTGGAGAACATCAGCCCTGCAGATGTGGGTGGGATGGAGGAGACCCGGATGAGGGCTTCCACATT
GCTCTCTAAGGTCTTCCTGCAGCACCTGTCTCCACTGCTGTCACTCTCTACCTTTGCGGCCCTCTGGCTCACCATCTTGGACTTCATGGA
CAAGTACATGCACGCAGGCTCCAGCGACTTACTGTCAGAGGCGATCCCTGAGTCTCTGAAGAACATGCTTCTGGTGATGGACACAGCGGA
GATTTTCCACAGTGCAGATGCACGGGGAGGCGGCCCCTCGGCCCTCTGGGAGATCACCTGGGAACGCATTGACTGTTTTCTCCCTCACCT
ACGAGATGAACTCTTCAAGCAGACCGTCATCCAGGACCCCATGCCCATGGAGCCTCAAGGCCAAAAGCCTCTCGCCTCAGCCCACCTGAC
TTCCGCTGCTGGCGACACTAGGACACCTGGCCATCCACCGCCCCCAGAGATTCCATCTGAGCTGGGGGCCTGTGACTTTGAGAAGCCCGA
GAGCCCCCGAGCCGCCAGCAGCAGCTCCCCAGGATCACCAGTGGCCTCAAGCCCCAGCAGGCTGAGCCCCACCCCCGACGGGCCTCCACC
CTTGGCTCAGCCCCCACTGATCCTGCAGCCCTTGGCCTCCCCACTGCAGGTGGGCGTGCCACCTATGACTCTGCCCATCATCCTCAACCC
TGCGCTCATCGAGGCCACCTCACCAGTGCCCCTCCTGGCCACACCCCGCCCCACAGATCCCATACCCACCTCTGAGGTCAACTAAGGCAG
GTCACTCAGAGATCAGGACCAGTGCTTCCCACCAGGCTTTCCTTGACCCCACTTCTGGCTGTCCTGCGGGCCACAAGCTCTTCAGGCCAA
GTCAGAGCTGCTGTTGCTGCCACTTGGATGGGGACCTGAAAAAGAGAATGTTGATAGCCCCAGCTAAGACCCCCAATCAGCTGTGGGACC
TTTTTCCTCCTCTGCGCTCCATTCCTGGGGGTTCAGCCTGAGAGTGAACTCAGCTGTCATCTGCAGCCTCTGCCTCCAGCCCGGCAGCTC
TGGGGAGGCATCCGTGTGCCGGCCCTGCAGTGCCTGCCCACGGTCAGGCATTGAAAACTAAGCCCAACCACTCTGCACTTTGTTTCCCAC
TCCCATTAGCCCTGGGCCACCTCCTCCAGTTCTTCCTCTTTTACTAATTAGTTGGTCAGTTTGGAGAGTTGACTGGCACCATGGAGGGTA
GGCAGGTGGGGGCTGGGTGGGGGACTGCCCACAGGAGCATGTACATATGGAAAAACAGAACAACAGTGGACTTTTTATGATATAATAAAT

