Purification and cDNA cloning of HeLa cell p54<sup>nrb</sup>, a nuclear protein with two RNA recognition motifs and extensive homology to human splicing factor PSF and<i>Drosophila</i>NONA/BJ6

Dong, B; Horowitz, David S.; Kobayashi, Ryûji; Krainer, Adrian R.

doi:10.1093/nar/21.17.4085

Cited by 161 publications

(146 citation statements)

References 42 publications

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“…10 and references therein), and the conformational state of the actin involved in transcription remains to be investigated. Hrp65 belongs to a family of evolutionarily conserved proteins characterized by the presence of a DBHS domain (27). The DBHS group includes the mammalian proteins PSF, p54 nrb ͞ NonO, and PSP1 and the Drosophila protein NonA͞Bj6 (reviewed in ref.…”

Section: Discussionmentioning

confidence: 99%

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

Percipalle

Fomproix

Kylberg

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

130

107

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To determine the function of actin in the cell nucleus, we sought to identify nuclear actin-binding proteins in the dipteran Chironomus tentans using DNase I-affinity chromatography. We identified the RNA-binding protein hrp65 as an actin-binding protein and showed that the C-terminal sequence of the hrp65-2 isoform is able to interact directly with actin in vitro. In vivo crosslinking and coimmunoprecipitation experiments indicated that hrp65 and actin are also associated in the living cell. Moreover, in vivo administration of a competing peptide corresponding to the C-terminal sequence of hrp65-2 disrupted the actin-hrp65-2 interaction and caused a specific and drastic reduction of transcription as judged by puff regression and diminished bromo-UTP incorporation. Our results indicate that an actin-based mechanism is implicated in the transcription of most if not all RNA polymerase II genes and suggest that an actin-hrp65-2 interaction is required to maintain the normal transcriptional activity of the cell. Furthermore, immunoelectron microscopy experiments and nuclear run-on assays suggest that the actin-hrp65-2 complex plays a role in transcription elongation.A ctin and myosin I are present not only in the cytoplasm but also in the cell nucleus (1, 2), where they have been implicated in transcription of protein-coding genes (3-5) and nuclear export (6). Many other cytoskeletal components have also been found in the cell nucleus, and some of them have been tentatively implicated in gene expression (reviewed in ref. 1).Actin has been found associated with (pre)-messenger ribonucleoprotein (pre-mRNP) complexes in a variety of organisms, and we recently revealed that actin is a bona fide component of the Balbiani ring (BR) pre-mRNP particles in the salivary gland cells of the dipteran Chironomus tentans (7). The BR genes code for large secretory proteins that are expressed in the salivary gland cells of C. tentans (reviewed in ref. 8). The BR pre-mRNAs are assembled into large RNP particles, the BR pre-mRNPs, that can be visualized directly by transmission electron microscopy (reviewed in ref. 9). Actin is incorporated cotranscriptionally into the newly synthesized BR pre-mRNPs by binding to a subset of heterogeneous nuclear RNP (hnRNP) proteins such as the hnRNP A1-like protein hrp36 (7). Remarkably, the presence of actin in RNP complexes is not restricted to the BR particles of C. tentans, because actin has also been found associated with certain hnRNP proteins of the A͞B group in mammalian pre-mRNPs (10).The presence of actin in the cell nucleus is well documented, but the precise role of nuclear actin is still not understood. To obtain further insight into the function(s) of nuclear actin, we sought to identify additional proteins of C. tentans that bind to actin in the cell nucleus. Materials and MethodsDetailed descriptions of the materials and methods can be found in Supporting Materials and Methods, which is published as supporting information on the PNAS web site, www.pnas.org.DNase I-Sepharose Pull-Down...

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Section: Discussionmentioning

confidence: 99%

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

Percipalle

Fomproix

Kylberg

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

130

107

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“…For both 5' and 3'-RACE, sequences were obtained that diverged from known TFE3 sequences at the exon 3-exon 4 junction (eg, the 5'-RACE product is shown in Figure 2b). Database searches of the new sequences present in the 5'-RACE and 3'-RACE products revealed that they exactly matched adjacent regions of a gene designated NonO (p54 nrb ) that is closely related to PSF (Dong et al, 1993;Yang et al, 1993). The 471 amino acid NonO (p54 nrb ) protein contains several distinct domains ( Figure 3) including (i) a short N-terminal sequence composed entirely of histidine, glutamine and proline residues, (ii) a helix ± turn ± helix domain¯anked by charged amino acids that is responsible for binding to the octamer sequence in double stranded DNA and (iii) a short C-terminal proline-rich region.…”

