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Fusion gene ID: 5191

FusionGeneSummary for CACNA1D_PRKCD

Fusion gene summary

Fusion gene information	Fusion gene name: CACNA1D_PRKCD
	Fusion gene ID: 5191
		Hgene	Tgene
	Gene symbol	CACNA1D	PRKCD
	Gene ID	776	5580
	Gene name	calcium voltage-gated channel subunit alpha1 D	protein kinase C delta
	Synonyms	CACH3\|CACN4\|CACNL1A2\|CCHL1A2\|Cav1.3\|PASNA\|SANDD	ALPS3\|CVID9\|MAY1\|PKCD\|nPKC-delta
	Cytomap	3p21.1	3p21.1
	Type of gene	protein-coding	protein-coding
	Description	voltage-dependent L-type calcium channel subunit alpha-1Dcalcium channel, L type, alpha-1 polypeptidecalcium channel, neuroendocrine/brain-type, alpha 1 subunitcalcium channel, voltage-dependent, L type, alpha 1D subunitvoltage-gated calcium channel a	protein kinase C delta typeprotein kinase C delta VIIItyrosine-protein kinase PRKCD
	Modification date	20180523	20180523
	UniProtAcc	Q01668	Q05655
	Ensembl transtripts involved in fusion gene	ENST00000350061, ENST00000288139, ENST00000422281, ENST00000498251, ENST00000540742, ENST00000544977,	ENST00000394729, ENST00000330452, ENST00000477794,
Fusion gene scores	* DoF score	5 X 5 X 4=100	3 X 4 X 3=36
	# samples	6	4
	** MAII score	log2(6/100*10)=-0.736965594166206 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(4/36*10)=0.15200309344505 effective Gene in Pan-Cancer Fusion Genes (eGinPCFGs). DoF>8 and MAII>0
Context	PubMed: CACNA1D [Title/Abstract] AND PRKCD [Title/Abstract] AND fusion [Title/Abstract]
Functional or gene categories assigned by FusionGDB annotation	Oncogene involved fusion gene, in-frame and retained their domain. Tumor suppressor gene involved fusion gene, in-frame but not retained their domain. Tumor suppressor gene involved fusion gene, retained protein feature but frameshift. DDR (DNA damage repair) gene involved fusion gene, in-frame but not retained their domain. Kinase involved fusion gene, inframe and retained kinase domain.

* 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	CACNA1D	GO:0006816	calcium ion transport	11160515
Hgene	CACNA1D	GO:0051928	positive regulation of calcium ion transport	1309651
Hgene	CACNA1D	GO:0070509	calcium ion import	1309651
Tgene	PRKCD	GO:0006468	protein phosphorylation	10713049\|16611985
Tgene	PRKCD	GO:0006915	apoptotic process	10770950
Tgene	PRKCD	GO:0016572	histone phosphorylation	19059439
Tgene	PRKCD	GO:0018105	peptidyl-serine phosphorylation	18285462
Tgene	PRKCD	GO:0018107	peptidyl-threonine phosphorylation	10770950
Tgene	PRKCD	GO:0032147	activation of protein kinase activity	10713049
Tgene	PRKCD	GO:0042119	neutrophil activation	10770950
Tgene	PRKCD	GO:0070301	cellular response to hydrogen peroxide	10713049
Tgene	PRKCD	GO:0071447	cellular response to hydroperoxide	19059439
Tgene	PRKCD	GO:1904385	cellular response to angiotensin	18285462

Fusion gene information from three resources
(ChiTars (NAR, 2018), tumorfusions (NAR, 2018), Gao et al. (Cell, 2018))
* 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.

Data type	Source	Cancer type	Sample	Hgene	Hchr	Hbp	Hstrand	Tgene	Tchr	Tbp	Tstrand
TCGA	RV	BRCA	TCGA-GM-A2DD-01A	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+

* LD: Li Ding group's fusion gene list
RV: Roel Verhaak group's fusion gene list
ChiTaRs fusion database

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	ENST00000350061	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
In-frame	ENST00000350061	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
5CDS-intron	ENST00000350061	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
In-frame	ENST00000288139	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
In-frame	ENST00000288139	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
5CDS-intron	ENST00000288139	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
In-frame	ENST00000422281	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
In-frame	ENST00000422281	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
5CDS-intron	ENST00000422281	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000498251	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000498251	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-intron	ENST00000498251	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000540742	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000540742	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-intron	ENST00000540742	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000544977	ENST00000394729	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-3CDS	ENST00000544977	ENST00000330452	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+
intron-intron	ENST00000544977	ENST00000477794	CACNA1D	chr3	53535747	+	PRKCD	chr3	53217468	+

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FusionProtFeatures for CACNA1D_PRKCD

