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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:LPP-DDX51 (FusionGDB2 ID:49558)

Fusion Gene Summary for LPP-DDX51

Fusion gene summary

Fusion gene information	Fusion gene name: LPP-DDX51
	Fusion gene ID: 49558
		Hgene	Tgene
	Gene symbol	LPP	DDX51
	Gene ID	4026	317781
	Gene name	LIM domain containing preferred translocation partner in lipoma	DEAD-box helicase 51
	Synonyms	-	-
	Cytomap	3q27.3-q28	12q24.33
	Type of gene	protein-coding	protein-coding
	Description	lipoma-preferred partnerLIM proteinlipoma preferred partner	ATP-dependent RNA helicase DDX51DEAD (Asp-Glu-Ala-Asp) box polypeptide 51DEAD box protein 51
	Modification date	20200313	20200313
	UniProtAcc	.	.
	Ensembl transtripts involved in fusion gene	ENST00000312675, ENST00000543006, ENST00000448637, ENST00000471917,	ENST00000397333,
Fusion gene scores	* DoF score	41 X 30 X 15=18450	2 X 2 X 2=8
	# samples	52	2
	** MAII score	log2(52/18450*10)=-5.14896538280667 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(2/8*10)=1.32192809488736
Context	PubMed: LPP [Title/Abstract] AND DDX51 [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	LPP(188478070)-DDX51(132627423), # samples:2
Anticipated loss of major functional domain due to fusion event.

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

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

Partner

Gene

GO ID

GO term

PubMed ID

Fusion gene breakpoints across LPP (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 DDX51 (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	OV	TCGA-36-1577-01A	LPP	chr3	188478070	+	DDX51	chr12	132627423	-

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Fusion Gene ORF analysis for LPP-DDX51

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
In-frame	ENST00000312675	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-
In-frame	ENST00000543006	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-
intron-3CDS	ENST00000448637	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-
intron-3CDS	ENST00000471917	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-

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)

ENST00000312675

LPP

chr3

188478070

ENST00000397333

DDX51

chr12

132627423

5816

1656

123

3137

1004

ENST00000543006

LPP

chr3

188478070

ENST00000397333

DDX51

chr12

132627423

5759

1599

3080

1023

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
ENST00000312675	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-	0.001451887	0.9985481
ENST00000543006	ENST00000397333	LPP	chr3	188478070	+	DDX51	chr12	132627423	-	0.00176851	0.9982315

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Fusion Genomic Features for LPP-DDX51

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 LPP-DDX51

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr3:188478070/chr12:132627423)
- FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels.
- How to search
1. Put your fusion gene symbol.
2. Press the tab key until there will be shown the breakpoint information filled.
4. Go down and press 'Search' tab twice.
4. Go down to have the hyperlink of the search result.
5. Click the hyperlink.
6. See the FGviewer result for your fusion gene.

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

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

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

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

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

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Protein feature

Protein feature note

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000312675

41_370

470

613.0

Compositional bias

Note=Pro-rich

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000543006

41_370

470

613.0

Compositional bias

Note=Pro-rich

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000312675

414_473

470

613.0

Domain

LIM zinc-binding 1

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000543006

414_473

470

613.0

Domain

LIM zinc-binding 1

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

243_452

173

667.0

Domain

Helicase ATP-binding

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

494_640

173

667.0

Domain

Helicase C-terminal

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

221_229

173

667.0

Motif

Note=Q motif

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

371_374

173

667.0

Motif

Note=DEAD box

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

256_263

173

667.0

Nucleotide binding

ATP

- 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

LPP

chr3:188478070

chr12:132627423

ENST00000312675

474_534

470

613.0

Domain

LIM zinc-binding 2

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000312675

535_603

470

613.0

Domain

LIM zinc-binding 3

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000543006

474_534

470

613.0

Domain

LIM zinc-binding 2

Hgene

LPP

chr3:188478070

chr12:132627423

ENST00000543006

535_603

470

613.0

Domain

LIM zinc-binding 3

Tgene

DDX51

chr3:188478070

chr12:132627423

ENST00000397333

30_75

173

667.0

Compositional bias

Note=Arg-rich

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Fusion Gene Sequence for LPP-DDX51

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.

