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111 publication(s)
  • HEINLEIN M.

    Thomas Hohn (1938-2023)

    Virologie, , 2024. | DOI : 10.1684/vir.2024.1044DOI logo

  • HEINLEIN M.

    Thomas Hohn (1938-2023) [french]

    Virologie, , 2024. | DOI : 10.1684/vir.2024.1043DOI logo

  • ZHENG Y., MOORLACH B., JAKOBS-SCHÖNWANDT D., PATEL A., PASTACALDI C., JACOB S., SEDE A.R., HEINLEIN M., PORANEN M.M., KOGEL K.H. and LADERA-CARMONA M.

    Exogenous dsRNA-Mediated Control of Rice Blast Fungus Involves Sequence-Specific RNAi and Sequence-Unspecific Fungal Stress Responses

    Research Square, , 2024. | DOI : 10.21203/rs.3.rs-4538504/v1DOI logo

  • WANG S., DUAN X., WANG S., LI H., ZHANG Y., XU C., YU Y., XIANG L., JIANG F., HEINLEIN M., LI T. and ZHANG W.

    A chaperonin containing T-complex polypeptide-1 facilitates the formation of the PbWoxT1-PbPTB3 ribonucleoprotein complex for long-distance RNA trafficking in Pyrus betulaefolia

    New Phytologist, 238(3):1115-1128, 2023. | DOI : 10.1111/nph.18789DOI logo

  • HUANG C., SEDE A.R., ELVIRA-GONZALEZ L.., YAN Y., RODRIGUEZ M., MUTTERER J., BOUTANT E., SHAN L. and HEINLEIN M.

    dsRNA-induced immunity targets plasmodesmata and is suppressed by viral movement proteins

    Plant Cell, 35(10):3845-3869, 2023. | DOI : 10.1093/plcell/koad176DOI logo

  • HUANG C., SEDE A.R., ELVIRA-GONZALEZ L.., YAN Y., RODRIGUEZ M., MUTTERER J., BOUTANT E., SHAN L. and HEINLEIN M.

    dsRNA-induced immunity targets plasmodesmata and is suppressed by viral movement proteins

    Plant Cell, , 2023. | DOI : 10.1101/2022.11.21.517408DOI logo

  • BENITEZ-ALFONSO Y. and HEINLEIN M.

    Plasmodesmata - Methods and Protocols, 2nd edition

    Methods in Molecular Biology, Humana Press, New York, , 2022.

  • HUANG C. and HEINLEIN M.

    Function of plasmodesmata in the interaction of plants with microbes and viruses

    Methods in Molecular Biology, 2457:23-54, 2022. | DOI : 10.1007/978-1-0716-2132-5_2DOI logo

  • HUANG C., MUTTERER J. and HEINLEIN M.

    In vivo aniline blue staining and semi-automated quantification of callose deposition at plasmodesmata

    Methods in Molecular Biology, 2457:151-165, 2022. | DOI : 10.1007/978-1-0716-2132-5_9DOI logo

  • LAZAREVA E., ATABEKOVA A.K., LEZZHOV A.A., MOROZOV S.Y., HEINLEIN M. and SOLOVYEV A.G.

    Virus genome-based reporter for analyzing viral movement proteins and plasmodesmata permeability

    Methods in Molecular Biology, 2457:333-349, 2022. | DOI : 10.1007/978-1-0716-2132-5_23DOI logo

  • PEÑA E.J. and HEINLEIN M.

    In vivo visualization of mobile mRNA particles in plants using BglG

    Methods in Molecular Biology, 2457:411-426, 2022. | DOI : 10.1007/978-1-0716-2132-5_28DOI logo

  • BURCH-SMITH T.M., HEINLEIN M. and LEE J.Y.

    Editorial on the Research Topic Plasmodesmata: Recent Progress and New Insights

    Frontiers in Plant Science, 13, 2022. | DOI : 10.3389/fpls.2022.840821DOI logo

  • ATABEKOVA A.K., LAZAREVA E., LEZZHOV A.A., SOLOVIEVA A.D., GOLYSHEV S.A., SKULACHEV B.I., SOLOVYEV I.D., SAVITSKY A.P., HEINLEIN M., MOROZOV S.Y. and SOLOVYEV A.G.

    Interaction between Movement Proteins of Hibiscus green spot virus

    Viruses, 14(12):2742, 2022. | DOI : 10.3390/v14122742DOI logo

  • HEINLEIN M.

    Movement of Viruses in Plants

    In: Elsevier (ed) Enzyclopedia of Virology, Fourth Edition, chapter 3. Dennis Bamford and Mark Zuckerman Academic Press., 2021. | DOI : 10.1016/B978-0-12-809633-8.21258-2DOI logo

  • AMARI K., HUANG C. and HEINLEIN M.

