Primary Literature
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- Liu M, et al. (2024) Three-dimensional architecture of ESCRT-III flat spirals on the membrane. Proc Natl Acad Sci U S A 121(20):e2319115121 PMID: 38709931
- Alsleben S and Kölling R (2022) Vps68 cooperates with ESCRT-III in intraluminal vesicle formation. J Cell Sci 135(10) PMID: 35445263
- Buysse D, et al. (2022) Bro1 binds the Vps20 subunit of ESCRT-III and promotes ESCRT-III regulation by Doa4. Traffic 23(2):109-119 PMID: 34908216
- Liao PC and Pon LA (2022) Lipid droplets in stress protection: distinct mechanisms of lipid droplet microautophagy. Autophagy Rep 1(1):197-200 PMID: 37840550
- Tasnin MN, et al. (2022) The PI3 Kinase Complex II-PI3P-Vps27 Axis on Vacuolar Membranes is Critical for Microautophagy Induction and Nutrient Stress Adaptation. J Mol Biol 434(2):167360 PMID: 34798133
- Banjade S, et al. (2021) Design principles of the ESCRT-III Vps24-Vps2 module. Elife 10 PMID: 34028356
- Isono E (2021) ESCRT Is a Great Sealer: Non-Endosomal Function of the ESCRT Machinery in Membrane Repair and Autophagy. Plant Cell Physiol 62(5):766-774 PMID: 33768242
- Koch-Bojalad BA, et al. (2021) Forever young: the key to rejuvenation during gametogenesis. Curr Genet 67(2):231-235 PMID: 33247310
- Pashkova N, et al. (2021) Interactions of ubiquitin and CHMP5 with the V domain of HD-PTP reveals role for regulation of Vps4 ATPase. Mol Biol Cell 32(22):ar42 PMID: 34586919
- Tseng CC, et al. (2021) Bro1 stimulates Vps4 to promote intralumenal vesicle formation during multivesicular body biogenesis. J Cell Biol 220(8) PMID: 34160559
- Wu Z, et al. (2021) The ESCRT-III complex contributes to macromitophagy in yeast. Traffic 22(8):258-273 PMID: 34089296
- Yang X, et al. (2021) ESCRT, not intralumenal fragments, sorts ubiquitinated vacuole membrane proteins for degradation. J Cell Biol 220(8) PMID: 34047770
- Buysse D, et al. (2020) The ubiquitin hydrolase Doa4 directly binds Snf7 to inhibit recruitment of ESCRT-III remodeling factors in <i>S. cerevisiae</i>. J Cell Sci 133(8) PMID: 32184262
- Capella M, et al. (2020) ESCRT recruitment by the <i>S. cerevisiae</i> inner nuclear membrane protein Heh1 is regulated by Hub1-mediated alternative splicing. J Cell Sci 133(24) PMID: 33262311
- Huber ST, et al. (2020) Structure and assembly of ESCRT-III helical Vps24 filaments. Sci Adv 6(34):eaba4897 PMID: 32875105
- Jorgensen JR, et al. (2020) ESCRT-III and ER-PM contacts maintain lipid homeostasis. Mol Biol Cell 31(12):1302-1313 PMID: 32267208
- Koch BA, et al. (2020) The ESCRT-III complex is required for nuclear pore complex sequestration and regulates gamete replicative lifespan in budding yeast meiosis. Nucleus 11(1):219-236 PMID: 32893723
- Morshed S, et al. (2020) TORC1 regulates ESCRT-0 complex formation on the vacuolar membrane and microautophagy induction in yeast. Biochem Biophys Res Commun 522(1):88-94 PMID: 31740006
- Morshed S, et al. (2020) ESCRT machinery plays a role in microautophagy in yeast. BMC Mol Cell Biol 21(1):70 PMID: 33028189
- Remec Pavlin M and Hurley JH (2020) The ESCRTs - converging on mechanism. J Cell Sci 133(18) PMID: 32938689
- Schmidt O, et al. (2020) TOR complex 2 (TORC2) signaling and the ESCRT machinery cooperate in the protection of plasma membrane integrity in yeast. J Biol Chem 295(34):12028-12044 PMID: 32611771
