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	Fusion Gene Summary
	Fusion Gene ORF analysis
	Fusion Genomic Features
	Fusion Protein Features
	Fusion Gene Sequence
	Fusion Gene PPI analysis
	Related Drugs
	Related Diseases

Fusion gene:TTLL5-TMED10 (FusionGDB2 ID:95191)

Fusion Gene Summary for TTLL5-TMED10

Fusion gene summary

Fusion gene information	Fusion gene name: TTLL5-TMED10
	Fusion gene ID: 95191
		Hgene	Tgene
	Gene symbol	TTLL5	TMED10
	Gene ID	254173	10972
	Gene name	tubulin tyrosine ligase like 10	transmembrane p24 trafficking protein 10
	Synonyms	TTLL5	P24(DELTA)\|S31I125\|S31III125\|TMP21\|Tmp-21-I\|p23\|p24d1
	Cytomap	1p36.33	14q24.3
	Type of gene	protein-coding	protein-coding
	Description	inactive polyglycylase TTLL10tubulin tyrosine ligase-like family, member 10tubulin tyrosine ligase-like family, member 5tubulin--tyrosine ligase-like protein 10	transmembrane emp24 domain-containing protein 1021 kDa transmembrane trafficking proteinp24 family protein delta-1p24deltap24delta1testicular tissue protein Li 206transmembrane emp24-like trafficking protein 10transmembrane protein Tmp21
	Modification date	20200313	20200313
	UniProtAcc	.	.
	Ensembl transtripts involved in fusion gene	ENST00000298832, ENST00000554510, ENST00000556893, ENST00000557636, ENST00000286650, ENST00000555422, ENST00000556977,	ENST00000557670, ENST00000303575,
Fusion gene scores	* DoF score	22 X 22 X 16=7744	9 X 9 X 4=324
	# samples	31	11
	** MAII score	log2(31/7744*10)=-4.64273883200036 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(11/324*10)=-1.55849028935997 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0
Context	PubMed: TTLL5 [Title/Abstract] AND TMED10 [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	TMED10(75643058)-TTLL5(76286350), # samples:2 TTLL5(76259443)-TMED10(75618846), # samples:1
Anticipated loss of major functional domain due to fusion event.

* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez

Partner	Gene	GO ID	GO term	PubMed ID
Hgene	TTLL5	GO:0018094	protein polyglycylation	19524510
Tgene	TMED10	GO:0006886	intracellular protein transport	20427317
Tgene	TMED10	GO:0035964	COPI-coated vesicle budding	10052452

Fusion gene breakpoints across TTLL5 (5'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.

Fusion gene breakpoints across TMED10 (3'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.

Fusion gene information from two resources (ChiTars 5.0 and ChimerDB 4.0)
* 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.

Source	Disease	Sample	Hgene	Hchr	Hbp	Hstrand	Tgene	Tchr	Tbp	Tstrand
ChimerDB4	HNSC	TCGA-CV-6961-01A	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-

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Fusion Gene ORF analysis for TTLL5-TMED10

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.

ORF	Henst	Tenst	Hgene	Hchr	Hbp	Hstrand	Tgene	Tchr	Tbp	Tstrand
5CDS-intron	ENST00000298832	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
5CDS-intron	ENST00000554510	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
5CDS-intron	ENST00000556893	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
5CDS-intron	ENST00000557636	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
In-frame	ENST00000298832	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
In-frame	ENST00000554510	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
In-frame	ENST00000556893	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
In-frame	ENST00000557636	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-3CDS	ENST00000286650	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-3CDS	ENST00000555422	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-3CDS	ENST00000556977	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-intron	ENST00000286650	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-intron	ENST00000555422	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-
intron-intron	ENST00000556977	ENST00000557670	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-

ORFfinder result based on the fusion transcript sequence of in-frame fusion genes.

Henst	Tenst	Hgene	Hchr	Hbp	Hstrand	Tgene	Tchr	Tbp	Tstrand	Seq length (transcript)	BP loci (transcript)	Predicted start (transcript)	Predicted stop (transcript)	Seq length (amino acids)
ENST00000557636	TTLL5	chr14	76259443	+	ENST00000303575	TMED10	chr14	75618846	-	7281	3431	215	3865	1216
ENST00000298832	TTLL5	chr14	76259443	+	ENST00000303575	TMED10	chr14	75618846	-	7226	3376	205	3810	1201
ENST00000556893	TTLL5	chr14	76259443	+	ENST00000303575	TMED10	chr14	75618846	-	5744	1894	43	2328	761
ENST00000554510	TTLL5	chr14	76259443	+	ENST00000303575	TMED10	chr14	75618846	-	5667	1817	119	2251	710

DeepORF prediction of the coding potential based on the fusion transcript sequence of in-frame fusion genes. DeepORF is a coding potential classifier based on convolutional neural network by comparing the real Ribo-seq data. If the no-coding score < 0.5 and coding score > 0.5, then the in-frame fusion transcript is predicted as being likely translated.

Henst	Tenst	Hgene	Hchr	Hbp	Hstrand	Tgene	Tchr	Tbp	Tstrand	No-coding score	Coding score
ENST00000557636	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-	0.000113003	0.999887
ENST00000298832	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-	0.000152882	0.99984705
ENST00000556893	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-	0.000292185	0.99970776
ENST00000554510	ENST00000303575	TTLL5	chr14	76259443	+	TMED10	chr14	75618846	-	0.00104993	0.99895006

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Fusion Genomic Features for TTLL5-TMED10

FusionAI prediction of the potential fusion gene breakpoint based on the pre-mature RNA sequence context (+/- 5kb of individual partner genes, total 20kb length sequence). FusionAI is a fusion gene breakpoint classifier based on convolutional neural network by comparing the fusion positive and negative sequence context of ~ 20K fusion gene data. From here, we can have the relative potentency of the 20K genomic sequence how individual sequnce will be likely used as the gene fusion breakpoints.

Hgene

Hchr

Hbp

Hstrand

Tgene

Tchr

Tbp

Tstrand

1-p

p (fusion gene breakpoint)

Distribution of 44 human genomic features loci across 20kb length fusion breakpoint regions. We integrated a total of 44 different types of human genomic feature loci information across five big categories including virus integration sites, repeats, structural variants, chromatin states, and gene expression regulation. More details are in help page.

Distribution of 44 human genomic features loci across 20kb length fusion breakpoint regions that are ovelapped with the top 1% feature importance score regions. More details are in help page.

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Fusion Protein Features for TTLL5-TMED10

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr14:75643058/chr14:76286350)
- FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels.
- How to search
1. Put your fusion gene symbol.
2. Press the tab key until there will be shown the breakpoint information filled.
4. Go down and press 'Search' tab twice.
4. Go down to have the hyperlink of the search result.
5. Click the hyperlink.
6. See the FGviewer result for your fusion gene.

Main function of each fusion partner protein. (from UniProt)

Hgene	Tgene
.	.
FUNCTION: Transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. Recruits CREB-binding protein (CREBBP) to nuclear bodies. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). {ECO:0000250}.	FUNCTION: Transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. Recruits CREB-binding protein (CREBBP) to nuclear bodies. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). {ECO:0000250}.

Retention 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.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Protein feature

Protein feature note

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

552_557

1057

1282.0

Compositional bias

Note=Poly-Arg

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

582_590

1057

1282.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

776_780

1057

1282.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

827_830

1057

1282.0

Compositional bias

Note=Poly-Asn

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

552_557

608

818.0

Compositional bias

Note=Poly-Arg

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

582_590

608

818.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

62_407

1057

1282.0

Domain

TTL

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

62_407

608

818.0

Domain

TTL

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

208_211

1057

1282.0

Nucleotide binding

ATP binding

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

208_211

608

818.0

Nucleotide binding

ATP binding

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000298832

378_488

1057

1282.0

Region

c-MTBD region

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

378_488

608

818.0

Region

c-MTBD region

Tgene

TMED10

chr14:76259443

chr14:75618846

ENST00000303575

211_219

220.0

Motif

Note=COPI vesicle coat-binding

Tgene

TMED10

chr14:76259443

chr14:75618846

ENST00000303575

147_178

220.0

Region

Note=Required for TMED10 and TMED2 cis-Golgi network localization

Tgene

TMED10

chr14:76259443

chr14:75618846

ENST00000303575

186_206

220.0

Transmembrane

Helical

- In-frame and not-retained protein feature among the 13 regional features.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Protein feature

Protein feature note

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

552_557

270.0

Compositional bias

Note=Poly-Arg

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

582_590

270.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

776_780

270.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

827_830

270.0

Compositional bias

Note=Poly-Asn

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

776_780

608

818.0

Compositional bias

Note=Poly-Glu

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000556893

827_830

608

818.0

Compositional bias

Note=Poly-Asn

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

62_407

270.0

Domain

TTL

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

208_211

270.0

Nucleotide binding

ATP binding

Hgene

TTLL5

chr14:76259443

chr14:75618846

ENST00000286650

378_488

270.0

Region

c-MTBD region

Tgene

TMED10

chr14:76259443

chr14:75618846

ENST00000303575

41_193

220.0

Domain

GOLD

Tgene

TMED10

chr14:76259443

chr14:75618846

ENST00000303575

32_185

220.0

Topological domain

Lumenal

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Fusion Gene Sequence for TTLL5-TMED10

For in-frame fusion transcripts, we provide the fusion transcript sequences and fusion amino acid sequences. To have fusion amino acid sequence, we ran ORFfinder and chose the longest ORF among the all predicted ones.

