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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:CDK6-KMT2A (FusionGDB2 ID:15329) |
Fusion Gene Summary for CDK6-KMT2A |
Fusion gene summary |
Fusion gene information | Fusion gene name: CDK6-KMT2A | Fusion gene ID: 15329 | Hgene | Tgene | Gene symbol | CDK6 | KMT2A | Gene ID | 1021 | 4297 |
Gene name | cyclin dependent kinase 6 | lysine methyltransferase 2A | |
Synonyms | MCPH12|PLSTIRE | ALL-1|CXXC7|HRX|HTRX1|MLL|MLL1|MLL1A|TRX1|WDSTS | |
Cytomap | 7q21.2 | 11q23.3 | |
Type of gene | protein-coding | protein-coding | |
Description | cyclin-dependent kinase 6cell division protein kinase 6serine/threonine-protein kinase PLSTIRE | histone-lysine N-methyltransferase 2ACXXC-type zinc finger protein 7lysine (K)-specific methyltransferase 2Alysine N-methyltransferase 2Amixed lineage leukemia 1myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila)trithorax-like | |
Modification date | 20200329 | 20200319 | |
UniProtAcc | Q00534 | Q03164 | |
Ensembl transtripts involved in fusion gene | ENST00000265734, ENST00000424848, ENST00000491250, | ENST00000534358, ENST00000389506, ENST00000354520, ENST00000420751, | |
Fusion gene scores | * DoF score | 12 X 9 X 7=756 | 31 X 72 X 3=6696 |
# samples | 17 | 79 | |
** MAII score | log2(17/756*10)=-2.15285148808337 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | log2(79/6696*10)=-3.08337496948588 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | |
Context | PubMed: CDK6 [Title/Abstract] AND KMT2A [Title/Abstract] AND fusion [Title/Abstract] | ||
Most frequent breakpoint | CDK6(92404010)-KMT2A(118360505), # samples:1 CDK6(92364333)-KMT2A(118199863), # samples:1 | ||
Anticipated loss of major functional domain due to fusion event. | CDK6-KMT2A seems lost the major protein functional domain in Hgene partner, which is a kinase due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Hgene partner, which is a CGC due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Hgene partner, which is a tumor suppressor due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Hgene partner, which is a IUPHAR drug target due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Tgene partner, which is a transcription factor due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Tgene partner, which is a CGC due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Tgene partner, which is a essential gene due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Tgene partner, which is a IUPHAR drug target due to the frame-shifted ORF. CDK6-KMT2A seems lost the major protein functional domain in Tgene partner, which is a epigenetic factor due to the frame-shifted ORF. |
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types ** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10) |
Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez |
Partner | Gene | GO ID | GO term | PubMed ID |
Hgene | CDK6 | GO:0001954 | positive regulation of cell-matrix adhesion | 10205165 |
Hgene | CDK6 | GO:0003323 | type B pancreatic cell development | 20668294 |
Hgene | CDK6 | GO:0006468 | protein phosphorylation | 8114739 |
Hgene | CDK6 | GO:0010468 | regulation of gene expression | 15254224 |
Hgene | CDK6 | GO:0045638 | negative regulation of myeloid cell differentiation | 17431401 |
Hgene | CDK6 | GO:0045656 | negative regulation of monocyte differentiation | 26542173 |
Hgene | CDK6 | GO:0045668 | negative regulation of osteoblast differentiation | 15254224 |
Hgene | CDK6 | GO:0045786 | negative regulation of cell cycle | 14985467 |
Hgene | CDK6 | GO:2000773 | negative regulation of cellular senescence | 17420273 |
Tgene | KMT2A | GO:0044648 | histone H3-K4 dimethylation | 25561738 |
Tgene | KMT2A | GO:0045944 | positive regulation of transcription by RNA polymerase II | 20861184 |
Tgene | KMT2A | GO:0051568 | histone H3-K4 methylation | 19556245 |
Tgene | KMT2A | GO:0065003 | protein-containing complex assembly | 15199122 |
Tgene | KMT2A | GO:0080182 | histone H3-K4 trimethylation | 20861184 |
Tgene | KMT2A | GO:0097692 | histone H3-K4 monomethylation | 25561738|26324722 |
Fusion gene breakpoints across CDK6 (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 KMT2A (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 |
ChiTaRS5.0 | N/A | AF492830 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
ChiTaRS5.0 | N/A | AF492834 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
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Fusion Gene ORF analysis for CDK6-KMT2A |
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 |
Frame-shift | ENST00000265734 | ENST00000534358 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
Frame-shift | ENST00000265734 | ENST00000389506 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
Frame-shift | ENST00000265734 | ENST00000354520 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
5CDS-intron | ENST00000265734 | ENST00000420751 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
In-frame | ENST00000424848 | ENST00000534358 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
In-frame | ENST00000424848 | ENST00000389506 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
In-frame | ENST00000424848 | ENST00000354520 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
5CDS-intron | ENST00000424848 | ENST00000420751 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
intron-3CDS | ENST00000491250 | ENST00000534358 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
intron-3CDS | ENST00000491250 | ENST00000389506 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
intron-3CDS | ENST00000491250 | ENST00000354520 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
intron-intron | ENST00000491250 | ENST00000420751 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + |
intron-intron | ENST00000265734 | ENST00000534358 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000265734 | ENST00000389506 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000265734 | ENST00000354520 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000265734 | ENST00000420751 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000424848 | ENST00000534358 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000424848 | ENST00000389506 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000424848 | ENST00000354520 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000424848 | ENST00000420751 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000491250 | ENST00000534358 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000491250 | ENST00000389506 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000491250 | ENST00000354520 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
intron-intron | ENST00000491250 | ENST00000420751 | CDK6 | chr7 | 92364333 | - | KMT2A | chr11 | 118199863 | + |
5CDS-intron | ENST00000265734 | ENST00000354520 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
5CDS-intron | ENST00000265734 | ENST00000420751 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
5CDS-intron | ENST00000424848 | ENST00000354520 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
5CDS-intron | ENST00000424848 | ENST00000420751 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
Frame-shift | ENST00000424848 | ENST00000389506 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
Frame-shift | ENST00000424848 | ENST00000534358 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
In-frame | ENST00000265734 | ENST00000389506 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
In-frame | ENST00000265734 | ENST00000534358 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
intron-3CDS | ENST00000491250 | ENST00000389506 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
intron-3CDS | ENST00000491250 | ENST00000534358 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
intron-intron | ENST00000491250 | ENST00000354520 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
intron-intron | ENST00000491250 | ENST00000420751 | CDK6 | chr7 | 92462404 | - | KMT2A | chr11 | 118355576 | + |
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) |
ENST00000424848 | CDK6 | chr7 | 92404010 | - | ENST00000534358 | KMT2A | chr11 | 118360505 | + | 12945 | 853 | 484 | 8292 | 2602 |
ENST00000424848 | CDK6 | chr7 | 92404010 | - | ENST00000389506 | KMT2A | chr11 | 118360505 | + | 10029 | 853 | 484 | 8283 | 2599 |
ENST00000424848 | CDK6 | chr7 | 92404010 | - | ENST00000354520 | KMT2A | chr11 | 118360505 | + | 10808 | 853 | 484 | 8283 | 2599 |
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 |
ENST00000424848 | ENST00000534358 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + | 0.000419523 | 0.99958044 |
ENST00000424848 | ENST00000389506 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + | 0.000722561 | 0.9992774 |
ENST00000424848 | ENST00000354520 | CDK6 | chr7 | 92404010 | - | KMT2A | chr11 | 118360505 | + | 0.000794911 | 0.99920505 |
