Project description:The nuclear cap-binding complex (CBC) stimulates multiple steps in several RNA maturation pathways, but how it functions in humans is incompletely understood. For small capped RNAs like pre-snRNAs, the CBC recruits PHAX. Here, we identify the CBCAP complex, composed of CBC, Ars2 and PHAX, and show that both CBCAP and CBC-Ars2 complexes can be reconstituted from recombinant proteins. Ars2 stimulates PHAX binding to the CBC as well as snRNAs 3'-end processing, hereby coupling maturation with export. In vivo, CBC and Ars2 bind similar capped non-coding and coding RNAs, and stimulate their 3M-bM-^@M-^Y-end processing. Strongest effects are displayed for cap-proximal polyadenylation sites, thereby favoring premature transcription termination. Ars2 functions in part through the mRNA 3M-bM-^@M-^Y-end cleavage factor CLP1, which binds RNA Polymerase II through PCF11. Ars2 is thus a major CBC effector that stimulates functional and cryptic 3'-end processing sites. In total 12 samples; 4 control IP, 2 Flag- Ars2 IP and 2 Flag-CBP20 IP; 2 control FFL siRNA and 2 siRNA Ars2

Project description:The nuclear cap-binding complex (CBC) stimulates multiple steps in several RNA maturation pathways, but how it functions in humans is incompletely understood. For small capped RNAs like pre-snRNAs, the CBC recruits PHAX. Here, we identify the CBCAP complex, composed of CBC, Ars2 and PHAX, and show that both CBCAP and CBC-Ars2 complexes can be reconstituted from recombinant proteins. Ars2 stimulates PHAX binding to the CBC as well as snRNAs 3'-end processing, hereby coupling maturation with export. In vivo, CBC and Ars2 bind similar capped non-coding and coding RNAs, and stimulate their 3’-end processing. Strongest effects are displayed for cap-proximal polyadenylation sites, thereby favoring premature transcription termination. Ars2 functions in part through the mRNA 3’-end cleavage factor CLP1, which binds RNA Polymerase II through PCF11. Ars2 is thus a major CBC effector that stimulates functional and cryptic 3'-end processing sites.

Project description:Nuclear processing and quality control of eukaryotic RNA is mediated by the multi-subunit RNA exosome, which utilizes accessory factors to regulate its enzymatic activity. However, the mechanism of exosome recruitment to its ribonucleoprotein (RNP) targets remains poorly understood. Here we disclose a physical link between the human nuclear RNA exosome and the cap-binding complex (CBC). The CBC associates with the ARS2 protein to form CBC-ARS2 (CBCA), and then further connects together with the uncharacterized ZC3H18/NHN1 protein to the nuclear exosome targeting (NEXT) complex, forming CBC-NEXT (CBCN). RNA immunoprecipitation analysis using CBCN factors as baits as well as the combinatorial depletion of CBCN and exosome components underscore the functional relevance of CBC-exosome bridging at the level of target RNA. Specifically, CBCA suppresses read-through transcription of several RNA families by promoting their transcriptional termination. We suggest that the RNP 5M-bM-^@M-^Ycap links transcription termination to exosomal RNA degradation via CBCN. In total 10 samples; 4 control IP HeLa, 2 Flag- Ars2 IP, 2 Flag-CBP20 IP; and 2 GFP-RBM7 Ips. The signal intensity data was analyzed with the Affymetrix Tiling Analysis Software (v. 1.1) using parameters: one side upper, 90 bp bandwidth and perfect match only. Output txt files (i.e. result file). TASParam* files include parameter settings and input file information for the TAS analysis for each result file. The description of 'ProcessedDatas_TA.xls' file is provided in the 'README.txt'

Project description:A 5′, 7-methylguanosine cap is a quintessential feature of RNA polymerase II-transcribed RNAs, and thus a textbook aspect of co-transcriptional pre-mRNA processing. The cap is bound by the cap-binding complex (CBC), canonically consisting of nuclear cap-binding proteins 1 and 2 (NCBP1/2). Recently, NCBP3 has been proposed to form an alternative, non-canonical CBC, together with NCBP1. NCBP3 has also been shown to interact with the canonical CBC along with the protein SRRT (aka ARS2), in a manner that is mutually exclusive with the RNA export factor, PHAX. Taken together, ambiguities and missing information in the bona fide physiological protein-protein associations of NCBP3 persist. In an effort to clarify the compositions of NCBP1-, 2-, and 3-related macromolecular assemblies, including their intersections and differences, we have applied our recently developed interactome screening platform (PMID: 25938370). Here the experimental design and data processing have been modified and updated to identify interactome differences between targets of affinity capture under a wide range of experimental conditions, followed by label-free quantitative mass spectrometry.