>95191_95191_1_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000298832_TMED10_chr14_75618846_ENST00000303575_length(transcript)=7226nt_BP=3376nt
GGGAAGCAGCCGTCGGCGGCTGCCCTGAGCCTTCCTGGGGAAGGAGGAGGGAGGTAGGCGCAGAGCGCGGTCCACGCCTGCTCGCCCCGA
ACCATGGGAAGATGAGACAGGAATCTGTGCCATCCAAATTGCTTGATCCAGTGAATCTGCTAGGAAAGGTCTCTGAGGCCCCCGTCTGCT
GACTGCATGACAAACCCTAAAGGAAATGCCAATCGTGATGGCCCGGGACCTGGAGGAAACAGCATCATCCTCAGAGGATGAGGAGGTCAT
AAGTCAAGAGGATCATCCATGCATCATGTGGACTGGAGGCTGCAGGAGAATTCCAGTTTTGGTATTCCATGCCGACGCTATTCTTACAAA
GGACAACAATATTAGAGTAATTGGAGAACGTTATCATTTGTCTTATAAGATTGTACGAACGGACAGTCGCCTAGTACGCAGCATTCTGAC
AGCCCATGGATTTCATGAAGTTCACCCAAGCAGCACTGACTATAACCTAATGTGGACAGGATCCCACCTGAAGCCCTTCTTACTGCGCAC
CCTCTCTGAAGCACAAAAAGTTAATCACTTTCCCAGGTCTTATGAACTTACCCGGAAGGACCGACTGTACAAAAACATTATTCGAATGCA
GCATACACATGGATTCAAGGCTTTTCACATCCTCCCCCAGACCTTCCTCCTGCCAGCTGAGTACGCGGAATTTTGTAATTCATATTCGAA
GGACCGGGGACCTTGGATAGTAAAACCAGTGGCATCTTCAAGGGGGCGGGGCGTCTACCTGATCAACAATCCAAACCAGATCTCCCTGGA
AGAGAACATTTTGGTCTCCCGTTACATTAACAACCCCCTGCTCATAGATGATTTCAAGTTTGACGTGCGCCTCTATGTGCTCGTGACTTC
CTATGATCCTCTTGTCATCTATCTCTATGAAGAAGGATTGGCTAGGTTTGCAACTGTGCGATATGATCAAGGAGCCAAGAACATTCGGAA
CCAGTTCATGCATCTGACAAACTACAGTGTCAACAAGAAAAGTGGAGATTACGTCAGTTGTGACGATCCAGAAGTGGAGGATTATGGAAA
CAAATGGAGCATGAGTGCTATGCTTAGGTACCTGAAACAAGAAGGCAGAGATACAACCGCATTGATGGCCCATGTAGAAGACCTGATCAT
TAAGACTATAATCTCTGCTGAACTAGCTATTGCTACTGCCTGTAAAACCTTTGTTCCTCATCGCAGCAGTTGTTTTGAACTCTATGGCTT
TGACGTGCTCATAGATTCTACTCTGAAGCCATGGTTGTTGGAAGTGAATCTCTCTCCTTCTTTGGCCTGTGATGCGCCTCTGGACCTAAA
GATTAAAGCCAGTATGATTTCAGATATGTTCACTGTTGTAGGATTTGTGTGCCAAGATCCTGCCCAGCGGGCATCAACTCGGCCAATTTA
TCCCACCTTTGAGTCTTCCAGGCGAAACCCTTTCCAGAAACCTCAGCGTTGCCGTCCACTCTCTGCCAGTGATGCGGAAATGAAAAACCT
CGTGGGCTCAGCCCGGGAGAAAGGGCCAGGGAAGTTGGGTGGTTCTGTGCTTGGTCTGTCAATGGAGGAGATCAAAGTTTTACGAAGGGT
GAAGGAGGAGAATGATCGGCGAGGTGGATTTATTCGCATATTTCCTACATCTGAGACATGGGAAATATATGGGTCCTACCTCGAGCATAA
GACCTCAATGAACTATATGCTGGCAACACGCCTCTTCCAGGACAGAATGACTGCTGATGGAGCGCCAGAATTGAAGATAGAGAGTCTGAA
TTCAAAGGCCAAGCTGCATGCTGCACTTTACGAGAGGAAGCTCCTGTCTCTGGAGGTGCGAAAACGTAGACGACGGAGTAGCAGATTGAG
GGCAATGAGGCCAAAATACCCAGTGATTACCCAACCAGCTGAAATGAATGTTAAAACTGAGACAGAGAGTGAAGAGGAGGAAGAAGTCGC
ATTAGATAATGAAGATGAAGAACAGGAGGCTTCCCAGGAGGAGTCTGCAGGATTTCTTAGAGAAAATCAAGCCAAATATACACCCTCATT
GACAGCTTTGGTAGAAAATACACCCAAAGAAAATTCCATGAAAGTTCGTGAATGGAATAATAAAGGTGGACACTGCTGCAAACTTGAGAC
TCAGGAGCTAGAGCCTAAATTTAACCTGATGCAGATTCTTCAAGATAATGGCAATCTTAGCAAAATGCAGGCCCGAATAGCATTCTCTGC
CTATCTCCAGCATGTTCAAATTCGCCTGATGAAAGACAGTGGCGGTCAGACGTTCAGTGCCAGTTGGGCTGCCAAAGAGGATGAACAGAT
GGAGCTGGTTGTTCGTTTCCTCAAGCGAGCATCAAATAACCTCCAGCATTCACTGAGGATGGTATTACCCAGTCGACGATTGGCACTTCT
GGAACGCAGAAGAATCCTGGCCCACCAGCTGGGTGACTTTATCATTGTATACAACAAGGAAACAGAACAAATGGCTGAAAAGAAATCAAA
GAAGAAAGTTGAGGAAGAAGAGGAAGATGGGGTGAATATGGAAAACTTTCAGGAGTTCATCAGACAAGCAAGTGAGGCTGAACTGGAGGA
GGTGTTGACTTTTTATACCCAAAAGAACAAGTCTGCTAGTGTCTTCCTGGGGACTCACTCTAAAATTTCTAAGAACAACAACAATTATTC
TGATAGTGGGGCAAAAGGTGATCACCCTGAGACTATAATGGAAGAAGTGAAAATAAAGCCACCTAAACAGCAACAGACGACAGAAATTCA
TTCTGATAAATTATCTCGATTTACCACTTCAGCAGAAAAAGAGGCAAAATTAGTTTATAGCAATTCCTCCTCTGGTCCTACTGCTACTCT
GCAGAAAATTCCCAACACCCATTTGTCATCTGTTACAACCTCTGACCTCTCTCCAGGGCCTTGCCACCATTCTTCTTTATCTCAAATTCC
TTCAGCTATCCCCAGCATGCCTCACCAGCCAACAATTTTACTGAACACAGTCTCTGCCAGTGCTTCTCCCTGCCTACATCCCGGGGCACA
GAACATCCCAAGCCCTACTGGCCTGCCACGCTGTCGATCAGGAAGTCACACCATTGGTCCCTTTTCTTCCTTCCAAAGTGCTGCACACAT
CTATAGCCAGAAACTGTCTCGTCCCTCTTCAGCAAAGGCAGGATCGTGCTATCTAAACAAGCATCATTCAGGAATAGCCAAAACACAAAA
AGAGGGAGAAGATGCTTCTTTATATAGCAAACGGTACAACCAAAGTATGGTTACAGCTGAACTTCAGCGGCTAGCTGAGAAGCAGGCAGC
GAGACAGTATTCTCCATCCAGCCACATCAACCTCCTCACCCAACAGATCACAGATTCTGCTGGCCATATTCTCTACTCCAAAGAGGATGC
AACCAAGGGGAAATTTGCCTTTACCACTGAAGATTATGACATGTTTGAAGTGTGTTTTGAGAGCAAGGGAACAGGGCGGATACCTGACCA
ACTCGTGATCCTAGACATGAAGCATGGAGTGGAGGCGAAAAATTACGAAGAGATTGCAAAAGTTGAGAAGCTCAAACCATTAGAGGTAGA
GCTGCGACGCCTAGAAGACCTTTCAGAATCTATTGTTAATGATTTTGCCTACATGAAGAAGAGAGAAGAGGAGATGCGTGATACCAACGA
GTCAACAAACACTCGGGTCCTATACTTCAGCATCTTTTCAATGTTCTGTCTCATTGGACTAGCTACCTGGCAGGTCTTCTACCTGCGACG
CTTCTTCAAGGCCAAGAAATTGATTGAGTAATGAATGAGGCATATTCTCCTCCCACCTTGTACCTCAGCCAGCAGAACATCGCTGGGACG
TGCCTGGCCTAAGGCATCCTACCAACAGCACCATCAAGGCACGTTGGAGCTTTCTTGCCAGAACTGATCTCTTTTGGTGTGGGAGGACAT
GGGGTACCACCTACACCCAACAAGTCAATGAGGGACTTCTTTTTAATTTGGTAGGATTTTGACTGGTTTTGCAACAATAGGTCTATTATT
AGAGTCACCTATGACAAAAAATAGGGGTTACCTAGATAATGCCAAAGTCAGCATTTGTCCTGGGTTCCCTTGTGTGATCTGTTTGGACTA
TGTTTTCTTTTCTTCTCCCACTTGCTCAGCAGCTTGGGCTTCCATTCTAGTTCTTTTACCAAGATTTTTGTGTGACCATGTTGACTTCAT
TTGGATTGCCCTCTTTCAATTTCCTTGTGAAAACACCCTTAACTTTCTCTTTACCCTTAGCTGAAATGTTTACATAGCTTCTGGTGATAT
CTTTTCATGATTTTATATCTCTTAAAATGGTGATGGATGTGACACCTCATAAAAGTGAGCTTTGAACTGTAGATAACTCTTAAAGAAAAT
GTCATTTTAGACAATTAAAATATTTGTGCTCAACTGCTTGAACTTTTTTCGTGTATGTGTATTTAATTCTATGCAATATTATCACATGTG
TAGATTCATGTGACCACCATCACAAGAGACAGAACAGTTCTGTCACATGGATCCCTTGCACTGCCCTTTTACAGCCGCAGCCACATCCCT
TTCTTATACCCTCACCCCAACCTGTGGCTACCACTGTTCTGTCCTCCATCTCTGTAATTTTGTCATTTCAAGAATGTTGTATGAATGGAA
TCATACAGAATGTAATCTTACGAGGCTGATCTTTTTTCATTCAGCATAATTCCCTTGAAATCCATCCAAGTTGTTGCATGTATGAATAGT
TTCTTCCTTTTTTTCTTTTAAAAATGTTTTATATATTTAGGGGGTATAAGTACAGATTTCTTACATGCATATATTGCATCGTGGTGAAGT
GGGGGCAGTTCCTTTTGATTGCTGAGTAGTATTCCATGGTATGGATGTACCACAGTTTGCTTAACCATTCACCCACTAAAGGACATAAGA
GTTGTTTTCAGTTTTTTGCCCTAATAAAGCTGCTGTGAACATTCATGTACAGGTTTTTATGTGAACATACATTTTCATTTTCTGGGATAA
ATGCTCAAAAGGGCAACTGTTGGGTTGTATGGTAAACACATATATTTTTGTAAGAAACTACCCTACTCTTTTTCCAGAGTGGCTCTACTT
TTTACATACAGCCACTCATACAATTCAGACAGCAATGTATGATTGATCCAGTTTCTTCACATCCTCACCAGCATTTGGTATTACTACTAT
TTTTTATCTTAACCATTCACATAGATGTGTGTAATGATACCACATGTGGTTTTAATTTGCATTTCCAATGGCTAATGATGTTGAGTATCT
TTTTGTGTGCTAATTTGCCATCTATGTATCCTCTTCGGTGAAATGTCTTCATGTCTTTTGTCTATTTTCTATTTAGGTCATTTGTTCTTT
TTACTATTGAGTTTTGAGAGGTTTTTTATATATCCTAGATAAAATTCCTCTGTTAGATATGTGGTTGCTTGAATTTTTAACATAACTTCT
ACCAAGGAAAAATAAGTAAAATTTCCAACCCTTGCATGGCCAGTCACTTACTTAATTCCTGTCCTTCAGTGTTCCATCTAGAGAATTAAG
AGATATGATGTATAAAATAGACATCGAGGGCCATTAAGAGAGTAAATACTTAAAAATACATGTTATGAAAGCAAAGCCAATAATCACTGT
AGGAGTATGAGTTGCCTAAGGGCCAAAACTAATGTAAATAAGAGAAAGTGTGGATATAAATGACCATTGTTTATAAACAGTTATGAAAAA
TGCTGTGACTTGAAATCTTTCCCACATCTCCCAAGAAAGTAGGTAGGAGTTTATCCTTTCCGTAATCTCTTTTTAACCCTGCTGACTATT
ACAGGGCTTGTTTAATCACAGTGGCAAGAATTACATGTATCTTACAGTAAAGAAACAGAATACTGGAATCGTTAGAGAACCCTGATGTGT
TGACCTGGATAAAGTACAAAGGTGGAAGAGGGAATGAGTTATGCTGTTAAAATCTCAGGCTATTCTGTTAATGTTCCTGCTACTATGAAC
CCAAACTTTTTTTTTCCCCCTTTTGACTCCTTGTGTCTTCCTCTCCTGTGGCATAAAAGTAGTTCTGTCGTTAACTTGTACAACATTGCC
ATCTGCTGTTGAGAATTGGTAGGTACTGCTTCTGAGAACCTGGCTGCAGATCCTTAGCATAGGCAGCAAATGTTGAGAAAGTCTATCTGT
AGTATTACATATACTAAGTTACAGAGGATGCATCCAAGTAGAGAAAATAATATGTGGGTTAAGATACATCCTTAAACTTTTTTTTTTTTG
GGGGGGGGGGGACGGAGTCTTGCTGCAACGCCCAGGCTGGAGTGCAATGGCACTATCTCAGCTCGCTGCAACCTTCACCTCCTGGGTTCA
AGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAATATAGGTGCACACCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAAGCA
GAGTTTCACCATATTGGCCAGGTTGGTCTCGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACACGC
GTGAGCCACCACACCCAGCCTCCATCTTTAAACTTTTAAATGTGAAATTTCTATCATGTACCGTTAGCCTAACAAGATTTTCTTTCCTAT
TTCTGACTGGTGCCTTTCCCCTTTTTAGGAGCAACGAAAGCTACTCTCTTAGTTATGTTCTTGTGATGTGACAAAATGTCAAGAAGATAG
GAGAAGAGAATATTTTATTTCGTTGATGCTTTTGTTCCCAAGTGTGACCCTAAACTTAAGCTTTGTAGGAGTTGACATTCTTTCATGTCC
CTTCCCTTTACTCATGCCGAAACTATCAACTGGGACATTTTGTGCTTTTGGTTTAAAAGTTAATTGATATTATACTTTGGTTTTATCTAA
AAAGTAAATGTATTTGCCTTTGACAAAAGACTGACACAAGAGCAAATAAGCTTTAAAATCGGGTGTTATGTGCTTTCCTCCATTTTTGAG
CATATTATCCAAAATGGTCTGTATAATATAAATGAGAATGATGCAGTTTAAGTAAGCCTTGTTATACCATTGTCATGGACCCCTGTCATA
AAGCCATTTCTTGGTTTGTTTGGGAAAGAGGCATATGGGATTTATACAGATTCACTTGTAAATGTTGGATTGGGGATTTTTGTGTAAATT

