| Literature DB >> 30487538 |
Kodai Machida1, Tomoaki Shigeta1, Yuki Yamamoto1, Takuhiro Ito2, Yuri Svitkin3, Nahum Sonenberg3, Hiroaki Imataka4.
Abstract
Eukaryotic mRNA has a cap structure and a poly(A) tail at the 5' and 3' ends, respectively. The cap structure is recognized by eIF (eukaryotic translation initiation factor) 4 F, while theEntities:
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Year: 2018 PMID: 30487538 PMCID: PMC6261967 DOI: 10.1038/s41598-018-35753-1
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379
Figure 1Co-purification of PABP with the ribosome. (A) Diagram of purification procedure of the 40S and 60S ribosomal subunits from HeLa cells. (B) Gel filtration chromatography of the puromycin-treated ribosomal sample. (C) First sucrose-gradient centrifugation. (D) Second sucrose-gradient centrifugation for purification of the 40S subunit. (E) Second sucrose-gradient centrifugation for purification of the 60S subunit. (F) Purified 40S and 60S subunits. Left panel: Coomassie brilliant blue-staining of the 40S and 60S subunits (2.4 pmol, each) purified with (lanes 2, 4) or without (lanes 1, 3) GST-Paip2 treatments. Right panel: western blot of the purified 40S and 60S subunits (2.4 or 4.8 pmol) for PABP (lanes 3–10). PABP-His (lane 1, 0.24 pmol; lane 2, 0.48 pmol) was loaded as the reference.
Figure 2Dynamic interaction of PABP with ribosomes. (A–C) Fractions after sucrose-gradient centrifugation were analyzed by western blotting (WB: PABP, 40S and 60S) or northern blotting (NB: RNA). (A) PABP (60 pmol) alone (top panel) or a mixture of PABP (60 pmol) and the 40S subunit (30 pmol) (middle panel) or the 60S subunit (30 pmol) (bottom panel) was resolved by sucrose-gradient centrifugation. (B) A mixture of PABP (60 pmol), the poly(A) RNA (60 pmol), and the 40S subunit (30 pmol) or the 60S subunit (30 pmol) was resolved by sucrose-gradient centrifugation. (C) A mixture of PABP (60 pmol), the HA-Rluc-N RNA (60 pmol), and the 40S subunit (30 pmol) or the 60S subunit (30 pmol) was resolved by sucrose-gradient centrifugation. (D) Incubation with the poly(A) RNA (left panels) or HA-Rluc-N RNA (right panels) dissociated the 40S (upper panels) or 60S subunit (lower panels) from the PABP-His complex immobilized on the TALON resin (left three lanes, each panel). After incubation with RNA followed by washing, RNA/proteins were eluted with imidazole (500 mM) from the resin (right three lanes, each panel).
Figure 3Localization of ribosomes on PABP. (A) A schematic representation of PABP and RRM-deletion mutants. (B) C-terminally His-PA–tagged wild-type PABP (1-2-3-4-C), RRM-deletion mutants and GST proteins (1 μg each, Coomassie brilliant blue stained). (C) and (D) Binding of the 40S ribosomal subunit (C) and the 60S subunit (D) to PABP (1-2-3-4-C) or its deletion mutants immobilized on the TALON resin. Input: one twentieth of the ribosomal sample was analyzed at the same time.
Figure 4PABP binds to expansion segments of the mammalian ribosome. (A) Alignment of the PABP-cross-linked RNA sequences to human 18S (GenBank: X03205.1) and 28S (NR_003287.2) ribosomal RNAs. (B) PABP binding sites in the structure of the human ribosome (PDB ID: 4UG0)[40]. Ribbon structures of the ribosomal proteins, 60S-subunit rRNAs (28S, 5.8S, and 5S), and 40S-subunit rRNA (18S), colored gray, cyan, and wheat, respectively, are represented from the A-site side. The PABP cross-linked rRNA sites are indicated by red. The site corresponding to clone 29 is localized in the disordered region, whose root is indicated by the red dotted circle. ES: expansion segment[23].
Figure 5Stimulation of translation by PABP in the reconstituted cap-dependent translation system. (A) Rluc, Rluc-A, Cap-Rluc or Cap-Rluc-A RNA (0.1 μM each) was translated in the reconstitution system with or without PABP (1.92 μM). After translation, samples were analyzed by western blotting with an anti-myc antibody (left panel) and Rluc assay (right panel; each column and bar represent the mean and standard deviation of three experiments, respectively). eIF4G (84–1599), which contains the PABP binding site[24], was used as eIF4G. (B) Cap-Rluc or Cap-Rluc-A (0.1 μM each) RNA was translated in the reconstitution system with or without PABP or a PABP mutant (M161A)[9] (1.92 μM, each) (left panel). These RNAs were also translated with eIF4G (84–1599) or eIF4G (197–1599)[24] in the presence or absence of PABP (1.92 μM) (right panel). After translation, Rluc activity was measured. Each column and bar represent the mean and standard deviation three experiments, respectively; the average Rluc activity without PABP was set at 1.0.
Figure 6Functional analysis of PABP interaction with the ribosome. (A) Cap-Rluc-A RNA (0.1 μM) was translated in the reconstitution system in the presence of increasing concentrations (0 to 3.84 μM) of PABP (1-2-3-4-C) or a truncated PABP (1-2-C). At indicated times, an aliquot of each sample was removed for the Rluc assay. Each bar represents the mean of two experiments. (B) Cap-Rluc-A RNA (0.1 μM) was translated in the reconstitution system with PABP or PABP (1-2-C) (3.84 μM each) in the presence of increasing concentrations (0 to 7.68 μM) of Paip2 for 6 h. After translation, Rluc activity was measured. Each column and bar represent the mean and standard deviation of three experiments, respectively.