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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:PITPNM1-PITPNM2 (FusionGDB2 ID:65606)

Fusion Gene Summary for PITPNM1-PITPNM2

Fusion gene summary

Fusion gene information	Fusion gene name: PITPNM1-PITPNM2
	Fusion gene ID: 65606
		Hgene	Tgene
	Gene symbol	PITPNM1	PITPNM2
	Gene ID	9600	57605
	Gene name	phosphatidylinositol transfer protein membrane associated 1	phosphatidylinositol transfer protein membrane associated 2
	Synonyms	DRES9\|NIR2\|PITPNM\|RDGB\|RDGB1\|RDGBA\|RDGBA1\|Rd9	NIR-3\|NIR3\|RDGB2\|RDGBA2
	Cytomap	11q13.2	12q24.31
	Type of gene	protein-coding	protein-coding
	Description	membrane-associated phosphatidylinositol transfer protein 1NIR-2PITPnm 1PYK2 N-terminal domain-interacting receptor 2drosophila retinal degeneration B homologretinal degeneration B alpha 1	membrane-associated phosphatidylinositol transfer protein 2PYK2 N-terminal domain-interacting receptor 3retinal degeneration B alpha 2
	Modification date	20200313	20200313
	UniProtAcc	.	.
	Ensembl transtripts involved in fusion gene	ENST00000356404, ENST00000436757, ENST00000534749, ENST00000526450,	ENST00000451868, ENST00000280562, ENST00000392428, ENST00000542749, ENST00000546049, ENST00000320201,
Fusion gene scores	* DoF score	5 X 5 X 3=75	7 X 6 X 6=252
	# samples	5	7
	** MAII score	log2(5/75*10)=-0.584962500721156 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(7/252*10)=-1.84799690655495 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0
Context	PubMed: PITPNM1 [Title/Abstract] AND PITPNM2 [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	PITPNM1(67269974)-PITPNM2(123497281), # 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	PITPNM1	GO:0015914	phospholipid transport	22822086
Tgene	PITPNM2	GO:0048015	phosphatidylinositol-mediated signaling	10022914

Fusion gene breakpoints across PITPNM1 (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 PITPNM2 (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	Non-Cancer	135N	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-

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Fusion Gene ORF analysis for PITPNM1-PITPNM2

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-5UTR	ENST00000356404	ENST00000451868	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-5UTR	ENST00000436757	ENST00000451868	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-5UTR	ENST00000534749	ENST00000451868	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000356404	ENST00000280562	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000356404	ENST00000392428	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000356404	ENST00000542749	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000356404	ENST00000546049	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000436757	ENST00000280562	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000436757	ENST00000392428	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000436757	ENST00000542749	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000436757	ENST00000546049	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000534749	ENST00000280562	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000534749	ENST00000392428	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000534749	ENST00000542749	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
5CDS-intron	ENST00000534749	ENST00000546049	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
In-frame	ENST00000356404	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
In-frame	ENST00000436757	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
In-frame	ENST00000534749	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-3CDS	ENST00000526450	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-5UTR	ENST00000526450	ENST00000451868	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-intron	ENST00000526450	ENST00000280562	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-intron	ENST00000526450	ENST00000392428	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-intron	ENST00000526450	ENST00000542749	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-
intron-intron	ENST00000526450	ENST00000546049	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-

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)
ENST00000534749	PITPNM1	chr11	67269974	-	ENST00000320201	PITPNM2	chr12	123497281	-	6786	482	120	4238	1372
ENST00000436757	PITPNM1	chr11	67269974	-	ENST00000320201	PITPNM2	chr12	123497281	-	6816	512	138	4268	1376
ENST00000356404	PITPNM1	chr11	67269974	-	ENST00000320201	PITPNM2	chr12	123497281	-	6823	519	145	4275	1376

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
ENST00000534749	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-	0.002558755	0.9974413
ENST00000436757	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-	0.002645856	0.99735415
ENST00000356404	ENST00000320201	PITPNM1	chr11	67269974	-	PITPNM2	chr12	123497281	-	0.002655238	0.9973448

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Fusion Genomic Features for PITPNM1-PITPNM2

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 PITPNM1-PITPNM2

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr11:67269974/chr12:123497281)
- 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

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000280562

612_632

1344.0

Compositional bias

Note=Gly-rich

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000320201

612_632

1350.0

Compositional bias

Note=Gly-rich

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000542749

612_632

1350.0

Compositional bias

Note=Gly-rich

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000280562

715_963

1344.0

Domain

DDHD

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000320201

715_963

1350.0

Domain

DDHD

Tgene

PITPNM2

chr11:67269974

chr12:123497281

ENST00000542749

715_963

1350.0

Domain

DDHD

- 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

PITPNM1

chr11:67269974

chr12:123497281

ENST00000356404

310_319

1245.0

Compositional bias

Note=Poly-Ser

Hgene

PITPNM1

chr11:67269974

chr12:123497281

ENST00000436757

310_319

1244.0

Compositional bias

Note=Poly-Ser

Hgene

PITPNM1

chr11:67269974

chr12:123497281

ENST00000534749

310_319

1245.0

Compositional bias

Note=Poly-Ser

Hgene

PITPNM1

chr11:67269974

chr12:123497281

ENST00000356404

686_880

1245.0

Domain

DDHD

Hgene

PITPNM1

chr11:67269974

chr12:123497281

ENST00000436757

686_880

1244.0

Domain

DDHD

Hgene

PITPNM1

chr11:67269974

chr12:123497281

ENST00000534749

686_880

1245.0

Domain

DDHD

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Fusion Gene Sequence for PITPNM1-PITPNM2

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.