    Potential impact of global warming on virus propagation in infected plants and agricultural productivity.

    Frontiers in Plant Science, in press, 2021. | DOI : 10.3389/fpls.2021.649768DOI logo

  • LAZAREVA E., LEZZHOV A.A., CHERGINTSEV D.A., GOLYSHEV S.A., DOLJA V.V., MOROZOV S.Y., HEINLEIN M. and SOLOVYEV A.G.

    Reticulon-like properties of a plant virus-encoded movement protein

    New Phytologist, 229(2):1036-1066, 2020. | DOI : 10.1111/nph.16905DOI logo

  • PEÑA E.J. and HEINLEIN M.

    Visualization of transiently expressed mRNA in plants using MS2

    In: Heinlein M. (ed) RNA tagging. Methods in Molecular Biology, vol 2166. Humana New York, NY., 2020. | DOI : 10.1007/978-1-0716-0712-1_6DOI logo

  • PEÑA E.J., ROBLES LUNA G. and HEINLEIN M.

    In vivo imaging of tagged mRNA in plant tissues using the bacterial transcriptional antiterminator BglG

    Plant Journal, 105(1):271-281, 2020. | DOI : 10.1111/tpj.15035DOI logo

  • PITZALIS N., AMARI K., GRAINDORGE S., PFLIEGER D., DONAIRE L., WASSENEGGER M., LLAVE C. and HEINLEIN M.

    Turnip mosaic virus in oilseed rape activates networks of sRNA-mediated interactions between viral and host genomes

    Communications Biology, 3:702, 2020. | DOI : 10.1038/s42003-020-01425-yDOI logo

  • LAZAREVA E., LEZZHOV A.A., DOLJA V.V., MOROZOV S.Y., HEINLEIN M. and SOLOVYEV A.G.

    Constriction of endoplasmic reticulum tubules by the viral movement protein BMB2 is associated with local BMB2 anchorage at constriction sites

    Plant Signaling and Behavior, 16(3):e1856547, 2020. | DOI : 10.1080/15592324.2020.1856547DOI logo

  • NIEHL A. and HEINLEIN M.

    Perception of double-stranded RNA in plant antiviral immunity

    Molecular Plant Pathology, 20(9):1203-1210, 2019. | DOI : doi: 10.1111/mpp.12798DOI logo

  • YANG L., PERRERA V., SAPLAOURA E., APELT F., BAHIN M., KRAMDI A., OLAS J., MÜLLER-RÖBER B., SOKOLOWSKA E., ZHANG W., LI R., PITZALIS N., HEINLEIN M., ZHANG S., GENOVESIO A., COLOT V. and KRAGLER F.

    m5C methylation guides systemic transport of messenger RNA over graft junctions in plants

    Current Biology, 29(15):2465-2476, 2019. | DOI : 10.1016/j.cub.2019.06.042DOI logo

  • GAMPER C., SPENLÉ C., BOSCÁ S., VAN DER HEYDEN M., ERHARDT M., OREND G., BAGNARD D. and HEINLEIN M.

    Functionalized Tobacco mosaic virus Coat Protein Monomers and Oligomers as Nanocarriers for Anti-Cancer Peptides

    Cancers, 11:1609, 2019. | DOI : 10.3390/cancers11101609DOI logo

  • NIEHL A., SOININEN M., PORANEN M.M. and HEINLEIN M.

    Synthetic biology approach for plant protection using dsRNA.

    Plant Biotechnology Journal, 16:1679-1687, 2018. | DOI : 10.1111/pbi.12904DOI logo

  • KØRNER C.J., PITZALIS N., PEÑA E.J., ERHARDT M., VAZQUEZ F. and HEINLEIN M.

    Crosstalk between PTGS and TGS pathways in natural antiviral immunity and disease recovery

    Nature Plants, 4:157-164, 2018. | DOI : 10.1038/s41477-018-0117-xDOI logo

  • ROBLES LUNA G., PEÑA E.J., BORNIEGO B., HEINLEIN M. and GARCIA M.L.

    Citrus psorosis virus movement protein contains an aspartic protease required for autocleavage and the formation of tubule-like structures at plasmodesmata.

    Journal of Virology, 92:e00355-18, 2018. | DOI : 10.1128/JVI.00355-18DOI logo

  • PITZALIS N. and HEINLEIN M.

    The roles of membranes and associated cytoskeleton in plant virus replication and cell-to-cell movement

    Journal of Experimental Botany, 69:117-132, 2017. | DOI : 10.1093/jxb/erx334DOI logo

  • LAZAREVA E., LEZZHOV A., GOLYSHEV S., MOROZOV S., HEINLEIN M. and SOLOVYEV A.