>95191_95191_1_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000298832_TMED10_chr14_75618846_ENST00000303575_length(amino acids)=1201AA_BP=1057
MPIVMARDLEETASSSEDEEVISQEDHPCIMWTGGCRRIPVLVFHADAILTKDNNIRVIGERYHLSYKIVRTDSRLVRSILTAHGFHEVH
PSSTDYNLMWTGSHLKPFLLRTLSEAQKVNHFPRSYELTRKDRLYKNIIRMQHTHGFKAFHILPQTFLLPAEYAEFCNSYSKDRGPWIVK
PVASSRGRGVYLINNPNQISLEENILVSRYINNPLLIDDFKFDVRLYVLVTSYDPLVIYLYEEGLARFATVRYDQGAKNIRNQFMHLTNY
SVNKKSGDYVSCDDPEVEDYGNKWSMSAMLRYLKQEGRDTTALMAHVEDLIIKTIISAELAIATACKTFVPHRSSCFELYGFDVLIDSTL
KPWLLEVNLSPSLACDAPLDLKIKASMISDMFTVVGFVCQDPAQRASTRPIYPTFESSRRNPFQKPQRCRPLSASDAEMKNLVGSAREKG
PGKLGGSVLGLSMEEIKVLRRVKEENDRRGGFIRIFPTSETWEIYGSYLEHKTSMNYMLATRLFQDRMTADGAPELKIESLNSKAKLHAA
LYERKLLSLEVRKRRRRSSRLRAMRPKYPVITQPAEMNVKTETESEEEEEVALDNEDEEQEASQEESAGFLRENQAKYTPSLTALVENTP
KENSMKVREWNNKGGHCCKLETQELEPKFNLMQILQDNGNLSKMQARIAFSAYLQHVQIRLMKDSGGQTFSASWAAKEDEQMELVVRFLK
RASNNLQHSLRMVLPSRRLALLERRRILAHQLGDFIIVYNKETEQMAEKKSKKKVEEEEEDGVNMENFQEFIRQASEAELEEVLTFYTQK
NKSASVFLGTHSKISKNNNNYSDSGAKGDHPETIMEEVKIKPPKQQQTTEIHSDKLSRFTTSAEKEAKLVYSNSSSGPTATLQKIPNTHL
SSVTTSDLSPGPCHHSSLSQIPSAIPSMPHQPTILLNTVSASASPCLHPGAQNIPSPTGLPRCRSGSHTIGPFSSFQSAAHIYSQKLSRP
SSAKAGSCYLNKHHSGIAKTQKEGEDASLYSKRYNQSMVTAELQRLAEKQAARQYSPSSHINLLTQQITDSAGHILYSKEDATKGKFAFT
TEDYDMFEVCFESKGTGRIPDQLVILDMKHGVEAKNYEEIAKVEKLKPLEVELRRLEDLSESIVNDFAYMKKREEEMRDTNESTNTRVLY