>65606_65606_1_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000356404_PITPNM2_chr12_123497281_ENST00000320201_length(transcript)=6823nt_BP=519nt
AGGGACTGCAGGGGCGCCGGCGGGCGGATCGAGAGGAAGGTCGGGGCCATGGGCCGGCACTGCGCCTCGGGAGGGTCCGGCCACCGCTGG
AACCCGAGGCCGGGGCTGGGGGCGCTCCGGGCTCCGACCCACGGGCCGGCCGGCCCTGCCCGGGCTGGGTGAGGGGCGCCCGCCTCAAGC
TAGAGGAGGAGCGGAGGCCGCGCGCGGCCCGCCGAGCGCCTTCAGGATGCTCATCAAGGAATACCACATTCTGCTGCCCATGAGCCTGGA
CGAGTACCAGGTGGCCCAGCTCTACATGATCCAGAAAAAGAGCCGGGAGGAGTCTAGTGGTGAGGGCAGCGGCGTGGAGATCCTGGCCAA
CCGGCCCTACACGGATGGGCCCGGGGGCAGCGGGCAATACACACACAAGGTGTACCACGTGGGCTCCCACATCCCAGGCTGGTTCCGGGC
ACTGCTGCCCAAGGCTGCCCTGCAGGTAGAAGAGGAATCCTGGAATGCCTACCCCTACACCCGAACCCGGTTCACCTGTCCTTTCGTGGA
GAAATTCTCCATCGACATTGAAACCTTTTATAAAACTGATGCTGGAGAAAACCCCGACGTGTTCAACCTCTCTCCTGTGGAAAAGAACCA
GCTGACAATCGACTTCATCGACATTGTCAAAGACCCTGTGCCCCACAACGAGTATAAGACAGAAGAGGACCCCAAGCTGTTCCAGTCAAC
CAAGACCCAGCGGGGGCCCCTGTCCGAGAACTGGATCGAGGAGTACAAGAAGCAGGTCTTCCCCATCATGTGCGCATACAAGCTCTGCAA
GGTGGAGTTCCGCTACTGGGGCATGCAGTCCAAGATCGAGAGGTTCATCCACGACACCGGACTACGGAGGGTGATGGTGCGGGCTCACCG
GCAGGCCTGGTGCTGGCAGGACGAGTGGTATGGGCTGAGCATGGAGAACATCCGGGAGCTGGAGAAGGAGGCACAGCTCATGCTTTCCCG
TAAGATGGCCCAGTTCAATGAGGATGGTGAGGAGGCCACTGAGCTCGTCAAGCACGAAGCCGTCTCGGACCAGACCTCTGGGGAGCCCCC
GGAGCCCAGCAGCAGCAATGGGGAGCCCCTAGTGGGGCGCGGCCTCAAGAAACAGTGGTCCACATCCTCCAAGTCGTCTCGGTCGTCCAA
GCGGGGAGCGAGTCCTTCCCGCCACAGCATCTCAGAGTGGAGGATGCAGAGTATTGCCAGGGACTCGGATGAGAGCTCAGATGATGAGTT
CTTCGATGCGCACGAGGACCTGTCCGACACAGAGGAAATGTTCCCCAAGGACATCACCAAGTGGAGCTCCAATGACCTCATGGACAAGAT
CGAGAGCCCAGAGCCGGAAGACACACAAGATGGTCTGTACCGCCAGGGTGCCCCTGAGTTCAGGGTGGCCTCCAGTGTGGAGCAGCTGAA
CATCATAGAGGACGAGGTTAGCCAGCCGCTGGCTGCACCGCCCTCCAAGATCCACGTGCTGCTACTGGTGCTGCACGGAGGCACCATCCT
GGACACAGGCGCCGGGGACCCCAGCTCCAAGAAGGGCGATGCTAACACCATCGCCAACGTGTTCGACACCGTCATGCGCGTGCACTACCC
CAGCGCCCTGGGCCGCCTTGCCATCCGCCTGGTGCCCTGCCCGCCCGTCTGCTCTGACGCCTTTGCCCTGGTCTCCAACCTCAGCCCCTA
CAGCCATGACGAAGGCTGTCTGTCCAGCAGTCAGGACCACATTCCCCTGGCTGCCCTCCCCCTGCTGGCCACCTCCTCCCCCCAGTACCA
GGAGGCAGTTGCCACAGTGATTCAGCGAGCCAACCTTGCCTATGGGGACTTCATCAAGTCCCAGGAGGGCATGACCTTCAATGGGCAGGT
CTGCCTGATTGGGGACTGCGTCGGGGGCATCCTGGCATTTGATGCCCTGTGCTACAGTAACCAGCCGGTGTCTGAGAGTCAGAGCAGCAG
CCGCCGGGGCAGCGTGGTCAGCATGCAGGACAATGACCTGCTGTCCCCGGGCATCCTGATGAATGCAGCACACTGCTGCGGTGGTGGCGG
TGGCGGCGGTGGCGGTGGTGGCAGCAGTGGTGGTGGTGGCAGTAGTGGTGGCTCCAGCCTGGAGAGCAGTCGGCACCTGAGCCGAAGCAA
CGTCGACATCCCCCGCAGCAACGGCACTGAGGACCCCAAAAGGCAACTGCCCCGCAAGAGGAGCGACTCATCCACCTACGAGCTGGATAC
CATCCAGCAGCACCAGGCCTTCCTGTCCAGCCTCCATGCCAGCGTGCTGAGGACTGAGCCCTGCTCACGCCATTCCAGCAGCTCCACCAT
GCTGGATGGCACAGGTGCCCTGGGCAGGTTTGACTTTGAGATCACCGACCTCTTCCTCTTCGGGTGCCCGCTGGGGCTGGTCCTGGCCTT
GAGGAAGACTGTCATCCCAGCCCTGGATGTTTTCCAGCTGCGGCCGGCCTGCCAGCAAGTCTACAACCTCTTCCACCCCGCGGACCCGTC
AGCTTCACGCCTGGAGCCGCTGCTGGAACGGCGCTTTCACGCCCTGCCGCCTTTCAGCGTCCCCCGCTACCAACGCTACCCGCTGGGGGA
TGGCTGCTCCACGCTGCTGGCGGATGTGCTCCAGACCCACAATGCAGCCTTCCAAGAGCATGGCGCCCCCTCCTCGCCGGGCACTGCCCC
TGCCAGTCGTGGCTTCCGCCGAGCCAGTGAGATCAGCATCGCCAGCCAGGTGTCAGGCATGGCTGAGAGCTACACGGCATCCAGCATCGC
CCAGAAGGCCCCCGATGCGCTCAGCCATACCCCCAGCGTCAGGCGTCTGTCCCTGCTCGCCCTGCCCGCCCCCAGCCCCACCACCCCTGG
CCCCCACCCTCCAGCCAGGAAGGCAAGCCCTGGCCTGGAGAGGGCCCCTGGCCTCCCTGAGCTGGACATTGGAGAAGTCGCTGCAAAGTG
GTGGGGCCAGAAGCGGATCGACTACGCCCTGTACTGCCCTGACGCCCTCACGGCCTTCCCCACGGTGGCTCTGCCTCACCTCTTCCACGC
CAGCTACTGGGAGTCAACAGACGTGGTCTCCTTTCTGCTGAGACAGGTCATGAGGCATGACAACTCCAGCATCTTGGAGCTGGATGGCAA
GGAAGTGTCGGTGTTCACCCCCTCAAAGCCAAGGGAGAAGTGGCAGCGCAAGCGGACCCACGTGAAGCTGCGGAACGTGACGGCCAACCA
CCGGATCAATGATGCCCTTGCCAATGAGGACGGCCCCCAGGTTCTGACGGGCAGGTTCATGTATGGGCCCCTGGACATGGTCACCCTGAC