- Banjade S, et al. (2019) Electrostatic lateral interactions drive ESCRT-III heteropolymer assembly. Elife 8 PMID: 31246173
- Banjade S, et al. (2019) Genetic and Biochemical Analyses of Yeast ESCRT. Methods Mol Biol 1998:105-116 PMID: 31250297
- Brune T, et al. (2019) Interactions in the ESCRT-III network of the yeast Saccharomyces cerevisiae. Curr Genet 65(2):607-619 PMID: 30506264
- Heinzle C, et al. (2019) Comprehensive analysis of yeast ESCRT-III composition in single ESCRT-III deletion mutants. Biochem J 476(14):2031-2046 PMID: 31273031
- Cheng J, et al. (2018) Functional analysis of MoSnf7 in Magnaporthe oryzae. Fungal Genet Biol 121:29-45 PMID: 30240788
- Fruhmann G, et al. (2018) The Impact of ESCRT on Aβ<sub>1-42</sub> Induced Membrane Lesions in a Yeast Model for Alzheimer's Disease. Front Mol Neurosci 11:406 PMID: 30455629
- Mast FD, et al. (2018) ESCRT-III is required for scissioning new peroxisomes from the endoplasmic reticulum. J Cell Biol 217(6):2087-2102 PMID: 29588378
- Rodrigues J and Lydall D (2018) Cis and trans interactions between genes encoding PAF1 complex and ESCRT machinery components in yeast. Curr Genet 64(5):1105-1116 PMID: 29564528
- Saha N, et al. (2018) The minimal ESCRT machinery of Giardia lamblia has altered inter-subunit interactions within the ESCRT-II and ESCRT-III complexes. Eur J Cell Biol 97(1):44-62 PMID: 29224850
- Stoten CL and Carlton JG (2018) ESCRT-dependent control of membrane remodelling during cell division. Semin Cell Dev Biol 74:50-65 PMID: 28843980
- Adell MAY, et al. (2017) Recruitment dynamics of ESCRT-III and Vps4 to endosomes and implications for reverse membrane budding. Elife 6 PMID: 29019322
- Banh BT, et al. (2017) Yeast dynamin interaction with ESCRT proteins at the endosome. Cell Biol Int 41(5):484-494 PMID: 28185357
- Gu M, et al. (2017) LEM2 recruits CHMP7 for ESCRT-mediated nuclear envelope closure in fission yeast and human cells. Proc Natl Acad Sci U S A 114(11):E2166-E2175 PMID: 28242692
- Han H, et al. (2017) The AAA ATPase Vps4 binds ESCRT-III substrates through a repeating array of dipeptide-binding pockets. Elife 6 PMID: 29165244
- Johnson N, et al. (2017) Regulation of yeast ESCRT-III membrane scission activity by the Doa4 ubiquitin hydrolase. Mol Biol Cell 28(5):661-672 PMID: 28057764
- Kovalev N, et al. (2017) The role of co-opted ESCRT proteins and lipid factors in protection of tombusviral double-stranded RNA replication intermediate against reconstituted RNAi in yeast. PLoS Pathog 13(7):e1006520 PMID: 28759634
- Monroe N, et al. (2017) Structural basis of protein translocation by the Vps4-Vta1 AAA ATPase. Elife 6 PMID: 28379137
- Sun S, et al. (2017) Cryo-EM structures of the ATP-bound Vps4<sup>E233Q</sup> hexamer and its complex with Vta1 at near-atomic resolution. Nat Commun 8:16064 PMID: 28714467
- Xia H, et al. (2017) Identification and Characterization of BmVta1, a Bombyx mori (Lepidoptera: Bombycidae) Homologue for Vta1 That is Up-Regulated in Development. J Insect Sci 17(3) PMID: 28973578
- Curwin AJ, et al. (2016) ESCRT-III drives the final stages of CUPS maturation for unconventional protein secretion. Elife 5 PMID: 27115345
- Kojima R, et al. (2016) Structural Fine-Tuning of MIT-Interacting Motif 2 (MIM2) and Allosteric Regulation of ESCRT-III by Vps4 in Yeast. J Mol Biol 428(11):2392-2404 PMID: 27075672