>In-frame_TMEM180_ENST00000238936_chr10_104233769_+_GBF1_ENST00000369983_chr10_104111013_+_7376nt
GGCTCGCACCTGGCTCCCGCCAGCCGTGGGATTAGGCTTCGCCGGCTACGATTGCGGCCCCCATCTTCTGACTTTTCCTCGTGTGACCCA
TCTTTTCAAATTCCCTTACCTGAGGAAGGAGCCCGATTACAAGGATATTTACCTGCTCCTACCCTGATCTAGGGACGAGGATGGGAAGAC
CGCCTGTGGCCATGAGCCCTCCCCGGTGCTCCTGGGGCTAAGGCTGGGGCTGCAGCCATGGGGCTGGGTCAGCCCCAGGCCTGGTTGCTG
GGTCTGCCCACAGCTGTGGTCTATGGCTCCCTGGCTCTCTTCACCACCATCCTGCACAATGTCTTCCTGCTCTACTATGTGGACACCTTT
GTCTCAGTGTACAAGATCAACAAAATGGCCTTCTGGGTCGGAGAGACAGTGTTTCTCCTCTGGAACAGCCTCAATGACCCCCTCTTCGGT
TGGCTCAGTGACCGGCAGTTCCTCAGCTCCCAGCCCCGGTCAGGCGCCGGGCTCTCCTCAAGGGCTGTGGTGCTGGCCCGGGTGCAGGCC
CTGGGCTGGCATGGGCCGCTGCTGGCGCTGTCGTTCCTGGCGTTCTGGGTGCCCTGGGCCCCAGCTGGCCTGCAGTTCTTGCTGTGCCTG
TGCCTCTATGATGGCTTCCTGACGCTCGTGGACCTGCACCACCATGCCTTGCTGGCCGACCTGGCCCTCTCAGCCCACGACCGCACCCAC
CTCAACTTCTACTGCTCCCTCTTCAGCGCGGCCGGCTCCCTCTCTGTCTTTGCATCCTATGCCTTTTGGAACAAGGAGGATTTCTCCTCC
TTCCGCGCTTTCTGCGTGACACTGGCTGTCAGCTCTGGGCTGGGCTTTCTGGGGGCCACACAGCTGCTGAGGCGGCGGGTTGAGGCGGCC
CGAAAGGACCCAGGGTGCTCAGGCCTGGTTGTGGATAGCGGCCTGTGTGGAGAGGAGCTGCTTGTAGGCAGTGAGGAGGCGGACAGCATC
ACCTTGGGCCGGTATCTCCGGCAGCTGGCACGCCATCGGAACTTCCTGTGGTTCGTGAGCATGGACCTGGTGCAGGTCTTCCACTGCCAC
TTCAACAGCAACTTCTTCCCTCTCTTCCTGGAGCATCTGTTGTCCGACCATATCTCCCTTTCCACGGGCTCCATCCTGTTGGGCCTCTCC
TATGTCGCTCCCCATCTCAACAACCTCTACTTCCTGTCCCTGTGCCGGCGCTGGGGCGTCTACGCGGTGGTGCGGGGGCTCTTCCTGCTC
AAGCTGGGACTTAGCCTGCTCATGTTGTTGGCCGGCCCGGACCACCTCAGCCTGCTGTGCCTCTTCATTGCCAGCAACCGCGTCTTCACT
GAGGGCACCTGTAAGCTGCTGACCTTGGTGGTCACTGACCTGGTAGACGAGGACCTGGTGCTGAACCACCGCAAGCAGGCAGCCTCGGCA
CTCCTCTTTGGCATGGTTGCCTTGGTGACCAAGCCAGGCCAGACCTTTGCCCCGCTGCTGGGCACCTGGCTGCTCTGTTTCTACACAGAT
CCCACCCATGAGGGCACAGCAGAGGGCATGGAGAACATGGCAGATGCTGTCACCCATGCTCGTTTTGTGGGCACGGATCCTGCCAGTGAT
GAAGTTGTCCTGATGAAAATCCTTCAGGTTCTACGGACTCTGCTGCTAACCCCAGTGGGTGCCCACCTAACCAATGAATCTGTGTGTGAG
ATTATGCAGTCTTGCTTCCGGATCTGCTTTGAAATGAGGCTCAGTGAGTTATTGAGAAAATCCGCAGAGCACACTCTCGTAGACATGGTG
CAGCTGCTCTTCACAAGGTTACCTCAGTTTAAAGAAGAACCCAAGAACTATGTGGGGACCAACATGAAGAAGCTGAAAATGAGAGCCGGA
GGCATGAGTGATTCATCCAAATGGAAGAAACAGAAGAGATCCCCTCGGCCCCCACGCCATATGACCAAAGTCACACCAGGTTCAGAGCTG
CCCACTCCCAATGGAACCACCTTATCATCTAACCTCACTGGTGGCATGCCCTTCATTGATGTGCCCACTCCCATCTCCTCTGCAAGTTCA
GAAGCTGCCTCAGCAGTGGTCAGTCCCTCTACAGACAGTGGCCTGGAATTCTCCTCCCAAACCACTTCCAAGGAAGACCTTACTGATCTA
GAGCAACCTGGCTCTCCAGGGTACAGCACAGCTACAGAGCCTGGAAGCAGTGAGCTAGGTGTTCCCGAGCAGCCTGACCTCCAGGAAGGG
ACCCATGTGGAAAAGTCCCAGTCAGCATCTGTGGAGTCCATCCCTGAAGTGTTAGAGGAGTGCACGTCCCCTGCCGACCACTCTGACTCT