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Fusion Genomic Features for CDK6-KMT2A |
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) |
CDK6 | chr7 | 92404009 | - | KMT2A | chr11 | 118360506 | + | 2.87E-06 | 0.99999714 |
CDK6 | chr7 | 92404009 | - | KMT2A | chr11 | 118360506 | + | 2.87E-06 | 0.99999714 |
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 CDK6-KMT2A |
Go to FGviewer for the breakpoints of chr7:92404010-chr11:118360505 - FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels. |
Main function of each fusion partner protein. (from UniProt) |
Hgene | Tgene |
CDK6 | KMT2A |
FUNCTION: Serine/threonine-protein kinase involved in the control of the cell cycle and differentiation; promotes G1/S transition. Phosphorylates pRB/RB1 and NPM1. Interacts with D-type G1 cyclins during interphase at G1 to form a pRB/RB1 kinase and controls the entrance into the cell cycle. Involved in initiation and maintenance of cell cycle exit during cell differentiation; prevents cell proliferation and regulates negatively cell differentiation, but is required for the proliferation of specific cell types (e.g. erythroid and hematopoietic cells). Essential for cell proliferation within the dentate gyrus of the hippocampus and the subventricular zone of the lateral ventricles. Required during thymocyte development. Promotes the production of newborn neurons, probably by modulating G1 length. Promotes, at least in astrocytes, changes in patterns of gene expression, changes in the actin cytoskeleton including loss of stress fibers, and enhanced motility during cell differentiation. Prevents myeloid differentiation by interfering with RUNX1 and reducing its transcription transactivation activity, but promotes proliferation of normal myeloid progenitors. Delays senescence. Promotes the proliferation of beta-cells in pancreatic islets of Langerhans. May play a role in the centrosome organization during the cell cycle phases (PubMed:23918663). {ECO:0000269|PubMed:12833137, ECO:0000269|PubMed:14985467, ECO:0000269|PubMed:15254224, ECO:0000269|PubMed:15809340, ECO:0000269|PubMed:17420273, ECO:0000269|PubMed:17431401, ECO:0000269|PubMed:20333249, ECO:0000269|PubMed:20668294, ECO:0000269|PubMed:23918663, ECO:0000269|PubMed:8114739}. | FUNCTION: Histone methyltransferase that plays an essential role in early development and hematopoiesis (PubMed:15960975, PubMed:12453419, PubMed:15960975, PubMed:19556245, PubMed:19187761, PubMed:20677832, PubMed:21220120, PubMed:26886794). Catalytic subunit of the MLL1/MLL complex, a multiprotein complex that mediates both methylation of 'Lys-4' of histone H3 (H3K4me) complex and acetylation of 'Lys-16' of histone H4 (H4K16ac) (PubMed:15960975, PubMed:12453419, PubMed:15960975, PubMed:19556245, PubMed:24235145, PubMed:19187761, PubMed:20677832, PubMed:21220120, PubMed:26886794). Catalyzes methyl group transfer from S-adenosyl-L-methionine to the epsilon-amino group of 'Lys-4' of histone H3 (H3K4) via a non-processive mechanism. Part of chromatin remodeling machinery predominantly forms H3K4me1 and H3K4me2 methylation marks at active chromatin sites where transcription and DNA repair take place (PubMed:25561738, PubMed:15960975, PubMed:12453419, PubMed:15960975, PubMed:19556245, PubMed:19187761, PubMed:20677832, PubMed:21220120, PubMed:26886794). Has weak methyltransferase activity by itself, and requires other component of the MLL1/MLL complex to obtain full methyltransferase activity (PubMed:19187761, PubMed:26886794). Has no activity toward histone H3 phosphorylated on 'Thr-3', less activity toward H3 dimethylated on 'Arg-8' or 'Lys-9', while it has higher activity toward H3 acetylated on 'Lys-9' (PubMed:19187761). Binds to unmethylated CpG elements in the promoter of target genes and helps maintain them in the nonmethylated state (PubMed:20010842). Required for transcriptional activation of HOXA9 (PubMed:12453419, PubMed:20677832, PubMed:20010842). Promotes PPP1R15A-induced apoptosis (PubMed:10490642). Plays a critical role in the control of circadian gene expression and is essential for the transcriptional activation mediated by the CLOCK-ARNTL/BMAL1 heterodimer (By similarity). Establishes a permissive chromatin state for circadian transcription by mediating a rhythmic methylation of 'Lys-4' of histone H3 (H3K4me) and this histone modification directs the circadian acetylation at H3K9 and H3K14 allowing the recruitment of CLOCK-ARNTL/BMAL1 to chromatin (By similarity). Also has auto-methylation activity on Cys-3882 in absence of histone H3 substrate (PubMed:24235145). {ECO:0000250|UniProtKB:P55200, ECO:0000269|PubMed:10490642, ECO:0000269|PubMed:12453419, ECO:0000269|PubMed:15960975, ECO:0000269|PubMed:19187761, ECO:0000269|PubMed:19556245, ECO:0000269|PubMed:20010842, ECO:0000269|PubMed:21220120, ECO:0000269|PubMed:24235145, ECO:0000269|PubMed:26886794, ECO:0000305|PubMed:20677832}. |
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 * 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 | CDK6 | chr7:92404010 | chr11:118360505 | ENST00000265734 | - | 3 | 8 | 19_27 | 123.0 | 327.0 | Nucleotide binding | ATP |
Hgene | CDK6 | chr7:92404010 | chr11:118360505 | ENST00000424848 | - | 3 | 8 | 19_27 | 123.0 | 327.0 | Nucleotide binding | ATP |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1703_1748 | 1455.0 | 3932.0 | Domain | Bromo%3B divergent | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 2018_2074 | 1455.0 | 3932.0 | Domain | FYR N-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 3666_3747 | 1455.0 | 3932.0 | Domain | FYR C-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 3829_3945 | 1455.0 | 3932.0 | Domain | SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 3953_3969 | 1455.0 | 3932.0 | Domain | Post-SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1703_1748 | 1493.0 | 3970.0 | Domain | Bromo%3B divergent | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 2018_2074 | 1493.0 | 3970.0 | Domain | FYR N-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 3666_3747 | 1493.0 | 3970.0 | Domain | FYR C-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 3829_3945 | 1493.0 | 3970.0 | Domain | SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 3953_3969 | 1493.0 | 3970.0 | Domain | Post-SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1703_1748 | 1493.0 | 3973.0 | Domain | Bromo%3B divergent | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 2018_2074 | 1493.0 | 3973.0 | Domain | FYR N-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 3666_3747 | 1493.0 | 3973.0 | Domain | FYR C-terminal | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 3829_3945 | 1493.0 | 3973.0 | Domain | SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 3953_3969 | 1493.0 | 3973.0 | Domain | Post-SET | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 3906_3907 | 1455.0 | 3932.0 | Region | S-adenosyl-L-methionine binding | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 3906_3907 | 1493.0 | 3970.0 | Region | S-adenosyl-L-methionine binding | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 3906_3907 | 1493.0 | 3973.0 | Region | S-adenosyl-L-methionine binding | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1479_1533 | 1455.0 | 3932.0 | Zinc finger | PHD-type 2 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1566_1627 | 1455.0 | 3932.0 | Zinc finger | PHD-type 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1870_1910 | 1455.0 | 3932.0 | Zinc finger | C2HC pre-PHD-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1931_1978 | 1455.0 | 3932.0 | Zinc finger | PHD-type 4 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1566_1627 | 1493.0 | 3970.0 | Zinc finger | PHD-type 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1870_1910 | 1493.0 | 3970.0 | Zinc finger | C2HC pre-PHD-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1931_1978 | 1493.0 | 3970.0 | Zinc finger | PHD-type 4 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1566_1627 | 1493.0 | 3973.0 | Zinc finger | PHD-type 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1870_1910 | 1493.0 | 3973.0 | Zinc finger | C2HC pre-PHD-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1931_1978 | 1493.0 | 3973.0 | Zinc finger | PHD-type 4 |
- 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 | CDK6 | chr7:92404010 | chr11:118360505 | ENST00000265734 | - | 3 | 8 | 13_300 | 123.0 | 327.0 | Domain | Protein kinase |