    Similarities in intracellular transport of plant viral movement proteins BMB2 and TGB3

    Journal of General Virology, 98:2379-2391, 2017. | DOI : 10.1099/jgv.0.000914DOI logo

  • NIEHL A., WYRSCH I., BOLLER T. and HEINLEIN M.

    Double-stranded RNA induces a pattern-triggered immune signalling pathway in plants

    New Phytologist, 211(3):1008-1019, 2016. | DOI : 10.1111/nph.13944DOI logo

  • NIEHL A., APPAIX F., BOSCA S., VAN DER SANDEN B., NICOUD J.F., BOLZE F. and HEINLEIN M.

    Fluorescent Tobacco mosaic virus-derived bio-nanoparticles for intravital two-photon imaging

    Frontiers in Plant Science, 6:1244, 2016. | DOI : 10.3389/fpls.2015.01244DOI logo

  • LAZAREVA E.A., LEZZHOV A.A., KOMAROVA T.V., MOROZOV S.Y., HEINLEIN M. and SOLOVYEV A.G.

    A novel block of plant virus movement genes

    Molecular Plant Pathology, 18(5):611-624, 2016. | DOI : 10.1111/mpp.12418DOI logo

  • GUIU-ARAGONÉS C., SÁNCHEZ-PINA M.A., DÍAZ-PENDÓN J., PENA E.J., HEINLEIN M. and MARTÍN-HERNÁNDEZ A.M.

    CMV1 is a gate for Cucumber mosaic virus transport from bundle sheath cells to phloem in melon

    Molecular Plant Pathology, 17(6):973-984, 2016. | DOI : 10.1111/mpp.12351DOI logo

  • PENA E.J. and HEINLEIN M.

    In vivo RNA visualization in plants using MS2 tagging

    Methods in Enzymology, 572:105-22, 2016. | DOI : 10.1016/bs.mie.2016.02.004DOI logo

  • HEINLEIN M.

    Viral transport and interaction with the host cytoskeleton

    In: Klenow, Tatjana (eds) Plant-Virus Interactions: Molecular Biology, Intra-and Intercellular Transport, chapter 2. Springer., 2016.

  • MOSHE A., BELAUSOV E., NIEHL A., HEINLEIN M., CZOSNEK H. and GOROVITS R.

    The Tomato yellow leaf curl virus V2 protein forms aggregates depending on the cytoskeleton integrity and binds viral genomic DNA.

    Scientific Reports, 5(5):09967, 2015. | DOI : 10.1038/srep09967DOI logo

  • BUSCHMANN H., DOLS J., KOPISCHKE S., PENA E.J., ANDRADE-NAVARRO M.A., ZACHGO S., SZYMANSKI D.B., HEINLEIN M., DOONAN J.H. and LLOYD C.W.

    Arabidopsis KCBP interacts with AIR9 but stays in the cortical division zone throughout mitosis via its MyTH4-FERM domain.

    Journal of Cell Science, 128(11):2033-46, 2015. | DOI : 10.1242/jcs.156570DOI logo

  • HEINLEIN M.

    Plant virus replication and movement

    Virology, 479-480:657-671, 2015. | DOI : 10.1016/j.virol.2015.01.025DOI logo

  • PENA E.J., HEINLEIN M. and SAMBADE A.

    In vivo RNA labelling using MS2

    Methods in Molecular Biology, 1217:329-341, 2015. | DOI : 10.1007/978-1-4939-1523-1_21DOI logo

  • HEINLEIN M.

    Plasmodesmata : channels for viruses on the move

    Methods in Molecular Biology, 1217:25-52, 2015. | DOI : 10.1007/978-1-4939-1523-1_2DOI logo

  • AMARI K., DI DONATO M., DOLJA V.V. and HEINLEIN M.

    Myosins VIII and XI play distinct roles in replication and transport of Tobacco mosaic virus.

    PLoS pathogens, 10(10):e1004448, 2014. | DOI : 10.1371/journal.ppat.1004448DOI logo

  • PENA E.J., FERRIOL I., SAMBADE A., BUSCHMANN H., NIEHL A., ELENA S.F., RUBIO L. and HEINLEIN M.

    Experimental plant virus evolution reveals a role of microtubule dynamics and TORTIFOLIA1/SPIRAL2 in RNA trafficking.

    PLoS ONE, 9(8):e105364, 2014. | DOI : 10.1371/journal.pone.0105364DOI logo

  • NIEHL A., PASQUIER A., FERRIOL I., MÉLY Y. and HEINLEIN M.

    Comparison of the Oilseed rape mosaic virus and Tobacco mosaic virus movement proteins (MP) reveal common and dissimilar MP functions for tobamovirus spread.

    Virology, 456-457:43-54, 2014. | DOI : 10.1016/j.virol.2014.03.007DOI logo

  • HEINLEIN M.