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

Hgene	Tgene
CACNA1D Q01668	PRKCD Q05655
Voltage-sensitive calcium channels (VSCC) mediate theentry of calcium ions into excitable cells and are also involvedin a variety of calcium-dependent processes, including musclecontraction, hormone or neurotransmitter release, gene expression,cell motility, cell division and cell death. The isoform alpha-1Dgives rise to L-type calcium currents. Long-lasting (L-type)calcium channels belong to the 'high-voltage activated' (HVA)group. They are blocked by dihydropyridines (DHP),phenylalkylamines, and by benzothiazepines.{ECO:0000269\|PubMed:18482979, ECO:0000269\|PubMed:25620733,ECO:0000269\|PubMed:28472301}.	Calcium-independent, phospholipid- and diacylglycerol(DAG)-dependent serine/threonine-protein kinase that playscontrasting roles in cell death and cell survival by functioningas a pro-apoptotic protein during DNA damage-induced apoptosis,but acting as an anti-apoptotic protein during cytokine receptor-initiated cell death, is involved in tumor suppression as well assurvival of several cancers, is required for oxygen radicalproduction by NADPH oxidase and acts as positive or negativeregulator in platelet functional responses. Negatively regulates Bcell proliferation and also has an important function in self-antigen induced B cell tolerance induction. Upon DNA damage,activates the promoter of the death-promoting transcription factorBCLAF1/Btf to trigger BCLAF1-mediated p53/TP53 gene transcriptionand apoptosis. In response to oxidative stress, interact with andactivate CHUK/IKKA in the nucleus, causing the phosphorylation ofp53/TP53. In the case of ER stress or DNA damage-inducedapoptosis, can form a complex with the tyrosine-protein kinaseABL1 which trigger apoptosis independently of p53/TP53. In cytosolcan trigger apoptosis by activating MAPK11 or MAPK14, inhibitingAKT1 and decreasing the level of X-linked inhibitor of apoptosisprotein (XIAP), whereas in nucleus induces apoptosis via theactivation of MAPK8 or MAPK9. Upon ionizing radiation treatment,is required for the activation of the apoptosis regulators BAX andBAK, which trigger the mitochondrial cell death pathway. Canphosphorylate MCL1 and target it for degradation which issufficient to trigger for BAX activation and apoptosis. Isrequired for the control of cell cycle progression both at G1/Sand G2/M phases. Mediates phorbol 12-myristate 13-acetate (PMA)-induced inhibition of cell cycle progression at G1/S phase by up-regulating the CDK inhibitor CDKN1A/p21 and inhibiting the cyclinCCNA2 promoter activity. In response to UV irradiation canphosphorylate CDK1, which is important for the G2/M DNA damagecheckpoint activation. Can protect glioma cells from the apoptosisinduced by TNFSF10/TRAIL, probably by inducing increasedphosphorylation and subsequent activation of AKT1. Is highlyexpressed in a number of cancer cells and promotes cell survivaland resistance against chemotherapeutic drugs by inducing cyclinD1 (CCND1) and hyperphosphorylation of RB1, and via several pro-survival pathways, including NF-kappa-B, AKT1 and MAPK1/3(ERK1/2). Can also act as tumor suppressor upon mitogenicstimulation with PMA or TPA. In N-formyl-methionyl-leucyl-phenylalanine (fMLP)-treated cells, is required for NCF1 (p47-phox) phosphorylation and activation of NADPH oxidase activity,and regulates TNF-elicited superoxide anion production inneutrophils, by direct phosphorylation and activation of NCF1 orindirectly through MAPK1/3 (ERK1/2) signaling pathways. May alsoplay a role in the regulation of NADPH oxidase activity ineosinophil after stimulation with IL5, leukotriene B4 or PMA. Incollagen-induced platelet aggregation, acts a negative regulatorof filopodia formation and actin polymerization by interactingwith and negatively regulating VASP phosphorylation. Downstream ofPAR1, PAR4 and CD36/GP4 receptors, regulates differentiallyplatelet dense granule secretion; acts as a positive regulator inPAR-mediated granule secretion, whereas it negatively regulatesCD36/GP4-mediated granule release. Phosphorylates MUC1 in the C-terminal and regulates the interaction between MUC1 and beta-catenin. The catalytic subunit phosphorylates 14-3-3 proteins(YWHAB, YWHAZ and YWHAH) in a sphingosine-dependent fashion (Bysimilarity). Phosphorylates ELAVL1 in response to angiotensin-2treatment (PubMed:18285462). {ECO:0000250,ECO:0000269\|PubMed:11748588, ECO:0000269\|PubMed:11877440,ECO:0000269\|PubMed:15774464, ECO:0000269\|PubMed:16940418,ECO:0000269\|PubMed:18285462, ECO:0000269\|PubMed:19587372,ECO:0000269\|PubMed:19801500}.