>49558_49558_1_LPP-DDX51_LPP_chr3_188478070_ENST00000312675_DDX51_chr12_132627423_ENST00000397333_length(transcript)=5816nt_BP=1656nt
GTCACTTTTATTTGGGGGTGTGGACAGCTGCTTTCCCAGGGGAGTACTTCTTACAGTGGGATTTCAAGACAAGATCGGCCTGAAGAAAAA
TTATATTTGTATATTTTTTAAAAAGTGGGAACTTTGAGGCTCAGAGACAGAGCAGAAGACAGAACCTGGTCTTCTGATTCCCTGTGTTCT
GCTTTTTTCATTGTTCCACTGGACGCTCATCAGAGGGAAGATCTTTTTCCTCAATTGATTCCAACAATGTCTCACCCATCTTGGCTGCCA
CCCAAAAGCACTGGTGAGCCCCTCGGCCATGTGCCTGCACGGATGGAGACCACCCATTCCTTTGGGAACCCCAGCATTTCAGTGTCTACA
CAACAGCCACCCAAAAAGTTTGCCCCGGTAGTTGCTCCAAAACCTAAGTACAACCCATACAAACAACCTGGAGGTGAGGGTGATTTTCTT
CCACCCCCACCTCCACCTCTAGATGATTCCAGTGCCCTTCCATCTATCTCTGGAAACTTTCCTCCTCCACCACCTCTTGATGAAGAGGCT
TTCAAAGTACAGGGGAATCCCGGAGGCAAGACACTTGAGGAGAGGCGCTCCAGCCTGGACGCTGAGATTGACTCCTTGACCAGCATCTTG
GCTGACCTTGAGTGCAGCTCCCCCTATAAGCCTCGGCCTCCACAGAGCTCCACTGGTTCAACAGCCTCTCCTCCAGTTTCGACCCCAGTC
ACAGGACACAAGAGAATGGTCATCCCGAACCAACCCCCTCTAACAGCAACCAAGAAGTCTACATTGAAACCACAGCCTGCACCCCAGGCT
GGACCCATCCCTGTGGCTCCAATCGGAACACTCAAACCCCAGCCTCAGCCAGTCCCAGCCTCCTACACCACGGCCTCCACTTCTTCAAGG
CCTACCTTTAATGTGCAGGTGAAGTCAGCCCAGCCCAGCCCTCATTATATGGCTGCCCCTTCATCAGGACAAATTTATGGCTCAGGGCCC
CAGGGCTATAACACTCAGCCAGTTCCTGTCTCTGGGCAGTGTCCACCTCCTTCAACACGGGGAGGCATGGATTATGCCTACATTCCACCA
CCAGGACTTCAGCCGGAGCCTGGGTATGGGTATGCCCCCAACCAGGGACGCTATTATGAAGGCTACTATGCAGCAGGGCCAGGCTATGGG
GGCAGAAATGACTCTGACCCTACCTATGGTCAACAAGGTCACCCAAATACCTGGAAACGGGAACCAGGGTACACTCCTCCTGGAGCAGGG
AACCAGAACCCTCCTGGGATGTATCCAGTCACTGGTCCCAAGAAGACCTATATCACAGATCCTGTTTCAGCCCCCTGTGCGCCACCATTG
CAGCCAAAGGGTGGCCATTCAGGGCAACTGGGGCCTTCGTCAGTTGCCCCTTCATTCCGCCCAGAGGATGAGCTTGAGCACCTGACCAAA
AAGATGCTGTATGACATGGAAAATCCACCTGCTGACGAATACTTTGGCCGCTGTGCTCGCTGTGGAGAAAACGTAGTTGGGGAAGGTACA
GGATGCACTGCCATGGATCAGGTCTTCCACGTGGATTGTTTTACCTGCATCATCTGCAACAACAAGCTCCGAGGGCAGCCATTCTATGCT
GTGGAAAAGAAAGCATACTGCGAGCCCTGCTACATTGTCCAGCCTTTCCTGCCAAGGTGGCTGGCTGAGCCTAACTGTGTCAGAAGGAAT
GTCACCGAAGACCTGGTTCCTATCGAGGACATCCCTGACGTCCATCCTGACCTGCAGAAGCAGCTGCGGGCACACGGCATCTCGTCCTAC
