6pe4

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Yeast Vo motor in complex with 1 VopQ moleculeYeast Vo motor in complex with 1 VopQ molecule

Structural highlights

6pe4 is a 16 chain structure with sequence from "oceanomonas_parahaemolytica"_(fujino_et_al._1951)_miyamoto_et_al._1961 "oceanomonas parahaemolytica" (fujino et al. 1951) miyamoto et al. 1961 and Baker's yeast. Full crystallographic information is available from OCA. For a guided tour on the structure components use FirstGlance.
Gene:ACS91_23375 ("Oceanomonas parahaemolytica" (Fujino et al. 1951) Miyamoto et al. 1961)
Resources:FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Function

[VATO_YEAST] Proton-conducting pore forming subunit of the membrane integral V0 complex of vacuolar ATPase. V-ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells. [VA0D_YEAST] Vacuolar ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells. The active enzyme consists of a catalytic V1 domain attached to an integral membrane V0 proton pore complex. This subunit is a non-integral membrane component of the membrane pore domain and is required for proper assembly of the V0 sector. Might be involved in the regulated assembly of V1 subunits onto the membrane sector or alternatively may prevent the passage of protons through V0 pores. [VATL2_YEAST] Proton-conducting pore forming subunit of the membrane integral V0 complex of vacuolar ATPase. V-ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells.[1] [2] [VOA1_YEAST] Functions with VMA21 in assembly of the integral membrane sector (also called V0 complex) of the V-ATPase in the endoplasmic reticulum.[3] [VATL1_YEAST] Proton-conducting pore forming subunit of the membrane integral V0 complex of vacuolar ATPase. V-ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells. It is an electrogenic proton pump that generates a proton motive force of 180 mv, inside positive and acidic, in the vacuolar membrane vesicles. [VPH1_YEAST] Subunit of the integral membrane V0 complex of vacuolar ATPase essential for assembly and catalytic activity. Is present only in vacuolar V-ATPase complexes. Enzymes containing this subunit have a 4-fold higher ratio of proton transport to ATP hydrolysis than complexes containing the Golgi/endosomal isoform and undergo reversible dissociation of V1 and V0 in response to glucose depletion. V-ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells.[4] [5] [6] [VA0E_YEAST] Subunit of the integral membrane V0 complex of vacuolar ATPase. V-ATPase is responsible for acidifying a variety of intracellular compartments in eukaryotic cells.[7]

Publication Abstract from PubMed

The Vibrio parahaemolyticus T3SS effector VopQ targets host-cell V-ATPase, resulting in blockage of autophagic flux and neutralization of acidic compartments. Here, we report the cryo-EM structure of VopQ bound to the Vo subcomplex of the V-ATPase. VopQ inserts into membranes and forms an unconventional pore while binding directly to subunit c of the V-ATPase membrane-embedded subcomplex Vo. We show that VopQ arrests yeast growth in vivo by targeting the immature Vo subcomplex in the endoplasmic reticulum (ER), thus providing insight into the observation that VopQ kills cells in the absence of a functional V-ATPase. VopQ is a bacterial effector that has been discovered to inhibit a host-membrane megadalton complex by coincidentally binding its target, inserting into a membrane and disrupting membrane potential. Collectively, our results reveal a mechanism by which bacterial effectors modulate host cell biology and provide an invaluable tool for future studies on V-ATPase-mediated membrane fusion and autophagy.

A distinct inhibitory mechanism of the V-ATPase by Vibrio VopQ revealed by cryo-EM.,Peng W, Casey AK, Fernandez J, Carpinone EM, Servage KA, Chen Z, Li Y, Tomchick DR, Starai VJ, Orth K Nat Struct Mol Biol. 2020 May 18. pii: 10.1038/s41594-020-0429-1. doi:, 10.1038/s41594-020-0429-1. PMID:32424347[8]

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

See Also

References

  1. Umemoto N, Ohya Y, Anraku Y. VMA11, a novel gene that encodes a putative proteolipid, is indispensable for expression of yeast vacuolar membrane H(+)-ATPase activity. J Biol Chem. 1991 Dec 25;266(36):24526-32. PMID:1837023
  2. Hirata R, Graham LA, Takatsuki A, Stevens TH, Anraku Y. VMA11 and VMA16 encode second and third proteolipid subunits of the Saccharomyces cerevisiae vacuolar membrane H+-ATPase. J Biol Chem. 1997 Feb 21;272(8):4795-803. PMID:9030535
  3. Ryan M, Graham LA, Stevens TH. Voa1p functions in V-ATPase assembly in the yeast endoplasmic reticulum. Mol Biol Cell. 2008 Dec;19(12):5131-42. Epub 2008 Sep 17. PMID:18799613 doi:http://dx.doi.org/E08-06-0629
  4. Kawasaki-Nishi S, Nishi T, Forgac M. Yeast V-ATPase complexes containing different isoforms of the 100-kDa a-subunit differ in coupling efficiency and in vivo dissociation. J Biol Chem. 2001 May 25;276(21):17941-8. Epub 2001 Mar 2. PMID:11278748 doi:http://dx.doi.org/10.1074/jbc.M010790200
  5. Manolson MF, Proteau D, Jones EW. Evidence for a conserved 95-120 kDa subunit associated with and essential for activity of V-ATPases. J Exp Biol. 1992 Nov;172:105-12. PMID:1491220
  6. Leng XH, Manolson MF, Liu Q, Forgac M. Site-directed mutagenesis of the 100-kDa subunit (Vph1p) of the yeast vacuolar (H+)-ATPase. J Biol Chem. 1996 Sep 13;271(37):22487-93. PMID:8798414
  7. Davis-Kaplan SR, Ward DM, Shiflett SL, Kaplan J. Genome-wide analysis of iron-dependent growth reveals a novel yeast gene required for vacuolar acidification. J Biol Chem. 2004 Feb 6;279(6):4322-9. Epub 2003 Nov 21. PMID:14594803 doi:http://dx.doi.org/10.1074/jbc.M310680200
  8. Peng W, Casey AK, Fernandez J, Carpinone EM, Servage KA, Chen Z, Li Y, Tomchick DR, Starai VJ, Orth K. A distinct inhibitory mechanism of the V-ATPase by Vibrio VopQ revealed by cryo-EM. Nat Struct Mol Biol. 2020 May 18. pii: 10.1038/s41594-020-0429-1. doi:, 10.1038/s41594-020-0429-1. PMID:32424347 doi:http://dx.doi.org/10.1038/s41594-020-0429-1

6pe4, resolution 3.10Å

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