4ejs

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Structure of yeast elongator subcomplex Elp456Structure of yeast elongator subcomplex Elp456

Structural highlights

4ejs is a 3 chain structure with sequence from Baker's yeast. Full crystallographic information is available from OCA. For a guided tour on the structure components use FirstGlance.
Gene:ELP4 (Baker's yeast), ELP5 (Baker's yeast), ELP6 (Baker's yeast)
Resources:FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Function

[ELP4_YEAST] Acts as component of the RNA polymerase II elongator complex, which is a major histone acetyltransferase component of the RNA polymerase II (RNAPII) holoenzyme and is involved in transcriptional elongation. Association with elongating RNAPII requires a hyperphosphorylated state of the RNAPII C-terminal domain (CTD). Elongator binds to both naked and nucleosomal DNA, can acetylate both core and nucleosomal histones, and is involved in chromatin remodeling. It acetylates histones H3, preferentially at 'Lys-14', and H4, preferentially at 'Lys-8'. It functions as a gamma-toxin target (TOT); disruption of the complex confers resistance to Kluyveromyces lactis toxin zymocin (pGKL1 killer toxin). May also be involved in sensitiviy to Pichia inositovora toxin. May be involved in tRNA modification. ELP4 is required for the complex integrity and the complex HAT activity but is not required for the association of the complex with nascent RNA transcript. Is required for an early step in synthesis of 5-methoxycarbonylmethyl (mcm5) and 5-carbamoylmethyl (ncm5) groups present on uridines at the wobble position in tRNA.[1] [2] [3] [4] [5] [6] [7] [ELP6_YEAST] Acts as component of the RNA polymerase II elongator complex, which is a major histone acetyltransferase component of the RNA polymerase II (RNAPII) holoenzyme and is involved in transcriptional elongation. Association with elongating RNAPII requires a hyperphosphorylated state of the RNAPII C-terminal domain (CTD). Elongator binds to both naked and nucleosomal DNA, can acetylate both core and nucleosomal histones, and is involved in chromatin remodeling. It acetylates histones H3, preferentially at 'Lys-14', and H4, preferentially at 'Lys-8'. It functions as a gamma-toxin target (TOT); disruption of the complex confers resistance to Kluyveromyces lactis toxin zymocin (pGKL1 killer toxin). May also be involved in sensitiviy to Pichia inositovora toxin. May be involved in tRNA modification. ELP6 is required for an early step in synthesis of 5-methoxycarbonylmethyl (mcm5) and 5-carbamoylmethyl (ncm5) groups present on uridines at the wobble position in tRNA.[8] [9] [10] [11] [12] [13] [ELP5_YEAST] Acts as component of the RNA polymerase II elongator complex, which is a major histone acetyltransferase component of the RNA polymerase II (RNAPII) holoenzyme and is involved in transcriptional elongation. Association with elongating RNAPII requires a hyperphosphorylated state of the RNAPII C-terminal domain (CTD). Elongator binds to both naked and nucleosomal DNA, can acetylate both core and nucleosomal histones, and is involved in chromatin remodeling. It acetylates histones H3, preferentially at 'Lys-14', and H4, preferentially at 'Lys-8'. It functions as a gamma-toxin target (TOT); disruption of the complex confers resistance to Kluyveromyces lactis toxin zymocin (pGKL1 killer toxin). May also be involved in sensitiviy to Pichia inositovora toxin. May be involved in tRNA modification. IKI1 is required for an early step in synthesis of 5-methoxycarbonylmethyl (mcm5) and 5-carbamoylmethyl (ncm5) groups present on uridines at the wobble position in tRNA.[14] [15] [16] [17] [18] [19]

Publication Abstract from PubMed

Elongator is a multiprotein complex composed of two subcomplexes, Elp1-3 and Elp4-6. Elongator is highly conserved between yeast and humans and plays an important role in RNA polymerase II-mediated transcriptional elongation and many other processes, including cytoskeleton organization, exocytosis, and tRNA modification. Here, we determined the crystal structure of the Elp4-6 subcomplex of yeast. The overall structure of Elp4-6 revealed that Elp6 acts as a bridge to assemble Elp4 and Elp5. Detailed structural and sequence analyses revealed that each subunit in the Elp4-6 subcomplex forms a RecA-ATPase-like fold, although it lacks the key sequence signature of ATPases. Site-directed mutagenesis and biochemical analyses indicated that the Elp4-6 subcomplex can assemble into a hexameric ring-shaped structure in vitro and in vivo. Furthermore, GST pulldown assays showed that the ring-shaped assembly of the Elp4-6 subcomplex is important for its specific histone H3 binding. Our results may shed light on the substrate recognition and assembly of the holo-Elongator complex.