Hgene | CDK6 | chr7:92404010 | chr11:118360505 | ENST00000424848 | - | 3 | 8 | 13_300 | 123.0 | 327.0 | Domain | Protein kinase |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 137_143 | 1455.0 | 3932.0 | Compositional bias | Note=Poly-Gly | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 17_102 | 1455.0 | 3932.0 | Compositional bias | Note=Ala/Gly/Ser-rich | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 561_564 | 1455.0 | 3932.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 568_571 | 1455.0 | 3932.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 137_143 | 1493.0 | 3970.0 | Compositional bias | Note=Poly-Gly | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 17_102 | 1493.0 | 3970.0 | Compositional bias | Note=Ala/Gly/Ser-rich | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 561_564 | 1493.0 | 3970.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 568_571 | 1493.0 | 3970.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 137_143 | 1493.0 | 3973.0 | Compositional bias | Note=Poly-Gly | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 17_102 | 1493.0 | 3973.0 | Compositional bias | Note=Ala/Gly/Ser-rich | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 561_564 | 1493.0 | 3973.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 568_571 | 1493.0 | 3973.0 | Compositional bias | Note=Poly-Pro | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 169_180 | 1455.0 | 3932.0 | DNA binding | Note=A.T hook 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 217_227 | 1455.0 | 3932.0 | DNA binding | Note=A.T hook 2 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 301_309 | 1455.0 | 3932.0 | DNA binding | Note=A.T hook 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 169_180 | 1493.0 | 3970.0 | DNA binding | Note=A.T hook 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 217_227 | 1493.0 | 3970.0 | DNA binding | Note=A.T hook 2 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 301_309 | 1493.0 | 3970.0 | DNA binding | Note=A.T hook 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 169_180 | 1493.0 | 3973.0 | DNA binding | Note=A.T hook 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 217_227 | 1493.0 | 3973.0 | DNA binding | Note=A.T hook 2 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 301_309 | 1493.0 | 3973.0 | DNA binding | Note=A.T hook 3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 123_134 | 1455.0 | 3932.0 | Motif | Integrase domain-binding motif 1 (IBM1) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 147_152 | 1455.0 | 3932.0 | Motif | Integrase domain-binding motif 2 (IBM2) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 6_25 | 1455.0 | 3932.0 | Motif | Menin-binding motif (MBM) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 123_134 | 1493.0 | 3970.0 | Motif | Integrase domain-binding motif 1 (IBM1) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 147_152 | 1493.0 | 3970.0 | Motif | Integrase domain-binding motif 2 (IBM2) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 6_25 | 1493.0 | 3970.0 | Motif | Menin-binding motif (MBM) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 123_134 | 1493.0 | 3973.0 | Motif | Integrase domain-binding motif 1 (IBM1) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 147_152 | 1493.0 | 3973.0 | Motif | Integrase domain-binding motif 2 (IBM2) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 6_25 | 1493.0 | 3973.0 | Motif | Menin-binding motif (MBM) | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1147_1195 | 1455.0 | 3932.0 | Zinc finger | CXXC-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1431_1482 | 1455.0 | 3932.0 | Zinc finger | PHD-type 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1147_1195 | 1493.0 | 3970.0 | Zinc finger | CXXC-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1431_1482 | 1493.0 | 3970.0 | Zinc finger | PHD-type 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1479_1533 | 1493.0 | 3970.0 | Zinc finger | PHD-type 2 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1147_1195 | 1493.0 | 3973.0 | Zinc finger | CXXC-type | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1431_1482 | 1493.0 | 3973.0 | Zinc finger | PHD-type 1 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1479_1533 | 1493.0 | 3973.0 | Zinc finger | PHD-type 2 |
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Fusion Gene Sequence for CDK6-KMT2A |
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. |
>In-frame_ENST00000424848_ENST00000534358_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(transcript)=12945nt_BP=853nt GCTGGTAACTCCTTCCCCAGAGTCTGATTACCTGCTCCGCGAGGCCGCGGACACGTGCGGAGAGCCGACTGACACTCGCAGCCCCCTCGG GAGGCCCGACGCGACTGGGCCCCTCAGGTGCAATGATTCTGGACTGAGACGCGCTTGGGCAGAGGCTATGTAATCGTGTCTGTGTTGAGG ACTTCGCTTCGAGGAGGGAAGAGGAGGGATCGGCTCGCTCCTCCGGCGGCGGCGGCGGCGGCGACTCTGCAGGCGGAGTTTCGCGGCGGC GGCACCAGGGTTACGCCAGCCCCGCGGGGAGGTCTCTCCATCCAGCTTCTGCAGCGGCGAAAGCCCCAGCGCCCGAGCGCCTGAGCCGGC GGGGAGCAAGTAAAGCTAGACCGATCTCCGGGGAGCCCCGGAGTAGGCGAGCGGCGGCCGCCAGCTAGTTGAGCGCACCCCCCGCCCGCC CCAGCGGCGCCGCGGCGGGCGGCGTCCAGGCGGCATGGAGAAGGACGGCCTGTGCCGCGCTGACCAGCAGTACGAATGCGTGGCGGAGAT CGGGGAGGGCGCCTATGGGAAGGTGTTCAAGGCCCGCGACTTGAAGAACGGAGGCCGTTTCGTGGCGTTGAAGCGCGTGCGGGTGCAGAC CGGCGAGGAGGGCATGCCGCTCTCCACCATCCGCGAGGTGGCGGTGCTGAGGCACCTGGAGACCTTCGAGCACCCCAACGTGGTCAGGTT GTTTGATGTGTGCACAGTGTCACGAACAGACAGAGAAACCAAACTAACTTTAGTGTTTGAACATGTCGATCAAGACTTGACCACTTACTT GGATAAAGTTCCAGAGCCTGGAGTGCCCACTGAAACCATAAAGCAGCTGCTGGAGTGTAATAAGTGCCGAAACAGCTATCACCCTGAGTG CCTGGGACCAAACTACCCCACCAAACCCACAAAGAAGAAGAAAGTCTGGATCTGTACCAAGTGTGTTCGCTGTAAGAGCTGTGGATCCAC AACTCCAGGCAAAGGGTGGGATGCACAGTGGTCTCATGATTTCTCACTGTGTCATGATTGCGCCAAGCTCTTTGCTAAAGGAAACTTCTG CCCTCTCTGTGACAAATGTTATGATGATGATGACTATGAGAGTAAGATGATGCAATGTGGAAAGTGTGATCGCTGGGTCCATTCCAAATG TGAGAATCTTTCAGGTACAGAAGATGAGATGTATGAGATTCTATCTAATCTGCCAGAAAGTGTGGCCTACACTTGTGTGAACTGTACTGA GCGGCACCCTGCAGAGTGGCGACTGGCCCTTGAAAAAGAGCTGCAGATTTCTCTGAAGCAAGTTCTGACAGCTTTGTTGAATTCTCGGAC TACCAGCCATTTGCTACGCTACCGGCAGGCTGCCAAGCCTCCAGACTTAAATCCCGAGACAGAGGAGAGTATACCTTCCCGCAGCTCCCC CGAAGGACCTGATCCACCAGTTCTTACTGAGGTCAGCAAACAGGATGATCAGCAGCCTTTAGATCTAGAAGGAGTCAAGAGGAAGATGGA CCAAGGGAATTACACATCTGTGTTGGAGTTCAGTGATGATATTGTGAAGATCATTCAAGCAGCCATTAATTCAGATGGAGGACAGCCAGA AATTAAAAAAGCCAACAGCATGGTCAAGTCCTTCTTCATTCGGCAAATGGAACGTGTTTTTCCATGGTTCAGTGTCAAAAAGTCCAGGTT TTGGGAGCCAAATAAAGTATCAAGCAACAGTGGGATGTTACCAAACGCAGTGCTTCCACCTTCACTTGACCATAATTATGCTCAGTGGCA GGAGCGAGAGGAAAACAGCCACACTGAGCAGCCTCCTTTAATGAAGAAAATCATTCCAGCTCCCAAACCCAAAGGTCCTGGAGAACCAGA CTCACCAACTCCTCTGCATCCTCCTACACCACCAATTTTGAGTACTGATAGGAGTCGAGAAGACAGTCCAGAGCTGAACCCACCCCCAGG CATAGAAGACAATAGACAGTGTGCGTTATGTTTGACTTATGGTGATGACAGTGCTAATGATGCTGGTCGTTTACTATATATTGGCCAAAA TGAGTGGACACATGTAAATTGTGCTTTGTGGTCAGCGGAAGTGTTTGAAGATGATGACGGATCACTAAAGAATGTGCATATGGCTGTGAT CAGGGGCAAGCAGCTGAGATGTGAATTCTGCCAAAAGCCAGGAGCCACCGTGGGTTGCTGTCTCACATCCTGCACCAGCAACTATCACTT CATGTGTTCCCGAGCCAAGAACTGTGTCTTTCTGGATGATAAAAAAGTATATTGCCAACGACATCGGGATTTGATCAAAGGCGAAGTGGT TCCTGAGAATGGATTTGAAGTTTTCAGAAGAGTGTTTGTGGACTTTGAAGGAATCAGCTTGAGAAGGAAGTTTCTCAATGGCTTGGAACC AGAAAATATCCACATGATGATTGGGTCTATGACAATCGACTGCTTAGGAATTCTAAATGATCTCTCCGACTGTGAAGATAAGCTCTTTCC TATTGGATATCAGTGTTCCAGGGTATACTGGAGCACCACAGATGCTCGCAAGCGCTGTGTATATACATGCAAGATAGTGGAGTGCCGTCC TCCAGTCGTAGAGCCGGATATCAACAGCACTGTTGAACATGATGAAAACAGGACCATTGCCCATAGTCCAACATCTTTTACAGAAAGTTC ATCAAAAGAGAGTCAAAACACAGCTGAAATTATAAGTCCTCCATCACCAGACCGACCTCCTCATTCACAAACCTCTGGCTCCTGTTATTA TCATGTCATCTCAAAGGTCCCCAGGATTCGAACACCCAGTTATTCTCCAACACAGAGATCCCCTGGCTGTCGACCGTTGCCTTCTGCAGG AAGTCCTACCCCAACCACTCATGAAATAGTCACAGTAGGTGATCCTTTACTCTCCTCTGGACTTCGAAGCATTGGCTCCAGGCGTCACAG TACCTCTTCCTTATCACCCCAGCGGTCCAAACTCCGGATAATGTCTCCAATGAGAACTGGGAATACTTACTCTAGGAATAATGTTTCCTC AGTCTCCACCACCGGGACCGCTACTGATCTTGAATCAAGTGCCAAAGTAGTTGATCATGTCTTAGGGCCACTGAATTCAAGTACTAGTTT AGGGCAAAACACTTCCACCTCTTCAAATTTGCAAAGGACAGTGGTTACTGTAGGCAATAAAAACAGTCACTTGGATGGATCTTCATCTTC AGAAATGAAGCAGTCCAGTGCTTCAGACTTGGTGTCCAAGAGCTCCTCTTTAAAGGGAGAGAAGACCAAAGTGCTGAGTTCCAAGAGCTC AGAGGGATCTGCACATAATGTGGCTTACCCTGGAATTCCTAAACTGGCCCCACAGGTTCATAACACAACATCTAGAGAACTGAATGTTAG TAAAATCGGCTCCTTTGCTGAACCCTCTTCAGTGTCGTTTTCTTCTAAAGAGGCCCTCTCCTTCCCACACCTCCATTTGAGAGGGCAAAG GAATGATCGAGACCAACACACAGATTCTACCCAATCAGCAAACTCCTCTCCAGATGAAGATACTGAAGTCAAAACCTTGAAGCTATCTGG AATGAGCAACAGATCATCCATTATCAACGAACATATGGGATCTAGTTCCAGAGATAGGAGACAGAAAGGGAAAAAATCCTGTAAAGAAAC TTTCAAAGAAAAGCATTCCAGTAAATCTTTTTTGGAACCTGGTCAGGTGACAACTGGTGAGGAAGGAAACTTGAAGCCAGAGTTTATGGA TGAGGTTTTGACTCCTGAGTATATGGGCCAACGACCATGTAACAATGTTTCTTCTGATAAGATTGGTGATAAAGGCCTTTCTATGCCAGG AGTCCCCAAAGCTCCACCCATGCAAGTAGAAGGATCTGCCAAGGAATTACAGGCACCACGGAAACGCACAGTCAAAGTGACACTGACACC TCTAAAAATGGAAAATGAGAGTCAATCCAAAAATGCCCTGAAAGAAAGTAGTCCTGCTTCCCCTTTGCAAATAGAGTCAACATCTCCCAC AGAACCAATTTCAGCCTCTGAAAATCCAGGAGATGGTCCAGTGGCCCAACCAAGCCCCAATAATACCTCATGCCAGGATTCTCAAAGTAA CAACTATCAGAATCTTCCAGTACAGGACAGAAACCTAATGCTTCCAGATGGCCCCAAACCTCAGGAGGATGGCTCTTTTAAAAGGAGGTA TCCCCGTCGCAGTGCCCGTGCACGTTCTAACATGTTTTTTGGGCTTACCCCACTCTATGGAGTAAGATCCTATGGTGAAGAAGACATTCC ATTCTACAGCAGCTCAACTGGGAAGAAGCGAGGCAAGAGATCAGCTGAAGGACAGGTGGATGGGGCCGATGACTTAAGCACTTCAGATGA AGACGACTTATACTATTACAACTTCACTAGAACAGTGATTTCTTCAGGTGGAGAGGAACGACTGGCATCCCATAATTTATTTCGGGAGGA GGAACAGTGTGATCTTCCAAAAATCTCACAGTTGGATGGTGTTGATGATGGGACAGAGAGTGATACTAGTGTCACAGCCACAACAAGGAA AAGCAGCCAGATTCCAAAAAGAAATGGTAAAGAAAATGGAACAGAGAACTTAAAGATTGATAGACCTGAAGATGCTGGGGAGAAAGAACA TGTCACTAAGAGTTCTGTTGGCCACAAAAATGAGCCAAAGATGGATAACTGCCATTCTGTAAGCAGAGTTAAAACACAGGGACAAGATTC CTTGGAAGCTCAGCTCAGCTCATTGGAGTCAAGCCGCAGAGTCCACACAAGTACCCCCTCCGACAAAAATTTACTGGACACCTATAATAC