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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:AKR1C1-PMM2 (FusionGDB2 ID:3446)

Fusion Gene Summary for AKR1C1-PMM2

Fusion gene summary

Fusion gene information	Fusion gene name: AKR1C1-PMM2
	Fusion gene ID: 3446
		Hgene	Tgene
	Gene symbol	AKR1C1	PMM2
	Gene ID	1645	5373
	Gene name	aldo-keto reductase family 1 member C1	phosphomannomutase 2
	Synonyms	2-ALPHA-HSD\|20-ALPHA-HSD\|C9\|DD1\|DD1/DD2\|DDH\|DDH1\|H-37\|HAKRC\|HBAB\|MBAB	CDG1\|CDG1a\|CDGS\|PMI\|PMI1\|PMM 2
	Cytomap	10p15.1	16p13.2
	Type of gene	protein-coding	protein-coding
	Description	aldo-keto reductase family 1 member C120 alpha-hydroxysteroid dehydrogenasealdo-keto reductase Cchlordecone reductase homolog HAKRCdihydrodiol dehydrogenase 1dihydrodiol dehydrogenase 1/2dihydrodiol dehydrogenase 1; 20-alpha (3-alpha)-hydroxysteroid	phosphomannomutase 2mannose-6-phosphate isomerasephosphomannose isomerase 1
	Modification date	20200313	20200313
	UniProtAcc	Q04828	.
	Ensembl transtripts involved in fusion gene	ENST00000477661, ENST00000380872, ENST00000434459, ENST00000380859,	ENST00000268261, ENST00000537352, ENST00000539622, ENST00000566983, ENST00000569958, ENST00000565837,
Fusion gene scores	* DoF score	2 X 2 X 2=8	4 X 1 X 4=16
	# samples	2	4
	** MAII score	log2(2/8*10)=1.32192809488736	log2(4/16*10)=1.32192809488736 effective Gene in Pan-Cancer Fusion Genes (eGinPCFGs). DoF>8 and MAII>0
Context	PubMed: AKR1C1 [Title/Abstract] AND PMM2 [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	AKR1C1(5018125)-PMM2(8941581), # samples:1
Anticipated loss of major functional domain due to fusion event.	AKR1C1-PMM2 seems lost the major protein functional domain in Hgene partner, which is a cell metabolism gene due to the frame-shifted ORF. AKR1C1-PMM2 seems lost the major protein functional domain in Tgene partner, which is a cell metabolism 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
Hgene	AKR1C1	GO:0007586	digestion	8486699
Hgene	AKR1C1	GO:0008206	bile acid metabolic process	8486699
Hgene	AKR1C1	GO:0030855	epithelial cell differentiation	21492153
Hgene	AKR1C1	GO:0042448	progesterone metabolic process	21232532
Hgene	AKR1C1	GO:0042574	retinal metabolic process	21851338
Hgene	AKR1C1	GO:0055114	oxidation-reduction process	8486699\|19442656\|21232532
Hgene	AKR1C1	GO:0071395	cellular response to jasmonic acid stimulus	19487289

Fusion gene breakpoints across AKR1C1 (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 PMM2 (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	BLCA	TCGA-ZF-AA4T-01A	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+

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Fusion Gene ORF analysis for AKR1C1-PMM2

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
3UTR-3CDS	ENST00000477661	ENST00000268261	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
3UTR-3CDS	ENST00000477661	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
3UTR-3CDS	ENST00000477661	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
3UTR-3CDS	ENST00000477661	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
3UTR-3CDS	ENST00000477661	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
3UTR-intron	ENST00000477661	ENST00000565837	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
5CDS-intron	ENST00000380872	ENST00000565837	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
5CDS-intron	ENST00000434459	ENST00000565837	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
Frame-shift	ENST00000380872	ENST00000268261	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
Frame-shift	ENST00000434459	ENST00000268261	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000380872	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000380872	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000380872	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000380872	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000434459	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000434459	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000434459	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
In-frame	ENST00000434459	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-3CDS	ENST00000380859	ENST00000268261	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-3CDS	ENST00000380859	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-3CDS	ENST00000380859	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-3CDS	ENST00000380859	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-3CDS	ENST00000380859	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+
intron-intron	ENST00000380859	ENST00000565837	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+