GCCTCTGTCCATGACATGGATTACGTCAATCCCCGGGGCGTGCGCTTTACACAGTCCTCCCAGAAAGAAGGCACAGCTTTGGTCCCCTAT
GGTCTTCCCTGCATCCGCGAGCTCTTCCGCTTCCTCATCTCCCTCACCAATCCACACGACCGCCATAACTCAGAGGTTATGATTCACATG
GGACTGCATTTGCTGACAGTGGCCCTTGAGTCAGCCCCTGTAGCCCAGTGCCAGACCCTCTTGGGCCTCATCAAGGATGAGATGTGCCGT
CACTTATTCCAGCTACTCAGCATAGAGCGACTAAACCTTTATGCTGCTTCCCTGCGAGTATGCTTCCTACTGTTTGAGAGCATGCGAGAG
CACCTCAAGTTCCAAATGGAGATGTACATCAAAAAGCTTATGGAGATCATCACTGTGGAGAACCCCAAGATGCCTTATGAGATGAAGGAG
ATGGCACTGGAGGCCATTGTGCAGCTCTGGCGCATCCCCAGCTTTGTCACAGAGCTCTACATCAACTATGATTGTGACTACTACTGTTCC
AACCTCTTTGAGGAACTCACAAAGCTGCTGTCCAAGAATGCCTTCCCTGTGTCTGGTCAACTCTATACAACACACCTACTATCTCTTGAT
GCCCTATTGACAGTGATTGACAGCACCGAGGCCCACTGCCAGGCTAAAGTCCTCAACAGCCTCACCCAGCAAGAGAAGAAGGAGACAGCC
AGACCAAGCTGTGAGATAGTAGATGGCACCCGAGAAGCTAGCAATACTGAGAGAACTGCCAGCGATGGGAAAGCTGTAGGCATGGCCTCA
GACATCCCAGGCCTGCATCTGCCAGGTGGAGGGCGGCTGCCACCAGAACATGGGAAATCAGGATGCAGTGATCTGGAGGAAGCTGTTGAC
TCTGGGGCTGACAAAAAGTTTGCCCGGAAGCCACCCCGATTTTCCTGTCTCCTGCCAGATCCACGGGAACTAATTGAAATTAAAAACAAA
AAGAAGCTGCTAATCACTGGCACAGAGCAGTTCAATCAGAAACCAAAGAAGGGGATTCAGTTTCTGCAAGAGAAAGGCCTCCTCACCATC
CCAATGGACAACACAGAGGTTGCTCAGTGGCTCCGAGAGAACCCTCGGCTGGACAAGAAGATGATTGGAGAGTTTGTGAGTGACCGCAAA
AACATTGACCTGTTGGAGAGCTTTGTGAGCACCTTCAGTTTTCAGGGTCTGCGACTGGACGAAGCCCTCCGCCTCTACCTGGAAGCCTTC
CGTTTGCCTGGGGAAGCACCAGTCATCCAGAGGTTGCTGGAGGCATTCACAGAGCGTTGGATGAATTGTAATGGCTCCCCATTTGCCAAT
AGCGATGCCTGCTTTTCCCTGGCCTATGCTGTCATCATGCTTAATACTGACCAGCACAACCACAATGTTCGTAAACAGAATGCACCCATG
ACCCTGGAGGAGTTTCGCAAAAATCTGAAAGGTGTGAATGGAGGCAAGGACTTTGAGCAAGACATCCTGGAGGACATGTACCATGCCATC
AAGAATGAGGAAATTGTAATGCCTGAGGAGCAGACAGGCTTGGTTCGGGAGAACTATGTGTGGAATGTGCTGCTTCATCGAGGTGCCACC
CCTGAGGGCATATTCCTGCGTGTGCCTACTGCCAGCTATGATCTTGACCTCTTCACCATGACCTGGGGCCCCACTATTGCTGCTCTCTCT
TATGTCTTTGACAAAAGCCTTGAGGAGACAATCATCCAGAAAGCCATCTCAGGCTTCAGGAAGTGCGCCATGATCTCCGCCCACTATGGC
CTCAGCGATGTGTTTGACAATCTCATCATCTCTCTATGCAAATTCACAGCTCTCAGCAGTGAGTCTATTGAGAACCTGCCCAGTGTATTT
GGAAGCAACCCTAAAGCCCATATTGCAGCCAAGACAGTATTCCATTTGGCCCATCGTCATGGTGACATCCTGCGGGAGGGCTGGAAGAAT
ATCATGGAGGCCATGCTGCAGCTCTTCCGAGCCCAACTACTGCCCAAGGCTATGATAGAGGTAGAAGATTTCGTGGATCCCAATGGCAAG
ATCTCTCTACAGCGGGAAGAGACACCATCAAACCGAGGAGAGTCAACAGTGCTGAGCTTTGTGAGCTGGCTAACACTGAGTGGTCCTGAG
CAGTCTAGTGTTCGGGGCCCATCCACTGAAAACCAAGAGGCCAAGAGAGTGGCCTTAGAGTGTATAAAGCAATGTGACCCAGAAAAAATG
ATCACAGAAAGCAAGTTCCTCCAGCTGGAGTCACTACAGGAGCTCATGAAGGCTCTGGTCTCAGTGACACCAGATGAAGAGACATATGAT
GAGGAAGATGCTGCTTTCTGCCTAGAGATGCTGCTAAGGATTGTGTTGGAGAACAGGGATCGTGTGGGCTGTGTGTGGCAGACTGTTCGA
GACCATCTATACCACCTCTGTGTTCAGGCACAAGATTTCTGCTTCCTTGTGGAGCGGGCAGTGGTGGGGTTGCTACGCCTGGCCATTCGG