TTTCCAGTCCAGGCAGCTGTGATTCCTGCCCTCCTGGAGAGCGCAGCCTGTGGGTTTCTGGTGGGCAGAGGTGGCTACCGGCCTAGCGAC
CTCTGTGTTTCTGCCCCAACAGGCAGTGGGAAGACACTGGCCTTCGTCATCCCTGTGGTGCAGGCCCTGCTTTCGAGAGTGGTCTGCCAC
ATCCGTGCCCTGGTTGTGCTGCCCACCAAGGAGCTGGCCCAGCAGGTGAGCAAAGTTTTCAACATCTACACAGATGCCACACCTCTGAGA
GTCTCCCTGGTTACGGGACAGAAGTCTCTGGCCAAGGAGCAGGAGAGCCTCGTCCAGAAAACAGCTGATGGGTACCGCTGCTTGGCTGAC
ATCGTGGTAGCCACCCCCGGCCGCCTGGTGGACCACATCGACCAGACCCCAGGATTCAGCCTCCAGCAGCTCCGCTTCCTGATTATCGAC
GAGGCTGACCGGATGATTGACAGCATGCATCAGTCCTGGCTGCCGCGGGTGGTGGCGGCCGCCTTCCAGAGCGAGGACCCCGCGGACCCC
TGTGCCCTGCTCCAGCGAAGGCAGGCCCAGGCTGTGACAGCCGCCAGCACCTGCTGTCCCCAGATGCCCCTGCAGAAGCTGCTCTTCTCA
GCTACTCTGACCCAGAACCCTGAAAAGCTGCAGCAGCTGGGCCTCCACCAGCCCCGGCTTTTCTCCACAGGGCTAGCACACAGGGGCCTG
GAAGATACAGATGGGGACGGGGATTCGGGGAAGTATGCCTTTCCTGTTGGGCTCACGCACCACTACGTGCCCTGCAGCCTCAGCTCTAAG
CCGCTGGTCGTCCTGCACCTGGTCCTGGAGATGGGCTTCTCGAGGGTTCTCTGCTTCACTAACTCCCGAGAGAACTCCCACAGGCTCTTC
CTGCTGGTGCAAGCTTTTGGGGGTGTGGACGTGGCTGAGTTCTCCTCGCGCTACGGGCCTGGCCAGAGGAGGATGATCCTGAAGCAGTTT
GAACAGGGGAAGATCCAGCTGCTCATCAGCACGGACGCCACCGCGCGAGGCATCGACGTGCAGGGTGTGGAGCTGGTGGTGAACTACGAC
GCCCCCCAGTACCTGAGAACCTACGTGCACCGGGTTGGGAGGACAGCTCGCGCTGGGAAAACTGGACAGGCCTTCACACTGCTCCTGAAA
GTGCAGGAGAGGAGATTCCTCCGAATGCTAACTGAAGCTGGGGCACCTGAGTTGCAGCGGCACGAGCTCTCCAGCAAGCTGCTGCAGCCG
CTGGTTCCTCGGTACGAGGAGGCCCTGTCCCAGCTGGAGGAGTCTGTCAAGGAAGAGCGCAAGCAGAGGGCGGCCTAGGCTGGGGCTCAG
AGGGCCGGAGGGACTGAACGCTCACCACCCTGACCCTCCTTCCAGAGCAGTGCTGATCACTGGATCCTGTATGTGAGGAAAGGAATCCCC
CAGTGGACACAGCCTTCCTCCCCAAGCACGTGGTCTCTGCGCCAGGCAGCCCGGGCGTCAGAGCTCAAGCACCTGCCCCGACTGGAGACT
TCAGGGCTTGTCACTTTCAGAGTGTGGAGGTCAGGATGGCTGCGGGCAATGAAGCCTTAGTAAAACGGTGAAAAGTACTCCCAGACGGAC
GCGGGCACCCGTCATGCTTTTGCTGAGAGTTGGGGGCATTAACCTTGAGCTAATGTTAAAAATCAAGCTCTTGGCCAGGCATGGTGGCTC
ATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCACGAGTTCGAGACCAGCCTGACCAACATGGAGAAAC
CCTGTCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGTGCATGCCTGTAATCCAGCTACTTGGGAGGCTGAGGCAGGAAAATGGCT
TGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCGTCTCAAAAAAA
AAAATTGCCGGGCGCGGTGGCAAATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCAGGTGGATCACAAGGTCAGGAGATAGAGACCA
TCATTGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAACAACTAGCCGGGCGTGGTGGCGGGCACCTATAG
TCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCGGAGACTGCGCCACTGCACTCCA
GCCTGGGCAACAGAGTGAGACTCCGTCAAAAAAAAAGCTCTCCTCCCCAGATTTGTGAACCTTGTGACTGTTCAGTGGACACCTCACATA
TTGCTGGTGGGAAGGTCACGTGGAGACAGCTGGGCAAAGCCTTGGGGCGTTAAACACAGAGTCACTCATGACCCAGCACTTCCTCTCCTA
TGCACCTTGTACACCCCAGATCAATGAAACCTACATCCACACAGAAACGTACACAAATCTCTCAGCAGCACTGTTCACAGTAGCCAAAAA
CTAGAAACCACATGTCCGTCAGCTGATGAATGGAGAATAAAACGTGGGAAATCCACACCAGGAGAGAAAAAGGAGTGAGGCACCAGCATA
GGCACCCCGTGGATGAACCCGGAACCTGACGCTAACTGAAGGAAGGCTCCGGCTATAGGGAGTGTCCCAGGCACAGCCAGAGATTGAAGG
GTGCCGGGGCCGGGAGTTGGTGGGGGTTGGGGCTGGGGACACAGTGGCCAGTGTGTGGGTTTGTTTTGGGGATGATGAAAATGTTCTTAG
GTTGTGTGTGGTGATGGCTGCTCACCTCTATAAACCTTTTACTAAAAACCATGGACTGGGTGGATACAGTGTGTGAATTCTCTCAGTCCA
GTGCTTTGTTTGAAAAAGGTGGATGATGCCAACATCACTAACCGCCAGGGAGACGCAGGCCACGGCCACACCCGGCTCACTGGAGTTGTG
AGGATGGAAACACCAGCCCACCCCACTCAGTTCAGACCTCAGCTTAGATGCAAAGAATGTCTGGGATGGGGACTGGCAGCTGATTAGAGA
TGCAACCACTGAACCTGTGGACTGTGTTCAAACAAATGCCAGCAGAACACAAAAGGCGACTGTTACAGGAGGCAGAAAGAAATGATTTAG
GTAGACGGGGTAAAGCCAGTCCCCAGCAGAAAATTTGCCTTTTAACAAAAAGCAGCTCAAAAATAGCTCCCTTTCTAACCTCGGGGTTCA
AAATCACTTCTCACGACAAGCAGCCAGAAAGAGCAGACTGTGAATCACAGATGAGACAGCTCGGGCACAGGAGTGCGGGGGGTGTCTCCT
GGGTGATCACCAAACTTCACACTTCCACAATGGGCCCCAGTAAAACAGTGGACCCTAATAAGCACATTCCCGTCCCCTTAGGTGCACTAA
GGGAAGCTAAAAGCAGACTGAGGGGTGCCTGTAACCCCAAGAAGATGTCTGGGAGCAGACCCAGAGACCCTCGCAGAAAAGTGTCACAGA
GCAGCACAGACTGAGTCTGACAGAAACTCTCTATACAAATAGCACACCTTGTCCCAGCTAAAACCCTGGGCCCTGGGAGGACAAGACATC
CCTCCTCTAACCCCTCGTCACTAGCCCATTTGTAAAAACCTTGACAGGCCGGGCACGGTGGCTCACACCTGTAATCCCAGCACTTTGGGA
GGCTGAGGCAGGCGCATCACCTGAGGTCAGGAGATCGAGACCATCCTGGCCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAACT
TAGCTGAGCGTGGTGGCGTGTGCCTGGAGTCCCAACTACTCAAGAGGCTGAGGCAGGAGAATCACTTGCCCGGGAGGTGGAGGTTGCAGT
GGGCCAAGATCAGCCCACTGCACTGCAGCCTGGCGACAGAAAAAAAAGAAACCTTGACATCTTTACTACAACTTAGCAACCCGCTCAGGC