TGGGGAGAAGGTGGATGTGCACATCATGACCCAGCCGCCCTCAGGCGAGTGGCTCTACCTGGATACGCTGGTGACCAACAACAGTGGGCG
TGTCTCCTACACCATCCCTGAGTCGCACCGCCTGGGCGTGGGTGTCTACCCTATCAAGATGGTGGTCAGGGGAGACCACACGTTTGCCGA
CAGCTACATCACCGTGCTGCCCAAGGGCACAGAGTTCGTGGTCTTCAGCATCGACGGTTCCTTTGCCGCTAGCGTGTCCATCATGGGCAG
CGACCCCAAGGTGCGGGCCGGGGCCGTGGACGTGGTGCGGCACTGGCAGGACCTGGGCTACCTCATCATCTACGTGACGGGCCGGCCCGA
CATGCAGAAGCAGCGGGTGGTGGCGTGGCTGGCCCAGCACAACTTCCCCCATGGCGTGGTGTCCTTCTGTGACGGCCTGGTGCATGACCC
GCTGCGGCACAAGGCCAACTTCCTGAAGCTGCTCATCTCCGAGCTGCACCTGCGCGTGCACGCGGCCTATGGCTCCACCAAGGACGTGGC
GGTGTACAGCGCCATTAGCCTGTCCCCCATGCAGATCTACATCGTGGGCCGGCCCACCAAGAAGCTGCAGCAGCAGTGCCAGTTCATCAC
GGATGGCTACGCGGCCCACCTGGCGCAGCTGAAGTACAGCCACCGGGCGCGGCCCGCTCGCAACACGGCCACCCGCATGGCGCTGCGCAA
GGGCAGCTTCGGCCTGCCCGGCCAGGGCGACTTTCTGCGCTCCCGGAACCACCTGCTTCGCACCATCTCGGCCCAGCCCAGCGGGCCCAG
CCACCGGCACGAGCGGACACAGAGCCAGGCGGATGGCGAGCAGCGGGGCCAGCGCAGCATGAGTGTGGCGGCCGGCTGCTGGGGCCGCGC
CATGACTGGCCGCCTGGAGCCGGGGGCAGCCGCGGGCCCCAAGTAGGGCACCGTGAGTGCAGCGCGGGGTCTCCATGGTGCTAGGCCAGG
GTGGCCAGCCCCGCCAGGAGGCCTGGCCTGGGCACACGCACTGACGTGGGCCTGGGAGATTGTCCCAGGGCCTTGTGGAGGACACGGGCC
GCACCACACAGTGCTCCCTGCCCTGCCTCACGTCCTCGGGCCTGACGGGTCCGGCTTGTCATGGAAGCTGGCAGGGACCACCAGCCCCAG
GATGGCAGAGGGACCAGAACCTCCCACTCAGACTGGCCCGGGAGGTTCTCCCAGACATTTTGCCCTGTGTGGATCTCCAAGTGTCCTGGT
GCCAGGTGTGGGCCCAGGCGCAGCCTGCCACCTCCCCATCCACTGGCCACCCTCACTCCCAGGTCCCCTCCCATTTGGTAGCAGCTCCAA
CAGGGGTCCAGCCTGCATCTTGTTAACTCGAGTTTCTCAACTGTTCAACCTCACTGGTTTTGCACTGATTTTTGAGAGCGGAGACCCATT
ACCACCTCCTATGGCTACAGCCCCGTTGACATGCATGAAACTCAGTACCTGCTGACCCAGGACCTACAACCACACTGAAGGCTCCAGTGC
GGCAGAGCCTCGTGCAAGCAGGAGAGAAAGGCTGTATCTTAATTTCTGCACCCCGGACCCTGCCCACCTGTCTGCCTGCCCCGCCTGGAG
CCCAGGCCAGTGTTGTTTCCAGCCTCAGGCCACGGGCTGGACGGGCCTGGCCGCCTCTTCCGCTCCCTGCCATCAGTCAAGGCCGCCCGC
CCACGTTTCTACGCCTTTCTACTTCTCAATCTGATTTCTATGAGGTTTTTTTAAACGAGCAATCCTTGGCTGCTTCCTTTTCTTAACTCT
TTCAGTACTGAGAGCAGCCCCTCCACACTGAAAACACCCAGCACTGTGACGGAGTCCAGCCTGGTTCTGGGTCCCGTGGGCCCTGCTCCT
GCCCACTTAGCGAGGCATGGGCTCCTTGCCTCACCTGGCCCCGGCAATCCCACTGAATTTCTACTCTGGGGTGGGTGGGGCACACACTTC
GGTTTTTTTAATGCCAATTCCGTTTTCATGCCGAATCTAAGAAGCCACAACTTGCTTTGTCAGCTTCAGGGCAGGCAGCCATGACTTCAT
TTCTCGCCTGAACAAGGACCATGCTGTCCTGCACGCTGGGTCTGACCGTCTGCCCTCTCTCCCCAGCACCAAGCGTGACCTTGGCTGTGG
CGCTCAACGGCCAGCTCCGGCGGCCCCTCTGCTGCTCCTCGGCTTTCCCGGAAGTGGGAGAGCCTGCCTGGCCTCGGCCTTTGTCCAGCG
ACCAGGCTCTGTCCCCGAGAAGCTACGGCCGACCTGGGTCTGGTGTTGGGACGCATGGACCGGGCTGGGGAGGTGCACAGAGTGATGTTA
ACTTTTTCCCGTGTGTAGATATGTACAGCCAAAGGGTCGTGTAAATGTTCTGCAAAAGTGGGTCTATACAGAGTGAAAGCTATTTATTTT
GTGCAGAGAAAAAAGTCTGGAGGGATGGAACCTTCAGGGTTTATTCATATTTAAGATGTAGCTTTTTGTTGTTTCAGGCATTATGTATAA
AGCAACGATTATTTTATGGACCAAGTTTTCATGTAACTGTTGCAGTGAAAGTGCAATATCTGACCCCCCTGCTCCCAGCAGGAAGTTGCT
TGGCCCGACAATCACAGCCCCTGTCAGGGGCCCTGTGGCCAGTGCCTCCTCCTCTCTTGGCCCCACCTTATCCTGTCTTGCCTGCTGCCT
GGGAGACCAGCCATCCAGAGAAGCACCTGGAAGAGTCTCGGGCCCTCCTGCAATAAAGGCCGGGAGGCCCTGTGGGCAGTGGGCTCAGCC
TCTCCCCAGGGGGGCAGCTCCCCCACGGCTCCTCACTCCCCGCCTGCCTGCCCAGCCGCCAGCCATGCCAAGGACAACAGCAATAGTCCC
CTGGGGCTCTCCCAGCGGCCCTCAGCCATAGATGGCAAGGTGGGCAGCCTGCCCCCCCATGGGAAGTCTCTTCTGTATCCAGGTCTGCTT
TCCACCTCCCTTCAGATTCCTTTTGGCACATTCTCCTCTTGAGGAAGTACCAGTCTTTCTGAAACTAAGAGAGGGAGGGCAGCGTCCTTT
AAAAATACCAAAAATGTTTACAGAGTTGGGTGCTGAGCTGCAGGGCTCAGGCCTGACCAGTCATAACCAAAGGGTGAGGCAGGCCTTGCT
GACTGCCACCCCCCAGGCCTGTTAGAATAGAAGCCTTAGTCCCACTCCCACCACACCCCCACGCCCCACCACCTGCCTTCTCTTTGATTT
CTAAAGAGGGATTCAGCAGAGACCCCCCACCCCTCCCTGGCTCGGTCTGAGTCCCACTGCCCACCCCATCACAGCCTTCACGTCTCAGCC
CCTCCCGTCTGGTCTGTCCGTGTGCCGTCTGTTTCTCTGGGCCATGTGTGAGCAGTGTCCCCATCTCCCCATCCGTCCCTGCTGTCCCCG