- Kovalev N, et al. (2016) Role of Viral RNA and Co-opted Cellular ESCRT-I and ESCRT-III Factors in Formation of Tombusvirus Spherules Harboring the Tombusvirus Replicase. J Virol 90(7):3611-26 PMID: 26792735
- McMillan BJ, et al. (2016) Electrostatic Interactions between Elongated Monomers Drive Filamentation of Drosophila Shrub, a Metazoan ESCRT-III Protein. Cell Rep 16(5):1211-1217 PMID: 27452459
- Tang S, et al. (2016) ESCRT-III activation by parallel action of ESCRT-I/II and ESCRT-0/Bro1 during MVB biogenesis. Elife 5 PMID: 27074665
- Webster BM, et al. (2016) Chm7 and Heh1 collaborate to link nuclear pore complex quality control with nuclear envelope sealing. EMBO J 35(22):2447-2467 PMID: 27733427
- Yang H, et al. (2016) Overexpression of CHMP7 from rapeseed and Arabidopsis causes dwarfism and premature senescence in Arabidopsis. J Plant Physiol 204:16-26 PMID: 27497741
- Bauer I, et al. (2015) Evidence for a Nonendosomal Function of the Saccharomyces cerevisiae ESCRT-III-Like Protein Chm7. Genetics 201(4):1439-52 PMID: 26510789
- Carlson LA, et al. (2015) ESCRT Filaments as Spiral Springs. Dev Cell 35(4):397-8 PMID: 26609952
- Eikenes ÅH, et al. (2015) ALIX and ESCRT-III coordinately control cytokinetic abscission during germline stem cell division in vivo. PLoS Genet 11(1):e1004904 PMID: 25635693
- Han H, et al. (2015) Binding of Substrates to the Central Pore of the Vps4 ATPase Is Autoinhibited by the Microtubule Interacting and Trafficking (MIT) Domain and Activated by MIT Interacting Motifs (MIMs). J Biol Chem 290(21):13490-9 PMID: 25833946
- Mageswaran SK, et al. (2015) Constitutively active ESCRT-II suppresses the MVB-sorting phenotype of ESCRT-0 and ESCRT-I mutants. Mol Biol Cell 26(3):554-68 PMID: 25501366
- Tang S, et al. (2015) Structural basis for activation, assembly and membrane binding of ESCRT-III Snf7 filaments. Elife 4 PMID: 26670543
- Tan J, et al. (2015) Conformational Changes in the Endosomal Sorting Complex Required for the Transport III Subunit Ist1 Lead to Distinct Modes of ATPase Vps4 Regulation. J Biol Chem 290(50):30053-65 PMID: 26515066
- Webster BM and Lusk CP (2015) ESCRTs breach the nuclear border. Nucleus 6(3):197-202 PMID: 25942571
- Wolters N and Amerik A (2015) The N-terminal domains determine cellular localization and functions of the Doa4 and Ubp5 deubiquitinating enzymes. Biochem Biophys Res Commun 467(3):570-6 PMID: 26427873
- Yang B, et al. (2015) Vps4 disassembles an ESCRT-III filament by global unfolding and processive translocation. Nat Struct Mol Biol 22(6):492-8 PMID: 25938660
- Adell MA, et al. (2014) Coordinated binding of Vps4 to ESCRT-III drives membrane neck constriction during MVB vesicle formation. J Cell Biol 205(1):33-49 PMID: 24711499
- Barajas D, et al. (2014) Noncanonical role for the host Vps4 AAA+ ATPase ESCRT protein in the formation of Tomato bushy stunt virus replicase. PLoS Pathog 10(4):e1004087 PMID: 24763736
- Davies BA, et al. (2014) Vps4 stimulatory element of the cofactor Vta1 contacts the ATPase Vps4 α7 and α9 to stimulate ATP hydrolysis. J Biol Chem 289(41):28707-18 PMID: 25164817
- Peñalva MA, et al. (2014) Liaison alcaline: Pals entice non-endosomal ESCRTs to the plasma membrane for pH signaling. Curr Opin Microbiol 22:49-59 PMID: 25460796