>49558_49558_1_LPP-DDX51_LPP_chr3_188478070_ENST00000312675_DDX51_chr12_132627423_ENST00000397333_length(amino acids)=1004AA_BP=511
MRLRDRAEDRTWSSDSLCSAFFIVPLDAHQREDLFPQLIPTMSHPSWLPPKSTGEPLGHVPARMETTHSFGNPSISVSTQQPPKKFAPVV
APKPKYNPYKQPGGEGDFLPPPPPPLDDSSALPSISGNFPPPPPLDEEAFKVQGNPGGKTLEERRSSLDAEIDSLTSILADLECSSPYKP
RPPQSSTGSTASPPVSTPVTGHKRMVIPNQPPLTATKKSTLKPQPAPQAGPIPVAPIGTLKPQPQPVPASYTTASTSSRPTFNVQVKSAQ
PSPHYMAAPSSGQIYGSGPQGYNTQPVPVSGQCPPPSTRGGMDYAYIPPPGLQPEPGYGYAPNQGRYYEGYYAAGPGYGGRNDSDPTYGQ
QGHPNTWKREPGYTPPGAGNQNPPGMYPVTGPKKTYITDPVSAPCAPPLQPKGGHSGQLGPSSVAPSFRPEDELEHLTKKMLYDMENPPA
DEYFGRCARCGENVVGEGTGCTAMDQVFHVDCFTCIICNNKLRGQPFYAVEKKAYCEPCYIVQPFLPRWLAEPNCVRRNVTEDLVPIEDI
PDVHPDLQKQLRAHGISSYFPVQAAVIPALLESAACGFLVGRGGYRPSDLCVSAPTGSGKTLAFVIPVVQALLSRVVCHIRALVVLPTKE
LAQQVSKVFNIYTDATPLRVSLVTGQKSLAKEQESLVQKTADGYRCLADIVVATPGRLVDHIDQTPGFSLQQLRFLIIDEADRMIDSMHQ
SWLPRVVAAAFQSEDPADPCALLQRRQAQAVTAASTCCPQMPLQKLLFSATLTQNPEKLQQLGLHQPRLFSTGLAHRGLEDTDGDGDSGK
YAFPVGLTHHYVPCSLSSKPLVVLHLVLEMGFSRVLCFTNSRENSHRLFLLVQAFGGVDVAEFSSRYGPGQRRMILKQFEQGKIQLLIST
DATARGIDVQGVELVVNYDAPQYLRTYVHRVGRTARAGKTGQAFTLLLKVQERRFLRMLTEAGAPELQRHELSSKLLQPLVPRYEEALSQ

