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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:PLAA-PTPLAD2 (FusionGDB2 ID:65888)

Fusion Gene Summary for PLAA-PTPLAD2

Fusion gene summary

Fusion gene information	Fusion gene name: PLAA-PTPLAD2
	Fusion gene ID: 65888
		Hgene	Tgene
	Gene symbol	PLAA	PTPLAD2
	Gene ID	9373	401494
	Gene name	phospholipase A2 activating protein	3-hydroxyacyl-CoA dehydratase 4
	Synonyms	DOA1\|NDMSBA\|PLA2P\|PLAP	PTPLAD2
	Cytomap	9p21.2	9p21.3
	Type of gene	protein-coding	protein-coding
	Description	phospholipase A-2-activating proteinDOA1 homolog	very-long-chain (3R)-3-hydroxyacyl-CoA dehydratase 4protein tyrosine phosphatase-like A domain containing 2protein tyrosine phosphatase-like protein PTPLAD2protein-tyrosine phosphatase-like A domain-containing protein 2very-long-chain (3R)-3-hydroxyac
	Modification date	20200313	20200313
	UniProtAcc	.	.
	Ensembl transtripts involved in fusion gene	ENST00000397292, ENST00000520884, ENST00000520641,	ENST00000488436, ENST00000495827, ENST00000513293,
Fusion gene scores	* DoF score	4 X 4 X 3=48	4 X 3 X 2=24
	# samples	5	5
	** MAII score	log2(5/48*10)=0.0588936890535686 effective Gene in Pan-Cancer Fusion Genes (eGinPCFGs). DoF>8 and MAII>0	log2(5/24*10)=1.05889368905357 effective Gene in Pan-Cancer Fusion Genes (eGinPCFGs). DoF>8 and MAII>0
Context	PubMed: PLAA [Title/Abstract] AND PTPLAD2 [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	PLAA(26946895)-PTPLAD2(21029397), # samples:2
Anticipated loss of major functional domain due to fusion event.	PLAA-PTPLAD2 seems lost the major protein functional domain in Hgene partner, which is a essential gene due to the frame-shifted ORF.

* 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
Tgene	PTPLAD2	GO:0030497	fatty acid elongation	18554506
Tgene	PTPLAD2	GO:0042761	very long-chain fatty acid biosynthetic process	18554506

Fusion gene breakpoints across PLAA (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 PTPLAD2 (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	LUAD	TCGA-93-A4JQ-01A	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
ChimerDB4	LUAD	TCGA-93-A4JQ-01A	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
ChimerDB4	LUAD	TCGA-93-A4JQ	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-

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Fusion Gene ORF analysis for PLAA-PTPLAD2

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	ENST00000397292	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
5CDS-5UTR	ENST00000520884	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
5CDS-intron	ENST00000397292	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
5CDS-intron	ENST00000397292	ENST00000488436	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
5CDS-intron	ENST00000520884	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
5CDS-intron	ENST00000520884	ENST00000488436	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
Frame-shift	ENST00000397292	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
Frame-shift	ENST00000397292	ENST00000495827	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
Frame-shift	ENST00000520884	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
Frame-shift	ENST00000520884	ENST00000495827	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
In-frame	ENST00000397292	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
In-frame	ENST00000397292	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
In-frame	ENST00000397292	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
In-frame	ENST00000397292	ENST00000513293	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
In-frame	ENST00000520884	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
In-frame	ENST00000520884	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
In-frame	ENST00000520884	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
In-frame	ENST00000520884	ENST00000513293	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
intron-3CDS	ENST00000520641	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
intron-3CDS	ENST00000520641	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
intron-3CDS	ENST00000520641	ENST00000495827	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
intron-3CDS	ENST00000520641	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
intron-3CDS	ENST00000520641	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
intron-3CDS	ENST00000520641	ENST00000513293	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-
intron-5UTR	ENST00000520641	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-
intron-intron	ENST00000520641	ENST00000488436	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-
intron-intron	ENST00000520641	ENST00000488436	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-

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)
ENST00000397292	PLAA	chr9	26946894	-	ENST00000513293	PTPLAD2	chr9	21029397	-	2641	567	157	1227	356
ENST00000520884	PLAA	chr9	26946894	-	ENST00000513293	PTPLAD2	chr9	21029397	-	2411	337	140	997	285
ENST00000397292	PLAA	chr9	26946895	-	ENST00000513293	PTPLAD2	chr9	21029397	-	2641	567	157	1227	356
ENST00000520884	PLAA	chr9	26946895	-	ENST00000513293	PTPLAD2	chr9	21029397	-	2411	337	140	997	285
ENST00000397292	PLAA	chr9	26946895	-	ENST00000513293	PTPLAD2	chr9	21016009	-	2409	567	216	995	259
ENST00000397292	PLAA	chr9	26946895	-	ENST00000495827	PTPLAD2	chr9	21016009	-	8518	567	216	995	259
ENST00000520884	PLAA	chr9	26946895	-	ENST00000513293	PTPLAD2	chr9	21016009	-	2179	337	133	765	210
ENST00000520884	PLAA	chr9	26946895	-	ENST00000495827	PTPLAD2	chr9	21016009	-	8288	337	133	765	210

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
ENST00000397292	ENST00000513293	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-	0.008231511	0.9917685
ENST00000520884	ENST00000513293	PLAA	chr9	26946894	-	PTPLAD2	chr9	21029397	-	0.005848452	0.99415153
ENST00000397292	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-	0.008231511	0.9917685
ENST00000520884	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21029397	-	0.005848452	0.99415153
ENST00000397292	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-	0.19684128	0.8031587
ENST00000397292	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-	0.058753267	0.9412467
ENST00000520884	ENST00000513293	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-	0.17665444	0.82334554
ENST00000520884	ENST00000495827	PLAA	chr9	26946895	-	PTPLAD2	chr9	21016009	-	0.05463983	0.9453602

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Fusion Genomic Features for PLAA-PTPLAD2

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 PLAA-PTPLAD2

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr9:26946895/chr9:21029397)
- 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