TGAGCTCCTGAAATCAGATTCAGACAATAACAACAGTGATGACTGTGGGAATATCCTGCCTTCAGACATTATGGACTTTGTACTAAAGAA TACTCCATCCATGCAGGCTTTGGGTGAGAGCCCAGAGTCATCTTCATCAGAACTCCTGAATCTTGGTGAAGGATTGGGTCTTGACAGTAA TCGTGAAAAAGACATGGGTCTTTTTGAAGTATTTTCTCAGCAGCTGCCTACAACAGAACCTGTGGATAGTAGTGTCTCTTCCTCTATCTC AGCAGAGGAACAGTTTGAGTTGCCTCTAGAGCTACCATCTGATCTGTCTGTCTTGACCACCCGGAGTCCCACTGTCCCCAGCCAGAATCC CAGTAGACTAGCTGTTATCTCAGACTCAGGGGAGAAGAGAGTAACCATCACAGAAAAATCTGTAGCCTCCTCTGAAAGTGACCCAGCACT GCTGAGCCCAGGAGTAGATCCAACTCCTGAAGGCCACATGACTCCTGATCATTTTATCCAAGGACACATGGATGCAGACCACATCTCTAG CCCTCCTTGTGGTTCAGTAGAGCAAGGTCATGGCAACAATCAGGATTTAACTAGGAACAGTAGCACCCCTGGCCTTCAGGTACCTGTTTC CCCAACTGTTCCCATCCAGAACCAGAAGTATGTGCCCAATTCTACTGATAGTCCTGGCCCGTCTCAGATTTCCAATGCAGCTGTCCAGAC CACTCCACCCCACCTGAAGCCAGCCACTGAGAAACTCATAGTTGTTAACCAGAACATGCAGCCACTTTATGTTCTCCAAACTCTTCCAAA TGGAGTGACCCAAAAAATCCAATTGACCTCTTCTGTTAGTTCTACACCCAGTGTGATGGAGACAAATACTTCAGTATTGGGACCCATGGG AGGTGGTCTCACCCTTACCACAGGACTAAATCCAAGCTTGCCAACTTCTCAATCTTTGTTCCCTTCTGCTAGCAAAGGATTGCTACCCAT GTCTCATCACCAGCACTTACATTCCTTCCCTGCAGCTACTCAAAGTAGTTTCCCACCAAACATCAGCAATCCTCCTTCAGGCCTGCTTAT TGGGGTTCAGCCTCCTCCGGATCCCCAACTTTTGGTTTCAGAATCCAGCCAGAGGACAGACCTCAGTACCACAGTAGCCACTCCATCCTC TGGACTCAAGAAAAGACCCATATCTCGTCTACAGACCCGAAAGAATAAAAAACTTGCTCCCTCTAGTACCCCTTCAAACATTGCCCCTTC TGATGTGGTTTCTAATATGACATTGATTAACTTCACACCCTCCCAGCTTCCTAATCATCCAAGTCTGTTAGATTTGGGGTCACTTAATAC TTCATCTCACCGAACTGTCCCCAACATCATAAAAAGATCTAAATCTAGCATCATGTATTTTGAACCGGCACCCCTGTTACCACAGAGTGT GGGAGGAACTGCTGCCACAGCGGCAGGCACATCAACAATAAGCCAGGATACTAGCCACCTCACATCAGGGTCTGTGTCTGGCTTGGCATC CAGTTCCTCTGTCTTGAATGTTGTATCCATGCAAACTACCACAACCCCTACAAGTAGTGCGTCAGTTCCAGGACACGTCACCTTAACCAA CCCAAGGTTGCTTGGTACCCCAGATATTGGCTCAATAAGCAATCTTTTAATCAAAGCTAGCCAGCAGAGCCTGGGGATTCAGGACCAGCC TGTGGCTTTACCGCCAAGTTCAGGAATGTTTCCACAACTGGGGACATCACAGACCCCCTCTACTGCTGCAATAACAGCGGCATCTAGCAT CTGTGTGCTCCCCTCCACTCAGACTACGGGCATAACAGCCGCTTCACCTTCTGGGGAAGCAGACGAACACTATCAGCTTCAGCATGTGAA CCAGCTCCTTGCCAGCAAAACTGGGATTCATTCTTCCCAGCGTGATCTTGATTCTGCTTCAGGGCCCCAGGTATCCAACTTTACCCAGAC GGTAGACGCTCCTAATAGCATGGGACTGGAGCAGAACAAGGCTTTATCCTCAGCTGTGCAAGCCAGCCCCACCTCTCCTGGGGGTTCTCC ATCCTCTCCATCTTCTGGACAGCGGTCAGCAAGCCCTTCAGTGCCGGGTCCCACTAAACCCAAACCAAAAACCAAACGGTTTCAGCTGCC TCTAGACAAAGGGAATGGCAAGAAGCACAAAGTTTCCCATTTGCGGACCAGTTCTTCTGAAGCACACATTCCAGACCAAGAAACGACATC CCTGACCTCAGGCACAGGGACTCCAGGAGCAGAGGCTGAGCAGCAGGATACAGCTAGCGTGGAGCAGTCCTCCCAGAAGGAGTGTGGGCA ACCTGCAGGGCAAGTCGCTGTTCTTCCGGAAGTTCAGGTGACCCAAAATCCAGCAAATGAACAAGAAAGTGCAGAACCTAAAACAGTGGA AGAAGAGGAAAGTAATTTCAGCTCCCCACTGATGCTTTGGCTTCAGCAAGAACAAAAGCGGAAGGAAAGCATTACTGAGAAAAAACCCAA GAAAGGACTTGTTTTTGAAATTTCCAGTGATGATGGCTTTCAGATCTGTGCAGAAAGTATTGAAGATGCCTGGAAGTCATTGACAGATAA AGTCCAGGAAGCTCGATCAAATGCCCGCCTAAAGCAGCTCTCATTTGCAGGTGTTAACGGTTTGAGGATGCTGGGGATTCTCCATGATGC AGTTGTGTTCCTCATTGAGCAGCTGTCTGGTGCCAAGCACTGTCGAAATTACAAATTCCGTTTCCACAAGCCAGAGGAGGCCAATGAACC CCCCTTGAACCCTCACGGCTCAGCCAGGGCTGAAGTCCACCTCAGGAAGTCAGCATTTGACATGTTTAACTTCCTGGCTTCTAAACATCG TCAGCCTCCTGAATACAACCCCAATGATGAAGAAGAGGAGGAGGTACAGCTGAAGTCAGCTCGGAGGGCAACTAGCATGGATCTGCCAAT GCCCATGCGCTTCCGGCACTTAAAAAAGACTTCTAAGGAGGCAGTTGGTGTCTACAGGTCTCCCATCCATGGCCGGGGTCTTTTCTGTAA GAGAAACATTGATGCAGGTGAGATGGTGATTGAGTATGCCGGCAACGTCATCCGCTCCATCCAGACTGACAAGCGGGAAAAGTATTACGA CAGCAAGGGCATTGGTTGCTATATGTTCCGAATTGATGACTCAGAGGTAGTGGATGCCACCATGCATGGAAATGCTGCACGCTTCATCAA TCACTCGTGTGAGCCTAACTGCTATTCTCGGGTCATCAATATTGATGGGCAGAAGCACATTGTCATCTTTGCCATGCGTAAGATCTACCG AGGAGAGGAACTCACTTACGACTATAAGTTCCCCATTGAGGATGCCAGCAACAAGCTGCCCTGCAACTGTGGCGCCAAGAAATGCCGGAA GTTCCTAAACTAAAGCTGCTCTTCTCCCCCAGTGTTGGAGTGCAAGGAGGCGGGGCCATCCAAAGCAACGCTGAAGGCCTTTTCCAGCAG CTGGGAGCTCCCGGATTGCGTGGCACAGCTGAGGGGCCTCTGTGATGGCTGAGCTCTCTTATGTCCTATACTCACATCAGACATGTGATC ATAGTCCCAGAGACAGAGTTGAGGTCTCGAAGAAAAGATCCATGATCGGCTTTCTCCTGGGGCCCCTCCAATTGTTTACTGTTAGAAAGT GGGAATGGGGTCCCTAGCAGACTTGCCTGGAAGGAGCCTATTATAGAGGGTTGGTTATGTTGGGAGATTGGGCCTGAATTTCTCCACAGA AATAAGTTGCCATCCTCAGGTTGGCCCTTTCCCAAGCACTGTAAGTGAGTGGGTCAGGCAAAGCCCCAAATGGAGGGTTGGTTAGATTCC TGACAGTTTGCCAGCCAGGCCCCACCTACAGCGTCTGTCGAACAAACAGAGGTCTGGTGGTTTTCCCTACTATCCTCCCACTCGAGAGTT CACTTCTGGTTGGGAGACAGGATTCCTAGCACCTCCGGTGTCAAAAGGCTGTCATGGGGTTGTGCCAATTAATTACCAAACATTGAGCCT GCAGGCTTTGAGTGGGAGTGTTGCCCCCAGGAGCCTTATCTCAGCCAATTACCTTTCTTGACAGTAGGAGCGGCTTCCCTCTCCCATTCC CTCTTCACTCCCTTTTCTTCCTTTCCCCTGTCTTCATGCCACTGCTTTCCCATGCTTCTTTCGGGTTGTAGGGGAGACTGACTGCCTGCT CAAGGACACTCCCTGCTGGGCATAGGATGTGCCTGCAAAAAGTTCCCTGAGCCTGTAAGCACTCCAGGTGGGGAAGTGGACAGGAGCCAT TGGTCATAACCAGACAGAATTTGGAAACATTTTCATAAAGCTCCATGGAGAGTTTTAAAGAAACATATGTAGCATGATTTTGTAGGAGAG GAAAAAGATTATTTAAATAGGATTTAAATCATGCAACAACGAGAGTATCACAGCCAGGATGACCCTTGGGTCCCATTCCTAAGACATGGT TACTTTATTTTCCCCTTGTTAAGACATAGGAAGACTTAATTTTTAAACGGTCAGTGTCCAGTTGAAGGCAGAACACTAATCAGATTTCAA GGCCCACAACTTGGGGACTAGACCACCTTATGTTGAGGGAACTCTGCCACCTGCGTGCAACCCACAGCTAAAGTAAATTCAATGACACTA CTGCCCTGATTACTCCTTAGGATGTGGTCAAAACAGCATCAAATGTTTCTTCTCTTCCTTTCCCCAAGACAGAGTCCTGAACCTGTTAAA TTAAGTCATTGGATTTTACTCTGTTCTGTTTACAGTTTACTATTTAAGGTTTTATAAATGTAAATATATTTTGTATATTTTTCTATGAGA AGCACTTCATAGGGAGAAGCACTTATGACAAGGCTATTTTTTAAACCGCGGTATTATCCTAATTTAAAAGAAGATCGGTTTTTAATAATT TTTTATTTTCATAGGATGAAGTTAGAGAAAATATTCAGCTGTACACACAAAGTCTGGTTTTTCCTGCCCAACTTCCCCCTGGAAGGTGTA CTTTTTGTTGTTTAATGTGTAGCTTGTTTGTGCCCTGTTGACATAAATGTTTCCTGGGTTTGCTCTTTGACAATAAATGGAGAAGGAAGG TCACCCAACTCCATTGGGCCACTCCCCTCCTTCCCCTATTGAAGCTCCTCAAAAGGCTACAGTAATATCTTGATACAACAGATTCTCTTC TTTCCCGCCTCTCTCCTTTCCGGCGCAACTTCCAGAGTGGTGGGAGACGGCAATCTTTACATTTCCCTCATCTTTCTTACTTCAGAGTTA GCAAACAACAAGTTGAATGGCAACTTGACATTTTTGCATCACCATCTGCCTCATAGGCCACTCTTTCCTTTCCCTCTGCCCACCAAGTCC TCATATCTGCAGAGAACCCATTGATCACCTTGTGCCCTCTTTTGGGGCAGCCTGTTGAAACTGAAGCACAGTCTGACCACTCACGATAAA GCAGATTTTTCTCTGCCTCTGCCACAAGGTTTCAGAGTAGTGTAGTCCAAGTAGAGGGTGGGGCACCCTTTTCTCGCCGCAAGAAGCCCA TTCCTATGGAAGTCTAGCAAAGCAATACGACTCAGCCCAGCACTCTCTGCCCCAGGACTCATGGCTCTGCTGTGCCTTCCATCCTGGGCT CCCTTCTCTCCTGTGACCTTAAGAACTTTGTCTGGTGGCTTTGCTGGAACATTGTCACTGTTTTCACTGTCATGCAGGGAGCCCAGCACT GTGGCCAGGATGGCAGAGACTTCCTTGTCATCATGGAGAAGTGCCAGCAGGGGACTGGGAAAAGCACTCTACCCAGACCTCACCTCCCTT CCTCCTTTTGCCCATGAACAAGATGCAGTGGCCCTAGGGGTTCCACTAGTGTCTGCTTTCCTTTATTATTGCACTGTGTGAGGTTTTTTT GTAAATCCTTGTATTCCTATTTTTTTTAAAGAAAAAAAAAAAACCTTAAGCTGCATTTGTTACTGAAATGATTAATGCACTGATGGGTCC TGAATTCACCTTGAGAAAGACCCAAAGGCCAGTCAGGGGGTGGGGGGAACTCAGCTAAATAGACCTAGTTACTGCCCTGCTAGGCCATGC TGTACTGTGAGCCCCTCCTCACTCTCTACCAACCCTAAACCCTGAGGACAGGGGAGGAACCCACAGCTTCCTTCTCCTGCCAGCTGCAGA TGGTTTGCCTTGCCTTTCCACCCCCTAATTGTCAACCACAAAAATGAGAAATTCCTCTTCTAGCTCAGCCTTGAGTCCATTGCCAAATTT TCAGCACACCTGCCAGCAACTTGGGGGAATAAGCGAAGGTTTCCCTACAAGAGGGAAAGAAGGCAAAAACGGCACAGCTATCTCCAAACA CATCTGAGTTCATTTCAAAAGTGACCAAGGGAATCTCCGCACAAAAGTGCAGATTGAGGAATTGTGATGGGTCATTCCCAAGAATCCCCC AAGGGGCATCCCAAATCCCTGAGGAGTAACAGCTGCAAACCTGGTCAGTTCTCAGTGAGAGCCAGCTCACTTATAGCTTTGCTGCTAGAA CCTGTTGTGGCTGCATTTCCTGGTGGCCAGTGACAACTGTGTAACCAGAATAGCTGCATGGCGCTGACCCTTTGGCCGGAACTTGGTCTC TTGGCTCCCTCCTTGGCCACCCACCACCTCTCGCACAGCCCCTCTGTTTTTACACCAATAACAAGAATTAAGGGGGAAGCCCTGGCAGCT ATACGTTTTCAACCAGACTCCTTTGCCGGGACCCAGCCCGCCACCCTGCTCGCCTCCGTCAAACCCCCGGCCAATGCAGTGAGCACCATG TAGCTCCCTTGATTTAAAAAAAATAAAAAATAAAAAAAAAAGGAAAAAAAAATACAACACACACACAAAAATAAAAAAAATATTCTAATG AATGTATCTTTCTAAAGGACTGACGTTCAATCAAATATCTGAAAATACTAAAGGTCAAAACCTTGTCAGATGTTAACTTCTAAGTTCGGT TTGGGATTTTTTTTTTTTAATAGAAATCAAGTTGTTTTTGTTTTTAAGGAAAAGCGGGTCATTGCAAAGGGCTGGGTGTAATTTTATGTT TCATTTCCTTCATTTTAAAGCAATACAAGGTTATGGAGCAGATGGTTTTGTGCCGAATCATGAATACTAGTCAAGTCACACACTCTGGAA ACTTGCAACTTTTTGTTTGTTTTGGTTTTCAAATAAATATAAATATGATATATATAGGAACTAATATAGTAATGCACCATGTAACAAAGC CTAGTTCAGTCCATGGCTTTTAATTCTCTTAACACTATAGATAAGGATTGTGTTACAGTTGCTAGTAGCGGCAGGAAGATGTCAGGCTCA CTTTCCTCTGATTCCCGAAATGGGGGGAACCTCTAACCATAAAGGAATGGTAGAACAGTCCATTCCTCGGATCAGAGAAAAATGCAGACA TGGTGTCACCTGGATTTTTTTCTGCCCATGAATGTTGCCAGTCAGTACCTGTCCTCCTTGTTTCTCTATTTTTGGTTATGAATGTTGGGG TTACCACCTGCATTTAGGGGAAAATTGTGTTCTGTGCTTTCCTGGTATCTTGTTCCGAGGTACTCTAGTTCTGTCTTTCAACCAAGAAAA TAGAATTGTGGTGTTTCTTTTATTGAACTTTTAACAGTCTCTTTAGTAAATACAGGTAGTTGAATAATTGTTTCAAGAGCTCAACAGATG ACAAGCTTCTTTTCTAGAAATAAGACATTTTTTGACAACTTTATCATGTATAACAGATCTGTTTTTTTTCCTTGTGTTCTTCCAAGCTTC TGGTTAGAGAAAAAGAGAAAAAAAAAAAAGGAAAATGTGTCTAAAGTCCATCAGTGTTAACTCCCTGTGACAGGGATGAAGGAAAATACT TTAATAGTTCAAAAAATAATAATGCTGAAAGCTCTCTACGAAAGACTGAATGTAAAAGTAAAAAGTGTACATAGTTGTAAAAAAAAGGAG >In-frame_ENST00000424848_ENST00000534358_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(amino acids)=2602AA_start in transcript=484_stop in transcript=8292 MEKDGLCRADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDR ETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKQLLECNKCRNSYHPECLGPNYPTKPTKKKKVWICTKCVRCKSCGSTTPGKGWDAQWS HDFSLCHDCAKLFAKGNFCPLCDKCYDDDDYESKMMQCGKCDRWVHSKCENLSGTEDEMYEILSNLPESVAYTCVNCTERHPAEWRLALE KELQISLKQVLTALLNSRTTSHLLRYRQAAKPPDLNPETEESIPSRSSPEGPDPPVLTEVSKQDDQQPLDLEGVKRKMDQGNYTSVLEFS DDIVKIIQAAINSDGGQPEIKKANSMVKSFFIRQMERVFPWFSVKKSRFWEPNKVSSNSGMLPNAVLPPSLDHNYAQWQEREENSHTEQP PLMKKIIPAPKPKGPGEPDSPTPLHPPTPPILSTDRSREDSPELNPPPGIEDNRQCALCLTYGDDSANDAGRLLYIGQNEWTHVNCALWS AEVFEDDDGSLKNVHMAVIRGKQLRCEFCQKPGATVGCCLTSCTSNYHFMCSRAKNCVFLDDKKVYCQRHRDLIKGEVVPENGFEVFRRV FVDFEGISLRRKFLNGLEPENIHMMIGSMTIDCLGILNDLSDCEDKLFPIGYQCSRVYWSTTDARKRCVYTCKIVECRPPVVEPDINSTV