CTTCTCCGGAGAGAAGAGATCAGTGCTCAGGTGCTGCTCTCCCTGCGCATTTTGCTACTGATGAAGCCCAGTGTGCTATCCCGAGTCAGC
CACCAGGTTGCGTATGGGCTCCATGAACTCCTGAAGACCAATGCAGCCAACATCCACTCAGGTGATGACTGGGCCACACTCTTCACACTG
CTGGAGTGCATCGGCTCAGGTGTGAAGCCTCCAGCTGCTCTGCAGGCCACAGCCAGGGCAGATGCACCTGATGCCGGGGCCCAGTCAGAT
AGTGAGCTCCCATCCTACCATCAGAATGACGTGAGCCTGGATCGAGGGTACACTTCCGACTCAGAGGTCTACACTGACCATGGCAGGCCG
GGCAAGATACACCGATCAGCCACAGATGCCGATGTGGTCAACAGTGGTTGGTTAGTGGTTGGGAAGGATGACGTTGATAACTCCAAGCCA
GGGCCCAGCCGCCCAGGCCCTTCACCCCTGATCAATCAATACAGCCTAACAGTGGGACTGGATTTGGGGCCACACGACACTAAGTCTCTG
CTTAAGTGTGTGGAATCGCTGTCCTTCATTGTGCGTGATGCTGCCCACATCACACCTGACAACTTTGAGCTCTGCGTCAAGACTCTCCGG
ATCTTTGTGGAGGCCAGTCTGAATGGCGGATGCAAGTCCCAGGAGAAACGTGGCAAGAGTCACAAATATGACAGCAAAGGGAACCGCTTC
AAGAAGAAATCCAAAGAGGGATCAATGCTTCGCCGGCCTCGAACCTCCAGCCAACATGCCTCTCGGGGCGGGCAGAGTGATGATGATGAG
GACGAAGGCGTGCCTGCCAGCTACCATACGGTGTCTTTACAGGTCAGTCAGGACTTGCTAGACCTGATGCACACCCTGCACACGCGGGCA
GCCTCTATCTACAGCTCATGGGCGGAGGAGCAACGCCACCTGGAGACAGGTGGCCAGAAGATTGAAGCTGATTCTCGCACCCTCTGGGCC
CACTGCTGGTGCCCTTTACTGCAGGGTATTGCCTGCCTGTGCTGCGATGCCCGGCGCCAGGTACGGATGCAGGCACTGACCTATCTGCAG
CGAGCACTACTTGTACATGATCTGCAAAAGCTAGATGCCCTGGAATGGGAGTCCTGTTTTAACAAGGTGCTGTTTCCTCTACTTACCAAG
CTCTTGGAGAACATCAGCCCTGCAGATGTGGGTGGGATGGAGGAGACCCGGATGAGGGCTTCCACATTGCTCTCTAAGGTCTTCCTGCAG
CACCTGTCTCCACTGCTGTCACTCTCTACCTTTGCGGCCCTCTGGCTCACCATCTTGGACTTCATGGACAAGTACATGCACGCAGGCTCC
AGCGACTTACTGTCAGAGGCGATCCCTGAGTCTCTGAAGAACATGCTTCTGGTGATGGACACAGCGGAGATTTTCCACAGTGCAGATGCA
CGGGGAGGCGGCCCCTCGGCCCTCTGGGAGATCACCTGGGAACGCATTGACTGTTTTCTCCCTCACCTACGAGATGAACTCTTCAAGCAG
ACCGTCATCCAGGACCCCATGCCCATGGAGCCTCAAGGCCAAAAGCCTCTCGCCTCAGCCCACCTGACTTCCGCTGCTGGCGACACTAGG
ACACCTGGCCATCCACCGCCCCCAGAGATTCCATCTGAGCTGGGGGCCTGTGACTTTGAGAAGCCCGAGAGCCCCCGAGCCGCCAGCAGC
AGCTCCCCAGGATCACCAGTGGCCTCAAGCCCCAGCAGGCTGAGCCCCACCCCCGACGGGCCTCCACCCTTGGCTCAGCCCCCACTGATC
CTGCAGCCCTTGGCCTCCCCACTGCAGGTGGGCGTGCCACCTATGACTCTGCCCATCATCCTCAACCCTGCGCTCATCGAGGCCACCTCA
CCAGTGCCCCTCCTGGCCACACCCCGCCCCACAGATCCCATACCCACCTCTGAGGTCAACTAAGGCAGGTCACTCAGAGATCAGGACCAG
TGCTTCCCACCAGGCTTTCCTTGACCCCACTTCTGGCTGTCCTGCGGGCCACAAGCTCTTCAGGCCAAGTCAGAGCTGCTGTTGCTGCCA
CTTGGATGGGGACCTGAAAAAGAGAATGTTGATAGCCCCAGCTAAGACCCCCAATCAGCTGTGGGACCTTTTTCCTCCTCTGCGCTCCAT
TCCTGGGGGTTCAGCCTGAGAGTGAACTCAGCTGTCATCTGCAGCCTCTGCCTCCAGCCCGGCAGCTCTGGGGAGGCATCCGTGTGCCGG
CCCTGCAGTGCCTGCCCACGGTCAGGCATTGAAAACTAAGCCCAACCACTCTGCACTTTGTTTCCCACTCCCATTAGCCCTGGGCCACCT
CCTCCAGTTCTTCCTCTTTTACTAATTAGTTGGTCAGTTTGGAGAGTTGACTGGCACCATGGAGGGTAGGCAGGTGGGGGCTGGGTGGGG