--------------------------------------------------------------
>49558_49558_2_LPP-DDX51_LPP_chr3_188478070_ENST00000543006_DDX51_chr12_132627423_ENST00000397333_length(transcript)=5759nt_BP=1599nt
GTGGGAACTTTGAGGCTCAGAGACAGAGCAGAAGACAGAACCTGGTCTTCTGATTCCCTGTGTTCTGCTTTTTTCATTGTTCCACTGGAC
GCTCATCAGAGGGAAGATCTTTTTCCTCAATTGCATTGCAGTTGGCTGAACCTTGTGTCAACCATCCATTCCAGGAGCCAGCTATCTGAG
ATTCCAACAATGTCTCACCCATCTTGGCTGCCACCCAAAAGCACTGGTGAGCCCCTCGGCCATGTGCCTGCACGGATGGAGACCACCCAT
TCCTTTGGGAACCCCAGCATTTCAGTGTCTACACAACAGCCACCCAAAAAGTTTGCCCCGGTAGTTGCTCCAAAACCTAAGTACAACCCA
TACAAACAACCTGGAGGTGAGGGTGATTTTCTTCCACCCCCACCTCCACCTCTAGATGATTCCAGTGCCCTTCCATCTATCTCTGGAAAC
TTTCCTCCTCCACCACCTCTTGATGAAGAGGCTTTCAAAGTACAGGGGAATCCCGGAGGCAAGACACTTGAGGAGAGGCGCTCCAGCCTG
GACGCTGAGATTGACTCCTTGACCAGCATCTTGGCTGACCTTGAGTGCAGCTCCCCCTATAAGCCTCGGCCTCCACAGAGCTCCACTGGT
TCAACAGCCTCTCCTCCAGTTTCGACCCCAGTCACAGGACACAAGAGAATGGTCATCCCGAACCAACCCCCTCTAACAGCAACCAAGAAG
TCTACATTGAAACCACAGCCTGCACCCCAGGCTGGACCCATCCCTGTGGCTCCAATCGGAACACTCAAACCCCAGCCTCAGCCAGTCCCA
GCCTCCTACACCACGGCCTCCACTTCTTCAAGGCCTACCTTTAATGTGCAGGTGAAGTCAGCCCAGCCCAGCCCTCATTATATGGCTGCC
CCTTCATCAGGACAAATTTATGGCTCAGGGCCCCAGGGCTATAACACTCAGCCAGTTCCTGTCTCTGGGCAGTGTCCACCTCCTTCAACA
CGGGGAGGCATGGATTATGCCTACATTCCACCACCAGGACTTCAGCCGGAGCCTGGGTATGGGTATGCCCCCAACCAGGGACGCTATTAT
GAAGGCTACTATGCAGCAGGGCCAGGCTATGGGGGCAGAAATGACTCTGACCCTACCTATGGTCAACAAGGTCACCCAAATACCTGGAAA
CGGGAACCAGGGTACACTCCTCCTGGAGCAGGGAACCAGAACCCTCCTGGGATGTATCCAGTCACTGGTCCCAAGAAGACCTATATCACA
GATCCTGTTTCAGCCCCCTGTGCGCCACCATTGCAGCCAAAGGGTGGCCATTCAGGGCAACTGGGGCCTTCGTCAGTTGCCCCTTCATTC
CGCCCAGAGGATGAGCTTGAGCACCTGACCAAAAAGATGCTGTATGACATGGAAAATCCACCTGCTGACGAATACTTTGGCCGCTGTGCT
CGCTGTGGAGAAAACGTAGTTGGGGAAGGTACAGGATGCACTGCCATGGATCAGGTCTTCCACGTGGATTGTTTTACCTGCATCATCTGC
AACAACAAGCTCCGAGGGCAGCCATTCTATGCTGTGGAAAAGAAAGCATACTGCGAGCCCTGCTACATTGTCCAGCCTTTCCTGCCAAGG
TGGCTGGCTGAGCCTAACTGTGTCAGAAGGAATGTCACCGAAGACCTGGTTCCTATCGAGGACATCCCTGACGTCCATCCTGACCTGCAG
AAGCAGCTGCGGGCACACGGCATCTCGTCCTACTTTCCAGTCCAGGCAGCTGTGATTCCTGCCCTCCTGGAGAGCGCAGCCTGTGGGTTT
CTGGTGGGCAGAGGTGGCTACCGGCCTAGCGACCTCTGTGTTTCTGCCCCAACAGGCAGTGGGAAGACACTGGCCTTCGTCATCCCTGTG
GTGCAGGCCCTGCTTTCGAGAGTGGTCTGCCACATCCGTGCCCTGGTTGTGCTGCCCACCAAGGAGCTGGCCCAGCAGGTGAGCAAAGTT
TTCAACATCTACACAGATGCCACACCTCTGAGAGTCTCCCTGGTTACGGGACAGAAGTCTCTGGCCAAGGAGCAGGAGAGCCTCGTCCAG
AAAACAGCTGATGGGTACCGCTGCTTGGCTGACATCGTGGTAGCCACCCCCGGCCGCCTGGTGGACCACATCGACCAGACCCCAGGATTC
AGCCTCCAGCAGCTCCGCTTCCTGATTATCGACGAGGCTGACCGGATGATTGACAGCATGCATCAGTCCTGGCTGCCGCGGGTGGTGGCG
GCCGCCTTCCAGAGCGAGGACCCCGCGGACCCCTGTGCCCTGCTCCAGCGAAGGCAGGCCCAGGCTGTGACAGCCGCCAGCACCTGCTGT
CCCCAGATGCCCCTGCAGAAGCTGCTCTTCTCAGCTACTCTGACCCAGAACCCTGAAAAGCTGCAGCAGCTGGGCCTCCACCAGCCCCGG
CTTTTCTCCACAGGGCTAGCACACAGGGGCCTGGAAGATACAGATGGGGACGGGGATTCGGGGAAGTATGCCTTTCCTGTTGGGCTCACG
CACCACTACGTGCCCTGCAGCCTCAGCTCTAAGCCGCTGGTCGTCCTGCACCTGGTCCTGGAGATGGGCTTCTCGAGGGTTCTCTGCTTC
ACTAACTCCCGAGAGAACTCCCACAGGCTCTTCCTGCTGGTGCAAGCTTTTGGGGGTGTGGACGTGGCTGAGTTCTCCTCGCGCTACGGG
CCTGGCCAGAGGAGGATGATCCTGAAGCAGTTTGAACAGGGGAAGATCCAGCTGCTCATCAGCACGGACGCCACCGCGCGAGGCATCGAC