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)
ENST00000434459	AKR1C1	chr10	5018125	+	ENST00000566983	PMM2	chr16	8941581	+	1915	1770	697	1824	375
ENST00000434459	AKR1C1	chr10	5018125	+	ENST00000539622	PMM2	chr16	8941581	+	2098	1770	697	1824	375
ENST00000434459	AKR1C1	chr10	5018125	+	ENST00000537352	PMM2	chr16	8941581	+	2077	1770	697	1824	375
ENST00000434459	AKR1C1	chr10	5018125	+	ENST00000569958	PMM2	chr16	8941581	+	2086	1770	697	1824	375
ENST00000380872	AKR1C1	chr10	5018125	+	ENST00000566983	PMM2	chr16	8941581	+	1266	1121	48	1175	375
ENST00000380872	AKR1C1	chr10	5018125	+	ENST00000539622	PMM2	chr16	8941581	+	1449	1121	48	1175	375
ENST00000380872	AKR1C1	chr10	5018125	+	ENST00000537352	PMM2	chr16	8941581	+	1428	1121	48	1175	375
ENST00000380872	AKR1C1	chr10	5018125	+	ENST00000569958	PMM2	chr16	8941581	+	1437	1121	48	1175	375

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
ENST00000434459	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002229817	0.9977702
ENST00000434459	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.00239342	0.9976065
ENST00000434459	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002398722	0.99760133
ENST00000434459	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002404191	0.99759585
ENST00000380872	ENST00000566983	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.001927162	0.99807286
ENST00000380872	ENST00000539622	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002474802	0.99752516
ENST00000380872	ENST00000537352	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002458821	0.9975412
ENST00000380872	ENST00000569958	AKR1C1	chr10	5018125	+	PMM2	chr16	8941581	+	0.002429759	0.9975702

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Fusion Genomic Features for AKR1C1-PMM2

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)
AKR1C1	chr10	5018125	+	PMM2	chr16	8941580	+	2.13E-07	0.99999976
AKR1C1	chr10	5018125	+	PMM2	chr16	8941580	+	2.13E-07	0.99999976

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 AKR1C1-PMM2

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr10:5018125/chr16:8941581)
- 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
AKR1C1 Q04828	.
FUNCTION: Cytosolic aldo-keto reductase that catalyzes the NADH and NADPH-dependent reduction of ketosteroids to hydroxysteroids (PubMed:19218247). Most probably acts as a reductase in vivo since the oxidase activity measured in vitro is inhibited by physiological concentrations of NADPH (PubMed:14672942). Displays a broad positional specificity acting on positions 3, 17 and 20 of steroids and regulates the metabolism of hormones like estrogens and androgens (PubMed:10998348). May also reduce conjugated steroids such as 5alpha-dihydrotestosterone sulfate (PubMed:19218247). Displays affinity for bile acids (PubMed:8486699). {ECO:0000269\|PubMed:10998348, ECO:0000269\|PubMed:14672942, ECO:0000269\|PubMed:19218247, ECO:0000269\|PubMed:8486699}.	FUNCTION: Transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. Recruits CREB-binding protein (CREBBP) to nuclear bodies. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). {ECO:0000250}.

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

* Minus value of BPloci means that the break pointn is located before the CDS.

- In-frame and retained protein feature among the 13 regional features.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Protein feature

Protein feature note

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000380872

166_167

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000380872

20_24

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000380872

216_222

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000380872

270_280

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000434459

166_167

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000434459

20_24

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000434459

216_222

309

324.0

Nucleotide binding

NADP

Hgene

AKR1C1

chr10:5018125

chr16:8941581

ENST00000434459

270_280

309

324.0

Nucleotide binding

NADP

- 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

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Fusion Gene Sequence for AKR1C1-PMM2

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.

