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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:EIF2D-CHMP1A (FusionGDB2 ID:25724)

Fusion Gene Summary for EIF2D-CHMP1A

Fusion gene summary

Fusion gene information	Fusion gene name: EIF2D-CHMP1A
	Fusion gene ID: 25724
		Hgene	Tgene
	Gene symbol	EIF2D	CHMP1A
	Gene ID	1939	5119
	Gene name	eukaryotic translation initiation factor 2D	charged multivesicular body protein 1A
	Synonyms	HCA56\|LGTN	CHMP1\|PCH8\|PCOLN3\|PRSM1\|VPS46-1\|VPS46A
	Cytomap	1q32.1	16q24.3
	Type of gene	protein-coding	protein-coding
	Description	eukaryotic translation initiation factor 2Dhepatocellular carcinoma-associated antigen 56ligatin	charged multivesicular body protein 1acharged multivesicular body protein 1/chromatin modifying protein 1chromatin modifying protein 1Aprocollagen (type III) N-endopeptidaseprotease, metallo, 1, 33kDvacuolar protein sorting-associated protein 46-1
	Modification date	20200313	20200313
	UniProtAcc	P41214	Q9HD42
	Ensembl transtripts involved in fusion gene	ENST00000271764, ENST00000367114, ENST00000472709,	ENST00000547614, ENST00000253475, ENST00000397901, ENST00000535997, ENST00000550102,
Fusion gene scores	* DoF score	4 X 4 X 3=48	45 X 11 X 21=10395
	# samples	4	48
	** MAII score	log2(4/48*10)=-0.263034405833794 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(48/10395*10)=-4.43671154213721 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0
Context	PubMed: EIF2D [Title/Abstract] AND CHMP1A [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	EIF2D(206769067)-CHMP1A(89713739), # samples:1
Anticipated loss of major functional domain due to fusion event.

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

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

Partner	Gene	GO ID	GO term	PubMed ID
Hgene	EIF2D	GO:0001731	formation of translation preinitiation complex	20713520
Hgene	EIF2D	GO:0032790	ribosome disassembly	20713520
Hgene	EIF2D	GO:0075522	IRES-dependent viral translational initiation	20713520
Tgene	CHMP1A	GO:0007076	mitotic chromosome condensation	11559747
Tgene	CHMP1A	GO:0016192	vesicle-mediated transport	11559748
Tgene	CHMP1A	GO:0016458	gene silencing	11559747
Tgene	CHMP1A	GO:0045892	negative regulation of transcription, DNA-templated	11559747

Fusion gene breakpoints across EIF2D (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 CHMP1A (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	GBM	TCGA-27-2519-01A	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-

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Fusion Gene ORF analysis for EIF2D-CHMP1A

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	ENST00000271764	ENST00000547614	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5CDS-5UTR	ENST00000367114	ENST00000547614	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5UTR-3CDS	ENST00000472709	ENST00000253475	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5UTR-3CDS	ENST00000472709	ENST00000397901	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5UTR-3CDS	ENST00000472709	ENST00000535997	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5UTR-3CDS	ENST00000472709	ENST00000550102	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
5UTR-5UTR	ENST00000472709	ENST00000547614	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
Frame-shift	ENST00000271764	ENST00000253475	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
Frame-shift	ENST00000367114	ENST00000253475	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000271764	ENST00000397901	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000271764	ENST00000535997	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000271764	ENST00000550102	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000367114	ENST00000397901	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000367114	ENST00000535997	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-
In-frame	ENST00000367114	ENST00000550102	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-

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)
ENST00000367114	EIF2D	chr1	206769067	-	ENST00000397901	CHMP1A	chr16	89713739	-	3228	1254	21	1592	523
ENST00000367114	EIF2D	chr1	206769067	-	ENST00000535997	CHMP1A	chr16	89713739	-	3196	1254	21	1592	523
ENST00000367114	EIF2D	chr1	206769067	-	ENST00000550102	CHMP1A	chr16	89713739	-	1770	1254	21	1592	523
ENST00000271764	EIF2D	chr1	206769067	-	ENST00000397901	CHMP1A	chr16	89713739	-	3692	1718	17	2056	679
ENST00000271764	EIF2D	chr1	206769067	-	ENST00000535997	CHMP1A	chr16	89713739	-	3660	1718	17	2056	679
ENST00000271764	EIF2D	chr1	206769067	-	ENST00000550102	CHMP1A	chr16	89713739	-	2234	1718	17	2056	679

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
ENST00000367114	ENST00000397901	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.003229088	0.9967709
ENST00000367114	ENST00000535997	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.003365208	0.9966348
ENST00000367114	ENST00000550102	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.00597145	0.99402857
ENST00000271764	ENST00000397901	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.004439001	0.995561
ENST00000271764	ENST00000535997	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.004632301	0.99536777
ENST00000271764	ENST00000550102	EIF2D	chr1	206769067	-	CHMP1A	chr16	89713739	-	0.007542128	0.99245787