>65606_65606_1_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000356404_PITPNM2_chr12_123497281_ENST00000320201_length(amino acids)=1376AA_BP=52
MPGLGEGRPPQARGGAEAARGPPSAFRMLIKEYHILLPMSLDEYQVAQLYMIQKKSREESSGEGSGVEILANRPYTDGPGGSGQYTHKVY
HVGSHIPGWFRALLPKAALQVEEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEY
KTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIR
ELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSI
ARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIH
VLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAA
LPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGI
LMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRT
EPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPF
SVPRYQRYPLGDGCSTLLADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSL
LALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMR
HDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWL
YLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDL
GYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRP
TKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQR

--------------------------------------------------------------
>65606_65606_2_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000436757_PITPNM2_chr12_123497281_ENST00000320201_length(transcript)=6816nt_BP=512nt
GCAGGGGCGCCGGCGGGCGGATCGAGAGGAAGGTCGGGGCCATGGGCCGGCACTGCGCCTCGGGAGGGTCCGGCCACCGCTGGAACCCGA
GGCCGGGGCTGGGGGCGCTCCGGGCTCCGACCCACGGGCCGGCCGGCCCTGCCCGGGCTGGGTGAGGGGCGCCCGCCTCAAGCTAGAGGA
GGAGCGGAGGCCGCGCGCGGCCCGCCGAGCGCCTTCAGGATGCTCATCAAGGAATACCACATTCTGCTGCCCATGAGCCTGGACGAGTAC
CAGGTGGCCCAGCTCTACATGATCCAGAAAAAGAGCCGGGAGGAGTCTAGTGGTGAGGGCAGCGGCGTGGAGATCCTGGCCAACCGGCCC
TACACGGATGGGCCCGGGGGCAGCGGGCAATACACACACAAGGTGTACCACGTGGGCTCCCACATCCCAGGCTGGTTCCGGGCACTGCTG
CCCAAGGCTGCCCTGCAGGTAGAAGAGGAATCCTGGAATGCCTACCCCTACACCCGAACCCGGTTCACCTGTCCTTTCGTGGAGAAATTC
TCCATCGACATTGAAACCTTTTATAAAACTGATGCTGGAGAAAACCCCGACGTGTTCAACCTCTCTCCTGTGGAAAAGAACCAGCTGACA
ATCGACTTCATCGACATTGTCAAAGACCCTGTGCCCCACAACGAGTATAAGACAGAAGAGGACCCCAAGCTGTTCCAGTCAACCAAGACC
CAGCGGGGGCCCCTGTCCGAGAACTGGATCGAGGAGTACAAGAAGCAGGTCTTCCCCATCATGTGCGCATACAAGCTCTGCAAGGTGGAG
TTCCGCTACTGGGGCATGCAGTCCAAGATCGAGAGGTTCATCCACGACACCGGACTACGGAGGGTGATGGTGCGGGCTCACCGGCAGGCC
TGGTGCTGGCAGGACGAGTGGTATGGGCTGAGCATGGAGAACATCCGGGAGCTGGAGAAGGAGGCACAGCTCATGCTTTCCCGTAAGATG
GCCCAGTTCAATGAGGATGGTGAGGAGGCCACTGAGCTCGTCAAGCACGAAGCCGTCTCGGACCAGACCTCTGGGGAGCCCCCGGAGCCC
AGCAGCAGCAATGGGGAGCCCCTAGTGGGGCGCGGCCTCAAGAAACAGTGGTCCACATCCTCCAAGTCGTCTCGGTCGTCCAAGCGGGGA
GCGAGTCCTTCCCGCCACAGCATCTCAGAGTGGAGGATGCAGAGTATTGCCAGGGACTCGGATGAGAGCTCAGATGATGAGTTCTTCGAT
GCGCACGAGGACCTGTCCGACACAGAGGAAATGTTCCCCAAGGACATCACCAAGTGGAGCTCCAATGACCTCATGGACAAGATCGAGAGC
CCAGAGCCGGAAGACACACAAGATGGTCTGTACCGCCAGGGTGCCCCTGAGTTCAGGGTGGCCTCCAGTGTGGAGCAGCTGAACATCATA
GAGGACGAGGTTAGCCAGCCGCTGGCTGCACCGCCCTCCAAGATCCACGTGCTGCTACTGGTGCTGCACGGAGGCACCATCCTGGACACA
GGCGCCGGGGACCCCAGCTCCAAGAAGGGCGATGCTAACACCATCGCCAACGTGTTCGACACCGTCATGCGCGTGCACTACCCCAGCGCC
CTGGGCCGCCTTGCCATCCGCCTGGTGCCCTGCCCGCCCGTCTGCTCTGACGCCTTTGCCCTGGTCTCCAACCTCAGCCCCTACAGCCAT
GACGAAGGCTGTCTGTCCAGCAGTCAGGACCACATTCCCCTGGCTGCCCTCCCCCTGCTGGCCACCTCCTCCCCCCAGTACCAGGAGGCA
GTTGCCACAGTGATTCAGCGAGCCAACCTTGCCTATGGGGACTTCATCAAGTCCCAGGAGGGCATGACCTTCAATGGGCAGGTCTGCCTG
ATTGGGGACTGCGTCGGGGGCATCCTGGCATTTGATGCCCTGTGCTACAGTAACCAGCCGGTGTCTGAGAGTCAGAGCAGCAGCCGCCGG
GGCAGCGTGGTCAGCATGCAGGACAATGACCTGCTGTCCCCGGGCATCCTGATGAATGCAGCACACTGCTGCGGTGGTGGCGGTGGCGGC
GGTGGCGGTGGTGGCAGCAGTGGTGGTGGTGGCAGTAGTGGTGGCTCCAGCCTGGAGAGCAGTCGGCACCTGAGCCGAAGCAACGTCGAC
ATCCCCCGCAGCAACGGCACTGAGGACCCCAAAAGGCAACTGCCCCGCAAGAGGAGCGACTCATCCACCTACGAGCTGGATACCATCCAG
CAGCACCAGGCCTTCCTGTCCAGCCTCCATGCCAGCGTGCTGAGGACTGAGCCCTGCTCACGCCATTCCAGCAGCTCCACCATGCTGGAT
GGCACAGGTGCCCTGGGCAGGTTTGACTTTGAGATCACCGACCTCTTCCTCTTCGGGTGCCCGCTGGGGCTGGTCCTGGCCTTGAGGAAG
ACTGTCATCCCAGCCCTGGATGTTTTCCAGCTGCGGCCGGCCTGCCAGCAAGTCTACAACCTCTTCCACCCCGCGGACCCGTCAGCTTCA
CGCCTGGAGCCGCTGCTGGAACGGCGCTTTCACGCCCTGCCGCCTTTCAGCGTCCCCCGCTACCAACGCTACCCGCTGGGGGATGGCTGC
TCCACGCTGCTGGCGGATGTGCTCCAGACCCACAATGCAGCCTTCCAAGAGCATGGCGCCCCCTCCTCGCCGGGCACTGCCCCTGCCAGT