--------------------------------------------------------------
>95191_95191_2_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000554510_TMED10_chr14_75618846_ENST00000303575_length(transcript)=5667nt_BP=1817nt
AGATCAAAGTTTTACGAAGGGTGAAGGAGGAGAATGATCGGCGAGGTGGATTTATTCGCATATTTCCTACATCTGAGACATGGGAAATAT
ATGGGTCCTACCTCGAGCATAAGACCTCAATGAACTATATGCTGGCAACACGCCTCTTCCAGGACAGGGGAAACCCAAGAAGAAGCTTAT
TGACAGGAAGAACACGAATGACTGCTGATGGAGCGCCAGAATTGAAGATAGAGAGTCTGAATTCAAAGGCCAAGCTGCATGCTGCACTTT
ACGAGAGGAAGCTCCTGTCTCTGGAGGTGCGAAAACGTAGACGACGGAGTAGCAGATTGAGGGCAATGAGGCCAAAATACCCAGTGATTA
CCCAACCAGCTGAAATGAATGTTAAAACTGAGACAGAGAGTGAAGAGGAGGAAGAAGTCGCATTAGATAATGAAGATGAAGAACAGGAGG
CTTCCCAGGAGGAGTCTGCAGGATTTCTTAGAGAAAATCAAGCCAAATATACACCCTCATTGACAGCTTTGGTAGAAAATACACCCAAAG
AAAATTCCATGAAAGTTCGTGAATGGAATAATAAAGGTGGACACTGCTGCAAACTTGAGACTCAGGAGCTAGAGCCTAAATTTAACCTGA
TGCAGATTCTTCAAGATAATGGCAATCTTAGCAAAATGCAGGCCCGAATAGCATTCTCTGCCTATCTCCAGCATGTTCAAATTCGCCTGA
TGAAAGACAGTGGCGGTCAGACGTTCAGTGCCAGTTGGGCTGCCAAAGAGGATGAACAGATGGAGCTGGTTGTTCGTTTCCTCAAGCGAG
CATCAAATAACCTCCAGCATTCACTGAGGATGGTATTACCCAGTCGACGATTGGCACTTCTGGAACGCAGAAGAATCCTGGCCCACCAGC
TGGGTGACTTTATCATTGTATACAACAAGGAAACAGAACAAATGGCTGAAAAGAAATCAAAGAAGAAAGTTGAGGAAGAAGAGGAAGATG
GGGTGAATATGGAAAACTTTCAGGAGTTCATCAGACAAGCAAGTGAGGCTGAACTGGAGGAGGTGTTGACTTTTTATACCCAAAAGAACA
AGTCTGCTAGTGTCTTCCTGGGGACTCACTCTAAAATTTCTAAGAACAACAACAATTATTCTGATAGTGGGGCAAAAGGTGATCACCCTG
AGACTATAATGGAAGAAGTGAAAATAAAGCCACCTAAACAGCAACAGACGACAGAAATTCATTCTGATAAATTATCTCGATTTACCACTT
CAGCAGAAAAAGAGGCAAAATTAGTTTATAGCAATTCCTCCTCTGGTCCTACTGCTACTCTGCAGAAAATTCCCAACACCCATTTGTCAT
CTGTTACAACCTCTGACCTCTCTCCAGGGCCTTGCCACCATTCTTCTTTATCTCAAATTCCTTCAGCTATCCCCAGCATGCCTCACCAGC
CAACAATTTTACTGAACACAGTCTCTGCCAGTGCTTCTCCCTGCCTACATCCCGGGGCACAGAACATCCCAAGCCCTACTGGCCTGCCAC
GCTGTCGATCAGGAAGTCACACCATTGGTCCCTTTTCTTCCTTCCAAAGTGCTGCACACATCTATAGCCAGAAACTGTCTCGTCCCTCTT
CAGCAAAGGCAGGATCGTGCTATCTAAACAAGCATCATTCAGGAATAGCCAAAACACAAAAAGAGGGAGAAGATGCTTCTTTATATAGCA
AACGGTACAACCAAAGTATGGTTACAGCTGAACTTCAGCGGCTAGCTGAGAAGCAGGCAGCGAGACAGTATTCTCCATCCAGCCACATCA
ACCTCCTCACCCAACAGATCACAGATTCTGCTGGCCATATTCTCTACTCCAAAGAGGATGCAACCAAGGGGAAATTTGCCTTTACCACTG
AAGATTATGACATGTTTGAAGTGTGTTTTGAGAGCAAGGGAACAGGGCGGATACCTGACCAACTCGTGATCCTAGACATGAAGCATGGAG
TGGAGGCGAAAAATTACGAAGAGATTGCAAAAGTTGAGAAGCTCAAACCATTAGAGGTAGAGCTGCGACGCCTAGAAGACCTTTCAGAAT
CTATTGTTAATGATTTTGCCTACATGAAGAAGAGAGAAGAGGAGATGCGTGATACCAACGAGTCAACAAACACTCGGGTCCTATACTTCA
GCATCTTTTCAATGTTCTGTCTCATTGGACTAGCTACCTGGCAGGTCTTCTACCTGCGACGCTTCTTCAAGGCCAAGAAATTGATTGAGT
AATGAATGAGGCATATTCTCCTCCCACCTTGTACCTCAGCCAGCAGAACATCGCTGGGACGTGCCTGGCCTAAGGCATCCTACCAACAGC
ACCATCAAGGCACGTTGGAGCTTTCTTGCCAGAACTGATCTCTTTTGGTGTGGGAGGACATGGGGTACCACCTACACCCAACAAGTCAAT
GAGGGACTTCTTTTTAATTTGGTAGGATTTTGACTGGTTTTGCAACAATAGGTCTATTATTAGAGTCACCTATGACAAAAAATAGGGGTT
ACCTAGATAATGCCAAAGTCAGCATTTGTCCTGGGTTCCCTTGTGTGATCTGTTTGGACTATGTTTTCTTTTCTTCTCCCACTTGCTCAG
CAGCTTGGGCTTCCATTCTAGTTCTTTTACCAAGATTTTTGTGTGACCATGTTGACTTCATTTGGATTGCCCTCTTTCAATTTCCTTGTG
AAAACACCCTTAACTTTCTCTTTACCCTTAGCTGAAATGTTTACATAGCTTCTGGTGATATCTTTTCATGATTTTATATCTCTTAAAATG
GTGATGGATGTGACACCTCATAAAAGTGAGCTTTGAACTGTAGATAACTCTTAAAGAAAATGTCATTTTAGACAATTAAAATATTTGTGC
TCAACTGCTTGAACTTTTTTCGTGTATGTGTATTTAATTCTATGCAATATTATCACATGTGTAGATTCATGTGACCACCATCACAAGAGA
CAGAACAGTTCTGTCACATGGATCCCTTGCACTGCCCTTTTACAGCCGCAGCCACATCCCTTTCTTATACCCTCACCCCAACCTGTGGCT
ACCACTGTTCTGTCCTCCATCTCTGTAATTTTGTCATTTCAAGAATGTTGTATGAATGGAATCATACAGAATGTAATCTTACGAGGCTGA
TCTTTTTTCATTCAGCATAATTCCCTTGAAATCCATCCAAGTTGTTGCATGTATGAATAGTTTCTTCCTTTTTTTCTTTTAAAAATGTTT
TATATATTTAGGGGGTATAAGTACAGATTTCTTACATGCATATATTGCATCGTGGTGAAGTGGGGGCAGTTCCTTTTGATTGCTGAGTAG
TATTCCATGGTATGGATGTACCACAGTTTGCTTAACCATTCACCCACTAAAGGACATAAGAGTTGTTTTCAGTTTTTTGCCCTAATAAAG
CTGCTGTGAACATTCATGTACAGGTTTTTATGTGAACATACATTTTCATTTTCTGGGATAAATGCTCAAAAGGGCAACTGTTGGGTTGTA
TGGTAAACACATATATTTTTGTAAGAAACTACCCTACTCTTTTTCCAGAGTGGCTCTACTTTTTACATACAGCCACTCATACAATTCAGA
CAGCAATGTATGATTGATCCAGTTTCTTCACATCCTCACCAGCATTTGGTATTACTACTATTTTTTATCTTAACCATTCACATAGATGTG
TGTAATGATACCACATGTGGTTTTAATTTGCATTTCCAATGGCTAATGATGTTGAGTATCTTTTTGTGTGCTAATTTGCCATCTATGTAT
CCTCTTCGGTGAAATGTCTTCATGTCTTTTGTCTATTTTCTATTTAGGTCATTTGTTCTTTTTACTATTGAGTTTTGAGAGGTTTTTTAT
ATATCCTAGATAAAATTCCTCTGTTAGATATGTGGTTGCTTGAATTTTTAACATAACTTCTACCAAGGAAAAATAAGTAAAATTTCCAAC
CCTTGCATGGCCAGTCACTTACTTAATTCCTGTCCTTCAGTGTTCCATCTAGAGAATTAAGAGATATGATGTATAAAATAGACATCGAGG
GCCATTAAGAGAGTAAATACTTAAAAATACATGTTATGAAAGCAAAGCCAATAATCACTGTAGGAGTATGAGTTGCCTAAGGGCCAAAAC
TAATGTAAATAAGAGAAAGTGTGGATATAAATGACCATTGTTTATAAACAGTTATGAAAAATGCTGTGACTTGAAATCTTTCCCACATCT
CCCAAGAAAGTAGGTAGGAGTTTATCCTTTCCGTAATCTCTTTTTAACCCTGCTGACTATTACAGGGCTTGTTTAATCACAGTGGCAAGA
ATTACATGTATCTTACAGTAAAGAAACAGAATACTGGAATCGTTAGAGAACCCTGATGTGTTGACCTGGATAAAGTACAAAGGTGGAAGA
GGGAATGAGTTATGCTGTTAAAATCTCAGGCTATTCTGTTAATGTTCCTGCTACTATGAACCCAAACTTTTTTTTTCCCCCTTTTGACTC
CTTGTGTCTTCCTCTCCTGTGGCATAAAAGTAGTTCTGTCGTTAACTTGTACAACATTGCCATCTGCTGTTGAGAATTGGTAGGTACTGC
TTCTGAGAACCTGGCTGCAGATCCTTAGCATAGGCAGCAAATGTTGAGAAAGTCTATCTGTAGTATTACATATACTAAGTTACAGAGGAT
GCATCCAAGTAGAGAAAATAATATGTGGGTTAAGATACATCCTTAAACTTTTTTTTTTTTGGGGGGGGGGGGACGGAGTCTTGCTGCAAC
GCCCAGGCTGGAGTGCAATGGCACTATCTCAGCTCGCTGCAACCTTCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGT
AGCTGGGAATATAGGTGCACACCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAAGCAGAGTTTCACCATATTGGCCAGGTTGGTCT
CGAACTCCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACACGCGTGAGCCACCACACCCAGCCTCCATCTTT
AAACTTTTAAATGTGAAATTTCTATCATGTACCGTTAGCCTAACAAGATTTTCTTTCCTATTTCTGACTGGTGCCTTTCCCCTTTTTAGG
AGCAACGAAAGCTACTCTCTTAGTTATGTTCTTGTGATGTGACAAAATGTCAAGAAGATAGGAGAAGAGAATATTTTATTTCGTTGATGC
TTTTGTTCCCAAGTGTGACCCTAAACTTAAGCTTTGTAGGAGTTGACATTCTTTCATGTCCCTTCCCTTTACTCATGCCGAAACTATCAA
CTGGGACATTTTGTGCTTTTGGTTTAAAAGTTAATTGATATTATACTTTGGTTTTATCTAAAAAGTAAATGTATTTGCCTTTGACAAAAG
ACTGACACAAGAGCAAATAAGCTTTAAAATCGGGTGTTATGTGCTTTCCTCCATTTTTGAGCATATTATCCAAAATGGTCTGTATAATAT
AAATGAGAATGATGCAGTTTAAGTAAGCCTTGTTATACCATTGTCATGGACCCCTGTCATAAAGCCATTTCTTGGTTTGTTTGGGAAAGA