- Reyes FC, et al. (2014) A novel endosomal sorting complex required for transport (ESCRT) component in Arabidopsis thaliana controls cell expansion and development. J Biol Chem 289(8):4980-8 PMID: 24385429
- Ali N, et al. (2013) Recruitment of UBPY and ESCRT exchange drive HD-PTP-dependent sorting of EGFR to the MVB. Curr Biol 23(6):453-61 PMID: 23477725
- Buchkovich NJ, et al. (2013) Essential N-terminal insertion motif anchors the ESCRT-III filament during MVB vesicle formation. Dev Cell 27(2):201-214 PMID: 24139821
- McCullough J, et al. (2013) Membrane fission reactions of the mammalian ESCRT pathway. Annu Rev Biochem 82:663-92 PMID: 23527693
- Norgan AP, et al. (2013) Relief of autoinhibition enhances Vta1 activation of Vps4 via the Vps4 stimulatory element. J Biol Chem 288(36):26147-26156 PMID: 23880759
- Richter CM, et al. (2013) Doa4 function in ILV budding is restricted through its interaction with the Vps20 subunit of ESCRT-III. J Cell Sci 126(Pt 8):1881-90 PMID: 23444383
- Sciskala B and Kölling R (2013) Interaction maps of the Saccharomyces cerevisiae ESCRT-III protein Snf7. Eukaryot Cell 12(11):1538-46 PMID: 24058170
- Shestakova A, et al. (2013) The linker region plays a regulatory role in assembly and activity of the Vps4 AAA ATPase. J Biol Chem 288(37):26810-9 PMID: 23913684
- Bañuelos C, et al. (2012) EhADH112 is a Bro1 domain-containing protein involved in the Entamoeba histolytica multivesicular bodies pathway. J Biomed Biotechnol 2012:657942 PMID: 22500103
- Henne WM, et al. (2012) The endosomal sorting complex ESCRT-II mediates the assembly and architecture of ESCRT-III helices. Cell 151(2):356-71 PMID: 23063125
- Maeda T (2012) The signaling mechanism of ambient pH sensing and adaptation in yeast and fungi. FEBS J 279(8):1407-13 PMID: 22360598
- Morvan J, et al. (2012) Pkh1/2-dependent phosphorylation of Vps27 regulates ESCRT-I recruitment to endosomes. Mol Biol Cell 23(20):4054-64 PMID: 22918958
- Lee JA, et al. (2011) ESCRT-III subunits Snf7-1 and Snf7-2 differentially regulate transmembrane cargos in hESC-derived human neurons. Mol Brain 4:37 PMID: 21975012
- Wemmer M, et al. (2011) Bro1 binding to Snf7 regulates ESCRT-III membrane scission activity in yeast. J Cell Biol 192(2):295-306 PMID: 21263029
- Davies BA, et al. (2010) Coordination of substrate binding and ATP hydrolysis in Vps4-mediated ESCRT-III disassembly. Mol Biol Cell 21(19):3396-408 PMID: 20702581
- Hurley JH and Hanson PI (2010) Membrane budding and scission by the ESCRT machinery: it's all in the neck. Nat Rev Mol Cell Biol 11(8):556-66 PMID: 20588296
- Nickerson DP, et al. (2010) Regulators of Vps4 ATPase activity at endosomes differentially influence the size and rate of formation of intralumenal vesicles. Mol Biol Cell 21(6):1023-32 PMID: 20089837
- Shestakova A, et al. (2010) Assembly of the AAA ATPase Vps4 on ESCRT-III. Mol Biol Cell 21(6):1059-71 PMID: 20110351
- Teis D, et al. (2010) ESCRT-II coordinates the assembly of ESCRT-III filaments for cargo sorting and multivesicular body vesicle formation. EMBO J 29(5):871-83 PMID: 20134403
- Wollert T and Hurley JH (2010) Molecular mechanism of multivesicular body biogenesis by ESCRT complexes. Nature 464(7290):864-9 PMID: 20305637
- Yang D and Hurley JH (2010) Structural role of the Vps4-Vta1 interface in ESCRT-III recycling. Structure 18(8):976-84 PMID: 20696398