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

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1_7

161

2182

Compositional bias

Note=Poly-Met

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1_7

161

2162

Compositional bias

Note=Poly-Met

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1_7

161

2138

Compositional bias

Note=Poly-Met

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

146_163

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1_126

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

146_163

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1_126

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

146_163

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1_126

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

127_145

161

2182

Transmembrane

Helical%3B Name%3DS1 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

127_145

161

2162

Transmembrane

Helical%3B Name%3DS1 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

127_145

161

2138

Transmembrane

Helical%3B Name%3DS1 of repeat I

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

349_603

219

677

Domain

Protein kinase

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

604_675

219

677

Domain

Note=AGC-kinase C-terminal

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

349_603

219

677

Domain

Protein kinase

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

604_675

219

677

Domain

Note=AGC-kinase C-terminal

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

355_363

219

677

Nucleotide binding

ATP

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

355_363

219

677

Nucleotide binding

ATP

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

230_280

219

677

Zinc finger

Phorbol-ester/DAG-type 2

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

230_280

219

677

Zinc finger

Phorbol-ester/DAG-type 2

- 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

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1493_1504

161

2182

Calcium binding

Ontology_term=ECO:0000250

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1493_1504

161

2162

Calcium binding

Ontology_term=ECO:0000250

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1493_1504

161

2138

Calcium binding

Ontology_term=ECO:0000250

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

653_659

161

2182

Compositional bias

Note=Poly-Leu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

827_838

161

2182

Compositional bias

Note=Poly-Glu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

653_659

161

2162

Compositional bias

Note=Poly-Leu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

827_838

161

2162

Compositional bias

Note=Poly-Glu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

653_659

161

2138

Compositional bias

Note=Poly-Leu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

827_838

161

2138

Compositional bias

Note=Poly-Glu

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1075_1165

161

2182

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1420_1486

161

2182

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1432_1475

161

2182

Region

Phenylalkylamine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

429_446

161

2182

Region

Binding to the beta subunit

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1075_1165

161

2162

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1420_1486

161

2162

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1432_1475

161

2162

Region

Phenylalkylamine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

429_446

161

2162

Region

Binding to the beta subunit

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1075_1165

161

2138

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1420_1486

161

2138

Region

Dihydropyridine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1432_1475

161

2138

Region

Phenylalkylamine binding

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

429_446

161

2138

Region

Binding to the beta subunit

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

113_409

161

2182

Repeat

Note=I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1192_1467

161

2182

Repeat

Note=IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

509_755

161

2182

Repeat

Note=II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

873_1155

161

2182

Repeat

Note=III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

113_409

161

2162

Repeat

Note=I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1192_1467

161

2162

Repeat

Note=IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

509_755

161

2162

Repeat

Note=II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

873_1155

161

2162

Repeat

Note=III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

113_409

161

2138

Repeat

Note=I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1192_1467

161

2138

Repeat

Note=IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

509_755

161

2138

Repeat

Note=II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

873_1155

161

2138

Repeat

Note=III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1038_1127

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1149_1205

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1225_1239

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1260_1266

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1289_1313

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1334_1352

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1373_1439

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1465_2161

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

184_195

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

215_235

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

255_273

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

294_381

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

407_523

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

544_558

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

578_585

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

605_614

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

634_652

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

674_727

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

753_886

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

906_921

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

942_953

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

973_978

161

2182

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

999_1017

161

2182

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1038_1127

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1149_1205

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1225_1239

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1260_1266

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1289_1313

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1334_1352

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1373_1439

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1465_2161

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

184_195

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

215_235

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

255_273

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

294_381

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

407_523

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

544_558

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

578_585

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

605_614

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

634_652

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

674_727

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

753_886

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

906_921

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

942_953

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

973_978

161

2162

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

999_1017

161

2162

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1038_1127

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1149_1205

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1225_1239

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1260_1266

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1289_1313

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1334_1352

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1373_1439

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1465_2161

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

184_195

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

215_235

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

255_273

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

294_381

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

407_523

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

544_558

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

578_585

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

605_614

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

634_652

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

674_727

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

753_886

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

906_921

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

942_953

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

973_978

161

2138

Topological domain

Extracellular

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

999_1017

161

2138

Topological domain

Cytoplasmic

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1018_1037

161

2182

Transmembrane

Helical%3B Name%3DS5 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1128_1148

161

2182

Transmembrane

Helical%3B Name%3DS6 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1206_1224

161

2182

Transmembrane

Helical%3B Name%3DS1 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1240_1259

161

2182

Transmembrane

Helical%3B Name%3DS2 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1267_1288

161

2182

Transmembrane

Helical%3B Name%3DS3 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1314_1333

161

2182

Transmembrane

Helical%3B Name%3DS4 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1353_1372

161

2182

Transmembrane

Helical%3B Name%3DS5 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

1440_1464

161

2182

Transmembrane

Helical%3B Name%3DS6 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

164_183

161

2182

Transmembrane

Helical%3B Name%3DS2 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

196_214

161

2182

Transmembrane

Helical%3B Name%3DS3 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

236_254

161

2182

Transmembrane

Helical%3B Name%3DS4 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

274_293

161

2182

Transmembrane

Helical%3B Name%3DS5 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

382_406

161

2182

Transmembrane

Helical%3B Name%3DS6 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

524_543

161

2182

Transmembrane

Helical%3B Name%3DS1 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

559_577

161

2182

Transmembrane

Helical%3B Name%3DS2 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

586_604

161

2182

Transmembrane

Helical%3B Name%3DS3 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

615_633

161

2182

Transmembrane

Helical%3B Name%3DS4 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

653_673

161

2182

Transmembrane

Helical%3B Name%3DS5 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

728_752

161

2182

Transmembrane

Helical%3B Name%3DS6 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

887_905

161

2182

Transmembrane

Helical%3B Name%3DS1 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

922_941

161

2182

Transmembrane

Helical%3B Name%3DS2 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

954_972

161

2182

Transmembrane

Helical%3B Name%3DS3 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000288139

979_998

161

2182

Transmembrane

Helical%3B Name%3DS4 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1018_1037

161

2162

Transmembrane

Helical%3B Name%3DS5 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1128_1148

161

2162

Transmembrane

Helical%3B Name%3DS6 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1206_1224

161

2162

Transmembrane

Helical%3B Name%3DS1 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1240_1259

161

2162

Transmembrane

Helical%3B Name%3DS2 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1267_1288

161

2162

Transmembrane

Helical%3B Name%3DS3 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1314_1333

161

2162

Transmembrane

Helical%3B Name%3DS4 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1353_1372

