• ENSG00000198901
  • Isoform Switch

ENSG00000198901

Isoform Switch

Only the isoforms with fraction > 5% are shown below.

Notes on IDR and IDR_w_binding: As the prediction of Intrinsically Disordered Regions (IDR) and Intrinsically Disordered Binding Regions (IDBR) are done by two different tools we require two things to annotate the Intrinsically Disordered Binding Regions (IDBR). Firstly the IDBR (predicted by ANCHOR2) must be a region of at least 15 amino acids (after the smoothing). Secondly the fraction of the IDBR which overlaps the IDR predictions (done by IUPred3, again after smoothing) must be at least 80%. When that is the case the IDR type will be annotated as “IDR_w_binding_region” instead of just “IDR”. The current default parameters have not been rigorously tested and should be considered experimental.

For the function of any other domain, please Click HERE to search it through Pfam database.

Rows: 1-7 / 7

Columns:

Close

Columns▼Records:
Use the filters above each column to filter and limit table data. Advanced searches can be performed by using the following operators:
<, <=, >, >=, =, *, !, {, }, ||,&&, [empty], [nonempty], rgx:
Learn more

TableFilter v0.7.3

https://www.tablefilter.com/
©2015-2025 Max Guglielmi
?
Page of 1
isoform_idColumn filter
gene_idColumn filter
condition_1Column filter
condition_2Column filter
gene_nameColumn filter
gene_biotypeColumn filter
iso_biotypeColumn filter
gene_overall_meanColumn filter
gene_value_1Column filter
gene_value_2Column filter
gene_stderr_1Column filter
gene_stderr_2Column filter
gene_log2_fold_changeColumn filter
iso_overall_meanColumn filter
iso_value_1Column filter
iso_value_2Column filter
iso_stderr_1Column filter
iso_stderr_2Column filter
iso_log2_fold_changeColumn filter
IF_overallColumn filter
IF1Column filter
IF2Column filter
dIFColumn filter
isoform_switch_q_valueColumn filter
gene_switch_q_valueColumn filter
PTCColumn filter
codingPotentialColumn filter
ENST00000361188 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 15.742189 12.126905 17.263113 2.5444619 0.8643307 0.5091275 0.15697500 0.13936667 0.15963333 0.02026667 0.862984052 0.005172096 FALSE TRUE
ENST00000394249 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 10.222403 7.643437 12.114127 0.8613316 0.5679194 0.6637013 0.10126250 0.08963333 0.11193333 0.02230000 0.537855539 0.005172096 FALSE TRUE
ENST00000555455 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 8.782488 8.227564 8.852360 0.3297916 0.6115372 0.1054733 0.08768333 0.09966667 0.08146667 -0.01820000 0.807338847 0.005172096 FALSE TRUE
ENST00000556972 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 18.448254 18.060652 13.391556 2.0029343 1.6544411 -0.4312480 0.18592917 0.21176667 0.12243333 -0.08933333 0.005172096 0.005172096   TRUE
ENST00000559828 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 16.380026 11.975232 20.276878 3.3431062 2.0420352 0.7592891 0.16007917 0.13500000 0.18583333 0.05083333 0.688477753 0.005172096 FALSE FALSE
ENST00000560423 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding protein_coding 100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 9.470279 9.474925 6.263361 2.1623921 0.6481305 -0.5963978 0.09495417 0.11050000 0.05733333 -0.05316667 0.171070832 0.005172096   FALSE
MSTRG.11570.7 ENSG00000198901 HEK293_OSMI2_6hA HEK293_TMG_6hB PRC1 protein_coding   100.4619 85.13559 108.6826 8.546659 4.805838 0.3522495 12.405533 9.137542 17.109789 0.8849254 0.9972883 0.9042089 0.12247500 0.10753333 0.15726667 0.04973333 0.007846061 0.005172096 FALSE TRUE
  • Note:
    • The comparisons made can be identified as “from ‘condition_1’ to ‘condition_2’”, meaning ‘condition_1’ is considered the ground state and ‘condition_2’ the changed state. This also means that a positive dIF value indicates that the isoform usage is increased in ‘condition_2’ compared to ‘condition_1’. Since the ‘isoformFeatures’ entry is the most relevant part of the switchAnalyzeRlist object, the most-used standard methods have also been implemented to work directly on isoformFeatures.