>3446_3446_1_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000537352_length(transcript)=1428nt_BP=1121nt
TTTTCTTAGGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCCTCCTCTCACATGCCATTGG
TTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAAGAAACATTTGCCAGCCAGG
CTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGGATTTGGCACCTATGCGCCT
GCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGATTCTGCTCATTTATACAAT
AATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATTCTACACTTCAAAGCTTTGG
TGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTATGTTGACCTCTACCTTATT
CATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGACACAGTGGATCTCTGTGCC
ACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCGCAGGCAGCTGGAGATGATC
CTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAGAAAACTGCTGGATTTCTGC
AAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCCGAACTCCCCGGTGCTCTTG
GAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCAGCTACAGCGTGGGGTTGTG
GTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTCAGAGGAGATGAAAGCCATA
GATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGACCCCAGAACCATGGGCTACT
CCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGCGGGGTCCCGGCTGACAAGC
CAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAGGCTCTGCATGCTATGCCAG

>3446_3446_1_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000537352_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_2_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000539622_length(transcript)=1449nt_BP=1121nt
TTTTCTTAGGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCCTCCTCTCACATGCCATTGG
TTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAAGAAACATTTGCCAGCCAGG
CTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGGATTTGGCACCTATGCGCCT
GCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGATTCTGCTCATTTATACAAT
AATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATTCTACACTTCAAAGCTTTGG
TGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTATGTTGACCTCTACCTTATT
CATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGACACAGTGGATCTCTGTGCC
ACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCGCAGGCAGCTGGAGATGATC
CTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAGAAAACTGCTGGATTTCTGC
AAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCCGAACTCCCCGGTGCTCTTG
GAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCAGCTACAGCGTGGGGTTGTG
GTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTCAGAGGAGATGAAAGCCATA
GATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGACCCCAGAACCATGGGCTACT
CCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGCGGGGTCCCGGCTGACAAGC
CAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAGGCTCTGCATGCTATGCCAG
GCATGTGCAGTCTGGACTTCCACCTCCAGTGCCAGAAACTTCCAGAAGGAAGGAGAAAACTCTTGTCAAGAATGGCCCAGAGGAATGCCT

>3446_3446_2_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000539622_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_3_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000566983_length(transcript)=1266nt_BP=1121nt
TTTTCTTAGGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCCTCCTCTCACATGCCATTGG
TTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAAGAAACATTTGCCAGCCAGG
CTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGGATTTGGCACCTATGCGCCT
GCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGATTCTGCTCATTTATACAAT
AATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATTCTACACTTCAAAGCTTTGG
TGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTATGTTGACCTCTACCTTATT
CATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGACACAGTGGATCTCTGTGCC
ACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCGCAGGCAGCTGGAGATGATC
CTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAGAAAACTGCTGGATTTCTGC
AAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCCGAACTCCCCGGTGCTCTTG
GAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCAGCTACAGCGTGGGGTTGTG
GTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTCAGAGGAGATGAAAGCCATA
GATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGACCCCAGAACCATGGGCTACT
CCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGCGGGGTCCCGGCTGACAAGC

>3446_3446_3_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000566983_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_4_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000569958_length(transcript)=1437nt_BP=1121nt
TTTTCTTAGGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCCTCCTCTCACATGCCATTGG
TTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAAGAAACATTTGCCAGCCAGG
CTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGGATTTGGCACCTATGCGCCT
GCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGATTCTGCTCATTTATACAAT
AATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATTCTACACTTCAAAGCTTTGG
TGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTATGTTGACCTCTACCTTATT
CATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGACACAGTGGATCTCTGTGCC
ACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCGCAGGCAGCTGGAGATGATC
CTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAGAAAACTGCTGGATTTCTGC
AAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCCGAACTCCCCGGTGCTCTTG
GAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCAGCTACAGCGTGGGGTTGTG
GTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTCAGAGGAGATGAAAGCCATA
GATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGACCCCAGAACCATGGGCTACT
CCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGCGGGGTCCCGGCTGACAAGC
CAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAGGCTCTGCATGCTATGCCAG

>3446_3446_4_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000380872_PMM2_chr16_8941581_ENST00000569958_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_5_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000537352_length(transcript)=2077nt_BP=1770nt
AGAAAGCCATGTAACCATGAAGGCAGAGATTGAAGTGATTCAACTATAAGCCAAGGCATGCCAACTGCTACTGGGAGCCACCAAAAGCTA
GTCAAAGGCAAGGGAACCATCTTCCCGAGAGCTTTCATGGGGAGCATGGCCCTATAAACAACTGGATTTTTGACTCAAGTCTCCAGAACT
GGAAGAGAATACAATCCTCTTTTGTTGTTCTAAACCATCCAATTTGCACAAAAACGTGTTTTGAACCTACTCTAACCAACTGTCAAAAGG
CTGTGTTAAGTGATTCTCTGACAAGAACCGGGATTTAGCTGAACTAAGAAGCAAAAATTCTGCATCATTTTGGTGGCGTGTACAGGGACA
TGAGGAAGGAACCTTGGCCATTCTGATGTTTAACCAAGAGTTGAGCTGAGTGGCTCTGACCAGCGTGGAAGATGAGAGCAGCCTGAACTT
ACACTGTGAAAATGCCCTGGAGAAATGCAGAGATGCAGGTTTAATGAAGTCCATCAGGGTGTCCAGTTTCAATCACTAACTGTTGGAACT
GATCCTCAGACAAGCCAGGACTCAAGTACAAGCCCATCTACAACCAGATGAGCCCTTAGGGCCACTGGGGCCATTTCTGACTTTGTGCTC
TTCACACACTTCCTTACATTAGAATAATGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCC
TCCTCTCACATGCCATTGGTTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAA
GAAACATTTGCCAGCCAGGCTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGG
ATTTGGCACCTATGCGCCTGCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGA
TTCTGCTCATTTATACAATAATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATT
CTACACTTCAAAGCTTTGGTGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTA
TGTTGACCTCTACCTTATTCATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGA
CACAGTGGATCTCTGTGCCACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCG
CAGGCAGCTGGAGATGATCCTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAG
AAAACTGCTGGATTTCTGCAAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCC
GAACTCCCCGGTGCTCTTGGAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCA
GCTACAGCGTGGGGTTGTGGTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTC
AGAGGAGATGAAAGCCATAGATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGAC
CCCAGAACCATGGGCTACTCCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGC
GGGGTCCCGGCTGACAAGCCAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAG
GCTCTGCATGCTATGCCAGGCATGTGCAGTCTGGACTTCCACCTCCAGTGCCAGAAACTTCCAGAAGGAAGGAGAAAACTCTTGTCAAGA

>3446_3446_5_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000537352_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_6_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000539622_length(transcript)=2098nt_BP=1770nt
AGAAAGCCATGTAACCATGAAGGCAGAGATTGAAGTGATTCAACTATAAGCCAAGGCATGCCAACTGCTACTGGGAGCCACCAAAAGCTA
GTCAAAGGCAAGGGAACCATCTTCCCGAGAGCTTTCATGGGGAGCATGGCCCTATAAACAACTGGATTTTTGACTCAAGTCTCCAGAACT
GGAAGAGAATACAATCCTCTTTTGTTGTTCTAAACCATCCAATTTGCACAAAAACGTGTTTTGAACCTACTCTAACCAACTGTCAAAAGG
CTGTGTTAAGTGATTCTCTGACAAGAACCGGGATTTAGCTGAACTAAGAAGCAAAAATTCTGCATCATTTTGGTGGCGTGTACAGGGACA
TGAGGAAGGAACCTTGGCCATTCTGATGTTTAACCAAGAGTTGAGCTGAGTGGCTCTGACCAGCGTGGAAGATGAGAGCAGCCTGAACTT
ACACTGTGAAAATGCCCTGGAGAAATGCAGAGATGCAGGTTTAATGAAGTCCATCAGGGTGTCCAGTTTCAATCACTAACTGTTGGAACT
GATCCTCAGACAAGCCAGGACTCAAGTACAAGCCCATCTACAACCAGATGAGCCCTTAGGGCCACTGGGGCCATTTCTGACTTTGTGCTC
TTCACACACTTCCTTACATTAGAATAATGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCC
TCCTCTCACATGCCATTGGTTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAA
GAAACATTTGCCAGCCAGGCTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGG
ATTTGGCACCTATGCGCCTGCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGA
TTCTGCTCATTTATACAATAATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATT
CTACACTTCAAAGCTTTGGTGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTA
TGTTGACCTCTACCTTATTCATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGA
CACAGTGGATCTCTGTGCCACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCG
CAGGCAGCTGGAGATGATCCTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAG
AAAACTGCTGGATTTCTGCAAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCC
GAACTCCCCGGTGCTCTTGGAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCA
GCTACAGCGTGGGGTTGTGGTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTC
AGAGGAGATGAAAGCCATAGATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGAC
CCCAGAACCATGGGCTACTCCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGC
GGGGTCCCGGCTGACAAGCCAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAG
GCTCTGCATGCTATGCCAGGCATGTGCAGTCTGGACTTCCACCTCCAGTGCCAGAAACTTCCAGAAGGAAGGAGAAAACTCTTGTCAAGA