161

2162

Transmembrane

Helical%3B Name%3DS5 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

1440_1464

161

2162

Transmembrane

Helical%3B Name%3DS6 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

164_183

161

2162

Transmembrane

Helical%3B Name%3DS2 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

196_214

161

2162

Transmembrane

Helical%3B Name%3DS3 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

236_254

161

2162

Transmembrane

Helical%3B Name%3DS4 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

274_293

161

2162

Transmembrane

Helical%3B Name%3DS5 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

382_406

161

2162

Transmembrane

Helical%3B Name%3DS6 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

524_543

161

2162

Transmembrane

Helical%3B Name%3DS1 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

559_577

161

2162

Transmembrane

Helical%3B Name%3DS2 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

586_604

161

2162

Transmembrane

Helical%3B Name%3DS3 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

615_633

161

2162

Transmembrane

Helical%3B Name%3DS4 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

653_673

161

2162

Transmembrane

Helical%3B Name%3DS5 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

728_752

161

2162

Transmembrane

Helical%3B Name%3DS6 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

887_905

161

2162

Transmembrane

Helical%3B Name%3DS1 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

922_941

161

2162

Transmembrane

Helical%3B Name%3DS2 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

954_972

161

2162

Transmembrane

Helical%3B Name%3DS3 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000350061

979_998

161

2162

Transmembrane

Helical%3B Name%3DS4 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1018_1037

161

2138

Transmembrane

Helical%3B Name%3DS5 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1128_1148

161

2138

Transmembrane

Helical%3B Name%3DS6 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1206_1224

161

2138

Transmembrane

Helical%3B Name%3DS1 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1240_1259

161

2138

Transmembrane

Helical%3B Name%3DS2 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1267_1288

161

2138

Transmembrane

Helical%3B Name%3DS3 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1314_1333

161

2138

Transmembrane

Helical%3B Name%3DS4 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1353_1372

161

2138

Transmembrane

Helical%3B Name%3DS5 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

1440_1464

161

2138

Transmembrane

Helical%3B Name%3DS6 of repeat IV

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

164_183

161

2138

Transmembrane

Helical%3B Name%3DS2 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

196_214

161

2138

Transmembrane

Helical%3B Name%3DS3 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

236_254

161

2138

Transmembrane

Helical%3B Name%3DS4 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

274_293

161

2138

Transmembrane

Helical%3B Name%3DS5 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

382_406

161

2138

Transmembrane

Helical%3B Name%3DS6 of repeat I

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

524_543

161

2138

Transmembrane

Helical%3B Name%3DS1 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

559_577

161

2138

Transmembrane

Helical%3B Name%3DS2 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

586_604

161

2138

Transmembrane

Helical%3B Name%3DS3 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

615_633

161

2138

Transmembrane

Helical%3B Name%3DS4 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

653_673

161

2138

Transmembrane

Helical%3B Name%3DS5 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

728_752

161

2138

Transmembrane

Helical%3B Name%3DS6 of repeat II

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

887_905

161

2138

Transmembrane

Helical%3B Name%3DS1 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

922_941

161

2138

Transmembrane

Helical%3B Name%3DS2 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

954_972

161

2138

Transmembrane

Helical%3B Name%3DS3 of repeat III

Hgene

CACNA1D

chr3:53535747

chr3:53217468

ENST00000422281

979_998

161

2138

Transmembrane

Helical%3B Name%3DS4 of repeat III

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

1_90

219

677

Domain

Note=C2

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

1_90

219

677

Domain

Note=C2

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000330452

158_208

219

677

Zinc finger

Phorbol-ester/DAG-type 1

Tgene

PRKCD

chr3:53535747

chr3:53217468

ENST00000394729

158_208

219

677

Zinc finger

Phorbol-ester/DAG-type 1

Top

FusionGeneSequence for CACNA1D_PRKCD

For in-frame fusion transcripts, we provide the fusion transcript sequences and fusion amino acid sequences.
(nt: nucleotides, aa: amino acids)

* Fusion amino acid sequences.

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_619aa
MMMMMMMKKMQHQRQQQADHANEANTARGTRLPLSGEGPTSQPNSSKQTVLSWQAAIDAARQAKAAQTMSTSAPPPVGSLSQRKRQQYAK
SKKQGNSSNSRPARALFCLSLNNPIRRACISIVEWKPFDIFILLAIFANCVALAIYIPFPEDDSNSTNHNLFQKERFNIDMPHRFKVHNY
MSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGITQGFEKKTGVAGEDMQ
DNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQ
TKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFTAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTF
CGTPDTIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHTPRWITKESKDILEKLFEREPTKRLGVTGNIK

* Fusion transcript sequences (only coding sequence (CDS) region).

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_1857nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT

* Fusion transcript sequences (Full-length transcript).