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Fusion Genomic Features for EIF2D-CHMP1A

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 EIF2D-CHMP1A

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr1:206769067/chr16:89713739)
- 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
EIF2D P41214	CHMP1A Q9HD42
FUNCTION: Translation initiation factor that is able to deliver tRNA to the P-site of the eukaryotic ribosome in a GTP-independent manner. The binding of Met-tRNA(I) occurs after the AUG codon finds its position in the P-site of 40S ribosomes, the situation that takes place during initiation complex formation on some specific RNAs. Its activity in tRNA binding with 40S subunits does not require the presence of the aminoacyl moiety. Possesses the unique ability to deliver non-Met (elongator) tRNAs into the P-site of the 40S subunit. In addition to its role in initiation, can promote release of deacylated tRNA and mRNA from recycled 40S subunits following ABCE1-mediated dissociation of post-termination ribosomal complexes into subunits. {ECO:0000269\|PubMed:20566627, ECO:0000269\|PubMed:20713520}.	FUNCTION: Probable peripherally associated component of the endosomal sorting required for transport complex III (ESCRT-III) which is involved in multivesicular bodies (MVBs) formation and sorting of endosomal cargo proteins into MVBs. MVBs contain intraluminal vesicles (ILVs) that are generated by invagination and scission from the limiting membrane of the endosome and mostly are delivered to lysosomes enabling degradation of membrane proteins, such as stimulated growth factor receptors, lysosomal enzymes and lipids. The MVB pathway appears to require the sequential function of ESCRT-O, -I,-II and -III complexes. ESCRT-III proteins mostly dissociate from the invaginating membrane before the ILV is released. The ESCRT machinery also functions in topologically equivalent membrane fission events, such as the terminal stages of cytokinesis and the budding of enveloped viruses (HIV-1 and other lentiviruses). ESCRT-III proteins are believed to mediate the necessary vesicle extrusion and/or membrane fission activities, possibly in conjunction with the AAA ATPase VPS4. Involved in cytokinesis. Involved in recruiting VPS4A and/or VPS4B to the midbody of dividing cells. May also be involved in chromosome condensation. Targets the Polycomb group (PcG) protein BMI1/PCGF4 to regions of condensed chromatin. May play a role in stable cell cycle progression and in PcG gene silencing. {ECO:0000269\|PubMed:11559747, ECO:0000269\|PubMed:11559748, ECO:0000269\|PubMed:19129479, ECO:0000269\|PubMed:23045692}.

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

EIF2D

chr1:206769067

chr16:89713739

ENST00000271764

383_467

503

585.0

Domain

SWIB/MDM2

Hgene

EIF2D

chr1:206769067

chr16:89713739

ENST00000271764

93_173

503

585.0

Domain

PUA

Hgene

EIF2D

chr1:206769067

chr16:89713739

ENST00000367114

93_173

379

461.0

Domain

PUA

Tgene

CHMP1A

chr1:206769067

chr16:89713739

ENST00000397901

102_124

197.0

Coiled coil

Ontology_term=ECO:0000255

Tgene

CHMP1A

chr1:206769067

chr16:89713739

ENST00000397901

185_195

197.0

Motif

Note=MIT-interacting motif

- 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

EIF2D

chr1:206769067

chr16:89713739

ENST00000271764

491_564

503

585.0

Domain

SUI1

Hgene

EIF2D

chr1:206769067

chr16:89713739

ENST00000367114

383_467

379

461.0

Domain

SWIB/MDM2

Hgene

EIF2D

chr1:206769067

chr16:89713739

ENST00000367114

491_564

379

461.0

Domain

SUI1

Tgene

CHMP1A

chr1:206769067

chr16:89713739

ENST00000397901

5_47

197.0

Coiled coil

Ontology_term=ECO:0000255

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Fusion Gene Sequence for EIF2D-CHMP1A

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.