CGTGGCTTCCGCCGAGCCAGTGAGATCAGCATCGCCAGCCAGGTGTCAGGCATGGCTGAGAGCTACACGGCATCCAGCATCGCCCAGAAG
GCCCCCGATGCGCTCAGCCATACCCCCAGCGTCAGGCGTCTGTCCCTGCTCGCCCTGCCCGCCCCCAGCCCCACCACCCCTGGCCCCCAC
CCTCCAGCCAGGAAGGCAAGCCCTGGCCTGGAGAGGGCCCCTGGCCTCCCTGAGCTGGACATTGGAGAAGTCGCTGCAAAGTGGTGGGGC
CAGAAGCGGATCGACTACGCCCTGTACTGCCCTGACGCCCTCACGGCCTTCCCCACGGTGGCTCTGCCTCACCTCTTCCACGCCAGCTAC
TGGGAGTCAACAGACGTGGTCTCCTTTCTGCTGAGACAGGTCATGAGGCATGACAACTCCAGCATCTTGGAGCTGGATGGCAAGGAAGTG
TCGGTGTTCACCCCCTCAAAGCCAAGGGAGAAGTGGCAGCGCAAGCGGACCCACGTGAAGCTGCGGAACGTGACGGCCAACCACCGGATC
AATGATGCCCTTGCCAATGAGGACGGCCCCCAGGTTCTGACGGGCAGGTTCATGTATGGGCCCCTGGACATGGTCACCCTGACTGGGGAG
AAGGTGGATGTGCACATCATGACCCAGCCGCCCTCAGGCGAGTGGCTCTACCTGGATACGCTGGTGACCAACAACAGTGGGCGTGTCTCC
TACACCATCCCTGAGTCGCACCGCCTGGGCGTGGGTGTCTACCCTATCAAGATGGTGGTCAGGGGAGACCACACGTTTGCCGACAGCTAC
ATCACCGTGCTGCCCAAGGGCACAGAGTTCGTGGTCTTCAGCATCGACGGTTCCTTTGCCGCTAGCGTGTCCATCATGGGCAGCGACCCC
AAGGTGCGGGCCGGGGCCGTGGACGTGGTGCGGCACTGGCAGGACCTGGGCTACCTCATCATCTACGTGACGGGCCGGCCCGACATGCAG
AAGCAGCGGGTGGTGGCGTGGCTGGCCCAGCACAACTTCCCCCATGGCGTGGTGTCCTTCTGTGACGGCCTGGTGCATGACCCGCTGCGG
CACAAGGCCAACTTCCTGAAGCTGCTCATCTCCGAGCTGCACCTGCGCGTGCACGCGGCCTATGGCTCCACCAAGGACGTGGCGGTGTAC
AGCGCCATTAGCCTGTCCCCCATGCAGATCTACATCGTGGGCCGGCCCACCAAGAAGCTGCAGCAGCAGTGCCAGTTCATCACGGATGGC
TACGCGGCCCACCTGGCGCAGCTGAAGTACAGCCACCGGGCGCGGCCCGCTCGCAACACGGCCACCCGCATGGCGCTGCGCAAGGGCAGC
TTCGGCCTGCCCGGCCAGGGCGACTTTCTGCGCTCCCGGAACCACCTGCTTCGCACCATCTCGGCCCAGCCCAGCGGGCCCAGCCACCGG
CACGAGCGGACACAGAGCCAGGCGGATGGCGAGCAGCGGGGCCAGCGCAGCATGAGTGTGGCGGCCGGCTGCTGGGGCCGCGCCATGACT
GGCCGCCTGGAGCCGGGGGCAGCCGCGGGCCCCAAGTAGGGCACCGTGAGTGCAGCGCGGGGTCTCCATGGTGCTAGGCCAGGGTGGCCA
GCCCCGCCAGGAGGCCTGGCCTGGGCACACGCACTGACGTGGGCCTGGGAGATTGTCCCAGGGCCTTGTGGAGGACACGGGCCGCACCAC
ACAGTGCTCCCTGCCCTGCCTCACGTCCTCGGGCCTGACGGGTCCGGCTTGTCATGGAAGCTGGCAGGGACCACCAGCCCCAGGATGGCA
GAGGGACCAGAACCTCCCACTCAGACTGGCCCGGGAGGTTCTCCCAGACATTTTGCCCTGTGTGGATCTCCAAGTGTCCTGGTGCCAGGT
GTGGGCCCAGGCGCAGCCTGCCACCTCCCCATCCACTGGCCACCCTCACTCCCAGGTCCCCTCCCATTTGGTAGCAGCTCCAACAGGGGT
CCAGCCTGCATCTTGTTAACTCGAGTTTCTCAACTGTTCAACCTCACTGGTTTTGCACTGATTTTTGAGAGCGGAGACCCATTACCACCT
CCTATGGCTACAGCCCCGTTGACATGCATGAAACTCAGTACCTGCTGACCCAGGACCTACAACCACACTGAAGGCTCCAGTGCGGCAGAG
CCTCGTGCAAGCAGGAGAGAAAGGCTGTATCTTAATTTCTGCACCCCGGACCCTGCCCACCTGTCTGCCTGCCCCGCCTGGAGCCCAGGC
CAGTGTTGTTTCCAGCCTCAGGCCACGGGCTGGACGGGCCTGGCCGCCTCTTCCGCTCCCTGCCATCAGTCAAGGCCGCCCGCCCACGTT
TCTACGCCTTTCTACTTCTCAATCTGATTTCTATGAGGTTTTTTTAAACGAGCAATCCTTGGCTGCTTCCTTTTCTTAACTCTTTCAGTA
CTGAGAGCAGCCCCTCCACACTGAAAACACCCAGCACTGTGACGGAGTCCAGCCTGGTTCTGGGTCCCGTGGGCCCTGCTCCTGCCCACT
TAGCGAGGCATGGGCTCCTTGCCTCACCTGGCCCCGGCAATCCCACTGAATTTCTACTCTGGGGTGGGTGGGGCACACACTTCGGTTTTT
TTAATGCCAATTCCGTTTTCATGCCGAATCTAAGAAGCCACAACTTGCTTTGTCAGCTTCAGGGCAGGCAGCCATGACTTCATTTCTCGC
CTGAACAAGGACCATGCTGTCCTGCACGCTGGGTCTGACCGTCTGCCCTCTCTCCCCAGCACCAAGCGTGACCTTGGCTGTGGCGCTCAA
CGGCCAGCTCCGGCGGCCCCTCTGCTGCTCCTCGGCTTTCCCGGAAGTGGGAGAGCCTGCCTGGCCTCGGCCTTTGTCCAGCGACCAGGC
TCTGTCCCCGAGAAGCTACGGCCGACCTGGGTCTGGTGTTGGGACGCATGGACCGGGCTGGGGAGGTGCACAGAGTGATGTTAACTTTTT
CCCGTGTGTAGATATGTACAGCCAAAGGGTCGTGTAAATGTTCTGCAAAAGTGGGTCTATACAGAGTGAAAGCTATTTATTTTGTGCAGA
GAAAAAAGTCTGGAGGGATGGAACCTTCAGGGTTTATTCATATTTAAGATGTAGCTTTTTGTTGTTTCAGGCATTATGTATAAAGCAACG
ATTATTTTATGGACCAAGTTTTCATGTAACTGTTGCAGTGAAAGTGCAATATCTGACCCCCCTGCTCCCAGCAGGAAGTTGCTTGGCCCG
ACAATCACAGCCCCTGTCAGGGGCCCTGTGGCCAGTGCCTCCTCCTCTCTTGGCCCCACCTTATCCTGTCTTGCCTGCTGCCTGGGAGAC
CAGCCATCCAGAGAAGCACCTGGAAGAGTCTCGGGCCCTCCTGCAATAAAGGCCGGGAGGCCCTGTGGGCAGTGGGCTCAGCCTCTCCCC
AGGGGGGCAGCTCCCCCACGGCTCCTCACTCCCCGCCTGCCTGCCCAGCCGCCAGCCATGCCAAGGACAACAGCAATAGTCCCCTGGGGC
TCTCCCAGCGGCCCTCAGCCATAGATGGCAAGGTGGGCAGCCTGCCCCCCCATGGGAAGTCTCTTCTGTATCCAGGTCTGCTTTCCACCT
CCCTTCAGATTCCTTTTGGCACATTCTCCTCTTGAGGAAGTACCAGTCTTTCTGAAACTAAGAGAGGGAGGGCAGCGTCCTTTAAAAATA
CCAAAAATGTTTACAGAGTTGGGTGCTGAGCTGCAGGGCTCAGGCCTGACCAGTCATAACCAAAGGGTGAGGCAGGCCTTGCTGACTGCC
ACCCCCCAGGCCTGTTAGAATAGAAGCCTTAGTCCCACTCCCACCACACCCCCACGCCCCACCACCTGCCTTCTCTTTGATTTCTAAAGA
GGGATTCAGCAGAGACCCCCCACCCCTCCCTGGCTCGGTCTGAGTCCCACTGCCCACCCCATCACAGCCTTCACGTCTCAGCCCCTCCCG
TCTGGTCTGTCCGTGTGCCGTCTGTTTCTCTGGGCCATGTGTGAGCAGTGTCCCCATCTCCCCATCCGTCCCTGCTGTCCCCGCATCATT