>95191_95191_2_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000554510_TMED10_chr14_75618846_ENST00000303575_length(amino acids)=710AA_BP=566
MNYMLATRLFQDRGNPRRSLLTGRTRMTADGAPELKIESLNSKAKLHAALYERKLLSLEVRKRRRRSSRLRAMRPKYPVITQPAEMNVKT
ETESEEEEEVALDNEDEEQEASQEESAGFLRENQAKYTPSLTALVENTPKENSMKVREWNNKGGHCCKLETQELEPKFNLMQILQDNGNL
SKMQARIAFSAYLQHVQIRLMKDSGGQTFSASWAAKEDEQMELVVRFLKRASNNLQHSLRMVLPSRRLALLERRRILAHQLGDFIIVYNK
ETEQMAEKKSKKKVEEEEEDGVNMENFQEFIRQASEAELEEVLTFYTQKNKSASVFLGTHSKISKNNNNYSDSGAKGDHPETIMEEVKIK
PPKQQQTTEIHSDKLSRFTTSAEKEAKLVYSNSSSGPTATLQKIPNTHLSSVTTSDLSPGPCHHSSLSQIPSAIPSMPHQPTILLNTVSA
SASPCLHPGAQNIPSPTGLPRCRSGSHTIGPFSSFQSAAHIYSQKLSRPSSAKAGSCYLNKHHSGIAKTQKEGEDASLYSKRYNQSMVTA
ELQRLAEKQAARQYSPSSHINLLTQQITDSAGHILYSKEDATKGKFAFTTEDYDMFEVCFESKGTGRIPDQLVILDMKHGVEAKNYEEIA