>25724_25724_1_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000397901_length(transcript)=3692nt_BP=1718nt
AGTTCCAGGTACCGCCACTGGGGGCGGCCGCGGCCTCCCCAGCGGCAACGGCCACGAAGCTGCGCGGCCCTGGTTTCCAGCCGGGCCCTT
TTCGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGT
GCTCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAA
AGCTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTG
TGAAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATC
CAACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAG
ATTTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACA
GAGCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACA
CTTACCAGGACCACTTGTGGCGGTCTGGAAACAAGTCCTCTCCACCTTCCATTGCTCCACTGGCCCTGGATTCAGCAGATCTCAGTGAAG
AGAAGGGGTCTGTCCAGATGGACTCCACCCTGCAGGGAGACATGAGGCACATGACCCTGGAGGGGGAAGAGGAGAATGGGGAGGTTCACC
AGGCACGTGAAGACAAGTCTCTCTCAGAAGCCCCAGAAGACACCAGCACCAGGGGCCTGAACCAAGACTCCACAGATAGCAAAACGCTTC
AAGAACAAATGGATGAGCTGTTACAGCAATGCTTCTTACATGCCTTGAAGTGCCGAGTCAAAAAGGCTGACCTCCCTTTACTCACCAGCA
CTTTCCTTGGCAGCCACATGTTCTCCTGCTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCC
TGCAGCAAATGCAGCAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGA
GGATTACATCTTTCGTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATA
TAAAACCCCTCTACTGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGG
TCCGAACGATCGTCATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTG
ACTGCATCTTAGAGAAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTG
CCTATCAAGTGACCCTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTA
ATAAAAAGGTGACCAAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGA
TGGACAGGTTCGAGCAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGC
CGCAGGAGCAGGTGGACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCG
CCTCTGCCGTGGGCGAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCG
GTGTGCACCGCCTCTGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCG
GCCGGCAGCCACTCTGCGTCTCTCACCTGCCAGGCCTGCGTGGCCTTAGGGTTGTTCCTGTTCTTTTAGGTTGGGCGGTGGGTCTGTGTC
CTGGTGTTGAGTTTCTGCAAATTTCTGGGGGTGATTTCTGTGACTCTGGGCCCACAGCGGGGAGGCCAAGAGGGGCCCTGTGGACTTTCA
CCCAGCACTGTGGGGGCCTTCAGACTCTGGGGCAGCAGACATGCTGCTTCCCATCAGCCAGAGGGGGTCAGGGCTGCCCTGTTGCCAAAC
AACTCCCTGAGGCCTCTCCGCACCACCTCAGCGGGCAGGAGGTCCCACCATGTGGACAGACATAGCCCAAGGAGGCACCACAGGTCTATG
TGTGCTGGGGGATGTCAGGTGCCACCCAACGCTGTCCTGGTGGTATTTACAATGACATCCTCCTCCTCCATCACTCCAGGGGTGGTGTCT
CGGCCGCCCCTACCAGCTGGCTGAGCCCCCTGGCCTCCTGCGCTCCCTCACTTCCCTCAGTTCCCAAAGCTGCCCAGTCCATGGGGACAG
AACCGTCACTCAGATCCACATTCAAGTGTGCCCACCCTGCAGTCTTCATCCTCACTCAGCTGCTGCCTCTGGAGGTGCCTTTGGCCACAT
GTGCTGTGCTGTTTGTCTCCTCGACAGGGAGCCTGTCCACCAGCAGGCTGCGGTCCCAGCGGGTGCGTCTGCAGCTCCTCCCCTTGGGCA
GCCTGGTTCTCCCGGAGGACCTTTCCTTGGGGCCCTGCTTCATGACGATGCTGCCTGTGTCACCCTCTACCATCTGTAAACAACTGGGTG
CCTTCCCCGACCACACCCCAATGCCTTCCCAGCTTGGAAGCCAAGGCAGCTGATGAAGGGAGCTCAGGAGAGCCGTCTTCAGCTGGGCTG
GGGTTGGGGCTGCTGTGAGGAAAACCTGCCATTGTGGCCCTGGAGAGTCACCAGCAGCTCTTGGGAAGGACTTGCTGGGAGGCTGAGAGA
GGCTTTGGGCACAGCCTGCTGTCTTTTCCATTTCCTAAAGTTTACTTCATTGTCTTGAGGCTTCCAGGTTTTGTTTTTGTTTTTGCCAAA
GTAGAAAAGGCAGGTGGTGGGCGGCTGGCAGGGAGTGCGGGTCCCCGCCCCTCTTCAGTCCTGCCCTCCCCTCCTCAGTCCTGCCCACCC
CGTGCAGCCCATGCTGAGGCTGCAGTGGTGTCGTGGGTGTTACGTGCAGGAACGTGGAGACCCTGACGTGGGCTCACTGCGTTTGGTTTT
CTTTTCAGAACTTGGGAGCCCCCAGGGAGGGGCTAGTGTTGGTAGGTCCTAGACGTGGTTCCCTCCAGCCTCCCCAAAATCAACCCTGGT
GTTGAGAGAACGTCCTTCTGTCCATCGTGGGTAACAGCCTTGGGGAGGGTGCAGAGCTCTGCAGAGCCATGGGCCAGGTGGGGCTGCCTC
AGTCCTGTCCCCTTGGGCACTGAGGAGAGGGGCCCATTCACCTTTCTCCTAGAATGCTGTTGTAAATAAACAAATGGATCCCTGGAAACT

>25724_25724_1_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000397901_length(amino acids)=679AA_BP=567
MGAAAASPAATATKLRGPGFQPGPFRGRAPAWLPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADV
TTAFPTLGTDQVSELVPGKEELNIVKLYAHKGDAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPG
LVMPPAGLPQVQKGDLCAISLVGNRAPVAIGVAAMSTAEMLTSGLKGRGFSVLHTYQDHLWRSGNKSSPPSIAPLALDSADLSEEKGSVQ
MDSTLQGDMRHMTLEGEEENGEVHQAREDKSLSEAPEDTSTRGLNQDSTDSKTLQEQMDELLQQCFLHALKCRVKKADLPLLTSTFLGSH
MFSCCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSPTSQTIQEGSREQPYHPPDIKPLYC
VPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTVMKLPWDSLLTRCLEKLQPAYQVTL
PGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLDVHTSVMEDSMSSATTLTTPQEQVD