Section: Fusion To the Psf Gene In Uok145mentioning

confidence: 98%

“…The 471 amino acid NonO (p54 nrb ) protein contains several distinct domains ( Figure 3) including (i) a short N-terminal sequence composed entirely of histidine, glutamine and proline residues, (ii) a helix ± turn ± helix domain¯anked by charged amino acids that is responsible for binding to the octamer sequence in double stranded DNA and (iii) a short C-terminal proline-rich region. The NonO (p54 nrb ) protein has a region of 320 amino acids with 71% identity and 7% similarity to a 320aa region of PSF (Patton et al, 1993;Dong et al, 1993;Yang et al, 1993). This same region of NonO (p54 nrb ) exhibits 42% identity and 7% similarity to a 321aa region of the 700aa Drosophila NonA diss protein.…”

Section: Fusion To the Psf Gene In Uok145mentioning

confidence: 99%

Fusion of splicing factor genes PSF and NonO (p54nrb) to the TFE3 gene in papillary renal cell carcinoma

et al. 1997

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We demonstrate that the cytogenetically de®ned translocation t(X;1)(p11.2;p34) observed in papillary renal cell carcinomas results in the fusion of the splicing factor gene PSF located at 1p34 to the TFE3 helix ± loop ± helix transcription factor gene at Xp11.2. In addition we de®ne an X chromosome inversion inv(X)(p11.2;q12) that results in the fusion of the NonO (p54 nrb ) gene to TFE3. NonO (p54 nrb ), the human homologue of the Drosophila gene NonA diss which controls the male courtship song, is closely related to PSF and also believed to be involved in RNA splicing. In each case the rearrangement results in the fusion of almost the entire splicing factor protein to the TFE3 DNA-binding domain. These observations suggest the possibility of intriguing links between the processes of RNA splicing, DNA transcription and oncogenesis.

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“…14,[16][17][18][19][20][21][22][23] It is comprised of an N-terminal glycine-rich domain, a proline/glutamine (P/Q) rich domain, two RNA recognition motifs (RRMs), and a C-terminal region with two nuclear localization signals. A closely related protein with a similar domain structure, p54 nrb (and its mouse homolog nonO) 24,25 has been found to associate with PSF. 23,[26][27][28] Together, these proteins interact with the C-terminal domain (CTD) of RNA Pol II 29 and contact 5' splice sites within large transcription/splicing complexes, 30 consistent with coupling between transcription and splicing.…”

Section: Introductionmentioning

confidence: 99%

The Splicing Factor PSF is Part of a Large Complex That Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs

Peng¹,

Hawkins²,

Link³

et al. 2006

RNA Biology

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Previously published online as a RNA Biology E-publication: http://www.landesbioscience.com/journals/rnabiology/abstract.php?id=3017 KEY WORDS Research PaperThe Splicing Factor PSF is Part of a Large Complex that Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs ABSTRACT PSF (PTB-associated splicing factor) is a large nuclear protein that has been implicated in numerous processes including transcription and RNA splicing. It has been shown to directly associate with U5 snRNA and has also been found within numerous purified splicing complexes. Here, we show that when HeLa nuclear extracts are adjusted to splicing conditions, PSF is found as part of a large complex that contains all five snRNPs and most known splicing factors. Formation of the complex does not require addition of exogenous pre-mRNA substrate and occurs at 4˚C but is salt sensitive. Sedimentation experiments and identification of individual components by mass spectrometry revealed association with multiple nuclear factors, most of which overlap with spliceosome components.

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Purification and cDNA cloning of HeLa cell p54^nrb, a nuclear protein with two RNA recognition motifs and extensive homology to human splicing factor PSF andDrosophilaNONA/BJ6

Cited by 161 publications

References 42 publications

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

Fusion of splicing factor genes PSF and NonO (p54nrb) to the TFE3 gene in papillary renal cell carcinoma

The Splicing Factor PSF is Part of a Large Complex That Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs

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Purification and cDNA cloning of HeLa cell p54nrb, a nuclear protein with two RNA recognition motifs and extensive homology to human splicing factor PSF andDrosophilaNONA/BJ6

Cited by 161 publications

References 42 publications

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

An actin–ribonucleoprotein interaction is involved in transcription by RNA polymerase II

Fusion of splicing factor genes PSF and NonO (p54nrb) to the TFE3 gene in papillary renal cell carcinoma

The Splicing Factor PSF is Part of a Large Complex That Assembles in the Absence of pre-mRNA and Contains All 5 snRNPs

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Purification and cDNA cloning of HeLa cell p54^nrb, a nuclear protein with two RNA recognition motifs and extensive homology to human splicing factor PSF andDrosophilaNONA/BJ6