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

228_231

233.0

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

228_231

635.3333333333334

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

228_231

233.0

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

228_231

635.3333333333334

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

228_231

233.0

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

228_231

635.3333333333334

Compositional bias

Note=Poly-Lys

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

134_135

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

157_157

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

179_189

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

211_232

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

41_56

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

78_112

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

134_135

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

157_157

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

179_189

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

211_232

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

41_56

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

78_112

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

134_135

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

157_157

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

179_189

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

211_232

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

134_135

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

157_157

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

179_189

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

211_232

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

134_135

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

157_157

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

179_189

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

211_232

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

41_56

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

78_112

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

134_135

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

157_157

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

179_189

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

211_232

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

41_56

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

78_112

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

113_133

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

136_156

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

158_178

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

190_210

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

20_40

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

57_77

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

113_133

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

136_156

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

158_178

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

190_210

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

20_40

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

57_77

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

113_133

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

136_156

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

158_178

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

190_210

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

113_133

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

136_156

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

158_178

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

190_210

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

113_133

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

136_156

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

158_178

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

190_210

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

20_40

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

57_77

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

113_133

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

136_156

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

158_178

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

190_210

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

20_40

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

57_77

635.3333333333334

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

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

366_465

796.0

Domain

PFU

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

533_794

796.0

Domain

PUL

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

366_465

796.0

Domain

PFU

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

533_794

796.0

Domain

PUL

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

366_465

796.0

Domain

PFU

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

533_794

796.0

Domain

PUL

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

110_148

796.0

Repeat

Note=WD 3

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

149_188

796.0

Repeat

Note=WD 4

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

17_56

796.0

Repeat

Note=WD 1

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

190_227

796.0

Repeat

Note=WD 5

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

229_268

796.0

Repeat

Note=WD 6

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

270_307

796.0

Repeat

Note=WD 7

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

546_588

796.0

Repeat

Note=ARM 1

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

589_620

796.0

Repeat

Note=ARM 2

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

621_669

796.0

Repeat

Note=ARM 3

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

63_107

796.0

Repeat

Note=WD 2

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

670_715

796.0

Repeat

Note=ARM 4

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

716_755

796.0

Repeat

Note=ARM 5

Hgene

PLAA

chr9:26946894

chr9:21029397

ENST00000397292

756_795

796.0

Repeat

Note=ARM 6

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

110_148

796.0

Repeat

Note=WD 3

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

149_188

796.0

Repeat

Note=WD 4

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

17_56

796.0

Repeat

Note=WD 1

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

190_227

796.0

Repeat

Note=WD 5

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

229_268

796.0

Repeat

Note=WD 6

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

270_307

796.0

Repeat

Note=WD 7

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

546_588

796.0

Repeat

Note=ARM 1

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

589_620

796.0

Repeat

Note=ARM 2

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

621_669

796.0

Repeat

Note=ARM 3

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

63_107

796.0

Repeat

Note=WD 2

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

670_715

796.0

Repeat

Note=ARM 4

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

716_755

796.0

Repeat

Note=ARM 5

Hgene

PLAA

chr9:26946895

chr9:21016009

ENST00000397292

756_795

796.0

Repeat

Note=ARM 6

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

110_148

796.0

Repeat

Note=WD 3

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

149_188

796.0

Repeat

Note=WD 4

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

17_56

796.0

Repeat

Note=WD 1

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

190_227

796.0

Repeat

Note=WD 5

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

229_268

796.0

Repeat

Note=WD 6

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

270_307

796.0

Repeat

Note=WD 7

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

546_588

796.0

Repeat

Note=ARM 1

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

589_620

796.0

Repeat

Note=ARM 2

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

621_669

796.0

Repeat

Note=ARM 3

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

63_107

796.0

Repeat

Note=WD 2

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

670_715

796.0

Repeat

Note=ARM 4

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

716_755

796.0

Repeat

Note=ARM 5

Hgene

PLAA

chr9:26946895

chr9:21029397

ENST00000397292

756_795

796.0

Repeat

Note=ARM 6

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000495827

1_19

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946894

chr9:21029397

ENST00000513293

1_19

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

1_19

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

41_56

233.0

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

78_112

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

1_19

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

41_56

635.3333333333334

Topological domain

Lumenal

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

78_112

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000495827

1_19

233.0

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21029397

ENST00000513293

1_19

635.3333333333334

Topological domain

Cytoplasmic

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

20_40

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000495827

57_77

233.0

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

20_40

635.3333333333334

Transmembrane

Helical

Tgene

PTPLAD2

chr9:26946895

chr9:21016009

ENST00000513293

57_77

635.3333333333334

Transmembrane

Helical

Top

Fusion Gene Sequence for PLAA-PTPLAD2

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.

>65888_65888_1_PLAA-PTPLAD2_PLAA_chr9_26946894_ENST00000397292_PTPLAD2_chr9_21029397_ENST00000513293_length(transcript)=2641nt_BP=567nt
CACAAACTGTTGGGCCCGGAGTCGGAAGAGACCCGGGTTTGGGAAGGACCCCAGGGTCAGGCGTCCTGGTGGAAGGGCGGGCCTCTTTCT
CTCTTGCTCAGCAGGGAGTCCAGAGCCCTGGAGGAAAGCCAGCTCAGCTCCGCATCGGCGTCGGCGGTTGGGACGCACACACTCTGCGTC
ATGGAGGGCTGAGGCCGATGATGAATTCCGGAGTGCCTGTCAGGCTTGCTGTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCC
CTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTGCAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCG
CCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGACACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAG
CTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCGCCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCG
CACCACCCGCCTCTGGGCCCCAGACAGGTATAGGAAGAATGCGTATCTTTTCATCTATTACTTAATCCAGTTCTGTGGCCACTCTTGGAT
ATTTACAAATATGACAGTCAGATTCTTTTCATTTGGAAAAGATTCAATGGTTGACACTTTTTATGCTATTGGACTTGTGATGCGACTTTG
CCAATCCGTATCTCTCCTGGAACTGCTGCACATATATGTTGGCATTGAGTCAAACCATCTTCTCCCAAGGTTTTTGCAGCTCACAGAAAG
AATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATT
GGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCTATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCC
AATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCT
GCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCT
ATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGA
CAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAAAAATACCTTGTATTTGATAAAAATCCATTACATGAAAT
AACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACATTGTATTTTTAAGACATATATATTCTCCATACCCTGCT
TCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAA
TAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCC
AAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATC
TAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAAC
ACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATG
CAGTTTCTGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGGAGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGG
CCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGGAGAAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCA
CATTGAACTCAAGCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCAACTGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGA
GGCATGTGTCAAGCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAACTCTCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTG
AAAAACTTCTTCCACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGCTGGTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTC
CATACAGCTTTCTTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGTGGCTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAA
GGTCATTTTGATCAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACTTGGCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTG
GCAGGATTTTAATGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTGTTTTTTTTTTTTTTTTTAAGTTACCCTGCAATCAGTTAAT

>65888_65888_1_PLAA-PTPLAD2_PLAA_chr9_26946894_ENST00000397292_PTPLAD2_chr9_21029397_ENST00000513293_length(amino acids)=356AA_BP=110
MGRTHSASWRAEADDEFRSACQACCVTRPARRAPSQPPFRTGSRALPVSGRPLPAGSSPAAARRSPSRPCGLVSHSAWAPGARQTLAMTS
GATRYRLSCSLRGHELDVRGLVCCAYPPGAFVSVSRDRTTRLWAPDRYRKNAYLFIYYLIQFCGHSWIFTNMTVRFFSFGKDSMVDTFYA
IGLVMRLCQSVSLLELLHIYVGIESNHLLPRFLQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTW

--------------------------------------------------------------
>65888_65888_2_PLAA-PTPLAD2_PLAA_chr9_26946894_ENST00000520884_PTPLAD2_chr9_21029397_ENST00000513293_length(transcript)=2411nt_BP=337nt
GTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCCCTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTG
CAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCGCCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGA
CACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAGCTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCG
CCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCGCACCACCCGCCTCTGGGCCCCAGACAGGTATAGGAAGAATGCGTATCTTT
TCATCTATTACTTAATCCAGTTCTGTGGCCACTCTTGGATATTTACAAATATGACAGTCAGATTCTTTTCATTTGGAAAAGATTCAATGG
TTGACACTTTTTATGCTATTGGACTTGTGATGCGACTTTGCCAATCCGTATCTCTCCTGGAACTGCTGCACATATATGTTGGCATTGAGT
CAAACCATCTTCTCCCAAGGTTTTTGCAGCTCACAGAAAGAATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGA
AATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCT
ATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGC
TGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCA
TGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGA
AGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGG
AAAAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACA
CATTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATT
GTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGAT
AACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCT
AGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTT
TCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGG
AGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGG
AGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGG
AGAAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCACATTGAACTCAAGCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCA
ACTGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGAGGCATGTGTCAAGCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAAC
TCTCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTGAAAAACTTCTTCCACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGC
TGGTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTCCATACAGCTTTCTTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGT
GGCTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAAGGTCATTTTGATCAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACT
TGGCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTGGCAGGATTTTAATGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTG

>65888_65888_2_PLAA-PTPLAD2_PLAA_chr9_26946894_ENST00000520884_PTPLAD2_chr9_21029397_ENST00000513293_length(amino acids)=285AA_BP=39
MVSHSAWAPGARQTLAMTSGATRYRLSCSLRGHELDVRGLVCCAYPPGAFVSVSRDRTTRLWAPDRYRKNAYLFIYYLIQFCGHSWIFTN
MTVRFFSFGKDSMVDTFYAIGLVMRLCQSVSLLELLHIYVGIESNHLLPRFLQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMV
RYTYSMLSVIGISYAVLTWLSQTLWMPIYPLCVLAEAFAIYQSLPYFESFGTYSTKLPFDLSIYFPYVLKIYLMMLFIGMYFTYSHLYSE

--------------------------------------------------------------
>65888_65888_3_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21016009_ENST00000495827_length(transcript)=8518nt_BP=567nt
CACAAACTGTTGGGCCCGGAGTCGGAAGAGACCCGGGTTTGGGAAGGACCCCAGGGTCAGGCGTCCTGGTGGAAGGGCGGGCCTCTTTCT
CTCTTGCTCAGCAGGGAGTCCAGAGCCCTGGAGGAAAGCCAGCTCAGCTCCGCATCGGCGTCGGCGGTTGGGACGCACACACTCTGCGTC
ATGGAGGGCTGAGGCCGATGATGAATTCCGGAGTGCCTGTCAGGCTTGCTGTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCC
CTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTGCAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCG
CCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGACACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAG
CTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCGCCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCG
CACCACCCGCCTCTGGGCCCCAGACAGCTCACAGAAAGAATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAA
TATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCTAT
GCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTG
CCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATG
ATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAG
ATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAA
AAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACA
TTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGT
ATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAA
CCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAG
AATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTC
CAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAG
GCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGTGAGGGCCCTCTTCCCAGTTTGCAGATAGATGTCCTTCTTTG
TCCTCACATGAGAGAGAGATCAACTCTCTTATGTCTCTTATAATGGCACTAACCCCATTCATGAGGGCTCTACCCTCATGATCTAATTAC
CTCCCAATGGCCCCACCTCCAAATACCATCATATTGGAGGTTAGGGCTTAACACATGAATTTTGGGGGAACACAAAGATTCACTCCATAG
CATTCTGTACCTGGTCCTACAAAATTCATGTCCTCCTCACATGCAAAATACATACATTCCATCTCGACAGCCTCAAAAGTCTTAACTCAT
TCCTGCATCAACTCTAAAGTCCAAAGTCTCGTCTAAATCAGATGTGGGTGAGATTCAAGGTAGAATTCATCCTGAGGTAAAATTCCTTTC
CAGCTTTGAACTTGTGAAATGAAACAAGTTATGTGCTTCCACAGTACAATGGTGGGACACACAAAGGGTGGACATTCCTATTCCCAAAGC
AAGAAACAGGAAAAAAGGAAGGTGTAATGGGTCCCCAGCAAGTCCAAAACCTAGCAAGGCAAACACCATGAGATCTTCAGTCTTAGTAAT
AATCCTCTTTGGCCTGATACTCTGGCTTCAGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGGAGGAGGATGACCCCCATA
TCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGGTACCACTGATGTTCTCTGAATC
ATTGTTCCGGGTCAGTTTCTCCTTTTCTTGAAGAATAGTGTACATTCACAGCTGAATAGCTCTATGGTCCCAAATTCAAGAAGTCCAACA
GTCTTCCCTCATTCTGTCCCATCTCCATTCCTTTCAATACAAACTAGCAGTGTTCCTGCTGGGGTGGCTGATTAGGTCTGTGGTTCACAC
CCACATAAATCTAATTGGATGACTTGTCTGCTACACTCTTAGTGTTCTCTACCAAACGTGTTTTCTTATCTTTTTGTAATGCAGACAGAC
TGATAATTTCCCACATCTTTTAAGTTCTGGTTCCGTTTTTGTTAAGAATTCTGTCTTCATTTTTTGTCACATTTTACTTTAAGCAGTCAA
GATAAACCGAGGCACTCCTTCAACACTGGTTGGAGATCTCTTCAGTTCAATATCTAATTTCATGGCTCACAATTTTACTTTCCACAAAAC
ACTAGAACATGAACACAATCATCCAAGTTCTTTGGCATATTATAACAAAGATCACCTTTCTTCCAGTTTCCCATAACAGGTTCCTCATTT
TCATTTGAGACTTCATCAGAATGGCCTTTATTGTCCATGTCTACCAACATTATCTTCATGGTGATTTACGTGTTCTCTATGAAGATGGAG
GCTTTCTCTCCCACCCTCTTCTCTTTGAGCCCTCACCAAAATCACCTCTATCAATCCCTTCATGGCAATACTGGCTTTTTCTAGCAAAAA
AACTAGTACCTCAAAACTCTTCCAGTACTCTTCCAGGTACTCTAGTACCTCAAAACTCTTCCAGCTTCTATCTGTTACCTAACGTCAAAG
CTGCTTCCACATCTTTATATATTGGTTATAGCATCACCACACTTCTTGGTACTAATTGCTGTCTTAGCTTGGCTGCTATAACAAAATACC
ATAAACTGGGTGGCTTAGACAACAAATATATTTCTCACAGTTCTGGAGGCAGGGAAGTCCAAGATAAAGGTGCTAGACAATTAAGTTCCT
GATGAGGTTCCAAGGTGCTAGCTGATTCTTCTTCATGGTTTGCAGATGAATGCCTTCTTGCTATATGTTCACATGGTGGAGGGAGAAACC
ATCTCTCCCTTATTTCTTATTGTAAAGGTACTAATCCCATTTATGAAGGTTCCAGCTTCAAATGCCATCACACTGGAGATTAGATTTTCA
ACATGTGAATTTAATGGGGGACACCAGCATTCAGTCCCTAGTGCTCTGATAGAGTATTCATTAATGTCATGTATTTGTTAACATCTTGTA
AGTTATTTGGGCTTTGATGCCTTAAAAGAAGACCCTGGCCAGGCATGCTGGCTCATACCTGTAATCCTAGCACTATGAGAGGCTGAGGTG
GGCAGATCAGTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCA
TGGTGGCGCATGCCTGTAATCCCAGCTACACGGGAGGCTGGGGGCATGAGAATCGCTTGAGCCCAGGAGATGGAGGTTGCAGTGAGCAGA
GATTGAGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTATCTCAAAAGAGAAGACCCTAATGAAAATAGTAAACCTTTAGCAAA