EHDENRTIAHSPTSFTESSSKESQNTAEIISPPSPDRPPHSQTSGSCYYHVISKVPRIRTPSYSPTQRSPGCRPLPSAGSPTPTTHEIVT VGDPLLSSGLRSIGSRRHSTSSLSPQRSKLRIMSPMRTGNTYSRNNVSSVSTTGTATDLESSAKVVDHVLGPLNSSTSLGQNTSTSSNLQ RTVVTVGNKNSHLDGSSSSEMKQSSASDLVSKSSSLKGEKTKVLSSKSSEGSAHNVAYPGIPKLAPQVHNTTSRELNVSKIGSFAEPSSV SFSSKEALSFPHLHLRGQRNDRDQHTDSTQSANSSPDEDTEVKTLKLSGMSNRSSIINEHMGSSSRDRRQKGKKSCKETFKEKHSSKSFL EPGQVTTGEEGNLKPEFMDEVLTPEYMGQRPCNNVSSDKIGDKGLSMPGVPKAPPMQVEGSAKELQAPRKRTVKVTLTPLKMENESQSKN ALKESSPASPLQIESTSPTEPISASENPGDGPVAQPSPNNTSCQDSQSNNYQNLPVQDRNLMLPDGPKPQEDGSFKRRYPRRSARARSNM FFGLTPLYGVRSYGEEDIPFYSSSTGKKRGKRSAEGQVDGADDLSTSDEDDLYYYNFTRTVISSGGEERLASHNLFREEEQCDLPKISQL DGVDDGTESDTSVTATTRKSSQIPKRNGKENGTENLKIDRPEDAGEKEHVTKSSVGHKNEPKMDNCHSVSRVKTQGQDSLEAQLSSLESS RRVHTSTPSDKNLLDTYNTELLKSDSDNNNSDDCGNILPSDIMDFVLKNTPSMQALGESPESSSSELLNLGEGLGLDSNREKDMGLFEVF SQQLPTTEPVDSSVSSSISAEEQFELPLELPSDLSVLTTRSPTVPSQNPSRLAVISDSGEKRVTITEKSVASSESDPALLSPGVDPTPEG HMTPDHFIQGHMDADHISSPPCGSVEQGHGNNQDLTRNSSTPGLQVPVSPTVPIQNQKYVPNSTDSPGPSQISNAAVQTTPPHLKPATEK LIVVNQNMQPLYVLQTLPNGVTQKIQLTSSVSSTPSVMETNTSVLGPMGGGLTLTTGLNPSLPTSQSLFPSASKGLLPMSHHQHLHSFPA ATQSSFPPNISNPPSGLLIGVQPPPDPQLLVSESSQRTDLSTTVATPSSGLKKRPISRLQTRKNKKLAPSSTPSNIAPSDVVSNMTLINF TPSQLPNHPSLLDLGSLNTSSHRTVPNIIKRSKSSIMYFEPAPLLPQSVGGTAATAAGTSTISQDTSHLTSGSVSGLASSSSVLNVVSMQ TTTTPTSSASVPGHVTLTNPRLLGTPDIGSISNLLIKASQQSLGIQDQPVALPPSSGMFPQLGTSQTPSTAAITAASSICVLPSTQTTGI TAASPSGEADEHYQLQHVNQLLASKTGIHSSQRDLDSASGPQVSNFTQTVDAPNSMGLEQNKALSSAVQASPTSPGGSPSSPSSGQRSAS PSVPGPTKPKPKTKRFQLPLDKGNGKKHKVSHLRTSSSEAHIPDQETTSLTSGTGTPGAEAEQQDTASVEQSSQKECGQPAGQVAVLPEV QVTQNPANEQESAEPKTVEEEESNFSSPLMLWLQQEQKRKESITEKKPKKGLVFEISSDDGFQICAESIEDAWKSLTDKVQEARSNARLK QLSFAGVNGLRMLGILHDAVVFLIEQLSGAKHCRNYKFRFHKPEEANEPPLNPHGSARAEVHLRKSAFDMFNFLASKHRQPPEYNPNDEE EEEVQLKSARRATSMDLPMPMRFRHLKKTSKEAVGVYRSPIHGRGLFCKRNIDAGEMVIEYAGNVIRSIQTDKREKYYDSKGIGCYMFRI -------------------------------------------------------------- >In-frame_ENST00000424848_ENST00000389506_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(transcript)=10029nt_BP=853nt GCTGGTAACTCCTTCCCCAGAGTCTGATTACCTGCTCCGCGAGGCCGCGGACACGTGCGGAGAGCCGACTGACACTCGCAGCCCCCTCGG GAGGCCCGACGCGACTGGGCCCCTCAGGTGCAATGATTCTGGACTGAGACGCGCTTGGGCAGAGGCTATGTAATCGTGTCTGTGTTGAGG ACTTCGCTTCGAGGAGGGAAGAGGAGGGATCGGCTCGCTCCTCCGGCGGCGGCGGCGGCGGCGACTCTGCAGGCGGAGTTTCGCGGCGGC GGCACCAGGGTTACGCCAGCCCCGCGGGGAGGTCTCTCCATCCAGCTTCTGCAGCGGCGAAAGCCCCAGCGCCCGAGCGCCTGAGCCGGC GGGGAGCAAGTAAAGCTAGACCGATCTCCGGGGAGCCCCGGAGTAGGCGAGCGGCGGCCGCCAGCTAGTTGAGCGCACCCCCCGCCCGCC CCAGCGGCGCCGCGGCGGGCGGCGTCCAGGCGGCATGGAGAAGGACGGCCTGTGCCGCGCTGACCAGCAGTACGAATGCGTGGCGGAGAT CGGGGAGGGCGCCTATGGGAAGGTGTTCAAGGCCCGCGACTTGAAGAACGGAGGCCGTTTCGTGGCGTTGAAGCGCGTGCGGGTGCAGAC CGGCGAGGAGGGCATGCCGCTCTCCACCATCCGCGAGGTGGCGGTGCTGAGGCACCTGGAGACCTTCGAGCACCCCAACGTGGTCAGGTT GTTTGATGTGTGCACAGTGTCACGAACAGACAGAGAAACCAAACTAACTTTAGTGTTTGAACATGTCGATCAAGACTTGACCACTTACTT GGATAAAGTTCCAGAGCCTGGAGTGCCCACTGAAACCATAAAGCAGCTGCTGGAGTGTAATAAGTGCCGAAACAGCTATCACCCTGAGTG CCTGGGACCAAACTACCCCACCAAACCCACAAAGAAGAAGAAAGTCTGGATCTGTACCAAGTGTGTTCGCTGTAAGAGCTGTGGATCCAC AACTCCAGGCAAAGGGTGGGATGCACAGTGGTCTCATGATTTCTCACTGTGTCATGATTGCGCCAAGCTCTTTGCTAAAGGAAACTTCTG CCCTCTCTGTGACAAATGTTATGATGATGATGACTATGAGAGTAAGATGATGCAATGTGGAAAGTGTGATCGCTGGGTCCATTCCAAATG TGAGAATCTTTCAGATGAGATGTATGAGATTCTATCTAATCTGCCAGAAAGTGTGGCCTACACTTGTGTGAACTGTACTGAGCGGCACCC TGCAGAGTGGCGACTGGCCCTTGAAAAAGAGCTGCAGATTTCTCTGAAGCAAGTTCTGACAGCTTTGTTGAATTCTCGGACTACCAGCCA TTTGCTACGCTACCGGCAGGCTGCCAAGCCTCCAGACTTAAATCCCGAGACAGAGGAGAGTATACCTTCCCGCAGCTCCCCCGAAGGACC TGATCCACCAGTTCTTACTGAGGTCAGCAAACAGGATGATCAGCAGCCTTTAGATCTAGAAGGAGTCAAGAGGAAGATGGACCAAGGGAA TTACACATCTGTGTTGGAGTTCAGTGATGATATTGTGAAGATCATTCAAGCAGCCATTAATTCAGATGGAGGACAGCCAGAAATTAAAAA AGCCAACAGCATGGTCAAGTCCTTCTTCATTCGGCAAATGGAACGTGTTTTTCCATGGTTCAGTGTCAAAAAGTCCAGGTTTTGGGAGCC AAATAAAGTATCAAGCAACAGTGGGATGTTACCAAACGCAGTGCTTCCACCTTCACTTGACCATAATTATGCTCAGTGGCAGGAGCGAGA GGAAAACAGCCACACTGAGCAGCCTCCTTTAATGAAGAAAATCATTCCAGCTCCCAAACCCAAAGGTCCTGGAGAACCAGACTCACCAAC TCCTCTGCATCCTCCTACACCACCAATTTTGAGTACTGATAGGAGTCGAGAAGACAGTCCAGAGCTGAACCCACCCCCAGGCATAGAAGA CAATAGACAGTGTGCGTTATGTTTGACTTATGGTGATGACAGTGCTAATGATGCTGGTCGTTTACTATATATTGGCCAAAATGAGTGGAC ACATGTAAATTGTGCTTTGTGGTCAGCGGAAGTGTTTGAAGATGATGACGGATCACTAAAGAATGTGCATATGGCTGTGATCAGGGGCAA GCAGCTGAGATGTGAATTCTGCCAAAAGCCAGGAGCCACCGTGGGTTGCTGTCTCACATCCTGCACCAGCAACTATCACTTCATGTGTTC CCGAGCCAAGAACTGTGTCTTTCTGGATGATAAAAAAGTATATTGCCAACGACATCGGGATTTGATCAAAGGCGAAGTGGTTCCTGAGAA TGGATTTGAAGTTTTCAGAAGAGTGTTTGTGGACTTTGAAGGAATCAGCTTGAGAAGGAAGTTTCTCAATGGCTTGGAACCAGAAAATAT CCACATGATGATTGGGTCTATGACAATCGACTGCTTAGGAATTCTAAATGATCTCTCCGACTGTGAAGATAAGCTCTTTCCTATTGGATA TCAGTGTTCCAGGGTATACTGGAGCACCACAGATGCTCGCAAGCGCTGTGTATATACATGCAAGATAGTGGAGTGCCGTCCTCCAGTCGT AGAGCCGGATATCAACAGCACTGTTGAACATGATGAAAACAGGACCATTGCCCATAGTCCAACATCTTTTACAGAAAGTTCATCAAAAGA GAGTCAAAACACAGCTGAAATTATAAGTCCTCCATCACCAGACCGACCTCCTCATTCACAAACCTCTGGCTCCTGTTATTATCATGTCAT CTCAAAGGTCCCCAGGATTCGAACACCCAGTTATTCTCCAACACAGAGATCCCCTGGCTGTCGACCGTTGCCTTCTGCAGGAAGTCCTAC CCCAACCACTCATGAAATAGTCACAGTAGGTGATCCTTTACTCTCCTCTGGACTTCGAAGCATTGGCTCCAGGCGTCACAGTACCTCTTC CTTATCACCCCAGCGGTCCAAACTCCGGATAATGTCTCCAATGAGAACTGGGAATACTTACTCTAGGAATAATGTTTCCTCAGTCTCCAC CACCGGGACCGCTACTGATCTTGAATCAAGTGCCAAAGTAGTTGATCATGTCTTAGGGCCACTGAATTCAAGTACTAGTTTAGGGCAAAA CACTTCCACCTCTTCAAATTTGCAAAGGACAGTGGTTACTGTAGGCAATAAAAACAGTCACTTGGATGGATCTTCATCTTCAGAAATGAA GCAGTCCAGTGCTTCAGACTTGGTGTCCAAGAGCTCCTCTTTAAAGGGAGAGAAGACCAAAGTGCTGAGTTCCAAGAGCTCAGAGGGATC TGCACATAATGTGGCTTACCCTGGAATTCCTAAACTGGCCCCACAGGTTCATAACACAACATCTAGAGAACTGAATGTTAGTAAAATCGG CTCCTTTGCTGAACCCTCTTCAGTGTCGTTTTCTTCTAAAGAGGCCCTCTCCTTCCCACACCTCCATTTGAGAGGGCAAAGGAATGATCG AGACCAACACACAGATTCTACCCAATCAGCAAACTCCTCTCCAGATGAAGATACTGAAGTCAAAACCTTGAAGCTATCTGGAATGAGCAA CAGATCATCCATTATCAACGAACATATGGGATCTAGTTCCAGAGATAGGAGACAGAAAGGGAAAAAATCCTGTAAAGAAACTTTCAAAGA AAAGCATTCCAGTAAATCTTTTTTGGAACCTGGTCAGGTGACAACTGGTGAGGAAGGAAACTTGAAGCCAGAGTTTATGGATGAGGTTTT GACTCCTGAGTATATGGGCCAACGACCATGTAACAATGTTTCTTCTGATAAGATTGGTGATAAAGGCCTTTCTATGCCAGGAGTCCCCAA AGCTCCACCCATGCAAGTAGAAGGATCTGCCAAGGAATTACAGGCACCACGGAAACGCACAGTCAAAGTGACACTGACACCTCTAAAAAT GGAAAATGAGAGTCAATCCAAAAATGCCCTGAAAGAAAGTAGTCCTGCTTCCCCTTTGCAAATAGAGTCAACATCTCCCACAGAACCAAT TTCAGCCTCTGAAAATCCAGGAGATGGTCCAGTGGCCCAACCAAGCCCCAATAATACCTCATGCCAGGATTCTCAAAGTAACAACTATCA GAATCTTCCAGTACAGGACAGAAACCTAATGCTTCCAGATGGCCCCAAACCTCAGGAGGATGGCTCTTTTAAAAGGAGGTATCCCCGTCG CAGTGCCCGTGCACGTTCTAACATGTTTTTTGGGCTTACCCCACTCTATGGAGTAAGATCCTATGGTGAAGAAGACATTCCATTCTACAG CAGCTCAACTGGGAAGAAGCGAGGCAAGAGATCAGCTGAAGGACAGGTGGATGGGGCCGATGACTTAAGCACTTCAGATGAAGACGACTT ATACTATTACAACTTCACTAGAACAGTGATTTCTTCAGGTGGAGAGGAACGACTGGCATCCCATAATTTATTTCGGGAGGAGGAACAGTG TGATCTTCCAAAAATCTCACAGTTGGATGGTGTTGATGATGGGACAGAGAGTGATACTAGTGTCACAGCCACAACAAGGAAAAGCAGCCA GATTCCAAAAAGAAATGGTAAAGAAAATGGAACAGAGAACTTAAAGATTGATAGACCTGAAGATGCTGGGGAGAAAGAACATGTCACTAA GAGTTCTGTTGGCCACAAAAATGAGCCAAAGATGGATAACTGCCATTCTGTAAGCAGAGTTAAAACACAGGGACAAGATTCCTTGGAAGC TCAGCTCAGCTCATTGGAGTCAAGCCGCAGAGTCCACACAAGTACCCCCTCCGACAAAAATTTACTGGACACCTATAATACTGAGCTCCT GAAATCAGATTCAGACAATAACAACAGTGATGACTGTGGGAATATCCTGCCTTCAGACATTATGGACTTTGTACTAAAGAATACTCCATC CATGCAGGCTTTGGGTGAGAGCCCAGAGTCATCTTCATCAGAACTCCTGAATCTTGGTGAAGGATTGGGTCTTGACAGTAATCGTGAAAA AGACATGGGTCTTTTTGAAGTATTTTCTCAGCAGCTGCCTACAACAGAACCTGTGGATAGTAGTGTCTCTTCCTCTATCTCAGCAGAGGA ACAGTTTGAGTTGCCTCTAGAGCTACCATCTGATCTGTCTGTCTTGACCACCCGGAGTCCCACTGTCCCCAGCCAGAATCCCAGTAGACT AGCTGTTATCTCAGACTCAGGGGAGAAGAGAGTAACCATCACAGAAAAATCTGTAGCCTCCTCTGAAAGTGACCCAGCACTGCTGAGCCC AGGAGTAGATCCAACTCCTGAAGGCCACATGACTCCTGATCATTTTATCCAAGGACACATGGATGCAGACCACATCTCTAGCCCTCCTTG TGGTTCAGTAGAGCAAGGTCATGGCAACAATCAGGATTTAACTAGGAACAGTAGCACCCCTGGCCTTCAGGTACCTGTTTCCCCAACTGT TCCCATCCAGAACCAGAAGTATGTGCCCAATTCTACTGATAGTCCTGGCCCGTCTCAGATTTCCAATGCAGCTGTCCAGACCACTCCACC CCACCTGAAGCCAGCCACTGAGAAACTCATAGTTGTTAACCAGAACATGCAGCCACTTTATGTTCTCCAAACTCTTCCAAATGGAGTGAC CCAAAAAATCCAATTGACCTCTTCTGTTAGTTCTACACCCAGTGTGATGGAGACAAATACTTCAGTATTGGGACCCATGGGAGGTGGTCT CACCCTTACCACAGGACTAAATCCAAGCTTGCCAACTTCTCAATCTTTGTTCCCTTCTGCTAGCAAAGGATTGCTACCCATGTCTCATCA CCAGCACTTACATTCCTTCCCTGCAGCTACTCAAAGTAGTTTCCCACCAAACATCAGCAATCCTCCTTCAGGCCTGCTTATTGGGGTTCA GCCTCCTCCGGATCCCCAACTTTTGGTTTCAGAATCCAGCCAGAGGACAGACCTCAGTACCACAGTAGCCACTCCATCCTCTGGACTCAA GAAAAGACCCATATCTCGTCTACAGACCCGAAAGAATAAAAAACTTGCTCCCTCTAGTACCCCTTCAAACATTGCCCCTTCTGATGTGGT TTCTAATATGACATTGATTAACTTCACACCCTCCCAGCTTCCTAATCATCCAAGTCTGTTAGATTTGGGGTCACTTAATACTTCATCTCA CCGAACTGTCCCCAACATCATAAAAAGATCTAAATCTAGCATCATGTATTTTGAACCGGCACCCCTGTTACCACAGAGTGTGGGAGGAAC TGCTGCCACAGCGGCAGGCACATCAACAATAAGCCAGGATACTAGCCACCTCACATCAGGGTCTGTGTCTGGCTTGGCATCCAGTTCCTC TGTCTTGAATGTTGTATCCATGCAAACTACCACAACCCCTACAAGTAGTGCGTCAGTTCCAGGACACGTCACCTTAACCAACCCAAGGTT GCTTGGTACCCCAGATATTGGCTCAATAAGCAATCTTTTAATCAAAGCTAGCCAGCAGAGCCTGGGGATTCAGGACCAGCCTGTGGCTTT ACCGCCAAGTTCAGGAATGTTTCCACAACTGGGGACATCACAGACCCCCTCTACTGCTGCAATAACAGCGGCATCTAGCATCTGTGTGCT CCCCTCCACTCAGACTACGGGCATAACAGCCGCTTCACCTTCTGGGGAAGCAGACGAACACTATCAGCTTCAGCATGTGAACCAGCTCCT TGCCAGCAAAACTGGGATTCATTCTTCCCAGCGTGATCTTGATTCTGCTTCAGGGCCCCAGGTATCCAACTTTACCCAGACGGTAGACGC TCCTAATAGCATGGGACTGGAGCAGAACAAGGCTTTATCCTCAGCTGTGCAAGCCAGCCCCACCTCTCCTGGGGGTTCTCCATCCTCTCC