>3446_3446_6_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000539622_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_7_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000566983_length(transcript)=1915nt_BP=1770nt
AGAAAGCCATGTAACCATGAAGGCAGAGATTGAAGTGATTCAACTATAAGCCAAGGCATGCCAACTGCTACTGGGAGCCACCAAAAGCTA
GTCAAAGGCAAGGGAACCATCTTCCCGAGAGCTTTCATGGGGAGCATGGCCCTATAAACAACTGGATTTTTGACTCAAGTCTCCAGAACT
GGAAGAGAATACAATCCTCTTTTGTTGTTCTAAACCATCCAATTTGCACAAAAACGTGTTTTGAACCTACTCTAACCAACTGTCAAAAGG
CTGTGTTAAGTGATTCTCTGACAAGAACCGGGATTTAGCTGAACTAAGAAGCAAAAATTCTGCATCATTTTGGTGGCGTGTACAGGGACA
TGAGGAAGGAACCTTGGCCATTCTGATGTTTAACCAAGAGTTGAGCTGAGTGGCTCTGACCAGCGTGGAAGATGAGAGCAGCCTGAACTT
ACACTGTGAAAATGCCCTGGAGAAATGCAGAGATGCAGGTTTAATGAAGTCCATCAGGGTGTCCAGTTTCAATCACTAACTGTTGGAACT
GATCCTCAGACAAGCCAGGACTCAAGTACAAGCCCATCTACAACCAGATGAGCCCTTAGGGCCACTGGGGCCATTTCTGACTTTGTGCTC
TTCACACACTTCCTTACATTAGAATAATGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCC
TCCTCTCACATGCCATTGGTTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAA
GAAACATTTGCCAGCCAGGCTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGG
ATTTGGCACCTATGCGCCTGCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGA
TTCTGCTCATTTATACAATAATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATT
CTACACTTCAAAGCTTTGGTGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTA
TGTTGACCTCTACCTTATTCATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGA
CACAGTGGATCTCTGTGCCACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCG
CAGGCAGCTGGAGATGATCCTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAG
AAAACTGCTGGATTTCTGCAAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCC
GAACTCCCCGGTGCTCTTGGAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCA
GCTACAGCGTGGGGTTGTGGTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTC
AGAGGAGATGAAAGCCATAGATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGAC
CCCAGAACCATGGGCTACTCCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGC

>3446_3446_7_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000566983_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