TACACAAATGATGCCCCATTCTGTATTCTTTTTAATTTTAAAAATAATGACACACACATACAGGAAGATAAAAGGTATAAAAATATACTA
AGTACTTTTTAAAAAGGAAAATTCATGTTTTGGATTATTACTGAATTGTTGCTAATTACTGTAATGTAAGTCATATGTCCTTACATAGTT
TTGAAAAATGCTTTCTTTGAAAATCTAAAAAAAGTGTGAATAACTGATAGTCATTGCTGTATCATTGATGTATCACTCAATTTTTGGTAA
AGAATTATAAAGATCTTACCTAGAAACTATGTAAAAAGGTATTAAATATATTGTGATGTAAGAATAGGATAATAAAAATGTAATTTTAAA
AATGGGTAACTTATTTCCACTAAAGAAAACATTTGGAAAGAAACAATTGAGTATTAGGCTACTTGAAATCTTTATAAATATATTTGGATT
TTAAAAAATTATCCTTTTAAAAAGCTACATTTTTTCTGCTTTTATAGTTATCTTCTAAATTTCAGAAAAATTATGAAAAGCTTTAGTGTG
CAAGGAGAACATAAACCCTTTGCAAATTTTAGGTGAGTTAATCTTAATCACTCCAAATAAAGATGGCTCCTTACACTGCCGAAGTACATG
TACAATCAATCACTAAAACAAAGAGAAAATTAGAGAAACTACACTTTACTGGGTCATTATAATAAATTAAAATTTCATTATTAAATAATG
CTTTAATTTTTTAAAACCAGATTAACTTAAAAACTTCTTAAAATTGAAAACCAAAAGAAACACAAGTGAATTTATAATTATTTTAAAACA
GAAATGAGGATTGACAGTAATTTGAGATATCTGCAACAATTGTAACATAAAAAGATCTTACATTTCCTTTGGTGACAGACACAATTGTTA
ATACTACTGTGGTTGGTTGCCTGTATTCACAATGGAAAGGAATACTAAATTTCATTATCAATTAGTGAAAATAAAGGTGTAATTTCTTTT
TCTACTTAAGTACATGTTCCCCAGGTTAAGAAACCCAGACATAGTGAAGTCAAGACAGTAACTATCTGGTTAATCGGATGTTACCAAAAT
CGCAAAGTTGATGTCTTTGACTATCTGTCTTAACTGTATGTTCACCAAATCCCTATTTCATTTTGTACAGTGTAGACAAAGGCTTACTTT
CTCAAATCTAAGTAACATAGATGAAATAGGAACCATTAGATATTTTGAAAACATATCTAAGACAACTTTTTTCAGTAATTTTTTTATTGT
GGTAAAATGTAAAATATACTATCTTATTCCTTTTTAAGTGTGCAGTTCAGTAGTAGTAAGTAATTTATATTGTGCAACCATCACCACTGT
CCATCTCCAGAACTTTTTTTACCTTGCAAAACTTATACCCTATACTCATTAAGCAATGGTTCCCTATTCTCCCATCTGCCCTGTCCCTGG
CAACCACCAGTCTACTTTTTGTCTCTATGATTTTGATTGCTCTAAGTACCTCATATAAATGTAATCATACAGTATCTGTCTTTCGTAATT
GGCTTATTTCACTTAGCATAATGTCTGCAAGTTTCCTCCATTTTGTATATGTCAGAATTTTCTTCCTTTTTGAGGATGACTGATAAGGAG
GGACTTACTCCTGTCATTTTGCTATTTGTTTTCTACATAGCTTAGCTTTTTTGTCCCTCATTTCCTGCATTACGTCTTTTGTGTGTAGTT
TACTTTTTTATAGTGAAGCATTTAAGTATCTTTCTCAGTTCTTTTGTGTATATTCTGTAGCTGTTTTCTTTGTGGTTACCATAGGGTGAC
ATTTAATATCCGGAAGGTAATTTGGACTTATGCCAGCTGAACTTCAAAAATATACAAAAATTCTGCTCTTTATATCTCTGTCTATCACTC
CTTTAAGTTTCACAAAATTATATACACTGTGTGTCCAAAATCAATTTTTAAAAATGCAGTAGTCTCTATGTAGAAAACAAAAAGTGGAGT
TACAAACCATTGTTACAAAAGTACTAGATTTTATAATTGCCCATGTATTTTTCTTTACTGAGATCCTTATTTCTTCATGTGGCTTTGAGT
TGCTGTTTAGTGTCTTTCCATTTCAACTTGCAGGACCCCTATTAGCATTTCTGGCAGGGGCAGGTCTAGTGGTAACATACTTTCTCAGCT
TTTGTTTATCTGGGGATGTCTTAATTTCTCTCTCACGTTTGAAGAACAGTTTTGTCAAATACAGGAAATGTGGTTGATGATATATTTTTT
TCCTAACACTTTGAATATGTGAGCTCACTGCATTCTGGCCTCCAAAGTTTCTGATGAGAAATCTGATAATCTTATTAAGGATCACTTATA
TGTGATGAATTGATTTTTTCATGCTACTTTCAAGATTCTCTTTCTGTCTTTGGCTTTTGATAGTTGTGTGGATCTCTTGGAATTCATTCT
ACTTGGAGTTTGTTGGTCATTATCTGGCTGTTCTTCAAATATTCTCTCTGCTCCTTTCTTTCTCTCTTTTCCTTCTGGGATCCTCACAAT
GTGTATGTTGGTCTGCTTGATGGGTCCCACAGATCCTTATACCCTGTTCACTTTTTTCCAATTTTTTTCTATTGCTCAGACTAATAATTT
CCATTGTCCTATTTTCATGTATACTGATTCTTCTGCTGCCCAAATCTGCCTTTGAATACCTCTAGTGAGTTTTTCATTTCAATTATCGTA
CTTTCCAGCTCTTGAATTTCTTTTTTGTATCGTCTTAGATTTTCTCTATATTGATATTACCATTTTGTTCATCCATTGGTTTTTTGACTT
TTTCCGCATGCTCTTTGGTTCTTTAAAAAACATCCTTAAGGCAGTCGTTGTAGAGCCTTTAGTGGATCCACCATCAAGTCTTTTTCAGAG
ATAGTTTTTGTTTTTGTTTTCATTTGAAAGGGACATACTTTCCTGTTTCTTTGTATGCCTTGTTATTTTTTTGCTGAAAACTGAACGTTT
CAATCTAATAATATGGTAACTACATCTCACTAAGGTCCCTAAGTTAATGTTTTTTTTTAAACTATTCCTTACTTTGCCTGCCTTGAGCAA
GTTGTCAAATGTGAGAAACTGTATTTATTTCAGAAGTACAAATAGATACAATCTCAATGTCCAAAATATTTCCCCAAAGAAAGAATCTTA
CAATTATTTAAGTTTACTTATGGAGAAAACATTTTATGGTACTAAAGTGTTAAAGTGATTTAAAATTAAGGTTAAAATATGCTAAAAATT
ATCTTCCTTTACCCAGTATCTATCTTCCACTTGTTTATTACTGCTTTTTAATAATTATAATGTTTCCCGTTGGTTCGGATAATTTTAATA
TTCTTCTCGGTCTGAGTTATATGCTAATGTTGATATGACATGGTTCTCCAGGGTAGTGTTCAGATTGTATGTTCAGGGAGCAACAGCCAC
AATTAACAAGTTCACCTGTTTAGAATGCAGATTCCAGGGCTCCACTAAAGATAGTTGAATCAGAAGCTCTGGGAATAAGCTCAGGATCCT
ACCTTTTGATAGACTCCTCAAATGAGCCTCATGCACAGAAAAGTTTGAGAACCACTGCTTTTGAGTCTAAATTATTTCAGCTTTGGACAG
AAAGAAAACTGCTAAAAAGAACTACTTATATAAAAGCCACCAATGTTTTCAGAACAGGGATGATTTTTTATGGCTTTAAAAATCCTTAAA
TAGTAGTTCTGAACATGTTTTTAACATGCCAAGTAAGAATTACTAACTAGTTTATTTTTGCTAAGGGTAGCTGGAGTTTTAAATCTCATC
TAAAATAAGGTTAGTTAATTCCATATGAAAGTCAATTAGTAAAAGTATGCCTTAATTCATCACATACATGTAGGTGTCTATTGTTACTTC
ATGGTATTCAGCTGAATGATGGGGTTCTTGTGAAAGATAATGTGGTCTGGAATTAAGAGCACTAGGTTTGATTTGAGATCAAGCTCCATT
ATTTACTAACTGAATGACTCTTTGAGTTCCAGTTTCCTTAACCACTTAAAGTTATTATGAAGACTAAATGACATATGGTAAATTAAACTT
TTGCAAATTATAAAGGGCTTTGCAGAAGTAGGACATTTATAACATGTTCTGTTCTTACTTCATGATGGTTTAGTGATTTATATTCTCTGA
CTGTAAGTTCCATGAGAGCAGGGATGACACGTTTTGTTCAGATTGTACCCCAGAAACTTGTATAGTGGCACATAATAGACACCCATAATT
GTGTGTGCAACTCTATCTTTAAAGAACGCCACTACTACATCTAGAAATATATTTCAAGAAATCTATCGGCTTAATTAGGTAATGAATTTC
AATTGTATCTCAAAGCGTTCCTTATATTTAGAAGACACATAAGTTTTGTTTTTTTCTTTCAACTTATATAAGTATCTTAACATGCTACTT