>65606_65606_2_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000436757_PITPNM2_chr12_123497281_ENST00000320201_length(amino acids)=1376AA_BP=52
MPGLGEGRPPQARGGAEAARGPPSAFRMLIKEYHILLPMSLDEYQVAQLYMIQKKSREESSGEGSGVEILANRPYTDGPGGSGQYTHKVY
HVGSHIPGWFRALLPKAALQVEEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEY
KTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIR
ELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSI
ARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIH
VLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAA
LPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGI
LMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRT
EPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPF
SVPRYQRYPLGDGCSTLLADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSL
LALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMR
HDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWL
YLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDL
GYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRP
TKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQR

--------------------------------------------------------------
>65606_65606_3_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000534749_PITPNM2_chr12_123497281_ENST00000320201_length(transcript)=6786nt_BP=482nt
CGCGGGCGGCGGTGCTAGGCTCGCCTCTGCCTCCCTCGTGGCGGGCCCGGACATGGGGTCCCGTGGCCTGAGTCCCTCGGCCGGCGCGCA
GGGCTCGGGGCCGCGCGCAGCCTCCCCGCACTGACTGTCGCGCCGTGCCCTGCGCCAGGAGGAGCGGAGGCCGCGCGCGGCCCGCCGAGC
GCCTTCAGGATGCTCATCAAGGAATACCACATTCTGCTGCCCATGAGCCTGGACGAGTACCAGGTGGCCCAGCTCTACATGATCCAGAAA
AAGAGCCGGGAGGAGTCTAGTGGTGAGGGCAGCGGCGTGGAGATCCTGGCCAACCGGCCCTACACGGATGGGCCCGGGGGCAGCGGGCAA
TACACACACAAGGTGTACCACGTGGGCTCCCACATCCCAGGCTGGTTCCGGGCACTGCTGCCCAAGGCTGCCCTGCAGGTAGAAGAGGAA
TCCTGGAATGCCTACCCCTACACCCGAACCCGGTTCACCTGTCCTTTCGTGGAGAAATTCTCCATCGACATTGAAACCTTTTATAAAACT
GATGCTGGAGAAAACCCCGACGTGTTCAACCTCTCTCCTGTGGAAAAGAACCAGCTGACAATCGACTTCATCGACATTGTCAAAGACCCT
GTGCCCCACAACGAGTATAAGACAGAAGAGGACCCCAAGCTGTTCCAGTCAACCAAGACCCAGCGGGGGCCCCTGTCCGAGAACTGGATC
GAGGAGTACAAGAAGCAGGTCTTCCCCATCATGTGCGCATACAAGCTCTGCAAGGTGGAGTTCCGCTACTGGGGCATGCAGTCCAAGATC
GAGAGGTTCATCCACGACACCGGACTACGGAGGGTGATGGTGCGGGCTCACCGGCAGGCCTGGTGCTGGCAGGACGAGTGGTATGGGCTG
AGCATGGAGAACATCCGGGAGCTGGAGAAGGAGGCACAGCTCATGCTTTCCCGTAAGATGGCCCAGTTCAATGAGGATGGTGAGGAGGCC
ACTGAGCTCGTCAAGCACGAAGCCGTCTCGGACCAGACCTCTGGGGAGCCCCCGGAGCCCAGCAGCAGCAATGGGGAGCCCCTAGTGGGG
CGCGGCCTCAAGAAACAGTGGTCCACATCCTCCAAGTCGTCTCGGTCGTCCAAGCGGGGAGCGAGTCCTTCCCGCCACAGCATCTCAGAG
TGGAGGATGCAGAGTATTGCCAGGGACTCGGATGAGAGCTCAGATGATGAGTTCTTCGATGCGCACGAGGACCTGTCCGACACAGAGGAA
ATGTTCCCCAAGGACATCACCAAGTGGAGCTCCAATGACCTCATGGACAAGATCGAGAGCCCAGAGCCGGAAGACACACAAGATGGTCTG
TACCGCCAGGGTGCCCCTGAGTTCAGGGTGGCCTCCAGTGTGGAGCAGCTGAACATCATAGAGGACGAGGTTAGCCAGCCGCTGGCTGCA
CCGCCCTCCAAGATCCACGTGCTGCTACTGGTGCTGCACGGAGGCACCATCCTGGACACAGGCGCCGGGGACCCCAGCTCCAAGAAGGGC
GATGCTAACACCATCGCCAACGTGTTCGACACCGTCATGCGCGTGCACTACCCCAGCGCCCTGGGCCGCCTTGCCATCCGCCTGGTGCCC
TGCCCGCCCGTCTGCTCTGACGCCTTTGCCCTGGTCTCCAACCTCAGCCCCTACAGCCATGACGAAGGCTGTCTGTCCAGCAGTCAGGAC
CACATTCCCCTGGCTGCCCTCCCCCTGCTGGCCACCTCCTCCCCCCAGTACCAGGAGGCAGTTGCCACAGTGATTCAGCGAGCCAACCTT
GCCTATGGGGACTTCATCAAGTCCCAGGAGGGCATGACCTTCAATGGGCAGGTCTGCCTGATTGGGGACTGCGTCGGGGGCATCCTGGCA