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_2819nt
GGGCGAGCGCCTCCGTCCCCGGATGTGAGCTCCGGCTGCCCGCGGTCCCGAGCCAGCGGCGGCGCGGGCGGCGGCGGCGGGCACCGGGCA
CCGCGGCGGGCGGGCAGACGGGCGGGCATGGGGGGAGCGCCGAGCGGCCCCGGCGGCCGGGCCGGCATCACCGCGGCGTCTCTCCGCTAG
AGGAGGGGACAAGCCAGTTCTCCTTTGCAGCAAAAAATTACATGTATATATTATTAAGATAATATATACATTGGATTTTATTTTTTTAAA
AAGTTTATTTTGCTCCATTTTTGAAAAAGAGAGAGCTTGGGTGGCGAGCGGTTTTTTTTTTAAATCAATTATCCTTATTTTCTGTTATTT
GTCCCCGTCCCTCCCCACCCCCCTGCTGAAGCGAGAATAAGGGCAGGGACCGCGGCTCCTACCTCTTGGTGATCCCCTTCCCCATTCCGC
CCCCGCCTCAACGCCCAGCACAGTGCCCTGCACACAGTAGTCGCTCAATAAATGTTCGTGGATGATGATGATGATGATGATGAAAAAAAT
GCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACCAGACTTCCTCTTTCTGGTGAAGGACCAAC
TTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCTAGACAGGCCAAGGCTGCCCAAACTATGAG
CACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAGAGCAAAAAACAGGGTAACTCGTCCAACAG
CCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATTAGTATAGTGGAATGGAAACCATTTGACAT
ATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCTGAAGATGATTCTAATTCAACAAATCATAA
CTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTACATGAGCCCCACCTTCTGTGACCACTGCGG
CAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTGCACCATAAATGCCGGGAGAAGGTGGCCAA
CCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCCTCCCGGAGATCAGACTCAGCCTCCTCAGA
GCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAAGACAACAGTGGGACCTACGGCAAGATCTG
GGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGCAGCTTCGGGAAGGTGCTGCTTGGAGAGCT
GAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGACGACGACGTGGAGTGCACCATGGTTGAGAA
GCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAGACCAAGGACCACCTGTTCTTTGTGATGGA
GTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTACCGTGCCACGTTTTATGCCGCTGAGATAAT
GTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAATGTGCTGCTGGACCGGGATGGCCACATCAA
GATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTCTGCGGCACCCCTGACTATATCGCCCCTGA
GATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTGTACGAGATGCTCATTGGCCAGTCCCCCTT
CCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCCCGCTGGATCACCAAGGAGTCCAAGGACAT
CCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAAATCCACCCCTTCTTCAAGACCATAAACTG
GACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGAGACTACAGTAACTTTGACCAGGAGTTCCT
GAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCTGCATTCGCTGGCTTCTCCTTTGTGAACCC
CAAATTCGAGCACCTCCTGGAAGATTGAGGTTCCTGGACAGATCAGGCTAGCCCTGCCCTCCACCCACACCTGCCCGCTCCCCACGATAA
GCACCAGTGGGACTGTGGTGACTTCTGCTGCTGGCCCCGCCCCTGCCCCCAGAGCGTCCTTGGCTGCCGTCTGGCCGGGCTCTCATGGTA
CTTCCTCTGTGAACTGTGTGTGAATCTGCTTTTCCTCTGCCTTCGGAGGGAAATTGTAAATCCTGTGTTTCATTACTTGAATGTAGTTAT
CTATTGAAAATATATATTATATACATAGACATATATATATATATAATAGGCTGTATATATTGCTCAGTAGAGAAAAACCATGGGGGACTG
GTGATATGTTGATCTTTTTCAAAAAAATATATATATGACAAAAAAAAAAAAAAAGGAGCACAAGCTGTTTGAACCACCAGGTTTATTTGT

>In-frame_CACNA1D_ENST00000350061_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_2656nt
GGGCGAGCGCCTCCGTCCCCGGATGTGAGCTCCGGCTGCCCGCGGTCCCGAGCCAGCGGCGGCGCGGGCGGCGGCGGCGGGCACCGGGCA
CCGCGGCGGGCGGGCAGACGGGCGGGCATGGGGGGAGCGCCGAGCGGCCCCGGCGGCCGGGCCGGCATCACCGCGGCGTCTCTCCGCTAG
AGGAGGGGACAAGCCAGTTCTCCTTTGCAGCAAAAAATTACATGTATATATTATTAAGATAATATATACATTGGATTTTATTTTTTTAAA
AAGTTTATTTTGCTCCATTTTTGAAAAAGAGAGAGCTTGGGTGGCGAGCGGTTTTTTTTTTAAATCAATTATCCTTATTTTCTGTTATTT
GTCCCCGTCCCTCCCCACCCCCCTGCTGAAGCGAGAATAAGGGCAGGGACCGCGGCTCCTACCTCTTGGTGATCCCCTTCCCCATTCCGC
CCCCGCCTCAACGCCCAGCACAGTGCCCTGCACACAGTAGTCGCTCAATAAATGTTCGTGGATGATGATGATGATGATGATGAAAAAAAT
GCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACCAGACTTCCTCTTTCTGGTGAAGGACCAAC
TTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCTAGACAGGCCAAGGCTGCCCAAACTATGAG
CACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAGAGCAAAAAACAGGGTAACTCGTCCAACAG
CCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATTAGTATAGTGGAATGGAAACCATTTGACAT
ATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCTGAAGATGATTCTAATTCAACAAATCATAA
CTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTACATGAGCCCCACCTTCTGTGACCACTGCGG
CAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTGCACCATAAATGCCGGGAGAAGGTGGCCAA
CCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCCTCCCGGAGATCAGACTCAGCCTCCTCAGA
GCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAAGACAACAGTGGGACCTACGGCAAGATCTG
GGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGCAGCTTCGGGAAGGTGCTGCTTGGAGAGCT
GAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGACGACGACGTGGAGTGCACCATGGTTGAGAA
GCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAGACCAAGGACCACCTGTTCTTTGTGATGGA
GTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTACCGTGCCACGTTTTATGCCGCTGAGATAAT
GTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAATGTGCTGCTGGACCGGGATGGCCACATCAA
GATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTCTGCGGCACCCCTGACTATATCGCCCCTGA
GATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTGTACGAGATGCTCATTGGCCAGTCCCCCTT
CCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCCCGCTGGATCACCAAGGAGTCCAAGGACAT
CCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAAATCCACCCCTTCTTCAAGACCATAAACTG
GACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGAGACTACAGTAACTTTGACCAGGAGTTCCT
GAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCTGCATTCGCTGGCTTCTCCTTTGTGAACCC
CAAATTCGAGCACCTCCTGGAAGATTGAGGTTCCTGGACAGATCAGGCTAGCCCTGCCCTCCACCCACACCTGCCCGCTCCCCACGATAA
GCACCAGTGGGACTGTGGTGACTTCTGCTGCTGGCCCCGCCCCTGCCCCCAGAGCGTCCTTGGCTGCCGTCTGGCCGGGCTCTCATGGTA
CTTCCTCTGTGAACTGTGTGTGAATCTGCTTTTCCTCTGCCTTCGGAGGGAAATTGTAAATCCTGTGTTTCATTACTTGAATGTAGTTAT