Project description:The nuclear cap-binding complex (CBC) stimulates processing reactions of capped RNAs, including their splicing, 3'-end formation, degradation, and transport. CBC effects are particular for individual RNA families, but how such selectivity is achieved remains elusive. Here, we analyze three main CBC partners known to impact different RNA species. ARS2 stimulates 3'-end formation/transcription termination of several transcript types, ZC3H18 stimulates degradation of a diverse set of RNAs, and PHAX functions in pre-small nuclear RNA/small nucleolar RNA (pre-snRNA/snoRNA) transport. Surprisingly, these proteins all bind capped RNAs without strong preferences for given transcripts, and their steady-state binding correlates poorly with their function. Despite this, PHAX and ZC3H18 compete for CBC binding and we demonstrate that this competitive binding is functionally relevant. We further show that CBC-containing complexes are short lived in vivo, and we therefore suggest that RNA fate involves the transient formation of mutually exclusive CBC complexes, which may only be consequential at particular checkpoints during RNA biogenesis.

Project description:The aim of the project was to obtain murine hepatoma MH22a [1] cell subline, resistant to anticancer agent 3-amino-1,2,4-benzotriazine-1,4-dioxide (tirapazamine, TPZ), and examine the changes of the protein expression as compared with parental cells, with the main emphasis on the changes of redox proteins. MH22a cells obtained from the Institute of Cytology of the Russian Academy of Sciences (St. Petersburg, Russia), were grown at 37°C in DMEM medium, supplemented with 10% fetal bovine serum and antibiotics in T25 flasks until reaching 70-80% confluence. The medium is then changed to an analogous medium with 5.0 μM TPZ, and, depending on cell viability, 50% of the medium with TPZ is changed 1-2 times a week, repeating that procedure for 3.5 months to form a stable monolayer. The resulting monolayer is inoculated 1:2 and further grown by changing 50% of the culture medium twice a week until re-inoculation. 20 passages were made over 2.5 months in total. We were unable to obtain a cell subline in a stepwise fashion by growing the cells in increasing concentrations of TPZ, because its concentration increase up to 10 μM caused cell death after 1 month. For analysis, one flask per each sample, 3 samples of parental cell line and 3 samples of TPZ-resistant cell line (between 15th and 20th passages), were selected. Cells were rinsed three times with PBS, detached with TrypLE Express (ThermoFisher Scientific, Waltham, MA, USA) and cell concentration and viability was determined with Trypan blue and Countess 2 (ThermoFisher Scientific, Waltham, MA, USA) automated cell counter. Cells were rinsed by centrifuging 500xg for 5 min and suspending in PBS three times. Finally, cells were flash frozen in liquid nitrogen and transferred to -86°C freezer for storage. [1] European Collection of Authenticated Cell Cultures (ECACC), Catalogue No. 96121721.

Project description:Nuclear processing and quality control of eukaryotic RNA is mediated by the multi-subunit RNA exosome, which utilizes accessory factors to regulate its enzymatic activity. However, the mechanism of exosome recruitment to its ribonucleoprotein (RNP) targets remains poorly understood. Here we disclose a physical link between the human nuclear RNA exosome and the cap-binding complex (CBC). The CBC associates with the ARS2 protein to form CBC-ARS2 (CBCA), and then further connects together with the uncharacterized ZC3H18/NHN1 protein to the nuclear exosome targeting (NEXT) complex, forming CBC-NEXT (CBCN). RNA immunoprecipitation analysis using CBCN factors as baits as well as the combinatorial depletion of CBCN and exosome components underscore the functional relevance of CBC-exosome bridging at the level of target RNA. Specifically, CBCA suppresses read-through transcription of several RNA families by promoting their transcriptional termination. We suggest that the RNP 5’cap links transcription termination to exosomal RNA degradation via CBCN.

Project description:Mutually Exclusive CBC-Containing Complexes Contribute to RNA Fate.

Project description:Adaptive laboratory evolution is highly effective for improving desired traits through natural selection. However, its applicability is inherently constrained to growth-correlated traits precluding traits of interest that incur a fitness cost, such as metabolite secretion. Here, we introduce the concept of tacking trait enabling natural selection of fitness-costly metabolic traits. The concept is inspired from the tacking maneuver used in sailing for traversing upwind. We use first-principle metabolic models to design an evolution niche wherein the tacking trait and fitness become correlated. Adaptive evolution in this niche, when followed by the reversal to the original niche, manifests in the improvement of the desired trait due to biochemical coupling between the tacking and the desired trait. We experimentally demonstrate this strategy, termed EvolveX, by evolving wine yeasts for increased aroma production. Our results pave the way for precision laboratory evolution for biotechnological and ecological applications.

Project description:Mediator is a coregulatory complex involved in regulating the transcription of Pol II-dependent genes. Metazoan Mediator subunit MED26 functions as a docking site for the ELL/EAF-containing Super Elongation Complex (SEC) and L ittle Elongation Complex (LEC), which regulate the expression of distinct genes. MED26 helps to recruit SEC to protein-coding genes including c-Myc and LEC to small nuclear RNA (snRNA) genes. However, why MED26 takes advantage of SEC or LEC to regulate different claases of genes is unclear. Here, we present evidence that MED26 recruits LEC to support optimal transcription termination at non-polyadenylated genes including snRNA and replication-dependent histone (RDH) genes. Our findings indicate that LEC recruited by MED26 promotes efficient transcription termination by Pol II through interaction with CBC-ARS2 and NELF/DSIF, and then LEC promotes 3’-end processing through the recruitment of Integrator or Heat labile factor to snRNA or RDH genes, respectively.