Crystal structure of elongator subcomplex Elp4-6.,Lin Z, Zhao W, Diao W, Xie X, Wang Z, Zhang J, Shen Y, Long J J Biol Chem. 2012 Jun 15;287(25):21501-8. Epub 2012 May 2. PMID:22556426[20]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

References

  1. Otero G, Fellows J, Li Y, de Bizemont T, Dirac AM, Gustafsson CM, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator, a multisubunit component of a novel RNA polymerase II holoenzyme for transcriptional elongation. Mol Cell. 1999 Jan;3(1):109-18. PMID:10024884
  2. Frohloff F, Fichtner L, Jablonowski D, Breunig KD, Schaffrath R. Saccharomyces cerevisiae Elongator mutations confer resistance to the Kluyveromyces lactis zymocin. EMBO J. 2001 Apr 17;20(8):1993-2003. PMID:11296232 doi:10.1093/emboj/20.8.1993
  3. Krogan NJ, Greenblatt JF. Characterization of a six-subunit holo-elongator complex required for the regulated expression of a group of genes in Saccharomyces cerevisiae. Mol Cell Biol. 2001 Dec;21(23):8203-12. PMID:11689709 doi:10.1128/MCB.21.23.8203-8212.2001
  4. Winkler GS, Kristjuhan A, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator is a histone H3 and H4 acetyltransferase important for normal histone acetylation levels in vivo. Proc Natl Acad Sci U S A. 2002 Mar 19;99(6):3517-22. PMID:11904415 doi:10.1073/pnas.022042899
  5. Klassen R, Meinhardt F. Structural and functional analysis of the killer element pPin1-3 from Pichia inositovora. Mol Genet Genomics. 2003 Nov;270(2):190-9. Epub 2003 Sep 9. PMID:13680368 doi:10.1007/s00438-003-0920-5
  6. Petrakis TG, Wittschieben BO, Svejstrup JQ. Molecular architecture, structure-function relationship, and importance of the Elp3 subunit for the RNA binding of holo-elongator. J Biol Chem. 2004 Jul 30;279(31):32087-92. Epub 2004 May 11. PMID:15138274 doi:10.1074/jbc.M403361200
  7. Huang B, Johansson MJ, Bystrom AS. An early step in wobble uridine tRNA modification requires the Elongator complex. RNA. 2005 Apr;11(4):424-36. PMID:15769872 doi:11/4/424
  8. Otero G, Fellows J, Li Y, de Bizemont T, Dirac AM, Gustafsson CM, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator, a multisubunit component of a novel RNA polymerase II holoenzyme for transcriptional elongation. Mol Cell. 1999 Jan;3(1):109-18. PMID:10024884
  9. Frohloff F, Fichtner L, Jablonowski D, Breunig KD, Schaffrath R. Saccharomyces cerevisiae Elongator mutations confer resistance to the Kluyveromyces lactis zymocin. EMBO J. 2001 Apr 17;20(8):1993-2003. PMID:11296232 doi:10.1093/emboj/20.8.1993
  10. Krogan NJ, Greenblatt JF. Characterization of a six-subunit holo-elongator complex required for the regulated expression of a group of genes in Saccharomyces cerevisiae. Mol Cell Biol. 2001 Dec;21(23):8203-12. PMID:11689709 doi:10.1128/MCB.21.23.8203-8212.2001
  11. Winkler GS, Kristjuhan A, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator is a histone H3 and H4 acetyltransferase important for normal histone acetylation levels in vivo. Proc Natl Acad Sci U S A. 2002 Mar 19;99(6):3517-22. PMID:11904415 doi:10.1073/pnas.022042899
  12. Klassen R, Meinhardt F. Structural and functional analysis of the killer element pPin1-3 from Pichia inositovora. Mol Genet Genomics. 2003 Nov;270(2):190-9. Epub 2003 Sep 9. PMID:13680368 doi:10.1007/s00438-003-0920-5
  13. Huang B, Johansson MJ, Bystrom AS. An early step in wobble uridine tRNA modification requires the Elongator complex. RNA. 2005 Apr;11(4):424-36. PMID:15769872 doi:11/4/424
  14. Otero G, Fellows J, Li Y, de Bizemont T, Dirac AM, Gustafsson CM, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator, a multisubunit component of a novel RNA polymerase II holoenzyme for transcriptional elongation. Mol Cell. 1999 Jan;3(1):109-18. PMID:10024884
  15. Frohloff F, Fichtner L, Jablonowski D, Breunig KD, Schaffrath R. Saccharomyces cerevisiae Elongator mutations confer resistance to the Kluyveromyces lactis zymocin. EMBO J. 2001 Apr 17;20(8):1993-2003. PMID:11296232 doi:10.1093/emboj/20.8.1993
  16. Krogan NJ, Greenblatt JF. Characterization of a six-subunit holo-elongator complex required for the regulated expression of a group of genes in Saccharomyces cerevisiae. Mol Cell Biol. 2001 Dec;21(23):8203-12. PMID:11689709 doi:10.1128/MCB.21.23.8203-8212.2001
  17. Winkler GS, Kristjuhan A, Erdjument-Bromage H, Tempst P, Svejstrup JQ. Elongator is a histone H3 and H4 acetyltransferase important for normal histone acetylation levels in vivo. Proc Natl Acad Sci U S A. 2002 Mar 19;99(6):3517-22. PMID:11904415 doi:10.1073/pnas.022042899
  18. Klassen R, Meinhardt F. Structural and functional analysis of the killer element pPin1-3 from Pichia inositovora. Mol Genet Genomics. 2003 Nov;270(2):190-9. Epub 2003 Sep 9. PMID:13680368 doi:10.1007/s00438-003-0920-5
  19. Huang B, Johansson MJ, Bystrom AS. An early step in wobble uridine tRNA modification requires the Elongator complex. RNA. 2005 Apr;11(4):424-36. PMID:15769872 doi:11/4/424
  20. Lin Z, Zhao W, Diao W, Xie X, Wang Z, Zhang J, Shen Y, Long J. Crystal structure of elongator subcomplex Elp4-6. J Biol Chem. 2012 Jun 15;287(25):21501-8. Epub 2012 May 2. PMID:22556426 doi:http://dx.doi.org/10.1074/jbc.M112.341560

4ejs, resolution 2.61Å

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