- Carlton JG and Martin-Serrano J (2009) The ESCRT machinery: new functions in viral and cellular biology. Biochem Soc Trans 37(Pt 1):195-9 PMID: 19143630
- Fabrikant G, et al. (2009) Computational model of membrane fission catalyzed by ESCRT-III. PLoS Comput Biol 5(11):e1000575 PMID: 19936052
- Ghazi-Tabatabai S, et al. (2009) Evolution and assembly of ESCRTs. Biochem Soc Trans 37(Pt 1):151-5 PMID: 19143621
- Hanson PI, et al. (2009) Cell biology of the ESCRT machinery. Curr Opin Cell Biol 21(4):568-74 PMID: 19560911
- Lata S, et al. (2009) Structure and function of ESCRT-III. Biochem Soc Trans 37(Pt 1):156-60 PMID: 19143622
- Malerød L and Stenmark H (2009) ESCRTing membrane deformation. Cell 136(1):15-7 PMID: 19135881
- Saksena S, et al. (2009) Functional reconstitution of ESCRT-III assembly and disassembly. Cell 136(1):97-109 PMID: 19135892
- Stuffers S, et al. (2009) ESCRT proteins in physiology and disease. Exp Cell Res 315(9):1619-26 PMID: 19013455
- Weiss P, et al. (2009) Analysis of the dual function of the ESCRT-III protein Snf7 in endocytic trafficking and in gene expression. Biochem J 424(1):89-97 PMID: 19725809
- Wollert T, et al. (2009) Membrane scission by the ESCRT-III complex. Nature 458(7235):172-7 PMID: 19234443
- Xiao J, et al. (2009) Structural basis of Ist1 function and Ist1-Did2 interaction in the multivesicular body pathway and cytokinesis. Mol Biol Cell 20(15):3514-24 PMID: 19477918
- Azmi IF, et al. (2008) ESCRT-III family members stimulate Vps4 ATPase activity directly or via Vta1. Dev Cell 14(1):50-61 PMID: 18194652
- Doyotte A, et al. (2008) The Bro1-related protein HD-PTP/PTPN23 is required for endosomal cargo sorting and multivesicular body morphogenesis. Proc Natl Acad Sci U S A 105(17):6308-13 PMID: 18434552
- Ghazi-Tabatabai S, et al. (2008) Structure and disassembly of filaments formed by the ESCRT-III subunit Vps24. Structure 16(9):1345-56 PMID: 18786397
- Hurley JH and Yang D (2008) MIT domainia. Dev Cell 14(1):6-8 PMID: 18194647
- Rue SM, et al. (2008) Novel Ist1-Did2 complex functions at a late step in multivesicular body sorting. Mol Biol Cell 19(2):475-84 PMID: 18032584
- Teis D, et al. (2008) Ordered assembly of the ESCRT-III complex on endosomes is required to sequester cargo during MVB formation. Dev Cell 15(4):578-89 PMID: 18854142
- Vajjhala PR, et al. (2008) The Vps4 C-terminal helix is a critical determinant for assembly and ATPase activity and has elements conserved in other members of the meiotic clade of AAA ATPases. FEBS J 275(7):1427-1449 PMID: 18266866
- Xiao J, et al. (2008) Structural basis of Vta1 function in the multivesicular body sorting pathway. Dev Cell 14(1):37-49 PMID: 18194651
- Yu Z, et al. (2008) Cryo-EM structure of dodecameric Vps4p and its 2:1 complex with Vta1p. J Mol Biol 377(2):364-77 PMID: 18280501
- Galindo A, et al. (2007) PalC, one of two Bro1 domain proteins in the fungal pH signalling pathway, localizes to cortical structures and binds Vps32. Traffic 8(10):1346-64 PMID: 17696968
- Obita T, et al. (2007) Structural basis for selective recognition of ESCRT-III by the AAA ATPase Vps4. Nature 449(7163):735-9 PMID: 17928861
- Stuchell-Brereton MD, et al. (2007) ESCRT-III recognition by VPS4 ATPases. Nature 449(7163):740-4 PMID: 17928862
- Tatsumi A, et al. (2007) Aggregation of endosomal-vacuolar compartments in the Aovps24-deleted strain in the filamentous fungus Aspergillus oryzae. Biochem Biophys Res Commun 362(2):474-9 PMID: 17719006