--------------------------------------------------------------
>25724_25724_2_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000535997_length(transcript)=3660nt_BP=1718nt
AGTTCCAGGTACCGCCACTGGGGGCGGCCGCGGCCTCCCCAGCGGCAACGGCCACGAAGCTGCGCGGCCCTGGTTTCCAGCCGGGCCCTT
TTCGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGT
GCTCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAA
AGCTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTG
TGAAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATC
CAACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAG
ATTTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACA
GAGCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACA
CTTACCAGGACCACTTGTGGCGGTCTGGAAACAAGTCCTCTCCACCTTCCATTGCTCCACTGGCCCTGGATTCAGCAGATCTCAGTGAAG
AGAAGGGGTCTGTCCAGATGGACTCCACCCTGCAGGGAGACATGAGGCACATGACCCTGGAGGGGGAAGAGGAGAATGGGGAGGTTCACC
AGGCACGTGAAGACAAGTCTCTCTCAGAAGCCCCAGAAGACACCAGCACCAGGGGCCTGAACCAAGACTCCACAGATAGCAAAACGCTTC
AAGAACAAATGGATGAGCTGTTACAGCAATGCTTCTTACATGCCTTGAAGTGCCGAGTCAAAAAGGCTGACCTCCCTTTACTCACCAGCA
CTTTCCTTGGCAGCCACATGTTCTCCTGCTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCC
TGCAGCAAATGCAGCAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGA
GGATTACATCTTTCGTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATA
TAAAACCCCTCTACTGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGG
TCCGAACGATCGTCATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTG
ACTGCATCTTAGAGAAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTG
CCTATCAAGTGACCCTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTA
ATAAAAAGGTGACCAAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGA
TGGACAGGTTCGAGCAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGC
CGCAGGAGCAGGTGGACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCG
CCTCTGCCGTGGGCGAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCG
GTGTGCACCGCCTCTGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCG
GCCGGCAGCCACTCTGCGTCTCTCACCTGCCAGGCCTGCGTGGCCTTAGGGTTGTTCCTGTTCTTTTAGGTTGGGCGGTGGGTCTGTGTC
CTGGTGTTGAGTTTCTGCAAATTTCTGGGGGTGATTTCTGTGACTCTGGGCCCACAGCGGGGAGGCCAAGAGGGGCCCTGTGGACTTTCA
CCCAGCACTGTGGGGGCCTTCAGACTCTGGGGCAGCAGACATGCTGCTTCCCATCAGCCAGAGGGGGTCAGGGCTGCCCTGTTGCCAAAC
AACTCCCTGAGGCCTCTCCGCACCACCTCAGCGGGCAGGAGGTCCCACCATGTGGACAGACATAGCCCAAGGAGGCACCACAGGTCTATG
TGTGCTGGGGGATGTCAGGTGCCACCCAACGCTGTCCTGGTGGTATTTACAATGACATCCTCCTCCTCCATCACTCCAGGGGTGGTGTCT
CGGCCGCCCCTACCAGCTGGCTGAGCCCCCTGGCCTCCTGCGCTCCCTCACTTCCCTCAGTTCCCAAAGCTGCCCAGTCCATGGGGACAG
AACCGTCACTCAGATCCACATTCAAGTGTGCCCACCCTGCAGTCTTCATCCTCACTCAGCTGCTGCCTCTGGAGGTGCCTTTGGCCACAT
GTGCTGTGCTGTTTGTCTCCTCGACAGGGAGCCTGTCCACCAGCAGGCTGCGGTCCCAGCGGGTGCGTCTGCAGCTCCTCCCCTTGGGCA
GCCTGGTTCTCCCGGAGGACCTTTCCTTGGGGCCCTGCTTCATGACGATGCTGCCTGTGTCACCCTCTACCATCTGTAAACAACTGGGTG
CCTTCCCCGACCACACCCCAATGCCTTCCCAGCTTGGAAGCCAAGGCAGCTGATGAAGGGAGCTCAGGAGAGCCGTCTTCAGCTGGGCTG
GGGTTGGGGCTGCTGTGAGGAAAACCTGCCATTGTGGCCCTGGAGAGTCACCAGCAGCTCTTGGGAAGGACTTGCTGGGAGGCTGAGAGA
GGCTTTGGGCACAGCCTGCTGTCTTTTCCATTTCCTAAAGTTTACTTCATTGTCTTGAGGCTTCCAGGTTTTGTTTTTGTTTTTGCCAAA
GTAGAAAAGGCAGGTGGTGGGCGGCTGGCAGGGAGTGCGGGTCCCCGCCCCTCTTCAGTCCTGCCCTCCCCTCCTCAGTCCTGCCCACCC
CGTGCAGCCCATGCTGAGGCTGCAGTGGTGTCGTGGGTGTTACGTGCAGGAACGTGGAGACCCTGACGTGGGCTCACTGCGTTTGGTTTT
CTTTTCAGAACTTGGGAGCCCCCAGGGAGGGGCTAGTGTTGGTAGGTCCTAGACGTGGTTCCCTCCAGCCTCCCCAAAATCAACCCTGGT
GTTGAGAGAACGTCCTTCTGTCCATCGTGGGTAACAGCCTTGGGGAGGGTGCAGAGCTCTGCAGAGCCATGGGCCAGGTGGGGCTGCCTC