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_2426nt
AGAATAAGGGCAGGGACCGCGGCTCCTACCTCTTGGTGATCCCCTTCCCCATTCCGCCCCCGCCTCAACGCCCAGCACAGTGCCCTGCAC
ACAGTAGTCGCTCAATAAATGTTCGTGGATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGC
GAACGAGGCAAACTATGCAAGAGGCACCAGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCT
GTCTTGGCAAGCTGCAATCGATGCTGCTAGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTC
CCAAAGAAAACGTCAGCAATACGCCAAGAGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACT
CAATAACCCCATCCGAAGAGCCTGCATTAGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGT
GGCCTTAGCTATTTACATCCCATTCCCTGAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACAT
GCCGCACCGCTTCAAGGTTCACAACTACATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATT
AAAGTGTGAAGACTGCGGCATGAATGTGCACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGA
GGCCTTGAACCAAGTCACCCAGAGAGCCTCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAA
GACCGGAGTTGCTGGGGAGGACATGCAAGACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTT
CATCTTCCACAAGGTCCTGGGCAAAGGCAGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGC
CCTCAAGAAGGATGTGGTCCTGATCGACGACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTT
TCTCACCCACCTCATCTGCACCTTCCAGACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACAT
CCAGGACAAAGGCCGCTTTGAACTCTACCGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCAT
CATTTACAGGGACCTCAAACTGGACAATGTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACAT
ATTCGGGGAGAGCCGGGCCAGCACCTTCTGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGT
GGACTGGTGGTCTTTCGGGGTCCTTCTGTACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTC
CATCCGTGTGGACACGCCACATTATCCCCGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAA
GAGGCTGGGAGTGACCGGAAACATCAAAATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACC
TTTCAGGCCCAAAGTGAAGTCACCCAGAGACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAA
GAACCTCATCGACTCCATGGACCAGTCTGCATTCGCTGGCTTCTCCTTTGTGAACCCCAAATTCGAGCACCTCCTGGAAGATTGAGGTTC
CTGGACAGATCAGGCTAGCCCTGCCCTCCACCCACACCTGCCCGCTCCCCACGATAAGCACCAGTGGGACTGTGGTGACTTCTGCTGCTG
GCCCCGCCCCTGCCCCCAGAGCGTCCTTGGCTGCCGTCTGGCCGGGCTCTCATGGTACTTCCTCTGTGAACTGTGTGTGAATCTGCTTTT
CCTCTGCCTTCGGAGGGAAATTGTAAATCCTGTGTTTCATTACTTGAATGTAGTTATCTATTGAAAATATATATTATATACATAGACATA
TATATATATATAATAGGCTGTATATATTGCTCAGTAGAGAAAAACCATGGGGGACTGGTGATATGTTGATCTTTTTCAAAAAAATATATA

>In-frame_CACNA1D_ENST00000288139_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_2263nt
AGAATAAGGGCAGGGACCGCGGCTCCTACCTCTTGGTGATCCCCTTCCCCATTCCGCCCCCGCCTCAACGCCCAGCACAGTGCCCTGCAC
ACAGTAGTCGCTCAATAAATGTTCGTGGATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGC
GAACGAGGCAAACTATGCAAGAGGCACCAGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCT
GTCTTGGCAAGCTGCAATCGATGCTGCTAGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTC
CCAAAGAAAACGTCAGCAATACGCCAAGAGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACT
CAATAACCCCATCCGAAGAGCCTGCATTAGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGT
GGCCTTAGCTATTTACATCCCATTCCCTGAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACAT
GCCGCACCGCTTCAAGGTTCACAACTACATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATT
AAAGTGTGAAGACTGCGGCATGAATGTGCACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGA
GGCCTTGAACCAAGTCACCCAGAGAGCCTCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAA
GACCGGAGTTGCTGGGGAGGACATGCAAGACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTT
CATCTTCCACAAGGTCCTGGGCAAAGGCAGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGC
CCTCAAGAAGGATGTGGTCCTGATCGACGACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTT
TCTCACCCACCTCATCTGCACCTTCCAGACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACAT
CCAGGACAAAGGCCGCTTTGAACTCTACCGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCAT
CATTTACAGGGACCTCAAACTGGACAATGTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACAT
ATTCGGGGAGAGCCGGGCCAGCACCTTCTGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGT
GGACTGGTGGTCTTTCGGGGTCCTTCTGTACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTC
CATCCGTGTGGACACGCCACATTATCCCCGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAA
GAGGCTGGGAGTGACCGGAAACATCAAAATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACC
TTTCAGGCCCAAAGTGAAGTCACCCAGAGACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAA
GAACCTCATCGACTCCATGGACCAGTCTGCATTCGCTGGCTTCTCCTTTGTGAACCCCAAATTCGAGCACCTCCTGGAAGATTGAGGTTC
CTGGACAGATCAGGCTAGCCCTGCCCTCCACCCACACCTGCCCGCTCCCCACGATAAGCACCAGTGGGACTGTGGTGACTTCTGCTGCTG
GCCCCGCCCCTGCCCCCAGAGCGTCCTTGGCTGCCGTCTGGCCGGGCTCTCATGGTACTTCCTCTGTGAACTGTGTGTGAATCTGCTTTT
CCTCTGCCTTCGGAGGGAAATTGTAAATCCTGTGTTTCATTACTTGAATGTAGTTATCTATTGAAAATATATATTATATACATAGACATA