ATCTTCTGGACAGCGGTCAGCAAGCCCTTCAGTGCCGGGTCCCACTAAACCCAAACCAAAAACCAAACGGTTTCAGCTGCCTCTAGACAA AGGGAATGGCAAGAAGCACAAAGTTTCCCATTTGCGGACCAGTTCTTCTGAAGCACACATTCCAGACCAAGAAACGACATCCCTGACCTC AGGCACAGGGACTCCAGGAGCAGAGGCTGAGCAGCAGGATACAGCTAGCGTGGAGCAGTCCTCCCAGAAGGAGTGTGGGCAACCTGCAGG GCAAGTCGCTGTTCTTCCGGAAGTTCAGGTGACCCAAAATCCAGCAAATGAACAAGAAAGTGCAGAACCTAAAACAGTGGAAGAAGAGGA AAGTAATTTCAGCTCCCCACTGATGCTTTGGCTTCAGCAAGAACAAAAGCGGAAGGAAAGCATTACTGAGAAAAAACCCAAGAAAGGACT TGTTTTTGAAATTTCCAGTGATGATGGCTTTCAGATCTGTGCAGAAAGTATTGAAGATGCCTGGAAGTCATTGACAGATAAAGTCCAGGA AGCTCGATCAAATGCCCGCCTAAAGCAGCTCTCATTTGCAGGTGTTAACGGTTTGAGGATGCTGGGGATTCTCCATGATGCAGTTGTGTT CCTCATTGAGCAGCTGTCTGGTGCCAAGCACTGTCGAAATTACAAATTCCGTTTCCACAAGCCAGAGGAGGCCAATGAACCCCCCTTGAA CCCTCACGGCTCAGCCAGGGCTGAAGTCCACCTCAGGAAGTCAGCATTTGACATGTTTAACTTCCTGGCTTCTAAACATCGTCAGCCTCC TGAATACAACCCCAATGATGAAGAAGAGGAGGAGGTACAGCTGAAGTCAGCTCGGAGGGCAACTAGCATGGATCTGCCAATGCCCATGCG CTTCCGGCACTTAAAAAAGACTTCTAAGGAGGCAGTTGGTGTCTACAGGTCTCCCATCCATGGCCGGGGTCTTTTCTGTAAGAGAAACAT TGATGCAGGTGAGATGGTGATTGAGTATGCCGGCAACGTCATCCGCTCCATCCAGACTGACAAGCGGGAAAAGTATTACGACAGCAAGGG CATTGGTTGCTATATGTTCCGAATTGATGACTCAGAGGTAGTGGATGCCACCATGCATGGAAATGCTGCACGCTTCATCAATCACTCGTG TGAGCCTAACTGCTATTCTCGGGTCATCAATATTGATGGGCAGAAGCACATTGTCATCTTTGCCATGCGTAAGATCTACCGAGGAGAGGA ACTCACTTACGACTATAAGTTCCCCATTGAGGATGCCAGCAACAAGCTGCCCTGCAACTGTGGCGCCAAGAAATGCCGGAAGTTCCTAAA CTAAAGCTGCTCTTCTCCCCCAGTGTTGGAGTGCAAGGAGGCGGGGCCATCCAAAGCAACGCTGAAGGCCTTTTCCAGCAGCTGGGAGCT CCCGGATTGCGTGGCACAGCTGAGGGGCCTCTGTGATGGCTGAGCTCTCTTATGTCCTATACTCACATCAGACATGTGATCATAGTCCCA GAGACAGAGTTGAGGTCTCGAAGAAAAGATCCATGATCGGCTTTCTCCTGGGGCCCCTCCAATTGTTTACTGTTAGAAAGTGGGAATGGG GTCCCTAGCAGACTTGCCTGGAAGGAGCCTATTATAGAGGGTTGGTTATGTTGGGAGATTGGGCCTGAATTTCTCCACAGAAATAAGTTG CCATCCTCAGGTTGGCCCTTTCCCAAGCACTGTAAGTGAGTGGGTCAGGCAAAGCCCCAAATGGAGGGTTGGTTAGATTCCTGACAGTTT GCCAGCCAGGCCCCACCTACAGCGTCTGTCGAACAAACAGAGGTCTGGTGGTTTTCCCTACTATCCTCCCACTCGAGAGTTCACTTCTGG TTGGGAGACAGGATTCCTAGCACCTCCGGTGTCAAAAGGCTGTCATGGGGTTGTGCCAATTAATTACCAAACATTGAGCCTGCAGGCTTT GAGTGGGAGTGTTGCCCCCAGGAGCCTTATCTCAGCCAATTACCTTTCTTGACAGTAGGAGCGGCTTCCCTCTCCCATTCCCTCTTCACT CCCTTTTCTTCCTTTCCCCTGTCTTCATGCCACTGCTTTCCCATGCTTCTTTCGGGTTGTAGGGGAGACTGACTGCCTGCTCAAGGACAC TCCCTGCTGGGCATAGGATGTGCCTGCAAAAAGTTCCCTGAGCCTGTAAGCACTCCAGGTGGGGAAGTGGACAGGAGCCATTGGTCATAA CCAGACAGAATTTGGAAACATTTTCATAAAGCTCCATGGAGAGTTTTAAAGAAACATATGTAGCATGATTTTGTAGGAGAGGAAAAAGAT TATTTAAATAGGATTTAAATCATGCAACAACGAGAGTATCACAGCCAGGATGACCCTTGGGTCCCATTCCTAAGACATGGTTACTTTATT TTCCCCTTGTTAAGACATAGGAAGACTTAATTTTTAAACGGTCAGTGTCCAGTTGAAGGCAGAACACTAATCAGATTTCAAGGCCCACAA CTTGGGGACTAGACCACCTTATGTTGAGGGAACTCTGCCACCTGCGTGCAACCCACAGCTAAAGTAAATTCAATGACACTACTGCCCTGA TTACTCCTTAGGATGTGGTCAAAACAGCATCAAATGTTTCTTCTCTTCCTTTCCCCAAGACAGAGTCCTGAACCTGTTAAATTAAGTCAT TGGATTTTACTCTGTTCTGTTTACAGTTTACTATTTAAGGTTTTATAAATGTAAATATATTTTGTATATTTTTCTATGAGAAGCACTTCA TAGGGAGAAGCACTTATGACAAGGCTATTTTTTAAACCGCGGTATTATCCTAATTTAAAAGAAGATCGGTTTTTAATAATTTTTTATTTT CATAGGATGAAGTTAGAGAAAATATTCAGCTGTACACACAAAGTCTGGTTTTTCCTGCCCAACTTCCCCCTGGAAGGTGTACTTTTTGTT GTTTAATGTGTAGCTTGTTTGTGCCCTGTTGACATAAATGTTTCCTGGGTTTGCTCTTTGACAATAAATGGAGAAGGAAGGTCACCCAAC >In-frame_ENST00000424848_ENST00000389506_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(amino acids)=2599AA_start in transcript=484_stop in transcript=8283 MEKDGLCRADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDR ETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKQLLECNKCRNSYHPECLGPNYPTKPTKKKKVWICTKCVRCKSCGSTTPGKGWDAQWS HDFSLCHDCAKLFAKGNFCPLCDKCYDDDDYESKMMQCGKCDRWVHSKCENLSDEMYEILSNLPESVAYTCVNCTERHPAEWRLALEKEL QISLKQVLTALLNSRTTSHLLRYRQAAKPPDLNPETEESIPSRSSPEGPDPPVLTEVSKQDDQQPLDLEGVKRKMDQGNYTSVLEFSDDI VKIIQAAINSDGGQPEIKKANSMVKSFFIRQMERVFPWFSVKKSRFWEPNKVSSNSGMLPNAVLPPSLDHNYAQWQEREENSHTEQPPLM KKIIPAPKPKGPGEPDSPTPLHPPTPPILSTDRSREDSPELNPPPGIEDNRQCALCLTYGDDSANDAGRLLYIGQNEWTHVNCALWSAEV FEDDDGSLKNVHMAVIRGKQLRCEFCQKPGATVGCCLTSCTSNYHFMCSRAKNCVFLDDKKVYCQRHRDLIKGEVVPENGFEVFRRVFVD FEGISLRRKFLNGLEPENIHMMIGSMTIDCLGILNDLSDCEDKLFPIGYQCSRVYWSTTDARKRCVYTCKIVECRPPVVEPDINSTVEHD ENRTIAHSPTSFTESSSKESQNTAEIISPPSPDRPPHSQTSGSCYYHVISKVPRIRTPSYSPTQRSPGCRPLPSAGSPTPTTHEIVTVGD PLLSSGLRSIGSRRHSTSSLSPQRSKLRIMSPMRTGNTYSRNNVSSVSTTGTATDLESSAKVVDHVLGPLNSSTSLGQNTSTSSNLQRTV VTVGNKNSHLDGSSSSEMKQSSASDLVSKSSSLKGEKTKVLSSKSSEGSAHNVAYPGIPKLAPQVHNTTSRELNVSKIGSFAEPSSVSFS SKEALSFPHLHLRGQRNDRDQHTDSTQSANSSPDEDTEVKTLKLSGMSNRSSIINEHMGSSSRDRRQKGKKSCKETFKEKHSSKSFLEPG QVTTGEEGNLKPEFMDEVLTPEYMGQRPCNNVSSDKIGDKGLSMPGVPKAPPMQVEGSAKELQAPRKRTVKVTLTPLKMENESQSKNALK ESSPASPLQIESTSPTEPISASENPGDGPVAQPSPNNTSCQDSQSNNYQNLPVQDRNLMLPDGPKPQEDGSFKRRYPRRSARARSNMFFG LTPLYGVRSYGEEDIPFYSSSTGKKRGKRSAEGQVDGADDLSTSDEDDLYYYNFTRTVISSGGEERLASHNLFREEEQCDLPKISQLDGV DDGTESDTSVTATTRKSSQIPKRNGKENGTENLKIDRPEDAGEKEHVTKSSVGHKNEPKMDNCHSVSRVKTQGQDSLEAQLSSLESSRRV HTSTPSDKNLLDTYNTELLKSDSDNNNSDDCGNILPSDIMDFVLKNTPSMQALGESPESSSSELLNLGEGLGLDSNREKDMGLFEVFSQQ LPTTEPVDSSVSSSISAEEQFELPLELPSDLSVLTTRSPTVPSQNPSRLAVISDSGEKRVTITEKSVASSESDPALLSPGVDPTPEGHMT PDHFIQGHMDADHISSPPCGSVEQGHGNNQDLTRNSSTPGLQVPVSPTVPIQNQKYVPNSTDSPGPSQISNAAVQTTPPHLKPATEKLIV VNQNMQPLYVLQTLPNGVTQKIQLTSSVSSTPSVMETNTSVLGPMGGGLTLTTGLNPSLPTSQSLFPSASKGLLPMSHHQHLHSFPAATQ SSFPPNISNPPSGLLIGVQPPPDPQLLVSESSQRTDLSTTVATPSSGLKKRPISRLQTRKNKKLAPSSTPSNIAPSDVVSNMTLINFTPS QLPNHPSLLDLGSLNTSSHRTVPNIIKRSKSSIMYFEPAPLLPQSVGGTAATAAGTSTISQDTSHLTSGSVSGLASSSSVLNVVSMQTTT TPTSSASVPGHVTLTNPRLLGTPDIGSISNLLIKASQQSLGIQDQPVALPPSSGMFPQLGTSQTPSTAAITAASSICVLPSTQTTGITAA SPSGEADEHYQLQHVNQLLASKTGIHSSQRDLDSASGPQVSNFTQTVDAPNSMGLEQNKALSSAVQASPTSPGGSPSSPSSGQRSASPSV PGPTKPKPKTKRFQLPLDKGNGKKHKVSHLRTSSSEAHIPDQETTSLTSGTGTPGAEAEQQDTASVEQSSQKECGQPAGQVAVLPEVQVT QNPANEQESAEPKTVEEEESNFSSPLMLWLQQEQKRKESITEKKPKKGLVFEISSDDGFQICAESIEDAWKSLTDKVQEARSNARLKQLS FAGVNGLRMLGILHDAVVFLIEQLSGAKHCRNYKFRFHKPEEANEPPLNPHGSARAEVHLRKSAFDMFNFLASKHRQPPEYNPNDEEEEE VQLKSARRATSMDLPMPMRFRHLKKTSKEAVGVYRSPIHGRGLFCKRNIDAGEMVIEYAGNVIRSIQTDKREKYYDSKGIGCYMFRIDDS -------------------------------------------------------------- >In-frame_ENST00000424848_ENST00000354520_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(transcript)=10808nt_BP=853nt GCTGGTAACTCCTTCCCCAGAGTCTGATTACCTGCTCCGCGAGGCCGCGGACACGTGCGGAGAGCCGACTGACACTCGCAGCCCCCTCGG GAGGCCCGACGCGACTGGGCCCCTCAGGTGCAATGATTCTGGACTGAGACGCGCTTGGGCAGAGGCTATGTAATCGTGTCTGTGTTGAGG ACTTCGCTTCGAGGAGGGAAGAGGAGGGATCGGCTCGCTCCTCCGGCGGCGGCGGCGGCGGCGACTCTGCAGGCGGAGTTTCGCGGCGGC GGCACCAGGGTTACGCCAGCCCCGCGGGGAGGTCTCTCCATCCAGCTTCTGCAGCGGCGAAAGCCCCAGCGCCCGAGCGCCTGAGCCGGC GGGGAGCAAGTAAAGCTAGACCGATCTCCGGGGAGCCCCGGAGTAGGCGAGCGGCGGCCGCCAGCTAGTTGAGCGCACCCCCCGCCCGCC CCAGCGGCGCCGCGGCGGGCGGCGTCCAGGCGGCATGGAGAAGGACGGCCTGTGCCGCGCTGACCAGCAGTACGAATGCGTGGCGGAGAT CGGGGAGGGCGCCTATGGGAAGGTGTTCAAGGCCCGCGACTTGAAGAACGGAGGCCGTTTCGTGGCGTTGAAGCGCGTGCGGGTGCAGAC CGGCGAGGAGGGCATGCCGCTCTCCACCATCCGCGAGGTGGCGGTGCTGAGGCACCTGGAGACCTTCGAGCACCCCAACGTGGTCAGGTT GTTTGATGTGTGCACAGTGTCACGAACAGACAGAGAAACCAAACTAACTTTAGTGTTTGAACATGTCGATCAAGACTTGACCACTTACTT GGATAAAGTTCCAGAGCCTGGAGTGCCCACTGAAACCATAAAGCAGCTGCTGGAGTGTAATAAGTGCCGAAACAGCTATCACCCTGAGTG CCTGGGACCAAACTACCCCACCAAACCCACAAAGAAGAAGAAAGTCTGGATCTGTACCAAGTGTGTTCGCTGTAAGAGCTGTGGATCCAC AACTCCAGGCAAAGGGTGGGATGCACAGTGGTCTCATGATTTCTCACTGTGTCATGATTGCGCCAAGCTCTTTGCTAAAGGAAACTTCTG CCCTCTCTGTGACAAATGTTATGATGATGATGACTATGAGAGTAAGATGATGCAATGTGGAAAGTGTGATCGCTGGGTCCATTCCAAATG TGAGAATCTTTCAGATGAGATGTATGAGATTCTATCTAATCTGCCAGAAAGTGTGGCCTACACTTGTGTGAACTGTACTGAGCGGCACCC TGCAGAGTGGCGACTGGCCCTTGAAAAAGAGCTGCAGATTTCTCTGAAGCAAGTTCTGACAGCTTTGTTGAATTCTCGGACTACCAGCCA TTTGCTACGCTACCGGCAGGCTGCCAAGCCTCCAGACTTAAATCCCGAGACAGAGGAGAGTATACCTTCCCGCAGCTCCCCCGAAGGACC TGATCCACCAGTTCTTACTGAGGTCAGCAAACAGGATGATCAGCAGCCTTTAGATCTAGAAGGAGTCAAGAGGAAGATGGACCAAGGGAA TTACACATCTGTGTTGGAGTTCAGTGATGATATTGTGAAGATCATTCAAGCAGCCATTAATTCAGATGGAGGACAGCCAGAAATTAAAAA AGCCAACAGCATGGTCAAGTCCTTCTTCATTCGGCAAATGGAACGTGTTTTTCCATGGTTCAGTGTCAAAAAGTCCAGGTTTTGGGAGCC AAATAAAGTATCAAGCAACAGTGGGATGTTACCAAACGCAGTGCTTCCACCTTCACTTGACCATAATTATGCTCAGTGGCAGGAGCGAGA GGAAAACAGCCACACTGAGCAGCCTCCTTTAATGAAGAAAATCATTCCAGCTCCCAAACCCAAAGGTCCTGGAGAACCAGACTCACCAAC TCCTCTGCATCCTCCTACACCACCAATTTTGAGTACTGATAGGAGTCGAGAAGACAGTCCAGAGCTGAACCCACCCCCAGGCATAGAAGA CAATAGACAGTGTGCGTTATGTTTGACTTATGGTGATGACAGTGCTAATGATGCTGGTCGTTTACTATATATTGGCCAAAATGAGTGGAC ACATGTAAATTGTGCTTTGTGGTCAGCGGAAGTGTTTGAAGATGATGACGGATCACTAAAGAATGTGCATATGGCTGTGATCAGGGGCAA GCAGCTGAGATGTGAATTCTGCCAAAAGCCAGGAGCCACCGTGGGTTGCTGTCTCACATCCTGCACCAGCAACTATCACTTCATGTGTTC CCGAGCCAAGAACTGTGTCTTTCTGGATGATAAAAAAGTATATTGCCAACGACATCGGGATTTGATCAAAGGCGAAGTGGTTCCTGAGAA TGGATTTGAAGTTTTCAGAAGAGTGTTTGTGGACTTTGAAGGAATCAGCTTGAGAAGGAAGTTTCTCAATGGCTTGGAACCAGAAAATAT CCACATGATGATTGGGTCTATGACAATCGACTGCTTAGGAATTCTAAATGATCTCTCCGACTGTGAAGATAAGCTCTTTCCTATTGGATA TCAGTGTTCCAGGGTATACTGGAGCACCACAGATGCTCGCAAGCGCTGTGTATATACATGCAAGATAGTGGAGTGCCGTCCTCCAGTCGT AGAGCCGGATATCAACAGCACTGTTGAACATGATGAAAACAGGACCATTGCCCATAGTCCAACATCTTTTACAGAAAGTTCATCAAAAGA GAGTCAAAACACAGCTGAAATTATAAGTCCTCCATCACCAGACCGACCTCCTCATTCACAAACCTCTGGCTCCTGTTATTATCATGTCAT CTCAAAGGTCCCCAGGATTCGAACACCCAGTTATTCTCCAACACAGAGATCCCCTGGCTGTCGACCGTTGCCTTCTGCAGGAAGTCCTAC