GTGCAGGGTGTGGAGCTGGTGGTGAACTACGACGCCCCCCAGTACCTGAGAACCTACGTGCACCGGGTTGGGAGGACAGCTCGCGCTGGG
AAAACTGGACAGGCCTTCACACTGCTCCTGAAAGTGCAGGAGAGGAGATTCCTCCGAATGCTAACTGAAGCTGGGGCACCTGAGTTGCAG
CGGCACGAGCTCTCCAGCAAGCTGCTGCAGCCGCTGGTTCCTCGGTACGAGGAGGCCCTGTCCCAGCTGGAGGAGTCTGTCAAGGAAGAG
CGCAAGCAGAGGGCGGCCTAGGCTGGGGCTCAGAGGGCCGGAGGGACTGAACGCTCACCACCCTGACCCTCCTTCCAGAGCAGTGCTGAT
CACTGGATCCTGTATGTGAGGAAAGGAATCCCCCAGTGGACACAGCCTTCCTCCCCAAGCACGTGGTCTCTGCGCCAGGCAGCCCGGGCG
TCAGAGCTCAAGCACCTGCCCCGACTGGAGACTTCAGGGCTTGTCACTTTCAGAGTGTGGAGGTCAGGATGGCTGCGGGCAATGAAGCCT
TAGTAAAACGGTGAAAAGTACTCCCAGACGGACGCGGGCACCCGTCATGCTTTTGCTGAGAGTTGGGGGCATTAACCTTGAGCTAATGTT
AAAAATCAAGCTCTTGGCCAGGCATGGTGGCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGCGGGTGGATCACCTGAGGTCACG
AGTTCGAGACCAGCCTGACCAACATGGAGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCAGGCGTGGTGGTGCATGCCTGTAATCC
AGCTACTTGGGAGGCTGAGGCAGGAAAATGGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGCACTCCAGCCT
GGGCAACAAGAGCAAAACTCCGTCTCAAAAAAAAAAATTGCCGGGCGCGGTGGCAAATGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
CAGGTGGATCACAAGGTCAGGAGATAGAGACCATCATTGCTAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAAAAAAAAAAAA
CAACTAGCCGGGCGTGGTGGCGGGCACCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCT
TGCAGTGAGCGGAGACTGCGCCACTGCACTCCAGCCTGGGCAACAGAGTGAGACTCCGTCAAAAAAAAAGCTCTCCTCCCCAGATTTGTG
AACCTTGTGACTGTTCAGTGGACACCTCACATATTGCTGGTGGGAAGGTCACGTGGAGACAGCTGGGCAAAGCCTTGGGGCGTTAAACAC
AGAGTCACTCATGACCCAGCACTTCCTCTCCTATGCACCTTGTACACCCCAGATCAATGAAACCTACATCCACACAGAAACGTACACAAA
TCTCTCAGCAGCACTGTTCACAGTAGCCAAAAACTAGAAACCACATGTCCGTCAGCTGATGAATGGAGAATAAAACGTGGGAAATCCACA
CCAGGAGAGAAAAAGGAGTGAGGCACCAGCATAGGCACCCCGTGGATGAACCCGGAACCTGACGCTAACTGAAGGAAGGCTCCGGCTATA
GGGAGTGTCCCAGGCACAGCCAGAGATTGAAGGGTGCCGGGGCCGGGAGTTGGTGGGGGTTGGGGCTGGGGACACAGTGGCCAGTGTGTG
GGTTTGTTTTGGGGATGATGAAAATGTTCTTAGGTTGTGTGTGGTGATGGCTGCTCACCTCTATAAACCTTTTACTAAAAACCATGGACT
GGGTGGATACAGTGTGTGAATTCTCTCAGTCCAGTGCTTTGTTTGAAAAAGGTGGATGATGCCAACATCACTAACCGCCAGGGAGACGCA
GGCCACGGCCACACCCGGCTCACTGGAGTTGTGAGGATGGAAACACCAGCCCACCCCACTCAGTTCAGACCTCAGCTTAGATGCAAAGAA
TGTCTGGGATGGGGACTGGCAGCTGATTAGAGATGCAACCACTGAACCTGTGGACTGTGTTCAAACAAATGCCAGCAGAACACAAAAGGC
GACTGTTACAGGAGGCAGAAAGAAATGATTTAGGTAGACGGGGTAAAGCCAGTCCCCAGCAGAAAATTTGCCTTTTAACAAAAAGCAGCT
CAAAAATAGCTCCCTTTCTAACCTCGGGGTTCAAAATCACTTCTCACGACAAGCAGCCAGAAAGAGCAGACTGTGAATCACAGATGAGAC
AGCTCGGGCACAGGAGTGCGGGGGGTGTCTCCTGGGTGATCACCAAACTTCACACTTCCACAATGGGCCCCAGTAAAACAGTGGACCCTA
ATAAGCACATTCCCGTCCCCTTAGGTGCACTAAGGGAAGCTAAAAGCAGACTGAGGGGTGCCTGTAACCCCAAGAAGATGTCTGGGAGCA
GACCCAGAGACCCTCGCAGAAAAGTGTCACAGAGCAGCACAGACTGAGTCTGACAGAAACTCTCTATACAAATAGCACACCTTGTCCCAG
CTAAAACCCTGGGCCCTGGGAGGACAAGACATCCCTCCTCTAACCCCTCGTCACTAGCCCATTTGTAAAAACCTTGACAGGCCGGGCACG
GTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGCGCATCACCTGAGGTCAGGAGATCGAGACCATCCTGGCCAACATG
GTGAAACCCCATCTCTACTAAAAATACAAAACTTAGCTGAGCGTGGTGGCGTGTGCCTGGAGTCCCAACTACTCAAGAGGCTGAGGCAGG
AGAATCACTTGCCCGGGAGGTGGAGGTTGCAGTGGGCCAAGATCAGCCCACTGCACTGCAGCCTGGCGACAGAAAAAAAAGAAACCTTGA