>25724_25724_2_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000535997_length(amino acids)=679AA_BP=567
MGAAAASPAATATKLRGPGFQPGPFRGRAPAWLPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADV
TTAFPTLGTDQVSELVPGKEELNIVKLYAHKGDAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPG
LVMPPAGLPQVQKGDLCAISLVGNRAPVAIGVAAMSTAEMLTSGLKGRGFSVLHTYQDHLWRSGNKSSPPSIAPLALDSADLSEEKGSVQ
MDSTLQGDMRHMTLEGEEENGEVHQAREDKSLSEAPEDTSTRGLNQDSTDSKTLQEQMDELLQQCFLHALKCRVKKADLPLLTSTFLGSH
MFSCCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSPTSQTIQEGSREQPYHPPDIKPLYC
VPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTVMKLPWDSLLTRCLEKLQPAYQVTL
PGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLDVHTSVMEDSMSSATTLTTPQEQVD

--------------------------------------------------------------
>25724_25724_3_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000550102_length(transcript)=2234nt_BP=1718nt
AGTTCCAGGTACCGCCACTGGGGGCGGCCGCGGCCTCCCCAGCGGCAACGGCCACGAAGCTGCGCGGCCCTGGTTTCCAGCCGGGCCCTT
TTCGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGT
GCTCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAA
AGCTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTG
TGAAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATC
CAACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAG
ATTTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACA
GAGCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACA
CTTACCAGGACCACTTGTGGCGGTCTGGAAACAAGTCCTCTCCACCTTCCATTGCTCCACTGGCCCTGGATTCAGCAGATCTCAGTGAAG
AGAAGGGGTCTGTCCAGATGGACTCCACCCTGCAGGGAGACATGAGGCACATGACCCTGGAGGGGGAAGAGGAGAATGGGGAGGTTCACC
AGGCACGTGAAGACAAGTCTCTCTCAGAAGCCCCAGAAGACACCAGCACCAGGGGCCTGAACCAAGACTCCACAGATAGCAAAACGCTTC
AAGAACAAATGGATGAGCTGTTACAGCAATGCTTCTTACATGCCTTGAAGTGCCGAGTCAAAAAGGCTGACCTCCCTTTACTCACCAGCA
CTTTCCTTGGCAGCCACATGTTCTCCTGCTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCC
TGCAGCAAATGCAGCAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGA
GGATTACATCTTTCGTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATA
TAAAACCCCTCTACTGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGG
TCCGAACGATCGTCATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTG
ACTGCATCTTAGAGAAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTG
CCTATCAAGTGACCCTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTA
ATAAAAAGGTGACCAAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGA
TGGACAGGTTCGAGCAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGC
CGCAGGAGCAGGTGGACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCG
CCTCTGCCGTGGGCGAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCG
GTGTGCACCGCCTCTGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCG

>25724_25724_3_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000271764_CHMP1A_chr16_89713739_ENST00000550102_length(amino acids)=679AA_BP=567
MGAAAASPAATATKLRGPGFQPGPFRGRAPAWLPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADV
TTAFPTLGTDQVSELVPGKEELNIVKLYAHKGDAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPG
LVMPPAGLPQVQKGDLCAISLVGNRAPVAIGVAAMSTAEMLTSGLKGRGFSVLHTYQDHLWRSGNKSSPPSIAPLALDSADLSEEKGSVQ
MDSTLQGDMRHMTLEGEEENGEVHQAREDKSLSEAPEDTSTRGLNQDSTDSKTLQEQMDELLQQCFLHALKCRVKKADLPLLTSTFLGSH
MFSCCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSPTSQTIQEGSREQPYHPPDIKPLYC
VPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTVMKLPWDSLLTRCLEKLQPAYQVTL
PGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLDVHTSVMEDSMSSATTLTTPQEQVD