CCCAACCACTCATGAAATAGTCACAGTAGGTGATCCTTTACTCTCCTCTGGACTTCGAAGCATTGGCTCCAGGCGTCACAGTACCTCTTC CTTATCACCCCAGCGGTCCAAACTCCGGATAATGTCTCCAATGAGAACTGGGAATACTTACTCTAGGAATAATGTTTCCTCAGTCTCCAC CACCGGGACCGCTACTGATCTTGAATCAAGTGCCAAAGTAGTTGATCATGTCTTAGGGCCACTGAATTCAAGTACTAGTTTAGGGCAAAA CACTTCCACCTCTTCAAATTTGCAAAGGACAGTGGTTACTGTAGGCAATAAAAACAGTCACTTGGATGGATCTTCATCTTCAGAAATGAA GCAGTCCAGTGCTTCAGACTTGGTGTCCAAGAGCTCCTCTTTAAAGGGAGAGAAGACCAAAGTGCTGAGTTCCAAGAGCTCAGAGGGATC TGCACATAATGTGGCTTACCCTGGAATTCCTAAACTGGCCCCACAGGTTCATAACACAACATCTAGAGAACTGAATGTTAGTAAAATCGG CTCCTTTGCTGAACCCTCTTCAGTGTCGTTTTCTTCTAAAGAGGCCCTCTCCTTCCCACACCTCCATTTGAGAGGGCAAAGGAATGATCG AGACCAACACACAGATTCTACCCAATCAGCAAACTCCTCTCCAGATGAAGATACTGAAGTCAAAACCTTGAAGCTATCTGGAATGAGCAA CAGATCATCCATTATCAACGAACATATGGGATCTAGTTCCAGAGATAGGAGACAGAAAGGGAAAAAATCCTGTAAAGAAACTTTCAAAGA AAAGCATTCCAGTAAATCTTTTTTGGAACCTGGTCAGGTGACAACTGGTGAGGAAGGAAACTTGAAGCCAGAGTTTATGGATGAGGTTTT GACTCCTGAGTATATGGGCCAACGACCATGTAACAATGTTTCTTCTGATAAGATTGGTGATAAAGGCCTTTCTATGCCAGGAGTCCCCAA AGCTCCACCCATGCAAGTAGAAGGATCTGCCAAGGAATTACAGGCACCACGGAAACGCACAGTCAAAGTGACACTGACACCTCTAAAAAT GGAAAATGAGAGTCAATCCAAAAATGCCCTGAAAGAAAGTAGTCCTGCTTCCCCTTTGCAAATAGAGTCAACATCTCCCACAGAACCAAT TTCAGCCTCTGAAAATCCAGGAGATGGTCCAGTGGCCCAACCAAGCCCCAATAATACCTCATGCCAGGATTCTCAAAGTAACAACTATCA GAATCTTCCAGTACAGGACAGAAACCTAATGCTTCCAGATGGCCCCAAACCTCAGGAGGATGGCTCTTTTAAAAGGAGGTATCCCCGTCG CAGTGCCCGTGCACGTTCTAACATGTTTTTTGGGCTTACCCCACTCTATGGAGTAAGATCCTATGGTGAAGAAGACATTCCATTCTACAG CAGCTCAACTGGGAAGAAGCGAGGCAAGAGATCAGCTGAAGGACAGGTGGATGGGGCCGATGACTTAAGCACTTCAGATGAAGACGACTT ATACTATTACAACTTCACTAGAACAGTGATTTCTTCAGGTGGAGAGGAACGACTGGCATCCCATAATTTATTTCGGGAGGAGGAACAGTG TGATCTTCCAAAAATCTCACAGTTGGATGGTGTTGATGATGGGACAGAGAGTGATACTAGTGTCACAGCCACAACAAGGAAAAGCAGCCA GATTCCAAAAAGAAATGGTAAAGAAAATGGAACAGAGAACTTAAAGATTGATAGACCTGAAGATGCTGGGGAGAAAGAACATGTCACTAA GAGTTCTGTTGGCCACAAAAATGAGCCAAAGATGGATAACTGCCATTCTGTAAGCAGAGTTAAAACACAGGGACAAGATTCCTTGGAAGC TCAGCTCAGCTCATTGGAGTCAAGCCGCAGAGTCCACACAAGTACCCCCTCCGACAAAAATTTACTGGACACCTATAATACTGAGCTCCT GAAATCAGATTCAGACAATAACAACAGTGATGACTGTGGGAATATCCTGCCTTCAGACATTATGGACTTTGTACTAAAGAATACTCCATC CATGCAGGCTTTGGGTGAGAGCCCAGAGTCATCTTCATCAGAACTCCTGAATCTTGGTGAAGGATTGGGTCTTGACAGTAATCGTGAAAA AGACATGGGTCTTTTTGAAGTATTTTCTCAGCAGCTGCCTACAACAGAACCTGTGGATAGTAGTGTCTCTTCCTCTATCTCAGCAGAGGA ACAGTTTGAGTTGCCTCTAGAGCTACCATCTGATCTGTCTGTCTTGACCACCCGGAGTCCCACTGTCCCCAGCCAGAATCCCAGTAGACT AGCTGTTATCTCAGACTCAGGGGAGAAGAGAGTAACCATCACAGAAAAATCTGTAGCCTCCTCTGAAAGTGACCCAGCACTGCTGAGCCC AGGAGTAGATCCAACTCCTGAAGGCCACATGACTCCTGATCATTTTATCCAAGGACACATGGATGCAGACCACATCTCTAGCCCTCCTTG TGGTTCAGTAGAGCAAGGTCATGGCAACAATCAGGATTTAACTAGGAACAGTAGCACCCCTGGCCTTCAGGTACCTGTTTCCCCAACTGT TCCCATCCAGAACCAGAAGTATGTGCCCAATTCTACTGATAGTCCTGGCCCGTCTCAGATTTCCAATGCAGCTGTCCAGACCACTCCACC CCACCTGAAGCCAGCCACTGAGAAACTCATAGTTGTTAACCAGAACATGCAGCCACTTTATGTTCTCCAAACTCTTCCAAATGGAGTGAC CCAAAAAATCCAATTGACCTCTTCTGTTAGTTCTACACCCAGTGTGATGGAGACAAATACTTCAGTATTGGGACCCATGGGAGGTGGTCT CACCCTTACCACAGGACTAAATCCAAGCTTGCCAACTTCTCAATCTTTGTTCCCTTCTGCTAGCAAAGGATTGCTACCCATGTCTCATCA CCAGCACTTACATTCCTTCCCTGCAGCTACTCAAAGTAGTTTCCCACCAAACATCAGCAATCCTCCTTCAGGCCTGCTTATTGGGGTTCA GCCTCCTCCGGATCCCCAACTTTTGGTTTCAGAATCCAGCCAGAGGACAGACCTCAGTACCACAGTAGCCACTCCATCCTCTGGACTCAA GAAAAGACCCATATCTCGTCTACAGACCCGAAAGAATAAAAAACTTGCTCCCTCTAGTACCCCTTCAAACATTGCCCCTTCTGATGTGGT TTCTAATATGACATTGATTAACTTCACACCCTCCCAGCTTCCTAATCATCCAAGTCTGTTAGATTTGGGGTCACTTAATACTTCATCTCA CCGAACTGTCCCCAACATCATAAAAAGATCTAAATCTAGCATCATGTATTTTGAACCGGCACCCCTGTTACCACAGAGTGTGGGAGGAAC TGCTGCCACAGCGGCAGGCACATCAACAATAAGCCAGGATACTAGCCACCTCACATCAGGGTCTGTGTCTGGCTTGGCATCCAGTTCCTC TGTCTTGAATGTTGTATCCATGCAAACTACCACAACCCCTACAAGTAGTGCGTCAGTTCCAGGACACGTCACCTTAACCAACCCAAGGTT GCTTGGTACCCCAGATATTGGCTCAATAAGCAATCTTTTAATCAAAGCTAGCCAGCAGAGCCTGGGGATTCAGGACCAGCCTGTGGCTTT ACCGCCAAGTTCAGGAATGTTTCCACAACTGGGGACATCACAGACCCCCTCTACTGCTGCAATAACAGCGGCATCTAGCATCTGTGTGCT CCCCTCCACTCAGACTACGGGCATAACAGCCGCTTCACCTTCTGGGGAAGCAGACGAACACTATCAGCTTCAGCATGTGAACCAGCTCCT TGCCAGCAAAACTGGGATTCATTCTTCCCAGCGTGATCTTGATTCTGCTTCAGGGCCCCAGGTATCCAACTTTACCCAGACGGTAGACGC TCCTAATAGCATGGGACTGGAGCAGAACAAGGCTTTATCCTCAGCTGTGCAAGCCAGCCCCACCTCTCCTGGGGGTTCTCCATCCTCTCC ATCTTCTGGACAGCGGTCAGCAAGCCCTTCAGTGCCGGGTCCCACTAAACCCAAACCAAAAACCAAACGGTTTCAGCTGCCTCTAGACAA AGGGAATGGCAAGAAGCACAAAGTTTCCCATTTGCGGACCAGTTCTTCTGAAGCACACATTCCAGACCAAGAAACGACATCCCTGACCTC AGGCACAGGGACTCCAGGAGCAGAGGCTGAGCAGCAGGATACAGCTAGCGTGGAGCAGTCCTCCCAGAAGGAGTGTGGGCAACCTGCAGG GCAAGTCGCTGTTCTTCCGGAAGTTCAGGTGACCCAAAATCCAGCAAATGAACAAGAAAGTGCAGAACCTAAAACAGTGGAAGAAGAGGA AAGTAATTTCAGCTCCCCACTGATGCTTTGGCTTCAGCAAGAACAAAAGCGGAAGGAAAGCATTACTGAGAAAAAACCCAAGAAAGGACT TGTTTTTGAAATTTCCAGTGATGATGGCTTTCAGATCTGTGCAGAAAGTATTGAAGATGCCTGGAAGTCATTGACAGATAAAGTCCAGGA AGCTCGATCAAATGCCCGCCTAAAGCAGCTCTCATTTGCAGGTGTTAACGGTTTGAGGATGCTGGGGATTCTCCATGATGCAGTTGTGTT CCTCATTGAGCAGCTGTCTGGTGCCAAGCACTGTCGAAATTACAAATTCCGTTTCCACAAGCCAGAGGAGGCCAATGAACCCCCCTTGAA CCCTCACGGCTCAGCCAGGGCTGAAGTCCACCTCAGGAAGTCAGCATTTGACATGTTTAACTTCCTGGCTTCTAAACATCGTCAGCCTCC TGAATACAACCCCAATGATGAAGAAGAGGAGGAGGTACAGCTGAAGTCAGCTCGGAGGGCAACTAGCATGGATCTGCCAATGCCCATGCG CTTCCGGCACTTAAAAAAGACTTCTAAGGAGGCAGTTGGTGTCTACAGGTCTCCCATCCATGGCCGGGGTCTTTTCTGTAAGAGAAACAT TGATGCAGGTGAGATGGTGATTGAGTATGCCGGCAACGTCATCCGCTCCATCCAGACTGACAAGCGGGAAAAGTATTACGACAGCAAGGG CATTGGTTGCTATATGTTCCGAATTGATGACTCAGAGGTAGTGGATGCCACCATGCATGGAAATGCTGCACGCTTCATCAATCACTCGTG TGAGCCTAACTGCTATTCTCGGGTCATCAATATTGATGGGCAGAAGCACATTGTCATCTTTGCCATGCGTAAGATCTACCGAGGAGAGGA ACTCACTTACGACTATAAGTTCCCCATTGAGGATGCCAGCAACAAGCTGCCCTGCAACTGTGGCGCCAAGAAATGCCGGAAGTTCCTAAA CTAAAGCTGCTCTTCTCCCCCAGTGTTGGAGTGCAAGGAGGCGGGGCCATCCAAAGCAACGCTGAAGGCCTTTTCCAGCAGCTGGGAGCT CCCGGATTGCGTGGCACAGCTGAGGGGCCTCTGTGATGGCTGAGCTCTCTTATGTCCTATACTCACATCAGACATGTGATCATAGTCCCA GAGACAGAGTTGAGGTCTCGAAGAAAAGATCCATGATCGGCTTTCTCCTGGGGCCCCTCCAATTGTTTACTGTTAGAAAGTGGGAATGGG GTCCCTAGCAGACTTGCCTGGAAGGAGCCTATTATAGAGGGTTGGTTATGTTGGGAGATTGGGCCTGAATTTCTCCACAGAAATAAGTTG CCATCCTCAGGTTGGCCCTTTCCCAAGCACTGTAAGTGAGTGGGTCAGGCAAAGCCCCAAATGGAGGGTTGGTTAGATTCCTGACAGTTT GCCAGCCAGGCCCCACCTACAGCGTCTGTCGAACAAACAGAGGTCTGGTGGTTTTCCCTACTATCCTCCCACTCGAGAGTTCACTTCTGG TTGGGAGACAGGATTCCTAGCACCTCCGGTGTCAAAAGGCTGTCATGGGGTTGTGCCAATTAATTACCAAACATTGAGCCTGCAGGCTTT GAGTGGGAGTGTTGCCCCCAGGAGCCTTATCTCAGCCAATTACCTTTCTTGACAGTAGGAGCGGCTTCCCTCTCCCATTCCCTCTTCACT CCCTTTTCTTCCTTTCCCCTGTCTTCATGCCACTGCTTTCCCATGCTTCTTTCGGGTTGTAGGGGAGACTGACTGCCTGCTCAAGGACAC TCCCTGCTGGGCATAGGATGTGCCTGCAAAAAGTTCCCTGAGCCTGTAAGCACTCCAGGTGGGGAAGTGGACAGGAGCCATTGGTCATAA CCAGACAGAATTTGGAAACATTTTCATAAAGCTCCATGGAGAGTTTTAAAGAAACATATGTAGCATGATTTTGTAGGAGAGGAAAAAGAT TATTTAAATAGGATTTAAATCATGCAACAACGAGAGTATCACAGCCAGGATGACCCTTGGGTCCCATTCCTAAGACATGGTTACTTTATT TTCCCCTTGTTAAGACATAGGAAGACTTAATTTTTAAACGGTCAGTGTCCAGTTGAAGGCAGAACACTAATCAGATTTCAAGGCCCACAA CTTGGGGACTAGACCACCTTATGTTGAGGGAACTCTGCCACCTGCGTGCAACCCACAGCTAAAGTAAATTCAATGACACTACTGCCCTGA TTACTCCTTAGGATGTGGTCAAAACAGCATCAAATGTTTCTTCTCTTCCTTTCCCCAAGACAGAGTCCTGAACCTGTTAAATTAAGTCAT TGGATTTTACTCTGTTCTGTTTACAGTTTACTATTTAAGGTTTTATAAATGTAAATATATTTTGTATATTTTTCTATGAGAAGCACTTCA TAGGGAGAAGCACTTATGACAAGGCTATTTTTTAAACCGCGGTATTATCCTAATTTAAAAGAAGATCGGTTTTTAATAATTTTTTATTTT CATAGGATGAAGTTAGAGAAAATATTCAGCTGTACACACAAAGTCTGGTTTTTCCTGCCCAACTTCCCCCTGGAAGGTGTACTTTTTGTT GTTTAATGTGTAGCTTGTTTGTGCCCTGTTGACATAAATGTTTCCTGGGTTTGCTCTTTGACAATAAATGGAGAAGGAAGGTCACCCAAC TCCATTGGGCCACTCCCCTCCTTCCCCTATTGAAGCTCCTCAAAAGGCTACAGTAATATCTTGATACAACAGATTCTCTTCTTTCCCGCC TCTCTCCTTTCCGGCGCAACTTCCAGAGTGGTGGGAGACGGCAATCTTTACATTTCCCTCATCTTTCTTACTTCAGAGTTAGCAAACAAC AAGTTGAATGGCAACTTGACATTTTTGCATCACCATCTGCCTCATAGGCCACTCTTTCCTTTCCCTCTGCCCACCAAGTCCTCATATCTG CAGAGAACCCATTGATCACCTTGTGCCCTCTTTTGGGGCAGCCTGTTGAAACTGAAGCACAGTCTGACCACTCACGATAAAGCAGATTTT TCTCTGCCTCTGCCACAAGGTTTCAGAGTAGTGTAGTCCAAGTAGAGGGTGGGGCACCCTTTTCTCGCCGCAAGAAGCCCATTCCTATGG AAGTCTAGCAAAGCAATACGACTCAGCCCAGCACTCTCTGCCCCAGGACTCATGGCTCTGCTGTGCCTTCCATCCTGGGCTCCCTTCTCT CCTGTGACCTTAAGAACTTTGTCTGGTGGCTTTGCTGGAACATTGTCACTGTTTTCACTGTCATGCAGGGAGCCCAGCACTGTGGCCAGG ATGGCAGAGACTTCCTTGTCATCATGGAGAAGTGCCAGCAGGGGACTGGGAAAAGCACTCTACCCAGACCTCACCTCCCTTCCTCCTTTT GCCCATGAACAAGATGCAGTGGCCCTAGGGGTTCCACTAGTGTCTGCTTTCCTTTATTATTGCACTGTGTGAGGTTTTTTTGTAAATCCT >In-frame_ENST00000424848_ENST00000354520_AF492830_CDK6_chr7_92404010_-_KMT2A_chr11_118360505_length(amino acids)=2599AA_start in transcript=484_stop in transcript=8283 MEKDGLCRADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDR ETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKQLLECNKCRNSYHPECLGPNYPTKPTKKKKVWICTKCVRCKSCGSTTPGKGWDAQWS HDFSLCHDCAKLFAKGNFCPLCDKCYDDDDYESKMMQCGKCDRWVHSKCENLSDEMYEILSNLPESVAYTCVNCTERHPAEWRLALEKEL QISLKQVLTALLNSRTTSHLLRYRQAAKPPDLNPETEESIPSRSSPEGPDPPVLTEVSKQDDQQPLDLEGVKRKMDQGNYTSVLEFSDDI VKIIQAAINSDGGQPEIKKANSMVKSFFIRQMERVFPWFSVKKSRFWEPNKVSSNSGMLPNAVLPPSLDHNYAQWQEREENSHTEQPPLM KKIIPAPKPKGPGEPDSPTPLHPPTPPILSTDRSREDSPELNPPPGIEDNRQCALCLTYGDDSANDAGRLLYIGQNEWTHVNCALWSAEV FEDDDGSLKNVHMAVIRGKQLRCEFCQKPGATVGCCLTSCTSNYHFMCSRAKNCVFLDDKKVYCQRHRDLIKGEVVPENGFEVFRRVFVD FEGISLRRKFLNGLEPENIHMMIGSMTIDCLGILNDLSDCEDKLFPIGYQCSRVYWSTTDARKRCVYTCKIVECRPPVVEPDINSTVEHD ENRTIAHSPTSFTESSSKESQNTAEIISPPSPDRPPHSQTSGSCYYHVISKVPRIRTPSYSPTQRSPGCRPLPSAGSPTPTTHEIVTVGD