TTTGATGCCCTGTGCTACAGTAACCAGCCGGTGTCTGAGAGTCAGAGCAGCAGCCGCCGGGGCAGCGTGGTCAGCATGCAGGACAATGAC
CTGCTGTCCCCGGGCATCCTGATGAATGCAGCACACTGCTGCGGTGGTGGCGGTGGCGGCGGTGGCGGTGGTGGCAGCAGTGGTGGTGGT
GGCAGTAGTGGTGGCTCCAGCCTGGAGAGCAGTCGGCACCTGAGCCGAAGCAACGTCGACATCCCCCGCAGCAACGGCACTGAGGACCCC
AAAAGGCAACTGCCCCGCAAGAGGAGCGACTCATCCACCTACGAGCTGGATACCATCCAGCAGCACCAGGCCTTCCTGTCCAGCCTCCAT
GCCAGCGTGCTGAGGACTGAGCCCTGCTCACGCCATTCCAGCAGCTCCACCATGCTGGATGGCACAGGTGCCCTGGGCAGGTTTGACTTT
GAGATCACCGACCTCTTCCTCTTCGGGTGCCCGCTGGGGCTGGTCCTGGCCTTGAGGAAGACTGTCATCCCAGCCCTGGATGTTTTCCAG
CTGCGGCCGGCCTGCCAGCAAGTCTACAACCTCTTCCACCCCGCGGACCCGTCAGCTTCACGCCTGGAGCCGCTGCTGGAACGGCGCTTT
CACGCCCTGCCGCCTTTCAGCGTCCCCCGCTACCAACGCTACCCGCTGGGGGATGGCTGCTCCACGCTGCTGGCGGATGTGCTCCAGACC
CACAATGCAGCCTTCCAAGAGCATGGCGCCCCCTCCTCGCCGGGCACTGCCCCTGCCAGTCGTGGCTTCCGCCGAGCCAGTGAGATCAGC
ATCGCCAGCCAGGTGTCAGGCATGGCTGAGAGCTACACGGCATCCAGCATCGCCCAGAAGGCCCCCGATGCGCTCAGCCATACCCCCAGC
GTCAGGCGTCTGTCCCTGCTCGCCCTGCCCGCCCCCAGCCCCACCACCCCTGGCCCCCACCCTCCAGCCAGGAAGGCAAGCCCTGGCCTG
GAGAGGGCCCCTGGCCTCCCTGAGCTGGACATTGGAGAAGTCGCTGCAAAGTGGTGGGGCCAGAAGCGGATCGACTACGCCCTGTACTGC
CCTGACGCCCTCACGGCCTTCCCCACGGTGGCTCTGCCTCACCTCTTCCACGCCAGCTACTGGGAGTCAACAGACGTGGTCTCCTTTCTG
CTGAGACAGGTCATGAGGCATGACAACTCCAGCATCTTGGAGCTGGATGGCAAGGAAGTGTCGGTGTTCACCCCCTCAAAGCCAAGGGAG
AAGTGGCAGCGCAAGCGGACCCACGTGAAGCTGCGGAACGTGACGGCCAACCACCGGATCAATGATGCCCTTGCCAATGAGGACGGCCCC
CAGGTTCTGACGGGCAGGTTCATGTATGGGCCCCTGGACATGGTCACCCTGACTGGGGAGAAGGTGGATGTGCACATCATGACCCAGCCG
CCCTCAGGCGAGTGGCTCTACCTGGATACGCTGGTGACCAACAACAGTGGGCGTGTCTCCTACACCATCCCTGAGTCGCACCGCCTGGGC
GTGGGTGTCTACCCTATCAAGATGGTGGTCAGGGGAGACCACACGTTTGCCGACAGCTACATCACCGTGCTGCCCAAGGGCACAGAGTTC
GTGGTCTTCAGCATCGACGGTTCCTTTGCCGCTAGCGTGTCCATCATGGGCAGCGACCCCAAGGTGCGGGCCGGGGCCGTGGACGTGGTG
CGGCACTGGCAGGACCTGGGCTACCTCATCATCTACGTGACGGGCCGGCCCGACATGCAGAAGCAGCGGGTGGTGGCGTGGCTGGCCCAG
CACAACTTCCCCCATGGCGTGGTGTCCTTCTGTGACGGCCTGGTGCATGACCCGCTGCGGCACAAGGCCAACTTCCTGAAGCTGCTCATC
TCCGAGCTGCACCTGCGCGTGCACGCGGCCTATGGCTCCACCAAGGACGTGGCGGTGTACAGCGCCATTAGCCTGTCCCCCATGCAGATC
TACATCGTGGGCCGGCCCACCAAGAAGCTGCAGCAGCAGTGCCAGTTCATCACGGATGGCTACGCGGCCCACCTGGCGCAGCTGAAGTAC
AGCCACCGGGCGCGGCCCGCTCGCAACACGGCCACCCGCATGGCGCTGCGCAAGGGCAGCTTCGGCCTGCCCGGCCAGGGCGACTTTCTG
CGCTCCCGGAACCACCTGCTTCGCACCATCTCGGCCCAGCCCAGCGGGCCCAGCCACCGGCACGAGCGGACACAGAGCCAGGCGGATGGC
GAGCAGCGGGGCCAGCGCAGCATGAGTGTGGCGGCCGGCTGCTGGGGCCGCGCCATGACTGGCCGCCTGGAGCCGGGGGCAGCCGCGGGC
CCCAAGTAGGGCACCGTGAGTGCAGCGCGGGGTCTCCATGGTGCTAGGCCAGGGTGGCCAGCCCCGCCAGGAGGCCTGGCCTGGGCACAC
GCACTGACGTGGGCCTGGGAGATTGTCCCAGGGCCTTGTGGAGGACACGGGCCGCACCACACAGTGCTCCCTGCCCTGCCTCACGTCCTC
GGGCCTGACGGGTCCGGCTTGTCATGGAAGCTGGCAGGGACCACCAGCCCCAGGATGGCAGAGGGACCAGAACCTCCCACTCAGACTGGC
CCGGGAGGTTCTCCCAGACATTTTGCCCTGTGTGGATCTCCAAGTGTCCTGGTGCCAGGTGTGGGCCCAGGCGCAGCCTGCCACCTCCCC
ATCCACTGGCCACCCTCACTCCCAGGTCCCCTCCCATTTGGTAGCAGCTCCAACAGGGGTCCAGCCTGCATCTTGTTAACTCGAGTTTCT
CAACTGTTCAACCTCACTGGTTTTGCACTGATTTTTGAGAGCGGAGACCCATTACCACCTCCTATGGCTACAGCCCCGTTGACATGCATG
AAACTCAGTACCTGCTGACCCAGGACCTACAACCACACTGAAGGCTCCAGTGCGGCAGAGCCTCGTGCAAGCAGGAGAGAAAGGCTGTAT
CTTAATTTCTGCACCCCGGACCCTGCCCACCTGTCTGCCTGCCCCGCCTGGAGCCCAGGCCAGTGTTGTTTCCAGCCTCAGGCCACGGGC
TGGACGGGCCTGGCCGCCTCTTCCGCTCCCTGCCATCAGTCAAGGCCGCCCGCCCACGTTTCTACGCCTTTCTACTTCTCAATCTGATTT