>65888_65888_3_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21016009_ENST00000495827_length(amino acids)=259AA_BP=117
MSGLLCHSARSARPFPAALPYRLSGSSGLRPPLTCRLFSRRGPALSESPLRTGLAQCLGTGRQTDTGHDERRNQVPAELLAPGPRAGRTG
PGVLRLSAGSLCVRVPRPHHPPLGPRQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTWLSQTLWM

--------------------------------------------------------------
>65888_65888_4_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21016009_ENST00000513293_length(transcript)=2409nt_BP=567nt
CACAAACTGTTGGGCCCGGAGTCGGAAGAGACCCGGGTTTGGGAAGGACCCCAGGGTCAGGCGTCCTGGTGGAAGGGCGGGCCTCTTTCT
CTCTTGCTCAGCAGGGAGTCCAGAGCCCTGGAGGAAAGCCAGCTCAGCTCCGCATCGGCGTCGGCGGTTGGGACGCACACACTCTGCGTC
ATGGAGGGCTGAGGCCGATGATGAATTCCGGAGTGCCTGTCAGGCTTGCTGTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCC
CTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTGCAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCG
CCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGACACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAG
CTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCGCCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCG
CACCACCCGCCTCTGGGCCCCAGACAGCTCACAGAAAGAATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAA
TATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCTAT
GCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTG
CCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATG
ATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAG
ATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAA
AAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACA
TTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGT
ATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAA
CCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAG
AATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTC
CAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAG
GCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGGAG
GAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGGAG
AAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCACATTGAACTCAAGCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCAAC
TGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGAGGCATGTGTCAAGCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAACTC
TCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTGAAAAACTTCTTCCACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGCTG
GTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTCCATACAGCTTTCTTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGTGG
CTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAAGGTCATTTTGATCAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACTTG
GCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTGGCAGGATTTTAATGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTGTT

>65888_65888_4_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21016009_ENST00000513293_length(amino acids)=259AA_BP=117
MSGLLCHSARSARPFPAALPYRLSGSSGLRPPLTCRLFSRRGPALSESPLRTGLAQCLGTGRQTDTGHDERRNQVPAELLAPGPRAGRTG
PGVLRLSAGSLCVRVPRPHHPPLGPRQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTWLSQTLWM

--------------------------------------------------------------
>65888_65888_5_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21029397_ENST00000513293_length(transcript)=2641nt_BP=567nt
CACAAACTGTTGGGCCCGGAGTCGGAAGAGACCCGGGTTTGGGAAGGACCCCAGGGTCAGGCGTCCTGGTGGAAGGGCGGGCCTCTTTCT
CTCTTGCTCAGCAGGGAGTCCAGAGCCCTGGAGGAAAGCCAGCTCAGCTCCGCATCGGCGTCGGCGGTTGGGACGCACACACTCTGCGTC
ATGGAGGGCTGAGGCCGATGATGAATTCCGGAGTGCCTGTCAGGCTTGCTGTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCC
CTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTGCAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCG
CCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGACACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAG
CTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCGCCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCG
CACCACCCGCCTCTGGGCCCCAGACAGGTATAGGAAGAATGCGTATCTTTTCATCTATTACTTAATCCAGTTCTGTGGCCACTCTTGGAT
ATTTACAAATATGACAGTCAGATTCTTTTCATTTGGAAAAGATTCAATGGTTGACACTTTTTATGCTATTGGACTTGTGATGCGACTTTG
CCAATCCGTATCTCTCCTGGAACTGCTGCACATATATGTTGGCATTGAGTCAAACCATCTTCTCCCAAGGTTTTTGCAGCTCACAGAAAG
AATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATT
GGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCTATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCC
AATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCT
GCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCT
ATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGA
CAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAAAAATACCTTGTATTTGATAAAAATCCATTACATGAAAT
AACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACATTGTATTTTTAAGACATATATATTCTCCATACCCTGCT
TCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAA
TAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCC
AAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATC
TAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAAC
ACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATG
CAGTTTCTGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGGAGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGG
CCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGGAGAAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCA
CATTGAACTCAAGCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCAACTGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGA
GGCATGTGTCAAGCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAACTCTCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTG
AAAAACTTCTTCCACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGCTGGTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTC
CATACAGCTTTCTTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGTGGCTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAA
GGTCATTTTGATCAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACTTGGCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTG
GCAGGATTTTAATGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTGTTTTTTTTTTTTTTTTTAAGTTACCCTGCAATCAGTTAAT

>65888_65888_5_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000397292_PTPLAD2_chr9_21029397_ENST00000513293_length(amino acids)=356AA_BP=110
MGRTHSASWRAEADDEFRSACQACCVTRPARRAPSQPPFRTGSRALPVSGRPLPAGSSPAAARRSPSRPCGLVSHSAWAPGARQTLAMTS
GATRYRLSCSLRGHELDVRGLVCCAYPPGAFVSVSRDRTTRLWAPDRYRKNAYLFIYYLIQFCGHSWIFTNMTVRFFSFGKDSMVDTFYA
IGLVMRLCQSVSLLELLHIYVGIESNHLLPRFLQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTW

--------------------------------------------------------------
>65888_65888_6_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21016009_ENST00000495827_length(transcript)=8288nt_BP=337nt
GTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCCCTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTG
CAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCGCCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGA
CACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAGCTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCG
CCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCGCACCACCCGCCTCTGGGCCCCAGACAGCTCACAGAAAGAATAATCATCCT
TTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAG
GTACACTTATAGCATGTTATCAGTCATAGGAATATCCTATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTT
GTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTT
ATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAG
AAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGAT
TCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAAAAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATAC
CCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACATTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTC
CTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGC
TGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGT
AGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCA
CCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGA
ATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGTG
AGGGCCCTCTTCCCAGTTTGCAGATAGATGTCCTTCTTTGTCCTCACATGAGAGAGAGATCAACTCTCTTATGTCTCTTATAATGGCACT
AACCCCATTCATGAGGGCTCTACCCTCATGATCTAATTACCTCCCAATGGCCCCACCTCCAAATACCATCATATTGGAGGTTAGGGCTTA
ACACATGAATTTTGGGGGAACACAAAGATTCACTCCATAGCATTCTGTACCTGGTCCTACAAAATTCATGTCCTCCTCACATGCAAAATA
CATACATTCCATCTCGACAGCCTCAAAAGTCTTAACTCATTCCTGCATCAACTCTAAAGTCCAAAGTCTCGTCTAAATCAGATGTGGGTG
AGATTCAAGGTAGAATTCATCCTGAGGTAAAATTCCTTTCCAGCTTTGAACTTGTGAAATGAAACAAGTTATGTGCTTCCACAGTACAAT
GGTGGGACACACAAAGGGTGGACATTCCTATTCCCAAAGCAAGAAACAGGAAAAAAGGAAGGTGTAATGGGTCCCCAGCAAGTCCAAAAC
CTAGCAAGGCAAACACCATGAGATCTTCAGTCTTAGTAATAATCCTCTTTGGCCTGATACTCTGGCTTCAGGACCCAGTGAGGCAGAGGT
ATTGCCCCCAGGACTATGTTGGAGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACCAAGGCAATGACTGCCC
CTTTTGAAACTGAGAAGGTACCACTGATGTTCTCTGAATCATTGTTCCGGGTCAGTTTCTCCTTTTCTTGAAGAATAGTGTACATTCACA
GCTGAATAGCTCTATGGTCCCAAATTCAAGAAGTCCAACAGTCTTCCCTCATTCTGTCCCATCTCCATTCCTTTCAATACAAACTAGCAG
TGTTCCTGCTGGGGTGGCTGATTAGGTCTGTGGTTCACACCCACATAAATCTAATTGGATGACTTGTCTGCTACACTCTTAGTGTTCTCT
ACCAAACGTGTTTTCTTATCTTTTTGTAATGCAGACAGACTGATAATTTCCCACATCTTTTAAGTTCTGGTTCCGTTTTTGTTAAGAATT
CTGTCTTCATTTTTTGTCACATTTTACTTTAAGCAGTCAAGATAAACCGAGGCACTCCTTCAACACTGGTTGGAGATCTCTTCAGTTCAA
TATCTAATTTCATGGCTCACAATTTTACTTTCCACAAAACACTAGAACATGAACACAATCATCCAAGTTCTTTGGCATATTATAACAAAG
ATCACCTTTCTTCCAGTTTCCCATAACAGGTTCCTCATTTTCATTTGAGACTTCATCAGAATGGCCTTTATTGTCCATGTCTACCAACAT
TATCTTCATGGTGATTTACGTGTTCTCTATGAAGATGGAGGCTTTCTCTCCCACCCTCTTCTCTTTGAGCCCTCACCAAAATCACCTCTA
TCAATCCCTTCATGGCAATACTGGCTTTTTCTAGCAAAAAAACTAGTACCTCAAAACTCTTCCAGTACTCTTCCAGGTACTCTAGTACCT
CAAAACTCTTCCAGCTTCTATCTGTTACCTAACGTCAAAGCTGCTTCCACATCTTTATATATTGGTTATAGCATCACCACACTTCTTGGT
ACTAATTGCTGTCTTAGCTTGGCTGCTATAACAAAATACCATAAACTGGGTGGCTTAGACAACAAATATATTTCTCACAGTTCTGGAGGC
AGGGAAGTCCAAGATAAAGGTGCTAGACAATTAAGTTCCTGATGAGGTTCCAAGGTGCTAGCTGATTCTTCTTCATGGTTTGCAGATGAA
TGCCTTCTTGCTATATGTTCACATGGTGGAGGGAGAAACCATCTCTCCCTTATTTCTTATTGTAAAGGTACTAATCCCATTTATGAAGGT
TCCAGCTTCAAATGCCATCACACTGGAGATTAGATTTTCAACATGTGAATTTAATGGGGGACACCAGCATTCAGTCCCTAGTGCTCTGAT
AGAGTATTCATTAATGTCATGTATTTGTTAACATCTTGTAAGTTATTTGGGCTTTGATGCCTTAAAAGAAGACCCTGGCCAGGCATGCTG
GCTCATACCTGTAATCCTAGCACTATGAGAGGCTGAGGTGGGCAGATCAGTTGAGGTCAGGAGTTCAAGACCAGCCTGGCCAACATGGTG
AAACCCCATTTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGCGCATGCCTGTAATCCCAGCTACACGGGAGGCTGGGGGCATGAG
AATCGCTTGAGCCCAGGAGATGGAGGTTGCAGTGAGCAGAGATTGAGCCACTGCACTCCAGCCTGGGTGACAGAGTGAGACTCTATCTCA
AAAGAGAAGACCCTAATGAAAATAGTAAACCTTTAGCAAATACACAAATGATGCCCCATTCTGTATTCTTTTTAATTTTAAAAATAATGA
CACACACATACAGGAAGATAAAAGGTATAAAAATATACTAAGTACTTTTTAAAAAGGAAAATTCATGTTTTGGATTATTACTGAATTGTT
GCTAATTACTGTAATGTAAGTCATATGTCCTTACATAGTTTTGAAAAATGCTTTCTTTGAAAATCTAAAAAAAGTGTGAATAACTGATAG
TCATTGCTGTATCATTGATGTATCACTCAATTTTTGGTAAAGAATTATAAAGATCTTACCTAGAAACTATGTAAAAAGGTATTAAATATA
TTGTGATGTAAGAATAGGATAATAAAAATGTAATTTTAAAAATGGGTAACTTATTTCCACTAAAGAAAACATTTGGAAAGAAACAATTGA
GTATTAGGCTACTTGAAATCTTTATAAATATATTTGGATTTTAAAAAATTATCCTTTTAAAAAGCTACATTTTTTCTGCTTTTATAGTTA
TCTTCTAAATTTCAGAAAAATTATGAAAAGCTTTAGTGTGCAAGGAGAACATAAACCCTTTGCAAATTTTAGGTGAGTTAATCTTAATCA
CTCCAAATAAAGATGGCTCCTTACACTGCCGAAGTACATGTACAATCAATCACTAAAACAAAGAGAAAATTAGAGAAACTACACTTTACT
GGGTCATTATAATAAATTAAAATTTCATTATTAAATAATGCTTTAATTTTTTAAAACCAGATTAACTTAAAAACTTCTTAAAATTGAAAA
CCAAAAGAAACACAAGTGAATTTATAATTATTTTAAAACAGAAATGAGGATTGACAGTAATTTGAGATATCTGCAACAATTGTAACATAA
AAAGATCTTACATTTCCTTTGGTGACAGACACAATTGTTAATACTACTGTGGTTGGTTGCCTGTATTCACAATGGAAAGGAATACTAAAT
TTCATTATCAATTAGTGAAAATAAAGGTGTAATTTCTTTTTCTACTTAAGTACATGTTCCCCAGGTTAAGAAACCCAGACATAGTGAAGT
CAAGACAGTAACTATCTGGTTAATCGGATGTTACCAAAATCGCAAAGTTGATGTCTTTGACTATCTGTCTTAACTGTATGTTCACCAAAT
CCCTATTTCATTTTGTACAGTGTAGACAAAGGCTTACTTTCTCAAATCTAAGTAACATAGATGAAATAGGAACCATTAGATATTTTGAAA
ACATATCTAAGACAACTTTTTTCAGTAATTTTTTTATTGTGGTAAAATGTAAAATATACTATCTTATTCCTTTTTAAGTGTGCAGTTCAG
TAGTAGTAAGTAATTTATATTGTGCAACCATCACCACTGTCCATCTCCAGAACTTTTTTTACCTTGCAAAACTTATACCCTATACTCATT
AAGCAATGGTTCCCTATTCTCCCATCTGCCCTGTCCCTGGCAACCACCAGTCTACTTTTTGTCTCTATGATTTTGATTGCTCTAAGTACC
TCATATAAATGTAATCATACAGTATCTGTCTTTCGTAATTGGCTTATTTCACTTAGCATAATGTCTGCAAGTTTCCTCCATTTTGTATAT
GTCAGAATTTTCTTCCTTTTTGAGGATGACTGATAAGGAGGGACTTACTCCTGTCATTTTGCTATTTGTTTTCTACATAGCTTAGCTTTT
TTGTCCCTCATTTCCTGCATTACGTCTTTTGTGTGTAGTTTACTTTTTTATAGTGAAGCATTTAAGTATCTTTCTCAGTTCTTTTGTGTA
TATTCTGTAGCTGTTTTCTTTGTGGTTACCATAGGGTGACATTTAATATCCGGAAGGTAATTTGGACTTATGCCAGCTGAACTTCAAAAA
TATACAAAAATTCTGCTCTTTATATCTCTGTCTATCACTCCTTTAAGTTTCACAAAATTATATACACTGTGTGTCCAAAATCAATTTTTA
AAAATGCAGTAGTCTCTATGTAGAAAACAAAAAGTGGAGTTACAAACCATTGTTACAAAAGTACTAGATTTTATAATTGCCCATGTATTT
TTCTTTACTGAGATCCTTATTTCTTCATGTGGCTTTGAGTTGCTGTTTAGTGTCTTTCCATTTCAACTTGCAGGACCCCTATTAGCATTT
CTGGCAGGGGCAGGTCTAGTGGTAACATACTTTCTCAGCTTTTGTTTATCTGGGGATGTCTTAATTTCTCTCTCACGTTTGAAGAACAGT
TTTGTCAAATACAGGAAATGTGGTTGATGATATATTTTTTTCCTAACACTTTGAATATGTGAGCTCACTGCATTCTGGCCTCCAAAGTTT
CTGATGAGAAATCTGATAATCTTATTAAGGATCACTTATATGTGATGAATTGATTTTTTCATGCTACTTTCAAGATTCTCTTTCTGTCTT
TGGCTTTTGATAGTTGTGTGGATCTCTTGGAATTCATTCTACTTGGAGTTTGTTGGTCATTATCTGGCTGTTCTTCAAATATTCTCTCTG
CTCCTTTCTTTCTCTCTTTTCCTTCTGGGATCCTCACAATGTGTATGTTGGTCTGCTTGATGGGTCCCACAGATCCTTATACCCTGTTCA
CTTTTTTCCAATTTTTTTCTATTGCTCAGACTAATAATTTCCATTGTCCTATTTTCATGTATACTGATTCTTCTGCTGCCCAAATCTGCC
TTTGAATACCTCTAGTGAGTTTTTCATTTCAATTATCGTACTTTCCAGCTCTTGAATTTCTTTTTTGTATCGTCTTAGATTTTCTCTATA
TTGATATTACCATTTTGTTCATCCATTGGTTTTTTGACTTTTTCCGCATGCTCTTTGGTTCTTTAAAAAACATCCTTAAGGCAGTCGTTG
TAGAGCCTTTAGTGGATCCACCATCAAGTCTTTTTCAGAGATAGTTTTTGTTTTTGTTTTCATTTGAAAGGGACATACTTTCCTGTTTCT
TTGTATGCCTTGTTATTTTTTTGCTGAAAACTGAACGTTTCAATCTAATAATATGGTAACTACATCTCACTAAGGTCCCTAAGTTAATGT
TTTTTTTTAAACTATTCCTTACTTTGCCTGCCTTGAGCAAGTTGTCAAATGTGAGAAACTGTATTTATTTCAGAAGTACAAATAGATACA
ATCTCAATGTCCAAAATATTTCCCCAAAGAAAGAATCTTACAATTATTTAAGTTTACTTATGGAGAAAACATTTTATGGTACTAAAGTGT
TAAAGTGATTTAAAATTAAGGTTAAAATATGCTAAAAATTATCTTCCTTTACCCAGTATCTATCTTCCACTTGTTTATTACTGCTTTTTA
ATAATTATAATGTTTCCCGTTGGTTCGGATAATTTTAATATTCTTCTCGGTCTGAGTTATATGCTAATGTTGATATGACATGGTTCTCCA
GGGTAGTGTTCAGATTGTATGTTCAGGGAGCAACAGCCACAATTAACAAGTTCACCTGTTTAGAATGCAGATTCCAGGGCTCCACTAAAG
ATAGTTGAATCAGAAGCTCTGGGAATAAGCTCAGGATCCTACCTTTTGATAGACTCCTCAAATGAGCCTCATGCACAGAAAAGTTTGAGA
ACCACTGCTTTTGAGTCTAAATTATTTCAGCTTTGGACAGAAAGAAAACTGCTAAAAAGAACTACTTATATAAAAGCCACCAATGTTTTC
AGAACAGGGATGATTTTTTATGGCTTTAAAAATCCTTAAATAGTAGTTCTGAACATGTTTTTAACATGCCAAGTAAGAATTACTAACTAG
TTTATTTTTGCTAAGGGTAGCTGGAGTTTTAAATCTCATCTAAAATAAGGTTAGTTAATTCCATATGAAAGTCAATTAGTAAAAGTATGC
CTTAATTCATCACATACATGTAGGTGTCTATTGTTACTTCATGGTATTCAGCTGAATGATGGGGTTCTTGTGAAAGATAATGTGGTCTGG
AATTAAGAGCACTAGGTTTGATTTGAGATCAAGCTCCATTATTTACTAACTGAATGACTCTTTGAGTTCCAGTTTCCTTAACCACTTAAA
GTTATTATGAAGACTAAATGACATATGGTAAATTAAACTTTTGCAAATTATAAAGGGCTTTGCAGAAGTAGGACATTTATAACATGTTCT
GTTCTTACTTCATGATGGTTTAGTGATTTATATTCTCTGACTGTAAGTTCCATGAGAGCAGGGATGACACGTTTTGTTCAGATTGTACCC
CAGAAACTTGTATAGTGGCACATAATAGACACCCATAATTGTGTGTGCAACTCTATCTTTAAAGAACGCCACTACTACATCTAGAAATAT
ATTTCAAGAAATCTATCGGCTTAATTAGGTAATGAATTTCAATTGTATCTCAAAGCGTTCCTTATATTTAGAAGACACATAAGTTTTGTT
TTTTTCTTTCAACTTATATAAGTATCTTAACATGCTACTTCTAGAATATTTTAATTGTTAAGAACAATTTCTTAATAAACTTCCACTGTC