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FusionGenePPI for TMEM180_GBF1


check button Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in

ChiPPI page

.

check button Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160)
HgeneHgene's interactorsTgeneTgene's interactors
TMEM180ELAVL1, APP, COL1A1, GNA11GBF1YWHAG, COPG1, KBTBD7, VCP, HDAC6, EGFR, PNPLA2, YWHAB, BIRC6, EPS15L1, NUP85, PLEC, CCAR2, NCAPH, RABL6, IRS4, IVNS1ABP, FBXW11, BTRC, SPACA1, PNKD, LYPD3, KIF4A, PUS7, RBM26, VARS, NTRK1, SRPK2, FBXO7, ZSCAN26, FOXB1, FOXG1, FOXI2, FOXL1, CDC73, TMEM206, CHRM3, GML, MILR1, DLK2, NPY2R, EPHA1, UBC


check button - Retained PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenStill interaction with


check button - Lost PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with
TgeneGBF1chr10:104233769chr10:104111013ENST00000369983+3401_380981860RAB1B


check button - Retained PPIs, but lost function due to frame-shift fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with


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RelatedDrugs for TMEM180_GBF1


check button Drugs targeting genes involved in this fusion gene.
(DrugBank Version 5.1.0 2018-04-02)
PartnerGeneUniProtAccDrugBank IDDrug nameDrug activityDrug typeDrug status

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RelatedDiseases for TMEM180_GBF1


check button Diseases associated with fusion partners.
(DisGeNet 4.0)
PartnerGeneDisease IDDisease name# pubmedsSource