--------------------------------------------------------------
>95191_95191_3_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000556893_TMED10_chr14_75618846_ENST00000303575_length(transcript)=5744nt_BP=1894nt
GAAAAACCTCGTGGGCTCAGCCCGGGAGAAAGGGCCAGGGAAGTTGGGTGGTTCTGTGCTTGGTCTGTCAATGGAGGAGATCAAAGTTTT
ACGAAGGGTGAAGGAGGAGAATGATCGGCGAGGTGGATTTATTCGCATATTTCCTACATCTGAGACATGGGAAATATATGGGTCCTACCT
CGAGCATAAGACCTCAATGAACTATATGCTGGCAACACGCCTCTTCCAGGACAGGGGAAACCCAAGAAGAAGCTTATTGACAGGAAGAAC
ACGAATGACTGCTGATGGAGCGCCAGAATTGAAGATAGAGAGTCTGAATTCAAAGGCCAAGCTGCATGCTGCACTTTACGAGAGGAAGCT
CCTGTCTCTGGAGGTGCGAAAACGTAGACGACGGAGTAGCAGATTGAGGGCAATGAGGCCAAAATACCCAGTGATTACCCAACCAGCTGA
AATGAATGTTAAAACTGAGACAGAGAGTGAAGAGGAGGAAGAAGTCGCATTAGATAATGAAGATGAAGAACAGGAGGCTTCCCAGGAGGA
GTCTGCAGGATTTCTTAGAGAAAATCAAGCCAAATATACACCCTCATTGACAGCTTTGGTAGAAAATACACCCAAAGAAAATTCCATGAA
AGTTCGTGAATGGAATAATAAAGGTGGACACTGCTGCAAACTTGAGACTCAGGAGCTAGAGCCTAAATTTAACCTGATGCAGATTCTTCA
AGATAATGGCAATCTTAGCAAAATGCAGGCCCGAATAGCATTCTCTGCCTATCTCCAGCATGTTCAAATTCGCCTGATGAAAGACAGTGG
CGGTCAGACGTTCAGTGCCAGTTGGGCTGCCAAAGAGGATGAACAGATGGAGCTGGTTGTTCGTTTCCTCAAGCGAGCATCAAATAACCT
CCAGCATTCACTGAGGATGGTATTACCCAGTCGACGATTGGCACTTCTGGAACGCAGAAGAATCCTGGCCCACCAGCTGGGTGACTTTAT
CATTGTATACAACAAGGAAACAGAACAAATGGCTGAAAAGAAATCAAAGAAGAAAGTTGAGGAAGAAGAGGAAGATGGGGTGAATATGGA
AAACTTTCAGGAGTTCATCAGACAAGCAAGTGAGGCTGAACTGGAGGAGGTGTTGACTTTTTATACCCAAAAGAACAAGTCTGCTAGTGT
CTTCCTGGGGACTCACTCTAAAATTTCTAAGAACAACAACAATTATTCTGATAGTGGGGCAAAAGGTGATCACCCTGAGACTATAATGGA
AGAAGTGAAAATAAAGCCACCTAAACAGCAACAGACGACAGAAATTCATTCTGATAAATTATCTCGATTTACCACTTCAGCAGAAAAAGA
GGCAAAATTAGTTTATAGCAATTCCTCCTCTGGTCCTACTGCTACTCTGCAGAAAATTCCCAACACCCATTTGTCATCTGTTACAACCTC
TGACCTCTCTCCAGGGCCTTGCCACCATTCTTCTTTATCTCAAATTCCTTCAGCTATCCCCAGCATGCCTCACCAGCCAACAATTTTACT
GAACACAGTCTCTGCCAGTGCTTCTCCCTGCCTACATCCCGGGGCACAGAACATCCCAAGCCCTACTGGCCTGCCACGCTGTCGATCAGG
AAGTCACACCATTGGTCCCTTTTCTTCCTTCCAAAGTGCTGCACACATCTATAGCCAGAAACTGTCTCGTCCCTCTTCAGCAAAGGCAGG
ATCGTGCTATCTAAACAAGCATCATTCAGGAATAGCCAAAACACAAAAAGAGGGAGAAGATGCTTCTTTATATAGCAAACGGTACAACCA
AAGTATGGTTACAGCTGAACTTCAGCGGCTAGCTGAGAAGCAGGCAGCGAGACAGTATTCTCCATCCAGCCACATCAACCTCCTCACCCA
ACAGATCACAGATTCTGCTGGCCATATTCTCTACTCCAAAGAGGATGCAACCAAGGGGAAATTTGCCTTTACCACTGAAGATTATGACAT
GTTTGAAGTGTGTTTTGAGAGCAAGGGAACAGGGCGGATACCTGACCAACTCGTGATCCTAGACATGAAGCATGGAGTGGAGGCGAAAAA
TTACGAAGAGATTGCAAAAGTTGAGAAGCTCAAACCATTAGAGGTAGAGCTGCGACGCCTAGAAGACCTTTCAGAATCTATTGTTAATGA
TTTTGCCTACATGAAGAAGAGAGAAGAGGAGATGCGTGATACCAACGAGTCAACAAACACTCGGGTCCTATACTTCAGCATCTTTTCAAT
GTTCTGTCTCATTGGACTAGCTACCTGGCAGGTCTTCTACCTGCGACGCTTCTTCAAGGCCAAGAAATTGATTGAGTAATGAATGAGGCA
TATTCTCCTCCCACCTTGTACCTCAGCCAGCAGAACATCGCTGGGACGTGCCTGGCCTAAGGCATCCTACCAACAGCACCATCAAGGCAC
GTTGGAGCTTTCTTGCCAGAACTGATCTCTTTTGGTGTGGGAGGACATGGGGTACCACCTACACCCAACAAGTCAATGAGGGACTTCTTT
TTAATTTGGTAGGATTTTGACTGGTTTTGCAACAATAGGTCTATTATTAGAGTCACCTATGACAAAAAATAGGGGTTACCTAGATAATGC
CAAAGTCAGCATTTGTCCTGGGTTCCCTTGTGTGATCTGTTTGGACTATGTTTTCTTTTCTTCTCCCACTTGCTCAGCAGCTTGGGCTTC
CATTCTAGTTCTTTTACCAAGATTTTTGTGTGACCATGTTGACTTCATTTGGATTGCCCTCTTTCAATTTCCTTGTGAAAACACCCTTAA
CTTTCTCTTTACCCTTAGCTGAAATGTTTACATAGCTTCTGGTGATATCTTTTCATGATTTTATATCTCTTAAAATGGTGATGGATGTGA
CACCTCATAAAAGTGAGCTTTGAACTGTAGATAACTCTTAAAGAAAATGTCATTTTAGACAATTAAAATATTTGTGCTCAACTGCTTGAA
CTTTTTTCGTGTATGTGTATTTAATTCTATGCAATATTATCACATGTGTAGATTCATGTGACCACCATCACAAGAGACAGAACAGTTCTG
TCACATGGATCCCTTGCACTGCCCTTTTACAGCCGCAGCCACATCCCTTTCTTATACCCTCACCCCAACCTGTGGCTACCACTGTTCTGT
CCTCCATCTCTGTAATTTTGTCATTTCAAGAATGTTGTATGAATGGAATCATACAGAATGTAATCTTACGAGGCTGATCTTTTTTCATTC
AGCATAATTCCCTTGAAATCCATCCAAGTTGTTGCATGTATGAATAGTTTCTTCCTTTTTTTCTTTTAAAAATGTTTTATATATTTAGGG
GGTATAAGTACAGATTTCTTACATGCATATATTGCATCGTGGTGAAGTGGGGGCAGTTCCTTTTGATTGCTGAGTAGTATTCCATGGTAT
GGATGTACCACAGTTTGCTTAACCATTCACCCACTAAAGGACATAAGAGTTGTTTTCAGTTTTTTGCCCTAATAAAGCTGCTGTGAACAT
TCATGTACAGGTTTTTATGTGAACATACATTTTCATTTTCTGGGATAAATGCTCAAAAGGGCAACTGTTGGGTTGTATGGTAAACACATA
TATTTTTGTAAGAAACTACCCTACTCTTTTTCCAGAGTGGCTCTACTTTTTACATACAGCCACTCATACAATTCAGACAGCAATGTATGA
TTGATCCAGTTTCTTCACATCCTCACCAGCATTTGGTATTACTACTATTTTTTATCTTAACCATTCACATAGATGTGTGTAATGATACCA
CATGTGGTTTTAATTTGCATTTCCAATGGCTAATGATGTTGAGTATCTTTTTGTGTGCTAATTTGCCATCTATGTATCCTCTTCGGTGAA
ATGTCTTCATGTCTTTTGTCTATTTTCTATTTAGGTCATTTGTTCTTTTTACTATTGAGTTTTGAGAGGTTTTTTATATATCCTAGATAA
AATTCCTCTGTTAGATATGTGGTTGCTTGAATTTTTAACATAACTTCTACCAAGGAAAAATAAGTAAAATTTCCAACCCTTGCATGGCCA
GTCACTTACTTAATTCCTGTCCTTCAGTGTTCCATCTAGAGAATTAAGAGATATGATGTATAAAATAGACATCGAGGGCCATTAAGAGAG
TAAATACTTAAAAATACATGTTATGAAAGCAAAGCCAATAATCACTGTAGGAGTATGAGTTGCCTAAGGGCCAAAACTAATGTAAATAAG
AGAAAGTGTGGATATAAATGACCATTGTTTATAAACAGTTATGAAAAATGCTGTGACTTGAAATCTTTCCCACATCTCCCAAGAAAGTAG
GTAGGAGTTTATCCTTTCCGTAATCTCTTTTTAACCCTGCTGACTATTACAGGGCTTGTTTAATCACAGTGGCAAGAATTACATGTATCT
TACAGTAAAGAAACAGAATACTGGAATCGTTAGAGAACCCTGATGTGTTGACCTGGATAAAGTACAAAGGTGGAAGAGGGAATGAGTTAT
GCTGTTAAAATCTCAGGCTATTCTGTTAATGTTCCTGCTACTATGAACCCAAACTTTTTTTTTCCCCCTTTTGACTCCTTGTGTCTTCCT
CTCCTGTGGCATAAAAGTAGTTCTGTCGTTAACTTGTACAACATTGCCATCTGCTGTTGAGAATTGGTAGGTACTGCTTCTGAGAACCTG
GCTGCAGATCCTTAGCATAGGCAGCAAATGTTGAGAAAGTCTATCTGTAGTATTACATATACTAAGTTACAGAGGATGCATCCAAGTAGA
GAAAATAATATGTGGGTTAAGATACATCCTTAAACTTTTTTTTTTTTGGGGGGGGGGGGACGGAGTCTTGCTGCAACGCCCAGGCTGGAG
TGCAATGGCACTATCTCAGCTCGCTGCAACCTTCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGAATATA
GGTGCACACCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAAGCAGAGTTTCACCATATTGGCCAGGTTGGTCTCGAACTCCTGACC
TCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACACGCGTGAGCCACCACACCCAGCCTCCATCTTTAAACTTTTAAATG
TGAAATTTCTATCATGTACCGTTAGCCTAACAAGATTTTCTTTCCTATTTCTGACTGGTGCCTTTCCCCTTTTTAGGAGCAACGAAAGCT
ACTCTCTTAGTTATGTTCTTGTGATGTGACAAAATGTCAAGAAGATAGGAGAAGAGAATATTTTATTTCGTTGATGCTTTTGTTCCCAAG
TGTGACCCTAAACTTAAGCTTTGTAGGAGTTGACATTCTTTCATGTCCCTTCCCTTTACTCATGCCGAAACTATCAACTGGGACATTTTG
TGCTTTTGGTTTAAAAGTTAATTGATATTATACTTTGGTTTTATCTAAAAAGTAAATGTATTTGCCTTTGACAAAAGACTGACACAAGAG
CAAATAAGCTTTAAAATCGGGTGTTATGTGCTTTCCTCCATTTTTGAGCATATTATCCAAAATGGTCTGTATAATATAAATGAGAATGAT
GCAGTTTAAGTAAGCCTTGTTATACCATTGTCATGGACCCCTGTCATAAAGCCATTTCTTGGTTTGTTTGGGAAAGAGGCATATGGGATT

>95191_95191_3_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000556893_TMED10_chr14_75618846_ENST00000303575_length(amino acids)=761AA_BP=617
MGGSVLGLSMEEIKVLRRVKEENDRRGGFIRIFPTSETWEIYGSYLEHKTSMNYMLATRLFQDRGNPRRSLLTGRTRMTADGAPELKIES
LNSKAKLHAALYERKLLSLEVRKRRRRSSRLRAMRPKYPVITQPAEMNVKTETESEEEEEVALDNEDEEQEASQEESAGFLRENQAKYTP
SLTALVENTPKENSMKVREWNNKGGHCCKLETQELEPKFNLMQILQDNGNLSKMQARIAFSAYLQHVQIRLMKDSGGQTFSASWAAKEDE
QMELVVRFLKRASNNLQHSLRMVLPSRRLALLERRRILAHQLGDFIIVYNKETEQMAEKKSKKKVEEEEEDGVNMENFQEFIRQASEAEL
EEVLTFYTQKNKSASVFLGTHSKISKNNNNYSDSGAKGDHPETIMEEVKIKPPKQQQTTEIHSDKLSRFTTSAEKEAKLVYSNSSSGPTA
TLQKIPNTHLSSVTTSDLSPGPCHHSSLSQIPSAIPSMPHQPTILLNTVSASASPCLHPGAQNIPSPTGLPRCRSGSHTIGPFSSFQSAA
HIYSQKLSRPSSAKAGSCYLNKHHSGIAKTQKEGEDASLYSKRYNQSMVTAELQRLAEKQAARQYSPSSHINLLTQQITDSAGHILYSKE
DATKGKFAFTTEDYDMFEVCFESKGTGRIPDQLVILDMKHGVEAKNYEEIAKVEKLKPLEVELRRLEDLSESIVNDFAYMKKREEEMRDT