--------------------------------------------------------------
>25724_25724_4_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000397901_length(transcript)=3228nt_BP=1254nt
CGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGTGC
TCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAAAG
CTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTGTG
AAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATCCA
ACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAGAT
TTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACAGA
GCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACACT
TACCAGGACCACTTGTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCCTGCAGCAAATGCAG
CAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGAGGATTACATCTTTC
GTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATATAAAACCCCTCTAC
TGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGGTCCGAACGATCGTC
ATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTGACTGCATCTTAGAG
AAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTGCCTATCAAGTGACC
CTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTAATAAAAAGGTGACC
AAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGATGGACAGGTTCGAG
CAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGCCGCAGGAGCAGGTG
GACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCGCCTCTGCCGTGGGC
GAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCGGTGTGCACCGCCTC
TGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCGGCCGGCAGCCACTC
TGCGTCTCTCACCTGCCAGGCCTGCGTGGCCTTAGGGTTGTTCCTGTTCTTTTAGGTTGGGCGGTGGGTCTGTGTCCTGGTGTTGAGTTT
CTGCAAATTTCTGGGGGTGATTTCTGTGACTCTGGGCCCACAGCGGGGAGGCCAAGAGGGGCCCTGTGGACTTTCACCCAGCACTGTGGG
GGCCTTCAGACTCTGGGGCAGCAGACATGCTGCTTCCCATCAGCCAGAGGGGGTCAGGGCTGCCCTGTTGCCAAACAACTCCCTGAGGCC
TCTCCGCACCACCTCAGCGGGCAGGAGGTCCCACCATGTGGACAGACATAGCCCAAGGAGGCACCACAGGTCTATGTGTGCTGGGGGATG
TCAGGTGCCACCCAACGCTGTCCTGGTGGTATTTACAATGACATCCTCCTCCTCCATCACTCCAGGGGTGGTGTCTCGGCCGCCCCTACC
AGCTGGCTGAGCCCCCTGGCCTCCTGCGCTCCCTCACTTCCCTCAGTTCCCAAAGCTGCCCAGTCCATGGGGACAGAACCGTCACTCAGA
TCCACATTCAAGTGTGCCCACCCTGCAGTCTTCATCCTCACTCAGCTGCTGCCTCTGGAGGTGCCTTTGGCCACATGTGCTGTGCTGTTT
GTCTCCTCGACAGGGAGCCTGTCCACCAGCAGGCTGCGGTCCCAGCGGGTGCGTCTGCAGCTCCTCCCCTTGGGCAGCCTGGTTCTCCCG
GAGGACCTTTCCTTGGGGCCCTGCTTCATGACGATGCTGCCTGTGTCACCCTCTACCATCTGTAAACAACTGGGTGCCTTCCCCGACCAC
ACCCCAATGCCTTCCCAGCTTGGAAGCCAAGGCAGCTGATGAAGGGAGCTCAGGAGAGCCGTCTTCAGCTGGGCTGGGGTTGGGGCTGCT
GTGAGGAAAACCTGCCATTGTGGCCCTGGAGAGTCACCAGCAGCTCTTGGGAAGGACTTGCTGGGAGGCTGAGAGAGGCTTTGGGCACAG
CCTGCTGTCTTTTCCATTTCCTAAAGTTTACTTCATTGTCTTGAGGCTTCCAGGTTTTGTTTTTGTTTTTGCCAAAGTAGAAAAGGCAGG
TGGTGGGCGGCTGGCAGGGAGTGCGGGTCCCCGCCCCTCTTCAGTCCTGCCCTCCCCTCCTCAGTCCTGCCCACCCCGTGCAGCCCATGC
TGAGGCTGCAGTGGTGTCGTGGGTGTTACGTGCAGGAACGTGGAGACCCTGACGTGGGCTCACTGCGTTTGGTTTTCTTTTCAGAACTTG
GGAGCCCCCAGGGAGGGGCTAGTGTTGGTAGGTCCTAGACGTGGTTCCCTCCAGCCTCCCCAAAATCAACCCTGGTGTTGAGAGAACGTC
CTTCTGTCCATCGTGGGTAACAGCCTTGGGGAGGGTGCAGAGCTCTGCAGAGCCATGGGCCAGGTGGGGCTGCCTCAGTCCTGTCCCCTT

>25724_25724_4_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000397901_length(amino acids)=523AA_BP=411
MPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADVTTAFPTLGTDQVSELVPGKEELNIVKLYAHKG
DAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPGLVMPPAGLPQVQKGDLCAISLVGNRAPVAIGV
AAMSTAEMLTSGLKGRGFSVLHTYQDHLCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSP
TSQTIQEGSREQPYHPPDIKPLYCVPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTV
MKLPWDSLLTRCLEKLQPAYQVTLPGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLD

--------------------------------------------------------------
>25724_25724_5_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000535997_length(transcript)=3196nt_BP=1254nt
CGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGTGC
TCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAAAG
CTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTGTG
AAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATCCA
ACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAGAT
TTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACAGA
GCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACACT
TACCAGGACCACTTGTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCCTGCAGCAAATGCAG
CAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGAGGATTACATCTTTC
GTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATATAAAACCCCTCTAC
TGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGGTCCGAACGATCGTC
ATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTGACTGCATCTTAGAG
AAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTGCCTATCAAGTGACC
CTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTAATAAAAAGGTGACC
AAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGATGGACAGGTTCGAG
CAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGCCGCAGGAGCAGGTG
GACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCGCCTCTGCCGTGGGC
GAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCGGTGTGCACCGCCTC
TGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCGGCCGGCAGCCACTC
TGCGTCTCTCACCTGCCAGGCCTGCGTGGCCTTAGGGTTGTTCCTGTTCTTTTAGGTTGGGCGGTGGGTCTGTGTCCTGGTGTTGAGTTT
CTGCAAATTTCTGGGGGTGATTTCTGTGACTCTGGGCCCACAGCGGGGAGGCCAAGAGGGGCCCTGTGGACTTTCACCCAGCACTGTGGG
GGCCTTCAGACTCTGGGGCAGCAGACATGCTGCTTCCCATCAGCCAGAGGGGGTCAGGGCTGCCCTGTTGCCAAACAACTCCCTGAGGCC
TCTCCGCACCACCTCAGCGGGCAGGAGGTCCCACCATGTGGACAGACATAGCCCAAGGAGGCACCACAGGTCTATGTGTGCTGGGGGATG
TCAGGTGCCACCCAACGCTGTCCTGGTGGTATTTACAATGACATCCTCCTCCTCCATCACTCCAGGGGTGGTGTCTCGGCCGCCCCTACC
AGCTGGCTGAGCCCCCTGGCCTCCTGCGCTCCCTCACTTCCCTCAGTTCCCAAAGCTGCCCAGTCCATGGGGACAGAACCGTCACTCAGA
TCCACATTCAAGTGTGCCCACCCTGCAGTCTTCATCCTCACTCAGCTGCTGCCTCTGGAGGTGCCTTTGGCCACATGTGCTGTGCTGTTT
GTCTCCTCGACAGGGAGCCTGTCCACCAGCAGGCTGCGGTCCCAGCGGGTGCGTCTGCAGCTCCTCCCCTTGGGCAGCCTGGTTCTCCCG
GAGGACCTTTCCTTGGGGCCCTGCTTCATGACGATGCTGCCTGTGTCACCCTCTACCATCTGTAAACAACTGGGTGCCTTCCCCGACCAC
ACCCCAATGCCTTCCCAGCTTGGAAGCCAAGGCAGCTGATGAAGGGAGCTCAGGAGAGCCGTCTTCAGCTGGGCTGGGGTTGGGGCTGCT
GTGAGGAAAACCTGCCATTGTGGCCCTGGAGAGTCACCAGCAGCTCTTGGGAAGGACTTGCTGGGAGGCTGAGAGAGGCTTTGGGCACAG
CCTGCTGTCTTTTCCATTTCCTAAAGTTTACTTCATTGTCTTGAGGCTTCCAGGTTTTGTTTTTGTTTTTGCCAAAGTAGAAAAGGCAGG
TGGTGGGCGGCTGGCAGGGAGTGCGGGTCCCCGCCCCTCTTCAGTCCTGCCCTCCCCTCCTCAGTCCTGCCCACCCCGTGCAGCCCATGC
TGAGGCTGCAGTGGTGTCGTGGGTGTTACGTGCAGGAACGTGGAGACCCTGACGTGGGCTCACTGCGTTTGGTTTTCTTTTCAGAACTTG
GGAGCCCCCAGGGAGGGGCTAGTGTTGGTAGGTCCTAGACGTGGTTCCCTCCAGCCTCCCCAAAATCAACCCTGGTGTTGAGAGAACGTC
CTTCTGTCCATCGTGGGTAACAGCCTTGGGGAGGGTGCAGAGCTCTGCAGAGCCATGGGCCAGGTGGGGCTGCCTCAGTCCTGTCCCCTT

>25724_25724_5_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000535997_length(amino acids)=523AA_BP=411
MPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADVTTAFPTLGTDQVSELVPGKEELNIVKLYAHKG
DAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPGLVMPPAGLPQVQKGDLCAISLVGNRAPVAIGV
AAMSTAEMLTSGLKGRGFSVLHTYQDHLCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSP
TSQTIQEGSREQPYHPPDIKPLYCVPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTV
MKLPWDSLLTRCLEKLQPAYQVTLPGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLD

--------------------------------------------------------------
>25724_25724_6_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000550102_length(transcript)=1770nt_BP=1254nt
CGCGGCCGGGCCCCAGCATGGCTGCCCCCACGGCTGAGGGCCTGGCAGCTGCTGCGCCCTCGCTTTCTTGACATTCCCTGGCTTCTGTGC
TCTCTTCCCCAGGCCACCCCAGCAGACATGTTTGCCAAGGCCTTTCGGGTCAAGTCCAACACGGCCATCAAGGGGTCGGACAGGAGAAAG
CTTCGAGCTGATGTGACAACTGCTTTCCCCACCCTTGGAACTGATCAAGTCTCTGAGTTAGTACCTGGAAAGGAGGAGCTCAACATTGTG
AAGTTGTATGCTCACAAAGGGGATGCAGTGACTGTGTACGTGAGTGGTGGTAACCCCATCCTCTTTGAACTGGAGAAAAATCTGTATCCA
ACAGTGTACACGCTGTGGTCCTATCCTGATCTTCTGCCAACCTTTACAACATGGCCTCTGGTGCTCGAGAAACTGGTAGGGGGAGCAGAT
TTGATGCTGCCTGGACTGGTGATGCCCCCTGCTGGTCTGCCTCAGGTACAGAAGGGCGACCTCTGTGCCATTTCTTTGGTGGGGAACAGA
GCCCCTGTAGCCATTGGAGTTGCAGCCATGTCCACAGCTGAGATGCTCACGTCAGGCCTGAAGGGAAGGGGCTTCTCTGTGCTCCACACT
TACCAGGACCACTTGTGCCCTGAAGGACGACAACTGGACATAAAGAAGTCAAGCTACAAAAAGCTCTCTAAGTTCCTGCAGCAAATGCAG
CAGGAGCAGATTATACAGGTGAAGGAGCTGAGCAAAGGGGTGGAGAGCATTGTGGCTGTGGACTGGAAACACCCGAGGATTACATCTTTC
GTCATACCCGAGCCCTCCCCGACCTCCCAGACTATCCAGGAGGGTAGCAGGGAACAGCCCTATCACCCTCCAGATATAAAACCCCTCTAC
TGTGTCCCAGCCAGCATGACCCTGCTCTTCCAGGAGTCTGGCCACAAGAAGGGGAGCTTTCTGGAGGGCAGTGAGGTCCGAACGATCGTC
ATTAACTACGCCAAGAAAAATGACCTGGTTGATGCAGACAACAAAAATCTTGTGAGATTGGATCCCATCCTATGTGACTGCATCTTAGAG
AAAAATGAACAGCATACAGTCATGAAGCTTCCATGGGACAGTCTTCTGACCAGGTGTTTGGAAAAATTACAGCCTGCCTATCAAGTGACC
CTTCCCGGACAAGAGCCCATTGTGAAGAAAGGGAGAATCTGTCCAATTGACATCACCCTAGCACAAAGAGCGTCTAATAAAAAGGTGACC
AAGAATATGGCCCAGGTGACCAAAGCCCTGGACAAGGCCCTGAGCACCATGGACCTGCAGAAGGTCTCCTCAGTGATGGACAGGTTCGAG
CAGCAGGTGCAGAACCTGGACGTCCATACATCGGTGATGGAGGACTCCATGAGCTCGGCCACCACCCTGACCACGCCGCAGGAGCAGGTG
GACAGCCTCATCATGCAGATCGCCGAGGAGAATGGCCTGGAGGTGCTGGACCAGCTCAGCCAGCTGCCCGAGGGCGCCTCTGCCGTGGGC
GAGAGCTCTGTGCGCAGCCAGGAGGACCAGCTGTCACGGAGGTTGGCCGCCTTGAGGAACTAGCCGTGCCCCGCCGGTGTGCACCGCCTC
TGCCCCGTGATGTGCTGGAAGGCTCCTGTCCTCTCCCCACCGCGTCTTGCCTTTGTGCTGACCCCGCGGGGCTGCGGCCGGCAGCCACTC

>25724_25724_6_EIF2D-CHMP1A_EIF2D_chr1_206769067_ENST00000367114_CHMP1A_chr16_89713739_ENST00000550102_length(amino acids)=523AA_BP=411
MPPRLRAWQLLRPRFLDIPWLLCSLPQATPADMFAKAFRVKSNTAIKGSDRRKLRADVTTAFPTLGTDQVSELVPGKEELNIVKLYAHKG
DAVTVYVSGGNPILFELEKNLYPTVYTLWSYPDLLPTFTTWPLVLEKLVGGADLMLPGLVMPPAGLPQVQKGDLCAISLVGNRAPVAIGV
AAMSTAEMLTSGLKGRGFSVLHTYQDHLCPEGRQLDIKKSSYKKLSKFLQQMQQEQIIQVKELSKGVESIVAVDWKHPRITSFVIPEPSP
TSQTIQEGSREQPYHPPDIKPLYCVPASMTLLFQESGHKKGSFLEGSEVRTIVINYAKKNDLVDADNKNLVRLDPILCDCILEKNEQHTV
MKLPWDSLLTRCLEKLQPAYQVTLPGQEPIVKKGRICPIDITLAQRASNKKVTKNMAQVTKALDKALSTMDLQKVSSVMDRFEQQVQNLD

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

Top

Fusion Gene PPI Analysis for EIF2D-CHMP1A

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 EIF2D-CHMP1A

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

Partner

Gene

UniProtAcc

DrugBank ID

Drug name

Drug activity

Drug type

Drug status

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Related Diseases for EIF2D-CHMP1A

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source