PLLSSGLRSIGSRRHSTSSLSPQRSKLRIMSPMRTGNTYSRNNVSSVSTTGTATDLESSAKVVDHVLGPLNSSTSLGQNTSTSSNLQRTV VTVGNKNSHLDGSSSSEMKQSSASDLVSKSSSLKGEKTKVLSSKSSEGSAHNVAYPGIPKLAPQVHNTTSRELNVSKIGSFAEPSSVSFS SKEALSFPHLHLRGQRNDRDQHTDSTQSANSSPDEDTEVKTLKLSGMSNRSSIINEHMGSSSRDRRQKGKKSCKETFKEKHSSKSFLEPG QVTTGEEGNLKPEFMDEVLTPEYMGQRPCNNVSSDKIGDKGLSMPGVPKAPPMQVEGSAKELQAPRKRTVKVTLTPLKMENESQSKNALK ESSPASPLQIESTSPTEPISASENPGDGPVAQPSPNNTSCQDSQSNNYQNLPVQDRNLMLPDGPKPQEDGSFKRRYPRRSARARSNMFFG LTPLYGVRSYGEEDIPFYSSSTGKKRGKRSAEGQVDGADDLSTSDEDDLYYYNFTRTVISSGGEERLASHNLFREEEQCDLPKISQLDGV DDGTESDTSVTATTRKSSQIPKRNGKENGTENLKIDRPEDAGEKEHVTKSSVGHKNEPKMDNCHSVSRVKTQGQDSLEAQLSSLESSRRV HTSTPSDKNLLDTYNTELLKSDSDNNNSDDCGNILPSDIMDFVLKNTPSMQALGESPESSSSELLNLGEGLGLDSNREKDMGLFEVFSQQ LPTTEPVDSSVSSSISAEEQFELPLELPSDLSVLTTRSPTVPSQNPSRLAVISDSGEKRVTITEKSVASSESDPALLSPGVDPTPEGHMT PDHFIQGHMDADHISSPPCGSVEQGHGNNQDLTRNSSTPGLQVPVSPTVPIQNQKYVPNSTDSPGPSQISNAAVQTTPPHLKPATEKLIV VNQNMQPLYVLQTLPNGVTQKIQLTSSVSSTPSVMETNTSVLGPMGGGLTLTTGLNPSLPTSQSLFPSASKGLLPMSHHQHLHSFPAATQ SSFPPNISNPPSGLLIGVQPPPDPQLLVSESSQRTDLSTTVATPSSGLKKRPISRLQTRKNKKLAPSSTPSNIAPSDVVSNMTLINFTPS QLPNHPSLLDLGSLNTSSHRTVPNIIKRSKSSIMYFEPAPLLPQSVGGTAATAAGTSTISQDTSHLTSGSVSGLASSSSVLNVVSMQTTT TPTSSASVPGHVTLTNPRLLGTPDIGSISNLLIKASQQSLGIQDQPVALPPSSGMFPQLGTSQTPSTAAITAASSICVLPSTQTTGITAA SPSGEADEHYQLQHVNQLLASKTGIHSSQRDLDSASGPQVSNFTQTVDAPNSMGLEQNKALSSAVQASPTSPGGSPSSPSSGQRSASPSV PGPTKPKPKTKRFQLPLDKGNGKKHKVSHLRTSSSEAHIPDQETTSLTSGTGTPGAEAEQQDTASVEQSSQKECGQPAGQVAVLPEVQVT QNPANEQESAEPKTVEEEESNFSSPLMLWLQQEQKRKESITEKKPKKGLVFEISSDDGFQICAESIEDAWKSLTDKVQEARSNARLKQLS FAGVNGLRMLGILHDAVVFLIEQLSGAKHCRNYKFRFHKPEEANEPPLNPHGSARAEVHLRKSAFDMFNFLASKHRQPPEYNPNDEEEEE VQLKSARRATSMDLPMPMRFRHLKKTSKEAVGVYRSPIHGRGLFCKRNIDAGEMVIEYAGNVIRSIQTDKREKYYDSKGIGCYMFRIDDS -------------------------------------------------------------- |
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Fusion Gene PPI Analysis for CDK6-KMT2A |
Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in |
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 |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000354520 | 9 | 35 | 1584_1600 | 1455.0 | 3932.0 | histone H3K4me3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000389506 | 10 | 36 | 1584_1600 | 1493.0 | 3970.0 | histone H3K4me3 | |
Tgene | KMT2A | chr7:92404010 | chr11:118360505 | ENST00000534358 | 10 | 36 | 1584_1600 | 1493.0 | 3973.0 | histone H3K4me3 |
- 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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Related Drugs for CDK6-KMT2A |
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 |
Hgene | CDK6 | Q00534 | DB09073 | Palbociclib | Inhibitor | Small molecule | Approved|Investigational |
Hgene | CDK6 | Q00534 | DB09073 | Palbociclib | Inhibitor | Small molecule | Approved|Investigational |
Hgene | CDK6 | Q00534 | DB11730 | Ribociclib | Antagonist|Inhibitor | Small molecule | Approved|Investigational |
Hgene | CDK6 | Q00534 | DB11730 | Ribociclib | Antagonist|Inhibitor | Small molecule | Approved|Investigational |
Hgene | CDK6 | Q00534 | DB12001 | Abemaciclib | Inhibitor | Small molecule | Approved|Investigational |
Hgene | CDK6 | Q00534 | DB12001 | Abemaciclib | Inhibitor | Small molecule | Approved|Investigational |
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Related Diseases for CDK6-KMT2A |
Diseases associated with fusion partners. (DisGeNet 4.0) |
Partner | Gene | Disease ID | Disease name | # pubmeds | Source |
Hgene | CDK6 | C0004238 | Atrial Fibrillation | 2 | CTD_human |
Hgene | CDK6 | C0025149 | Medulloblastoma | 2 | CTD_human |
Hgene | CDK6 | C0205833 | Medullomyoblastoma | 2 | CTD_human |
Hgene | CDK6 | C0235480 | Paroxysmal atrial fibrillation | 2 | CTD_human |
Hgene | CDK6 | C0278510 | Childhood Medulloblastoma | 2 | CTD_human |
Hgene | CDK6 | C0278876 | Adult Medulloblastoma | 2 | CTD_human |
Hgene | CDK6 | C0751291 | Desmoplastic Medulloblastoma | 2 | CTD_human |
Hgene | CDK6 | C1275668 | Melanotic medulloblastoma | 2 | CTD_human |
Hgene | CDK6 | C2585653 | Persistent atrial fibrillation | 2 | CTD_human |
Hgene | CDK6 | C3468561 | familial atrial fibrillation | 2 | CTD_human |
Hgene | CDK6 | C0002871 | Anemia | 1 | CTD_human |
Hgene | CDK6 | C0003873 | Rheumatoid Arthritis | 1 | CTD_human |
Hgene | CDK6 | C0004403 | Autosome Abnormalities | 1 | CTD_human |
Hgene | CDK6 | C0008625 | Chromosome Aberrations | 1 | CTD_human |
Hgene | CDK6 | C0017636 | Glioblastoma | 1 | CTD_human |
Hgene | CDK6 | C0023452 | Childhood Acute Lymphoblastic Leukemia | 1 | CTD_human |
Hgene | CDK6 | C0023453 | L2 Acute Lymphoblastic Leukemia | 1 | CTD_human |
Hgene | CDK6 | C0023467 | Leukemia, Myelocytic, Acute | 1 | CTD_human |
Hgene | CDK6 | C0024668 | Mammary Neoplasms, Experimental | 1 | CTD_human |
Hgene | CDK6 | C0026998 | Acute Myeloid Leukemia, M1 | 1 | CTD_human |
Hgene | CDK6 | C0038454 | Cerebrovascular accident | 1 | CTD_human |
Hgene | CDK6 | C0263454 | Chloracne | 1 | CTD_human |
Hgene | CDK6 | C0334588 | Giant Cell Glioblastoma | 1 | CTD_human |
Hgene | CDK6 | C0345967 | Malignant mesothelioma | 1 | CTD_human |
Hgene | CDK6 | C0677866 | Brain Stem Neoplasms | 1 | CTD_human |
Hgene | CDK6 | C0751886 | Brain Stem Neoplasms, Primary | 1 | CTD_human |
Hgene | CDK6 | C0751887 | Medullary Neoplasms | 1 | CTD_human |
Hgene | CDK6 | C0751888 | Mesencephalic Neoplasms | 1 | CTD_human |
Hgene | CDK6 | C0751889 | Pontine Tumors | 1 | CTD_human |
Hgene | CDK6 | C0751956 | Acute Cerebrovascular Accidents | 1 | CTD_human |
Hgene | CDK6 | C1168401 | Squamous cell carcinoma of the head and neck | 1 | CTD_human |
Hgene | CDK6 | C1621958 | Glioblastoma Multiforme | 1 | CTD_human |
Hgene | CDK6 | C1879321 | Acute Myeloid Leukemia (AML-M2) | 1 | CTD_human |
Hgene | CDK6 | C1961102 | Precursor Cell Lymphoblastic Leukemia Lymphoma | 1 | CTD_human |
Hgene | CDK6 | C3711387 | Autosomal Recessive Primary Microcephaly | 1 | ORPHANET |
Hgene | CDK6 | C4015156 | MICROCEPHALY 12, PRIMARY, AUTOSOMAL RECESSIVE | 1 | CTD_human;GENOMICS_ENGLAND;UNIPROT |
Tgene | KMT2A | C2826025 | Mixed phenotype acute leukemia | 3 | ORPHANET |
Tgene | KMT2A | C0023418 | leukemia | 2 | CTD_human |
Tgene | KMT2A | C0023452 | Childhood Acute Lymphoblastic Leukemia | 2 | CTD_human |
Tgene | KMT2A | C0023453 | L2 Acute Lymphoblastic Leukemia | 2 | CTD_human |
Tgene | KMT2A | C0023466 | Leukemia, Monocytic, Chronic | 2 | CTD_human |
Tgene | KMT2A | C0023467 | Leukemia, Myelocytic, Acute | 2 | CTD_human |
Tgene | KMT2A | C0023470 | Myeloid Leukemia | 2 | CTD_human |
Tgene | KMT2A | C0026998 | Acute Myeloid Leukemia, M1 | 2 | CTD_human |
Tgene | KMT2A | C1854630 | Growth Deficiency and Mental Retardation with Facial Dysmorphism | 2 | CTD_human;GENOMICS_ENGLAND;ORPHANET |
Tgene | KMT2A | C1879321 | Acute Myeloid Leukemia (AML-M2) | 2 | CTD_human |
Tgene | KMT2A | C1961102 | Precursor Cell Lymphoblastic Leukemia Lymphoma | 2 | CTD_human |
Tgene | KMT2A | C0001418 | Adenocarcinoma | 1 | CTD_human |
Tgene | KMT2A | C0004403 | Autosome Abnormalities | 1 | CTD_human |
Tgene | KMT2A | C0005684 | Malignant neoplasm of urinary bladder | 1 | CTD_human |
Tgene | KMT2A | C0005695 | Bladder Neoplasm | 1 | CTD_human |
Tgene | KMT2A | C0007138 | Carcinoma, Transitional Cell | 1 | CTD_human |
Tgene | KMT2A | C0008625 | Chromosome Aberrations | 1 | CTD_human |
Tgene | KMT2A | C0023448 | Lymphoid leukemia | 1 | CTD_human |
Tgene | KMT2A | C0023465 | Acute monocytic leukemia | 1 | CTD_human |
Tgene | KMT2A | C0023479 | Acute myelomonocytic leukemia | 1 | CTD_human |
Tgene | KMT2A | C0024623 | Malignant neoplasm of stomach | 1 | CTD_human |
Tgene | KMT2A | C0033578 | Prostatic Neoplasms | 1 | CTD_human |
Tgene | KMT2A | C0036341 | Schizophrenia | 1 | PSYGENET |
Tgene | KMT2A | C0038356 | Stomach Neoplasms | 1 | CTD_human |
Tgene | KMT2A | C0149925 | Small cell carcinoma of lung | 1 | CTD_human |
Tgene | KMT2A | C0205641 | Adenocarcinoma, Basal Cell | 1 | CTD_human |
Tgene | KMT2A | C0205642 | Adenocarcinoma, Oxyphilic | 1 | CTD_human |
Tgene | KMT2A | C0205643 | Carcinoma, Cribriform | 1 | CTD_human |
Tgene | KMT2A | C0205644 | Carcinoma, Granular Cell | 1 | CTD_human |
Tgene | KMT2A | C0205645 | Adenocarcinoma, Tubular | 1 | CTD_human |
Tgene | KMT2A | C0270972 | Cornelia De Lange Syndrome | 1 | ORPHANET |
Tgene | KMT2A | C0280141 | Acute Undifferentiated Leukemia | 1 | ORPHANET |
Tgene | KMT2A | C0376358 | Malignant neoplasm of prostate | 1 | CTD_human |
Tgene | KMT2A | C0856823 | Undifferentiated type acute leukemia | 1 | ORPHANET |
Tgene | KMT2A | C1535926 | Neurodevelopmental Disorders | 1 | CTD_human |
Tgene | KMT2A | C1708349 | Hereditary Diffuse Gastric Cancer | 1 | CTD_human |
Tgene | KMT2A | C2239176 | Liver carcinoma | 1 | CTD_human |
Tgene | KMT2A | C2930974 | Acute erythroleukemia | 1 | CTD_human |
Tgene | KMT2A | C2930975 | Acute erythroleukemia - M6a subtype | 1 | CTD_human |
Tgene | KMT2A | C2930976 | Acute myeloid leukemia FAB-M6 | 1 | CTD_human |
Tgene | KMT2A | C2930977 | Acute erythroleukemia - M6b subtype | 1 | CTD_human |