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000394729_chr3_53217468_+_2308nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT
GCATTCGCTGGCTTCTCCTTTGTGAACCCCAAATTCGAGCACCTCCTGGAAGATTGAGGTTCCTGGACAGATCAGGCTAGCCCTGCCCTC
CACCCACACCTGCCCGCTCCCCACGATAAGCACCAGTGGGACTGTGGTGACTTCTGCTGCTGGCCCCGCCCCTGCCCCCAGAGCGTCCTT
GGCTGCCGTCTGGCCGGGCTCTCATGGTACTTCCTCTGTGAACTGTGTGTGAATCTGCTTTTCCTCTGCCTTCGGAGGGAAATTGTAAAT
CCTGTGTTTCATTACTTGAATGTAGTTATCTATTGAAAATATATATTATATACATAGACATATATATATATATAATAGGCTGTATATATT
GCTCAGTAGAGAAAAACCATGGGGGACTGGTGATATGTTGATCTTTTTCAAAAAAATATATATATGACAAAAAAAAAAAAAAAGGAGCAC

>In-frame_CACNA1D_ENST00000422281_chr3_53535747_+_PRKCD_ENST00000330452_chr3_53217468_+_2145nt
ATGATGATGATGATGATGATGAAAAAAATGCAGCATCAACGGCAGCAGCAAGCGGACCACGCGAACGAGGCAAACTATGCAAGAGGCACC
AGACTTCCTCTTTCTGGTGAAGGACCAACTTCTCAGCCGAATAGCTCCAAGCAAACTGTCCTGTCTTGGCAAGCTGCAATCGATGCTGCT
AGACAGGCCAAGGCTGCCCAAACTATGAGCACCTCTGCACCCCCACCTGTAGGATCTCTCTCCCAAAGAAAACGTCAGCAATACGCCAAG
AGCAAAAAACAGGGTAACTCGTCCAACAGCCGACCTGCCCGCGCCCTTTTCTGTTTATCACTCAATAACCCCATCCGAAGAGCCTGCATT
AGTATAGTGGAATGGAAACCATTTGACATATTTATATTATTGGCTATTTTTGCCAATTGTGTGGCCTTAGCTATTTACATCCCATTCCCT
GAAGATGATTCTAATTCAACAAATCATAACTTGTTCCAGAAAGAACGCTTCAACATCGACATGCCGCACCGCTTCAAGGTTCACAACTAC
ATGAGCCCCACCTTCTGTGACCACTGCGGCAGCCTGCTCTGGGGACTGGTGAAGCAGGGATTAAAGTGTGAAGACTGCGGCATGAATGTG
CACCATAAATGCCGGGAGAAGGTGGCCAACCTCTGCGGCATCAACCAGAAGCTTTTGGCTGAGGCCTTGAACCAAGTCACCCAGAGAGCC
TCCCGGAGATCAGACTCAGCCTCCTCAGAGCCTGTTGGGATATATCAGGGTTTCGAGAAGAAGACCGGAGTTGCTGGGGAGGACATGCAA
GACAACAGTGGGACCTACGGCAAGATCTGGGAGGGCAGCAGCAAGTGCAACATCAACAACTTCATCTTCCACAAGGTCCTGGGCAAAGGC
AGCTTCGGGAAGGTGCTGCTTGGAGAGCTGAAGGGCAGAGGAGAGTACTTTGCCATCAAGGCCCTCAAGAAGGATGTGGTCCTGATCGAC
GACGACGTGGAGTGCACCATGGTTGAGAAGCGGGTGCTGACACTTGCCGCAGAGAATCCCTTTCTCACCCACCTCATCTGCACCTTCCAG
ACCAAGGACCACCTGTTCTTTGTGATGGAGTTCCTCAACGGGGGGGACCTGATGTACCACATCCAGGACAAAGGCCGCTTTGAACTCTAC
CGTGCCACGTTTTATGCCGCTGAGATAATGTGTGGACTGCAGTTTCTACACAGCAAGGGCATCATTTACAGGGACCTCAAACTGGACAAT
GTGCTGCTGGACCGGGATGGCCACATCAAGATTGCCGACTTTGGGATGTGCAAAGAGAACATATTCGGGGAGAGCCGGGCCAGCACCTTC
TGCGGCACCCCTGACTATATCGCCCCTGAGATCCTACAGGGCCTGAAGTACACATTCTCTGTGGACTGGTGGTCTTTCGGGGTCCTTCTG
TACGAGATGCTCATTGGCCAGTCCCCCTTCCATGGTGATGATGAGGATGAACTCTTCGAGTCCATCCGTGTGGACACGCCACATTATCCC
CGCTGGATCACCAAGGAGTCCAAGGACATCCTGGAGAAGCTCTTTGAAAGGGAACCAACCAAGAGGCTGGGAGTGACCGGAAACATCAAA
ATCCACCCCTTCTTCAAGACCATAAACTGGACTCTGCTGGAAAAGCGGAGGTTGGAGCCACCTTTCAGGCCCAAAGTGAAGTCACCCAGA
GACTACAGTAACTTTGACCAGGAGTTCCTGAACGAGAAGGCGCGCCTCTCCTACAGCGACAAGAACCTCATCGACTCCATGGACCAGTCT
GCATTCGCTGGCTTCTCCTTTGTGAACCCCAAATTCGAGCACCTCCTGGAAGATTGAGGTTCCTGGACAGATCAGGCTAGCCCTGCCCTC
CACCCACACCTGCCCGCTCCCCACGATAAGCACCAGTGGGACTGTGGTGACTTCTGCTGCTGGCCCCGCCCCTGCCCCCAGAGCGTCCTT
GGCTGCCGTCTGGCCGGGCTCTCATGGTACTTCCTCTGTGAACTGTGTGTGAATCTGCTTTTCCTCTGCCTTCGGAGGGAAATTGTAAAT