>49558_49558_2_LPP-DDX51_LPP_chr3_188478070_ENST00000543006_DDX51_chr12_132627423_ENST00000397333_length(amino acids)=1023AA_BP=530
MRLRDRAEDRTWSSDSLCSAFFIVPLDAHQREDLFPQLHCSWLNLVSTIHSRSQLSEIPTMSHPSWLPPKSTGEPLGHVPARMETTHSFG
NPSISVSTQQPPKKFAPVVAPKPKYNPYKQPGGEGDFLPPPPPPLDDSSALPSISGNFPPPPPLDEEAFKVQGNPGGKTLEERRSSLDAE
IDSLTSILADLECSSPYKPRPPQSSTGSTASPPVSTPVTGHKRMVIPNQPPLTATKKSTLKPQPAPQAGPIPVAPIGTLKPQPQPVPASY
TTASTSSRPTFNVQVKSAQPSPHYMAAPSSGQIYGSGPQGYNTQPVPVSGQCPPPSTRGGMDYAYIPPPGLQPEPGYGYAPNQGRYYEGY
YAAGPGYGGRNDSDPTYGQQGHPNTWKREPGYTPPGAGNQNPPGMYPVTGPKKTYITDPVSAPCAPPLQPKGGHSGQLGPSSVAPSFRPE
DELEHLTKKMLYDMENPPADEYFGRCARCGENVVGEGTGCTAMDQVFHVDCFTCIICNNKLRGQPFYAVEKKAYCEPCYIVQPFLPRWLA
EPNCVRRNVTEDLVPIEDIPDVHPDLQKQLRAHGISSYFPVQAAVIPALLESAACGFLVGRGGYRPSDLCVSAPTGSGKTLAFVIPVVQA
LLSRVVCHIRALVVLPTKELAQQVSKVFNIYTDATPLRVSLVTGQKSLAKEQESLVQKTADGYRCLADIVVATPGRLVDHIDQTPGFSLQ
QLRFLIIDEADRMIDSMHQSWLPRVVAAAFQSEDPADPCALLQRRQAQAVTAASTCCPQMPLQKLLFSATLTQNPEKLQQLGLHQPRLFS
TGLAHRGLEDTDGDGDSGKYAFPVGLTHHYVPCSLSSKPLVVLHLVLEMGFSRVLCFTNSRENSHRLFLLVQAFGGVDVAEFSSRYGPGQ
RRMILKQFEQGKIQLLISTDATARGIDVQGVELVVNYDAPQYLRTYVHRVGRTARAGKTGQAFTLLLKVQERRFLRMLTEAGAPELQRHE

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

Top

Fusion Gene PPI Analysis for LPP-DDX51

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 LPP-DDX51

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 LPP-DDX51

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source