--------------------------------------------------------------
>95191_95191_4_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000557636_TMED10_chr14_75618846_ENST00000303575_length(transcript)=7281nt_BP=3431nt
GTAGTAACCGGGGAAGCAGCCGTCGGCGGCTGCCCTGAGCCTTCCTGGGGAAGGAGGAGGGAGGTAGGCGCAGAGCGCGGTCCACGCCTG
CTCGCCCCGAACCATGGGAAGATGAGACAGGAATCTGTGCCATCCAAATTGCTTGATCCAGTGAATCTGCTAGGAAAGGTCTCTGAGGCC
CCCGTCTGCTGACTGCATGACAAACCCTAAAGGAAATGCCAATCGTGATGGCCCGGGACCTGGAGGAAACAGCATCATCCTCAGAGGATG
AGGAGGTCATAAGTCAAGAGGATCATCCATGCATCATGTGGACTGGAGGCTGCAGGAGAATTCCAGTTTTGGTATTCCATGCCGACGCTA
TTCTTACAAAGGACAACAATATTAGAGTAATTGGAGAACGTTATCATTTGTCTTATAAGATTGTACGAACGGACAGTCGCCTAGTACGCA
GCATTCTGACAGCCCATGGATTTCATGAAGTTCACCCAAGCAGCACTGACTATAACCTAATGTGGACAGGATCCCACCTGAAGCCCTTCT
TACTGCGCACCCTCTCTGAAGCACAAAAAGTTAATCACTTTCCCAGGTCTTATGAACTTACCCGGAAGGACCGACTGTACAAAAACATTA
TTCGAATGCAGCATACACATGGATTCAAGGCTTTTCACATCCTCCCCCAGACCTTCCTCCTGCCAGCTGAGTACGCGGAATTTTGTAATT
CATATTCGAAGGACCGGGGACCTTGGATAGTAAAACCAGTGGCATCTTCAAGGGGGCGGGGCGTCTACCTGATCAACAATCCAAACCAGA
TCTCCCTGGAAGAGAACATTTTGGTCTCCCGTTACATTAACAACCCCCTGCTCATAGATGATTTCAAGTTTGACGTGCGCCTCTATGTGC
TCGTGACTTCCTATGATCCTCTTGTCATCTATCTCTATGAAGAAGGATTGGCTAGGTTTGCAACTGTGCGATATGATCAAGGAGCCAAGA
ACATTCGGAACCAGTTCATGCATCTGACAAACTACAGTGTCAACAAGAAAAGTGGAGATTACGTCAGTTGTGACGATCCAGAAGTGGAGG
ATTATGGAAACAAATGGAGCATGAGTGCTATGCTTAGGTACCTGAAACAAGAAGGCAGAGATACAACCGCATTGATGGCCCATGTAGAAG
ACCTGATCATTAAGACTATAATCTCTGCTGAACTAGCTATTGCTACTGCCTGTAAAACCTTTGTTCCTCATCGCAGCAGTTGTTTTGAAC
TCTATGGCTTTGACGTGCTCATAGATTCTACTCTGAAGCCATGGTTGTTGGAAGTGAATCTCTCTCCTTCTTTGGCCTGTGATGCGCCTC
TGGACCTAAAGATTAAAGCCAGTATGATTTCAGATATGTTCACTGTTGTAGGATTTGTGTGCCAAGATCCTGCCCAGCGGGCATCAACTC
GGCCAATTTATCCCACCTTTGAGTCTTCCAGGCGAAACCCTTTCCAGAAACCTCAGCGTCCAGTATCTGCACAGTTTCAGTCGTCAAAGG
CCAAGCAGCGTTGCCGTCCACTCTCTGCCAGTGATGCGGAAATGAAAAACCTCGTGGGCTCAGCCCGGGAGAAAGGGCCAGGGAAGTTGG
GTGGTTCTGTGCTTGGTCTGTCAATGGAGGAGATCAAAGTTTTACGAAGGGTGAAGGAGGAGAATGATCGGCGAGGTGGATTTATTCGCA
TATTTCCTACATCTGAGACATGGGAAATATATGGGTCCTACCTCGAGCATAAGACCTCAATGAACTATATGCTGGCAACACGCCTCTTCC
AGGACAGAATGACTGCTGATGGAGCGCCAGAATTGAAGATAGAGAGTCTGAATTCAAAGGCCAAGCTGCATGCTGCACTTTACGAGAGGA
AGCTCCTGTCTCTGGAGGTGCGAAAACGTAGACGACGGAGTAGCAGATTGAGGGCAATGAGGCCAAAATACCCAGTGATTACCCAACCAG
CTGAAATGAATGTTAAAACTGAGACAGAGAGTGAAGAGGAGGAAGAAGTCGCATTAGATAATGAAGATGAAGAACAGGAGGCTTCCCAGG
AGGAGTCTGCAGGATTTCTTAGAGAAAATCAAGCCAAATATACACCCTCATTGACAGCTTTGGTAGAAAATACACCCAAAGAAAATTCCA
TGAAAGTTCGTGAATGGAATAATAAAGGTGGACACTGCTGCAAACTTGAGACTCAGGAGCTAGAGCCTAAATTTAACCTGATGCAGATTC
TTCAAGATAATGGCAATCTTAGCAAAATGCAGGCCCGAATAGCATTCTCTGCCTATCTCCAGCATGTTCAAATTCGCCTGATGAAAGACA
GTGGCGGTCAGACGTTCAGTGCCAGTTGGGCTGCCAAAGAGGATGAACAGATGGAGCTGGTTGTTCGTTTCCTCAAGCGAGCATCAAATA
ACCTCCAGCATTCACTGAGGATGGTATTACCCAGTCGACGATTGGCACTTCTGGAACGCAGAAGAATCCTGGCCCACCAGCTGGGTGACT
TTATCATTGTATACAACAAGGAAACAGAACAAATGGCTGAAAAGAAATCAAAGAAGAAAGTTGAGGAAGAAGAGGAAGATGGGGTGAATA
TGGAAAACTTTCAGGAGTTCATCAGACAAGCAAGTGAGGCTGAACTGGAGGAGGTGTTGACTTTTTATACCCAAAAGAACAAGTCTGCTA
GTGTCTTCCTGGGGACTCACTCTAAAATTTCTAAGAACAACAACAATTATTCTGATAGTGGGGCAAAAGGTGATCACCCTGAGACTATAA
TGGAAGAAGTGAAAATAAAGCCACCTAAACAGCAACAGACGACAGAAATTCATTCTGATAAATTATCTCGATTTACCACTTCAGCAGAAA
AAGAGGCAAAATTAGTTTATAGCAATTCCTCCTCTGGTCCTACTGCTACTCTGCAGAAAATTCCCAACACCCATTTGTCATCTGTTACAA
CCTCTGACCTCTCTCCAGGGCCTTGCCACCATTCTTCTTTATCTCAAATTCCTTCAGCTATCCCCAGCATGCCTCACCAGCCAACAATTT
TACTGAACACAGTCTCTGCCAGTGCTTCTCCCTGCCTACATCCCGGGGCACAGAACATCCCAAGCCCTACTGGCCTGCCACGCTGTCGAT
CAGGAAGTCACACCATTGGTCCCTTTTCTTCCTTCCAAAGTGCTGCACACATCTATAGCCAGAAACTGTCTCGTCCCTCTTCAGCAAAGG
CAGCAGGATCGTGCTATCTAAACAAGCATCATTCAGGAATAGCCAAAACACAAAAAGAGGGAGAAGATGCTTCTTTATATAGCAAACGGT
ACAACCAAAGTATGGTTACAGCTGAACTTCAGCGGCTAGCTGAGAAGCAGGCAGCGAGACAGTATTCTCCATCCAGCCACATCAACCTCC
TCACCCAACAGATCACAGATTCTGCTGGCCATATTCTCTACTCCAAAGAGGATGCAACCAAGGGGAAATTTGCCTTTACCACTGAAGATT
ATGACATGTTTGAAGTGTGTTTTGAGAGCAAGGGAACAGGGCGGATACCTGACCAACTCGTGATCCTAGACATGAAGCATGGAGTGGAGG
CGAAAAATTACGAAGAGATTGCAAAAGTTGAGAAGCTCAAACCATTAGAGGTAGAGCTGCGACGCCTAGAAGACCTTTCAGAATCTATTG
TTAATGATTTTGCCTACATGAAGAAGAGAGAAGAGGAGATGCGTGATACCAACGAGTCAACAAACACTCGGGTCCTATACTTCAGCATCT
TTTCAATGTTCTGTCTCATTGGACTAGCTACCTGGCAGGTCTTCTACCTGCGACGCTTCTTCAAGGCCAAGAAATTGATTGAGTAATGAA
TGAGGCATATTCTCCTCCCACCTTGTACCTCAGCCAGCAGAACATCGCTGGGACGTGCCTGGCCTAAGGCATCCTACCAACAGCACCATC
AAGGCACGTTGGAGCTTTCTTGCCAGAACTGATCTCTTTTGGTGTGGGAGGACATGGGGTACCACCTACACCCAACAAGTCAATGAGGGA
CTTCTTTTTAATTTGGTAGGATTTTGACTGGTTTTGCAACAATAGGTCTATTATTAGAGTCACCTATGACAAAAAATAGGGGTTACCTAG
ATAATGCCAAAGTCAGCATTTGTCCTGGGTTCCCTTGTGTGATCTGTTTGGACTATGTTTTCTTTTCTTCTCCCACTTGCTCAGCAGCTT
GGGCTTCCATTCTAGTTCTTTTACCAAGATTTTTGTGTGACCATGTTGACTTCATTTGGATTGCCCTCTTTCAATTTCCTTGTGAAAACA
CCCTTAACTTTCTCTTTACCCTTAGCTGAAATGTTTACATAGCTTCTGGTGATATCTTTTCATGATTTTATATCTCTTAAAATGGTGATG
GATGTGACACCTCATAAAAGTGAGCTTTGAACTGTAGATAACTCTTAAAGAAAATGTCATTTTAGACAATTAAAATATTTGTGCTCAACT
GCTTGAACTTTTTTCGTGTATGTGTATTTAATTCTATGCAATATTATCACATGTGTAGATTCATGTGACCACCATCACAAGAGACAGAAC
AGTTCTGTCACATGGATCCCTTGCACTGCCCTTTTACAGCCGCAGCCACATCCCTTTCTTATACCCTCACCCCAACCTGTGGCTACCACT
GTTCTGTCCTCCATCTCTGTAATTTTGTCATTTCAAGAATGTTGTATGAATGGAATCATACAGAATGTAATCTTACGAGGCTGATCTTTT
TTCATTCAGCATAATTCCCTTGAAATCCATCCAAGTTGTTGCATGTATGAATAGTTTCTTCCTTTTTTTCTTTTAAAAATGTTTTATATA
TTTAGGGGGTATAAGTACAGATTTCTTACATGCATATATTGCATCGTGGTGAAGTGGGGGCAGTTCCTTTTGATTGCTGAGTAGTATTCC
ATGGTATGGATGTACCACAGTTTGCTTAACCATTCACCCACTAAAGGACATAAGAGTTGTTTTCAGTTTTTTGCCCTAATAAAGCTGCTG
TGAACATTCATGTACAGGTTTTTATGTGAACATACATTTTCATTTTCTGGGATAAATGCTCAAAAGGGCAACTGTTGGGTTGTATGGTAA
ACACATATATTTTTGTAAGAAACTACCCTACTCTTTTTCCAGAGTGGCTCTACTTTTTACATACAGCCACTCATACAATTCAGACAGCAA
TGTATGATTGATCCAGTTTCTTCACATCCTCACCAGCATTTGGTATTACTACTATTTTTTATCTTAACCATTCACATAGATGTGTGTAAT
GATACCACATGTGGTTTTAATTTGCATTTCCAATGGCTAATGATGTTGAGTATCTTTTTGTGTGCTAATTTGCCATCTATGTATCCTCTT
CGGTGAAATGTCTTCATGTCTTTTGTCTATTTTCTATTTAGGTCATTTGTTCTTTTTACTATTGAGTTTTGAGAGGTTTTTTATATATCC
TAGATAAAATTCCTCTGTTAGATATGTGGTTGCTTGAATTTTTAACATAACTTCTACCAAGGAAAAATAAGTAAAATTTCCAACCCTTGC
ATGGCCAGTCACTTACTTAATTCCTGTCCTTCAGTGTTCCATCTAGAGAATTAAGAGATATGATGTATAAAATAGACATCGAGGGCCATT
AAGAGAGTAAATACTTAAAAATACATGTTATGAAAGCAAAGCCAATAATCACTGTAGGAGTATGAGTTGCCTAAGGGCCAAAACTAATGT
AAATAAGAGAAAGTGTGGATATAAATGACCATTGTTTATAAACAGTTATGAAAAATGCTGTGACTTGAAATCTTTCCCACATCTCCCAAG
AAAGTAGGTAGGAGTTTATCCTTTCCGTAATCTCTTTTTAACCCTGCTGACTATTACAGGGCTTGTTTAATCACAGTGGCAAGAATTACA
TGTATCTTACAGTAAAGAAACAGAATACTGGAATCGTTAGAGAACCCTGATGTGTTGACCTGGATAAAGTACAAAGGTGGAAGAGGGAAT
GAGTTATGCTGTTAAAATCTCAGGCTATTCTGTTAATGTTCCTGCTACTATGAACCCAAACTTTTTTTTTCCCCCTTTTGACTCCTTGTG
TCTTCCTCTCCTGTGGCATAAAAGTAGTTCTGTCGTTAACTTGTACAACATTGCCATCTGCTGTTGAGAATTGGTAGGTACTGCTTCTGA
GAACCTGGCTGCAGATCCTTAGCATAGGCAGCAAATGTTGAGAAAGTCTATCTGTAGTATTACATATACTAAGTTACAGAGGATGCATCC
AAGTAGAGAAAATAATATGTGGGTTAAGATACATCCTTAAACTTTTTTTTTTTTGGGGGGGGGGGGACGGAGTCTTGCTGCAACGCCCAG
GCTGGAGTGCAATGGCACTATCTCAGCTCGCTGCAACCTTCACCTCCTGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCTGAGTAGCTGG
GAATATAGGTGCACACCACCATGCCTGGCTAATTTTTGTATTTTCAGTAGAAGCAGAGTTTCACCATATTGGCCAGGTTGGTCTCGAACT
CCTGACCTCAAGTGATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACACGCGTGAGCCACCACACCCAGCCTCCATCTTTAAACTT
TTAAATGTGAAATTTCTATCATGTACCGTTAGCCTAACAAGATTTTCTTTCCTATTTCTGACTGGTGCCTTTCCCCTTTTTAGGAGCAAC
GAAAGCTACTCTCTTAGTTATGTTCTTGTGATGTGACAAAATGTCAAGAAGATAGGAGAAGAGAATATTTTATTTCGTTGATGCTTTTGT
TCCCAAGTGTGACCCTAAACTTAAGCTTTGTAGGAGTTGACATTCTTTCATGTCCCTTCCCTTTACTCATGCCGAAACTATCAACTGGGA
CATTTTGTGCTTTTGGTTTAAAAGTTAATTGATATTATACTTTGGTTTTATCTAAAAAGTAAATGTATTTGCCTTTGACAAAAGACTGAC
ACAAGAGCAAATAAGCTTTAAAATCGGGTGTTATGTGCTTTCCTCCATTTTTGAGCATATTATCCAAAATGGTCTGTATAATATAAATGA
GAATGATGCAGTTTAAGTAAGCCTTGTTATACCATTGTCATGGACCCCTGTCATAAAGCCATTTCTTGGTTTGTTTGGGAAAGAGGCATA