- Williams RL and Urbé S (2007) The emerging shape of the ESCRT machinery. Nat Rev Mol Cell Biol 8(5):355-68 PMID: 17450176
- Xiao J, et al. (2007) Structural characterization of the ATPase reaction cycle of endosomal AAA protein Vps4. J Mol Biol 374(3):655-70 PMID: 17949747
- Amerik A, et al. (2006) A conserved late endosome-targeting signal required for Doa4 deubiquitylating enzyme function. J Cell Biol 175(5):825-35 PMID: 17145966
- Langelier C, et al. (2006) Human ESCRT-II complex and its role in human immunodeficiency virus type 1 release. J Virol 80(19):9465-80 PMID: 16973552
- Lottridge JM, et al. (2006) Vta1p and Vps46p regulate the membrane association and ATPase activity of Vps4p at the yeast multivesicular body. Proc Natl Acad Sci U S A 103(16):6202-7 PMID: 16601096
- Nickerson DP, et al. (2006) Did2 coordinates Vps4-mediated dissociation of ESCRT-III from endosomes. J Cell Biol 175(5):715-20 PMID: 17130288
- Pineda-Molina E, et al. (2006) The crystal structure of the C-terminal domain of Vps28 reveals a conserved surface required for Vps20 recruitment. Traffic 7(8):1007-16 PMID: 16749904
- Shim JH, et al. (2006) CHMP5 is essential for late endosome function and down-regulation of receptor signaling during mouse embryogenesis. J Cell Biol 172(7):1045-56 PMID: 16567502
- Sweeney NT, et al. (2006) The coiled-coil protein shrub controls neuronal morphogenesis in Drosophila. Curr Biol 16(10):1006-11 PMID: 16713958
- Cornet M, et al. (2005) Deletions of endocytic components VPS28 and VPS32 affect growth at alkaline pH and virulence through both RIM101-dependent and RIM101-independent pathways in Candida albicans. Infect Immun 73(12):7977-87 PMID: 16299290
- Kim J, et al. (2005) Structural basis for endosomal targeting by the Bro1 domain. Dev Cell 8(6):937-47 PMID: 15935782
- Scott A, et al. (2005) Structural and mechanistic studies of VPS4 proteins. EMBO J 24(20):3658-69 PMID: 16193069
- Teo H, et al. (2004) ESCRT-II, an endosome-associated complex required for protein sorting: crystal structure and interactions with ESCRT-III and membranes. Dev Cell 7(4):559-69 PMID: 15469844
- Wernimont AK and Weissenhorn W (2004) Crystal structure of subunit VPS25 of the endosomal trafficking complex ESCRT-II. BMC Struct Biol 4(1):10 PMID: 15579210
- Xu W, et al. (2004) Multivesicular body-ESCRT components function in pH response regulation in Saccharomyces cerevisiae and Candida albicans. Mol Biol Cell 15(12):5528-37 PMID: 15371534
- Köhler JR (2003) Mos10 (Vps60) is required for normal filament maturation in Saccharomyces cerevisiae. Mol Microbiol 49(5):1267-85 PMID: 12940986
- Nikko E, et al. (2003) Permease recycling and ubiquitination status reveal a particular role for Bro1 in the multivesicular body pathway. J Biol Chem 278(50):50732-43 PMID: 14523026
- Odorizzi G, et al. (2003) Bro1 is an endosome-associated protein that functions in the MVB pathway in Saccharomyces cerevisiae. J Cell Sci 116(Pt 10):1893-903 PMID: 12668726
- Babst M, et al. (2002) Escrt-III: an endosome-associated heterooligomeric protein complex required for mvb sorting. Dev Cell 3(2):271-82 PMID: 12194857
- Babst M, et al. (2002) Endosome-associated complex, ESCRT-II, recruits transport machinery for protein sorting at the multivesicular body. Dev Cell 3(2):283-9 PMID: 12194858