Anna V Pankratenko1, Anastasia K Atabekova1, Ekaterina A Lazareva1, Viktoriia E Baksheeva2, Oxana A Zhironkina2, Evgeni Yu Zernii2, Robert A Owens3, Andrey G Solovyev2,4, Sergey Y Morozov5,6. 1. Department of Virology, Biological Faculty, Moscow State University, Moscow, 119992, Russia. 2. Belozersky Institute of Physico-Chemical Biology, Moscow State University, Moscow, 119992, Russia. 3. Molecular Plant Pathology Laboratory, USDA-ARS, Beltsville, MD, 20705, USA. 4. Institute of Molecular Medicine, Sechenov First Moscow State Medical University, Moscow, 119991, Russia. 5. Department of Virology, Biological Faculty, Moscow State University, Moscow, 119992, Russia. morozov@genebee.msu.su. 6. Belozersky Institute of Physico-Chemical Biology, Moscow State University, Moscow, 119992, Russia. morozov@genebee.msu.su.
Abstract
MAIN CONCLUSION: The plant-specific 4/1 protein interacts, both in yeast two-hybrid system and in vitro, and co-localizes in plant cells with plant BAP-like protein, the orthologue of human protein BAP31. In yeast two-hybrid system, we identified a number of Nicotiana benthamiana protein interactors of Nt-4/1, the protein known to affect systemic transport of potato spindle tuber viroid. For one of these interactors, an orthologue of human B-cell receptor-associated protein 31 (BAP31) termed plant BAP-like protein (PBL), the ability to interact with Nt-4/1 was studied in greater detail. Analyses of purified proteins expressed in bacterial cells carried out in vitro with the surface plasmon resonance (SPR) spectroscopy revealed that the N. tabacum PBL (NtPBL) was able to interact with Nt-4/1 with high-affinity, and that their complex can form at physiologically relevant concentrations of both proteins. Subcellular localization studies of 4/1-GFP and NtPBL-mRFP transiently co-expressed in plant cells revealed the co-localization of the two fusion proteins in endoplasmic reticulum-associated bodies, suggesting their interaction in vivo. The N-terminal region of the Nt-4/1 protein was found to be required for the specific subcellular targeting of the protein, presumably due to a predicted amphipathic helix mediating association of the Nt-4/1 protein with cell membranes. Additionally, this region was found to contain a trans-activator domain responsible for the Nt-4/1 ability to activate transcription of a reporter gene in yeast.
MAIN CONCLUSION: The plant-specific 4/1 protein interacts, both in yeast two-hybrid system and in vitro, and co-localizes in plant cells with plant BAP-like protein, the orthologue of human protein BAP31. In yeast two-hybrid system, we identified a number of Nicotiana benthamiana protein interactors of Nt-4/1, the protein known to affect systemic transport of potato spindle tuber viroid. For one of these interactors, an orthologue of human B-cell receptor-associated protein 31 (BAP31) termed plant BAP-like protein (PBL), the ability to interact with Nt-4/1 was studied in greater detail. Analyses of purified proteins expressed in bacterial cells carried out in vitro with the surface plasmon resonance (SPR) spectroscopy revealed that the N. tabacum PBL (NtPBL) was able to interact with Nt-4/1 with high-affinity, and that their complex can form at physiologically relevant concentrations of both proteins. Subcellular localization studies of 4/1-GFP and NtPBL-mRFP transiently co-expressed in plant cells revealed the co-localization of the two fusion proteins in endoplasmic reticulum-associated bodies, suggesting their interaction in vivo. The N-terminal region of the Nt-4/1 protein was found to be required for the specific subcellular targeting of the protein, presumably due to a predicted amphipathic helix mediating association of the Nt-4/1 protein with cell membranes. Additionally, this region was found to contain a trans-activator domain responsible for the Nt-4/1 ability to activate transcription of a reporter gene in yeast.
Entities:
Keywords:
BAP31; Endoplasmic reticulum; Plant protein 4/1; Surface plasmon resonance; Transient protein expression; Yeast two-hybrid system
Authors: Andrey G Solovyev; Svetlana S Makarova; Margarita V Remizowa; Hyoun-Sub Lim; John Hammond; Robert A Owens; Lilya Kopertekh; Joachim Schiemann; Sergey Y Morozov Journal: Plant Signal Behav Date: 2013-10
Authors: Etienne Formstecher; Sandra Aresta; Vincent Collura; Alexandre Hamburger; Alain Meil; Alexandra Trehin; Céline Reverdy; Virginie Betin; Sophie Maire; Christine Brun; Bernard Jacq; Monique Arpin; Yohanns Bellaiche; Saverio Bellusci; Philippe Benaroch; Michel Bornens; Roland Chanet; Philippe Chavrier; Olivier Delattre; Valérie Doye; Richard Fehon; Gérard Faye; Thierry Galli; Jean-Antoine Girault; Bruno Goud; Jean de Gunzburg; Ludger Johannes; Marie-Pierre Junier; Vincent Mirouse; Ashim Mukherjee; Dora Papadopoulo; Franck Perez; Anne Plessis; Carine Rossé; Simon Saule; Dominique Stoppa-Lyonnet; Alain Vincent; Michael White; Pierre Legrain; Jérôme Wojcik; Jacques Camonis; Laurent Daviet Journal: Genome Res Date: 2005-02-14 Impact factor: 9.043
Authors: A A Zamyatnin; A G Solovyev; A A Sablina; A A Agranovsky; L Katul; H J Vetten; J Schiemann; A E Hinkkanen; K Lehto; S Yu Morozov Journal: J Gen Virol Date: 2002-03 Impact factor: 3.891
Authors: Sergey Y Morozov; Svetlana S Makarova; Tatyana N Erokhina; Lilya Kopertekh; Joachim Schiemann; Robert A Owens; Andrey G Solovyev Journal: Front Plant Sci Date: 2014-02-25 Impact factor: 5.753