>65888_65888_6_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21016009_ENST00000495827_length(amino acids)=210AA_BP=68
MRTGLAQCLGTGRQTDTGHDERRNQVPAELLAPGPRAGRTGPGVLRLSAGSLCVRVPRPHHPPLGPRQLTERIIILFVVITSQEEVQEKY
VVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTWLSQTLWMPIYPLCVLAEAFAIYQSLPYFESFGTYSTKLPFDLSIYFPYVLKIYLMM

--------------------------------------------------------------
>65888_65888_7_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21016009_ENST00000513293_length(transcript)=2179nt_BP=337nt
GTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCCCTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTG
CAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCGCCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGA
CACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAGCTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCG
CCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCGCACCACCCGCCTCTGGGCCCCAGACAGCTCACAGAAAGAATAATCATCCT
TTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGAAATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAG
GTACACTTATAGCATGTTATCAGTCATAGGAATATCCTATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTT
GTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGCTGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTT
ATCCATCTATTTCCCATATGTGCTGAAAATATATCTCATGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAG
AAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGAAGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGAT
TCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGGAAAAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATAC
CCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACACATTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTC
CTGCTTCATTTGGATTTTATACAAGTTATACTTACATTGTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGC
TGCAATAGATTCAATTAAATTAAGAAACCAAACTTGATAACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGT
AGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCTAGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCA
CCCTAAACATTAGATATGTTTAGAAAATTAAATATCTTTCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGA
ATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGGAGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGAC
CCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGGAGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACC
AAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGGAGAAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCACATTGAACTCAA
GCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCAACTGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGAGGCATGTGTCAA
GCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAACTCTCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTGAAAAACTTCTTC
CACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGCTGGTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTCCATACAGCTTTC
TTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGTGGCTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAAGGTCATTTTGAT
CAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACTTGGCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTGGCAGGATTTTAA
TGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTGTTTTTTTTTTTTTTTTTAAGTTACCCTGCAATCAGTTAATGGGAAATTCTGC