--------------------------------------------------------------
>3446_3446_8_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000569958_length(transcript)=2086nt_BP=1770nt
AGAAAGCCATGTAACCATGAAGGCAGAGATTGAAGTGATTCAACTATAAGCCAAGGCATGCCAACTGCTACTGGGAGCCACCAAAAGCTA
GTCAAAGGCAAGGGAACCATCTTCCCGAGAGCTTTCATGGGGAGCATGGCCCTATAAACAACTGGATTTTTGACTCAAGTCTCCAGAACT
GGAAGAGAATACAATCCTCTTTTGTTGTTCTAAACCATCCAATTTGCACAAAAACGTGTTTTGAACCTACTCTAACCAACTGTCAAAAGG
CTGTGTTAAGTGATTCTCTGACAAGAACCGGGATTTAGCTGAACTAAGAAGCAAAAATTCTGCATCATTTTGGTGGCGTGTACAGGGACA
TGAGGAAGGAACCTTGGCCATTCTGATGTTTAACCAAGAGTTGAGCTGAGTGGCTCTGACCAGCGTGGAAGATGAGAGCAGCCTGAACTT
ACACTGTGAAAATGCCCTGGAGAAATGCAGAGATGCAGGTTTAATGAAGTCCATCAGGGTGTCCAGTTTCAATCACTAACTGTTGGAACT
GATCCTCAGACAAGCCAGGACTCAAGTACAAGCCCATCTACAACCAGATGAGCCCTTAGGGCCACTGGGGCCATTTCTGACTTTGTGCTC
TTCACACACTTCCTTACATTAGAATAATGTAAGAAACGGTTGAACTGGATGCAATTTTTATCACAGCTTGTGTAAGACTGCCTCTGTCCC
TCCTCTCACATGCCATTGGTTAACCAGCAGACAGTGTGCTCAGGGGCGTTGCCAGCTCATTGCTCTTATAGCCTGTGAGGGAGGAAGAAA
GAAACATTTGCCAGCCAGGCTAGTGACAGAAATGGATTCGAAATATCAGTGTGTGAAGCTGAATGATGGTCACTTCATGCCTGTCCTGGG
ATTTGGCACCTATGCGCCTGCAGAGGTTCCTAAAAGTAAAGCTTTAGAGGCCACCAAATTGGCAATTGAAGCTGGCTTCCGCCATATTGA
TTCTGCTCATTTATACAATAATGAGGAGCAGGTTGGACTGGCCATCCGAAGCAAGATTGCAGATGGCAGTGTGAAGAGAGAAGACATATT
CTACACTTCAAAGCTTTGGTGCAATTCCCATCGACCAGAGTTGGTCCGACCAGCCTTGGAAAGGTCACTGAAAAATCTTCAATTGGATTA
TGTTGACCTCTACCTTATTCATTTTCCAGTGTCTGTAAAGCCAGGTGAGGAAGTGATCCCAAAAGATGAAAATGGAAAAATACTATTTGA
CACAGTGGATCTCTGTGCCACATGGGAGGCCGTGGAGAAGTGTAAAGATGCAGGATTGGCCAAGTCCATCGGGGTGTCCAACTTCAACCG
CAGGCAGCTGGAGATGATCCTCAACAAGCCAGGGCTCAAGTACAAGCCTGTCTGCAACCAGGTGGAATGTCATCCTTACTTCAACCAGAG
AAAACTGCTGGATTTCTGCAAGTCAAAAGACATTGTTCTGGTTGCCTATAGTGCTCTGGGATCCCACCGAGAAGAACCATGGGTGGACCC
GAACTCCCCGGTGCTCTTGGAGGACCCAGTCCTTTGTGCCTTGGCAAAAAAGCACAAGCGAACCCCAGCCCTGATTGCCCTGCGCTACCA
GCTACAGCGTGGGGTTGTGGTCCTGGCCAAGAGCTACAATGAGCAGCGCATCAGACAGAACGTGCAGGTGTTTGAATTCCAGTTGACTTC
AGAGGAGATGAAAGCCATAGATGGCCTAAACAGAAATGTGCGATATTTGACCCTTGATATGGTGGCAATGACCATGAGATCTTCACAGAC
CCCAGAACCATGGGCTACTCCGTGACAGCGCCTGAGGACACGCGCAGGATCTGTGAACTGCTGTTCTCCTAACGTGGGAGCGGGAGGGGC
GGGGTCCCGGCTGACAAGCCAGCATAGGGCATTCGGTGGCCAGAGCCGAGGGTCCTCCCACACGTGCTCACCCACCCGCAGCCTAGGCAG
GCTCTGCATGCTATGCCAGGCATGTGCAGTCTGGACTTCCACCTCCAGTGCCAGAAACTTCCAGAAGGAAGGAGAAAACTCTTGTCAAGA

>3446_3446_8_AKR1C1-PMM2_AKR1C1_chr10_5018125_ENST00000434459_PMM2_chr16_8941581_ENST00000569958_length(amino acids)=375AA_BP=358
MCKTASVPPLTCHWLTSRQCAQGRCQLIALIACEGGRKKHLPARLVTEMDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEATKLAI
EAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWCNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKD
ENGKILFDTVDLCATWEAVEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSH
REEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDMVA

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

Top

Fusion Gene PPI Analysis for AKR1C1-PMM2

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 AKR1C1-PMM2

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 AKR1C1-PMM2

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source