CTATGAGGTTTTTTTAAACGAGCAATCCTTGGCTGCTTCCTTTTCTTAACTCTTTCAGTACTGAGAGCAGCCCCTCCACACTGAAAACAC
CCAGCACTGTGACGGAGTCCAGCCTGGTTCTGGGTCCCGTGGGCCCTGCTCCTGCCCACTTAGCGAGGCATGGGCTCCTTGCCTCACCTG
GCCCCGGCAATCCCACTGAATTTCTACTCTGGGGTGGGTGGGGCACACACTTCGGTTTTTTTAATGCCAATTCCGTTTTCATGCCGAATC
TAAGAAGCCACAACTTGCTTTGTCAGCTTCAGGGCAGGCAGCCATGACTTCATTTCTCGCCTGAACAAGGACCATGCTGTCCTGCACGCT
GGGTCTGACCGTCTGCCCTCTCTCCCCAGCACCAAGCGTGACCTTGGCTGTGGCGCTCAACGGCCAGCTCCGGCGGCCCCTCTGCTGCTC
CTCGGCTTTCCCGGAAGTGGGAGAGCCTGCCTGGCCTCGGCCTTTGTCCAGCGACCAGGCTCTGTCCCCGAGAAGCTACGGCCGACCTGG
GTCTGGTGTTGGGACGCATGGACCGGGCTGGGGAGGTGCACAGAGTGATGTTAACTTTTTCCCGTGTGTAGATATGTACAGCCAAAGGGT
CGTGTAAATGTTCTGCAAAAGTGGGTCTATACAGAGTGAAAGCTATTTATTTTGTGCAGAGAAAAAAGTCTGGAGGGATGGAACCTTCAG
GGTTTATTCATATTTAAGATGTAGCTTTTTGTTGTTTCAGGCATTATGTATAAAGCAACGATTATTTTATGGACCAAGTTTTCATGTAAC
TGTTGCAGTGAAAGTGCAATATCTGACCCCCCTGCTCCCAGCAGGAAGTTGCTTGGCCCGACAATCACAGCCCCTGTCAGGGGCCCTGTG
GCCAGTGCCTCCTCCTCTCTTGGCCCCACCTTATCCTGTCTTGCCTGCTGCCTGGGAGACCAGCCATCCAGAGAAGCACCTGGAAGAGTC
TCGGGCCCTCCTGCAATAAAGGCCGGGAGGCCCTGTGGGCAGTGGGCTCAGCCTCTCCCCAGGGGGGCAGCTCCCCCACGGCTCCTCACT
CCCCGCCTGCCTGCCCAGCCGCCAGCCATGCCAAGGACAACAGCAATAGTCCCCTGGGGCTCTCCCAGCGGCCCTCAGCCATAGATGGCA
AGGTGGGCAGCCTGCCCCCCCATGGGAAGTCTCTTCTGTATCCAGGTCTGCTTTCCACCTCCCTTCAGATTCCTTTTGGCACATTCTCCT
CTTGAGGAAGTACCAGTCTTTCTGAAACTAAGAGAGGGAGGGCAGCGTCCTTTAAAAATACCAAAAATGTTTACAGAGTTGGGTGCTGAG
CTGCAGGGCTCAGGCCTGACCAGTCATAACCAAAGGGTGAGGCAGGCCTTGCTGACTGCCACCCCCCAGGCCTGTTAGAATAGAAGCCTT
AGTCCCACTCCCACCACACCCCCACGCCCCACCACCTGCCTTCTCTTTGATTTCTAAAGAGGGATTCAGCAGAGACCCCCCACCCCTCCC
TGGCTCGGTCTGAGTCCCACTGCCCACCCCATCACAGCCTTCACGTCTCAGCCCCTCCCGTCTGGTCTGTCCGTGTGCCGTCTGTTTCTC
TGGGCCATGTGTGAGCAGTGTCCCCATCTCCCCATCCGTCCCTGCTGTCCCCGCATCATTGGGCCTGAGTGTGCTCTGTATACAACGTCA

>65606_65606_3_PITPNM1-PITPNM2_PITPNM1_chr11_67269974_ENST00000534749_PITPNM2_chr12_123497281_ENST00000320201_length(amino acids)=1372AA_BP=48
MTVAPCPAPGGAEAARGPPSAFRMLIKEYHILLPMSLDEYQVAQLYMIQKKSREESSGEGSGVEILANRPYTDGPGGSGQYTHKVYHVGS
HIPGWFRALLPKAALQVEEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEE
DPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEK
EAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDS
DESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLL
VLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLL
ATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNA
AHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCS
RHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPR
YQRYPLGDGCSTLLADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALP
APSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNS
SILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDT
LVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLI
IYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKL
QQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSV

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Fusion Gene PPI Analysis for PITPNM1-PITPNM2

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

- 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 PITPNM1-PITPNM2

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

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Related Diseases for PITPNM1-PITPNM2

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source