>95191_95191_4_TTLL5-TMED10_TTLL5_chr14_76259443_ENST00000557636_TMED10_chr14_75618846_ENST00000303575_length(amino acids)=1216AA_BP=1072
MPIVMARDLEETASSSEDEEVISQEDHPCIMWTGGCRRIPVLVFHADAILTKDNNIRVIGERYHLSYKIVRTDSRLVRSILTAHGFHEVH
PSSTDYNLMWTGSHLKPFLLRTLSEAQKVNHFPRSYELTRKDRLYKNIIRMQHTHGFKAFHILPQTFLLPAEYAEFCNSYSKDRGPWIVK
PVASSRGRGVYLINNPNQISLEENILVSRYINNPLLIDDFKFDVRLYVLVTSYDPLVIYLYEEGLARFATVRYDQGAKNIRNQFMHLTNY
SVNKKSGDYVSCDDPEVEDYGNKWSMSAMLRYLKQEGRDTTALMAHVEDLIIKTIISAELAIATACKTFVPHRSSCFELYGFDVLIDSTL
KPWLLEVNLSPSLACDAPLDLKIKASMISDMFTVVGFVCQDPAQRASTRPIYPTFESSRRNPFQKPQRPVSAQFQSSKAKQRCRPLSASD
AEMKNLVGSAREKGPGKLGGSVLGLSMEEIKVLRRVKEENDRRGGFIRIFPTSETWEIYGSYLEHKTSMNYMLATRLFQDRMTADGAPEL
KIESLNSKAKLHAALYERKLLSLEVRKRRRRSSRLRAMRPKYPVITQPAEMNVKTETESEEEEEVALDNEDEEQEASQEESAGFLRENQA
KYTPSLTALVENTPKENSMKVREWNNKGGHCCKLETQELEPKFNLMQILQDNGNLSKMQARIAFSAYLQHVQIRLMKDSGGQTFSASWAA
KEDEQMELVVRFLKRASNNLQHSLRMVLPSRRLALLERRRILAHQLGDFIIVYNKETEQMAEKKSKKKVEEEEEDGVNMENFQEFIRQAS
EAELEEVLTFYTQKNKSASVFLGTHSKISKNNNNYSDSGAKGDHPETIMEEVKIKPPKQQQTTEIHSDKLSRFTTSAEKEAKLVYSNSSS
GPTATLQKIPNTHLSSVTTSDLSPGPCHHSSLSQIPSAIPSMPHQPTILLNTVSASASPCLHPGAQNIPSPTGLPRCRSGSHTIGPFSSF
QSAAHIYSQKLSRPSSAKAAGSCYLNKHHSGIAKTQKEGEDASLYSKRYNQSMVTAELQRLAEKQAARQYSPSSHINLLTQQITDSAGHI
LYSKEDATKGKFAFTTEDYDMFEVCFESKGTGRIPDQLVILDMKHGVEAKNYEEIAKVEKLKPLEVELRRLEDLSESIVNDFAYMKKREE

--------------------------------------------------------------

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Fusion Gene PPI Analysis for TTLL5-TMED10

Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in
ChiPPI page.

Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160)

Hgene

Hgene's interactors

Tgene

Tgene's interactors

- Retained PPIs in in-frame fusion.

Partner	Gene	Hbp	Tbp	ENST	Strand	BPexon	TotalExon	Protein feature loci	*BPloci	TotalLen	Still interaction with
Tgene	TMED10	chr14:76259443	chr14:75618846	ENST00000303575		0	5	207_219	75.0	220.0	ARF1 and IL1B
Tgene	TMED10	chr14:76259443	chr14:75618846	ENST00000303575		0	5	204_219	75.0	220.0	COPG1

- Lost PPIs in in-frame fusion.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Interaction lost with

- Retained PPIs, but lost function due to frame-shift fusion.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Interaction lost with

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Related Drugs for TTLL5-TMED10

Drugs targeting genes involved in this fusion gene.
(DrugBank Version 5.1.8 2021-05-08)

Partner

Gene

UniProtAcc

DrugBank ID

Drug name

Drug activity

Drug type

Drug status

Top

Related Diseases for TTLL5-TMED10

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source