>65888_65888_7_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21016009_ENST00000513293_length(amino acids)=210AA_BP=68
MRTGLAQCLGTGRQTDTGHDERRNQVPAELLAPGPRAGRTGPGVLRLSAGSLCVRVPRPHHPPLGPRQLTERIIILFVVITSQEEVQEKY
VVCVLFVFWNLLDMVRYTYSMLSVIGISYAVLTWLSQTLWMPIYPLCVLAEAFAIYQSLPYFESFGTYSTKLPFDLSIYFPYVLKIYLMM

--------------------------------------------------------------
>65888_65888_8_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21029397_ENST00000513293_length(transcript)=2411nt_BP=337nt
GTGTCACTCGGCCCGCTCGGCGCGCCCCTTCCCAGCCGCCCTTCCGTACCGGCTCTCGGGCTCTTCCGGTCTCCGGCCGCCCCTTACCTG
CAGGCTCTTCTCCCGCCGCGGCCCGGCGCTCTCCGAGTCGCCCCTGCGGACTGGTCTCGCACAGTGCCTGGGCACCGGGCGCCAGACAGA
CACTGGCCATGACGAGCGGCGCAACCAGGTACCGGCTGAGCTGCTCGCTCCGGGGCCACGAGCTGGACGTACGGGGCCTGGTGTGCTGCG
CCTATCCGCCGGGAGCCTTTGTGTCCGTGTCCCGAGACCGCACCACCCGCCTCTGGGCCCCAGACAGGTATAGGAAGAATGCGTATCTTT
TCATCTATTACTTAATCCAGTTCTGTGGCCACTCTTGGATATTTACAAATATGACAGTCAGATTCTTTTCATTTGGAAAAGATTCAATGG
TTGACACTTTTTATGCTATTGGACTTGTGATGCGACTTTGCCAATCCGTATCTCTCCTGGAACTGCTGCACATATATGTTGGCATTGAGT
CAAACCATCTTCTCCCAAGGTTTTTGCAGCTCACAGAAAGAATAATCATCCTTTTTGTGGTGATCACCAGTCAAGAGGAAGTCCAAGAGA
AATATGTGGTGTGTGTTTTATTCGTCTTTTGGAATCTATTGGATATGGTTAGGTACACTTATAGCATGTTATCAGTCATAGGAATATCCT
ATGCTGTCTTGACATGGCTCAGTCAAACACTATGGATGCCAATTTATCCTTTGTGTGTTCTTGCTGAAGCATTTGCCATCTATCAATCGC
TGCCTTATTTTGAATCATTTGGCACTTATTCCACCAAGCTGCCCTTTGACTTATCCATCTATTTCCCATATGTGCTGAAAATATATCTCA
TGATGCTCTTTATAGGTATGTATTTTACCTACAGTCATCTATACTCAGAAAGAAGAGACATCCTCGGAATCTTTCCCATTAAAAAAAAGA
AGATGTGAAGTACAGCATTCCAGTGTGACACGAGAAAAGACAGGCTGTGGATTCAGTGCAGTAAATAAAACACAGGAAGTATTCTGGTGG
AAAAATACCTTGTATTTGATAAAAATCCATTACATGAAATAACTGCACATACCCCCAAAACTCTAGACATAACAGGCTATGTTTTTCACA
CATTGTATTTTTAAGACATATATATTCTCCATACCCTGCTTCACCAAAATTCCTGCTTCATTTGGATTTTATACAAGTTATACTTACATT
GTATGAAGTCTGATTATTTTCCTGTAAGTTTAATGAGAAATAGGAGATTAGCTGCAATAGATTCAATTAAATTAAGAAACCAAACTTGAT
AACCTAAATTACATGTATTCTTTTTCACTTCCAAGTTCCCAAATAGATCTGTAGGAGAAGAGGGATGGAAAATATATTCCACAGTTGCCT
AGAATAACATATTTCATAGACAGATGTCTGTCTTCAGATCTAATAATACTCACCCTAAACATTAGATATGTTTAGAAAATTAAATATCTT
TCCAAGCCCTATGTCTTAGCTCAGGTTGCTATAATAGAACACCATAAACCGAATGGCTTAAACAACAGCAAACGCTTCTCACAGTTCTGG
AGGCTGGGAATTCCGCTCAGGATCAAGGCATCAGCTAATGCAGTTTCTGGACCCAGTGAGGCAGAGGTATTGCCCCCAGGACTATGTTGG
AGGAGGATGACCCCCATATCACCAGGCGGAAGCTGTCAGGCCTGTTGAAACCAAGGCAATGACTGCCCCTTTTGAAACTGAGAAGCAGGG
AGAAGATAATATCTTCAAGCTTTCACAAAGAAAATCTCCACATTGAACTCAAGCCAAATAAAGAAAATCCAAGTTCCTGTTTCAGTCTCA
ACTGGCCCGGGTACTAAAGCAATGCACTCCTCTCTTAGGAGGCATGTGTCAAGCTGTCAGTGATGTGGCCATCTTTTCATGACCCTTAAC
TCTCTGCATCATGTCTCAGCAATACCAGGCATGAATTCTGAAAAACTTCTTCCACTTATATGGTTTTCCTCATCCAGCTGAGAATGCTGC
TGGTTACTGCAAAACTGTTCACCAACCATATGCTCTGGTCCATACAGCTTTCTTCTTAAACTCTGGGAGAACTCTCAAGGACAGCAGGGT
GGCTAAGGGGACAAAATATAGGTATGGCTGCATTTGAAAAGGTCATTTTGATCAAAAAGGTGTCAGAACAGAATTTGTCTTTTTCTCACT
TGGCTAATGTTCAAGACTAGGGAGTTCCATCGATATTTTGGCAGGATTTTAATGGCAGAAAACCATTTATAAATGTTGGGGGGAAAGTTG

>65888_65888_8_PLAA-PTPLAD2_PLAA_chr9_26946895_ENST00000520884_PTPLAD2_chr9_21029397_ENST00000513293_length(amino acids)=285AA_BP=39
MVSHSAWAPGARQTLAMTSGATRYRLSCSLRGHELDVRGLVCCAYPPGAFVSVSRDRTTRLWAPDRYRKNAYLFIYYLIQFCGHSWIFTN
MTVRFFSFGKDSMVDTFYAIGLVMRLCQSVSLLELLHIYVGIESNHLLPRFLQLTERIIILFVVITSQEEVQEKYVVCVLFVFWNLLDMV
RYTYSMLSVIGISYAVLTWLSQTLWMPIYPLCVLAEAFAIYQSLPYFESFGTYSTKLPFDLSIYFPYVLKIYLMMLFIGMYFTYSHLYSE

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

Top

Fusion Gene PPI Analysis for PLAA-PTPLAD2

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

Top

Related Drugs for PLAA-PTPLAD2

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 PLAA-PTPLAD2

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source