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FusionGenePPI for CACNA1D_PRKCD

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
CACNA1D	CALB1	PRKCD	RASGRP3, PLSCR3, INPP5D, SHC1, RIPK4, YWHAG, PDPK1, C1QBP, GNA12, GNA13, MTOR, STAT1, PTK2B, ADAM9, INSR, PDP1, PDP2, PPP2CA, IRS1, PIK3CB, PTPN6, YWHAZ, TIAM1, PLD2, AFAP1, IL6ST, MUC1, GABRA1, CHUK, IKBKB, SP1, NFE2L2, PRKCD, HDAC5, STAT3, TRIM41, HSPB1, KLF4, VHL, HIST1H1A, TP53, IBTK, IRAK1, TRO, HIST1H1B, SNCA, NCF1, APP, ITGB2, TNFRSF1A, GSK3A, ELAVL1, PHB, SQSTM1, PRKCB, PRKCQ, DYNC1H1, HSPA4, HSP90AA1, ITPR1, MACF1, ART3, VCP, RANBP10, RANBP9, IL32, EP300, FLI1, DIABLO, PTGES3, MYC, DAB2, RPL37A, TKT, ZNF131, FXR1, DHX16, PRPF4B, PPRC1, CWC15, H2BFS, TRAPPC13, FAM192A, CHD9, BUD13, LYSMD2, ACTBL2, FYN, GRM5, NOTCH1, CARD11, TRAF6, MALT1, NGEF, TP73, MBP

- Retained PPIs in in-frame fusion.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Still interaction with

- Lost PPIs in in-frame fusion.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Interaction lost with

- Retained PPIs, but lost function due to frame-shift fusion.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Interaction lost with

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RelatedDrugs for CACNA1D_PRKCD

Drugs targeting genes involved in this fusion gene.
(DrugBank Version 5.1.0 2018-04-02)

Partner	Gene	UniProtAcc	DrugBank ID	Drug name	Drug activity	Drug type	Drug status
Hgene	CACNA1D	Q01668	DB00381	Amlodipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB00401	Nisoldipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB00661	Verapamil	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB00898	Ethanol	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB01115	Nifedipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB04855	Dronedarone	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved
Hgene	CACNA1D	Q01668	DB00270	Isradipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB00393	Nimodipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB00568	Cinnarizine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB00622	Nicardipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB01023	Felodipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB01054	Nitrendipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB04920	Clevidipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Hgene	CACNA1D	Q01668	DB06712	Nilvadipine	Voltage-dependent L-type calcium channel subunit alpha-1D	small molecule	approved\|investigational
Tgene	PRKCD	Q05655	DB05013	Ingenol Mebutate	Protein kinase C delta type	small molecule	approved

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RelatedDiseases for CACNA1D_PRKCD

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner	Gene	Disease ID	Disease name	# pubmeds	Source
Hgene	CACNA1D	C0001430	Adenoma	2	CTD_human
Hgene	CACNA1D	C0011053	Deafness	1	CTD_human;HPO
Hgene	CACNA1D	C0020428	Hyperaldosteronism	1	CTD_human;HPO
Hgene	CACNA1D	C0525045	Mood Disorders	1	PSYGENET
Hgene	CACNA1D	C3809609	PRIMARY ALDOSTERONISM, SEIZURES, AND NEUROLOGIC ABNORMALITIES	1	ORPHANET;UNIPROT
Tgene	PRKCD	C0011853	Diabetes Mellitus, Experimental	1	CTD_human
Tgene	PRKCD	C0020538	Hypertensive disease	1	CTD_human
Tgene	PRKCD	C0021841	Intestinal Neoplasms	1	CTD_human
Tgene	PRKCD	C0023893	Liver Cirrhosis, Experimental	1	CTD_human
Tgene	PRKCD	C0036572	Seizures	1	CTD_human
Tgene	PRKCD	C0235032	Neurotoxicity Syndromes	1	CTD_human
Tgene	PRKCD	C0242422	Parkinsonian Disorders	1	CTD_human

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Fusion gene ID: 5191

FusionGeneSummary for CACNA1D_PRKCD

FusionProtFeatures for CACNA1D_PRKCD

FusionGeneSequence for CACNA1D_PRKCD

FusionGenePPI for CACNA1D_PRKCD

RelatedDrugs for CACNA1D_PRKCD

RelatedDiseases for CACNA1D_PRKCD