Proteomics

Dataset Information

0

Complexome profiling of nuclear lysates from control and USP39-depleted HeLa cells


ABSTRACT: RNA splicing and protein degradation systems allow the functional adaptation of the proteome in response to changing cellular contexts. However, the regulatory mechanisms connecting these processes remain poorly understood. Here, we show that impaired spliceosome assembly caused by USP39 deficiency leads to a pathogenic splicing profile characterized by the use of cryptic 5′ splice sites. To explore the interactions of USP39 and the effect of its depletion in HeLa cells, we performed complexome profiling of nuclear lysates. We observed most USP39 stably integrated into the tri-snRNP complex and there is almost no free nuclear protein. More importantly, the relative abundance of tri-snRNP spliceosome complex was impaired in USP39-depleted cells. As previous reports indicated, USP39 is a regulator of tri-snRNP stability and its depletion decreased the levels of assembled U4/U6.U5 complexes.

INSTRUMENT(S): Q Exactive Plus

ORGANISM(S): Homo Sapiens (human)

SUBMITTER: Alfredo Cabrera-Orefice  

LAB HEAD: Alfredo Cabrera-Orefice

PROVIDER: PXD050738 | Pride | 2024-09-25

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
P23_072_JO572_Control_01.raw Raw
P23_072_JO572_Control_02.raw Raw
P23_072_JO572_Control_03.raw Raw
P23_072_JO572_Control_04.raw Raw
P23_072_JO572_Control_05.raw Raw
Items per page:
1 - 5 of 391

Similar Datasets

2022-02-08 | GSE173597 | GEO
2023-10-24 | PXD035928 | Pride
2024-09-25 | PXD050688 | Pride
2024-09-13 | GSE276681 | GEO
2021-06-11 | PXD024929 | Pride
2021-05-25 | PXD023942 | Pride
2018-11-30 | GSE115163 | GEO
2021-04-19 | GSE143392 | GEO
2023-09-24 | GSE213629 | GEO
2023-09-24 | GSE213633 | GEO