    Viral transport and interaction with the host cytoskeleton.

    In: Springer (ed) Plant-virus interactions: Molecular biology, inter- and intercellular transport, T. Kleinow., 2014. | DOI : 10.1007/978-3-319-24589-0DOI logo

  • PENA E.J. and HEINLEIN M.

    Cortical microtubule-associated ER sites: organization centers of cell polarity and communication

    Current Opinion in Plant Biology, 16:764-773, 2013. | DOI : 10.1016/j.pbi.2013.10.002DOI logo

  • NIEHL A., PENA E.J., AMARI K. and HEINLEIN M.

    Microtubules in viral replication and transport.

    Plant Journal, 75(2):290-308, 2013. | DOI : 10.1111/tpj.12134DOI logo

  • NIEHL A., ZHANG Z.J., KUIPER M., PECK S.C. and HEINLEIN M.

    Label-Free Quantitative Proteomic Analysis of Systemic Responses to Local Wounding and Virus Infection in Arabidopsis thaliana.

    Journal of Proteome Research, 12(6):2491-2503, 2013. | DOI : 10.1021/pr3010698DOI logo

  • KORNER C.J., KLAUSER D., NIEHL A., FDOMINGUEZ-FERRERAS A., CHINCHILLA D., BOLLER T., HEINLEIN M. and HANN D.

    The immunity regulator BAK1 contributes to resistance against diverse RNA viruses.

    Molecular Plant-Microbe Interactions, 26(11):1271-1280, 2013. | DOI : 10.1094/MPMI-06-13-0179-RDOI logo

  • ROBLES L.G., PENA E.J., BORNIEGO M., HEINLEIN M. and GARCIA M.L.

    Ophioviruses CPsV and MiLBVV movement protein is encoded in RNA 2 and interacts with the coat protein.

    Virology, 441(2):152-161, 2013. | DOI : 10.1016/j.virol.2013.03.019DOI logo

  • NIEHL A., AMARI K. and HEINLEIN M.

    CDC48 function during TMV infection - regulation of virus movement and replication by degradation ?

    Plant Signaling and Behavior, 8(2):e22865, 2013. | DOI : 10.4161/psb.22865DOI logo

  • NIEHL A., AMARI K., GEREIGE D., BRANDNER K., MÉLY Y. and HEINLEIN M.

    Control of Tobacco Mosaic Virus movement protein fate by CELL-DIVISION-CYCLE Protein 48 (CDC48)

    Plant Physiology, 160(4):2093-2108, 2012. | DOI : 10.1104/pp.112.207399DOI logo

  • PENA E.J. and HEINLEIN M.

    RNA transport during TMV cell-to-cell movement

    Frontiers in Plant Science, 3:193. doi : 10.3389/flps.2012.00193, 2012. | DOI : 10.3389/fpls.2012.00193DOI logo

  • AMARI K., VAZQUEZ F. and HEINLEIN M.

    Manipulation of plant host susceptibility : an emerging role for viral movement proteins ?

    Frontiers in Plant Science, 3:10, 2012. | DOI : 10.3389/fpls.2012.00010DOI logo

  • LUX J., PENA E.J., BOLZE F., HEINLEIN M. and NICOUD J.F.

    Malachite green derivatives for two-photon RNA detection

    ChemBioChem, 13(8):1206-1213, 2012. | DOI : 10.1002/cbic.201100747DOI logo

  • PENA E.J., LUNA G.R., ZANECK M.C., BORNIEGO M., REYES C.A., HEINLEIN M. and GARCIA M.L.

    Citrus psorosis and Mirafiori lettuce big-vein ophiovirus coat proteins localize to the cytoplasm and self interact in vivo.

    Virus Research, 170(1-2):34-43, 2012. | DOI : 10.1016/j.virusres.2012.08.005DOI logo

  • BOLZE F., LUX J., PENA E.J., HEINLEIN M., WONG M.S. and NICOUD J.F.

    Two-photon dyes and nucleic acid detection.

    Nonlinear Optics Quantum Optics, 45:29-39, 2012.

  • HU Q., HOLLUNDER J., NIEHL A., KØRNER C.J., GEREIGE D., WINDELS D., ARNOLD A., KUIPER M., VAZQUEZ F., POOGGIN M.M. and HEINLEIN M.

    Specific impact of tobamovirus infection on the Arabidopsis small RNA profile

    PLoS ONE, 6(5):e19549, 2011. | DOI : 10.1371/journal.pone.0019549DOI logo

  • HEINLEIN M. and OPARKA K.J.

    Plasmodesmata

    Protoplasma, 248 (special issue), 2011. | DOI : 10.1007/s00709-010-0253-2DOI logo

  • NIEHL A. and HEINLEIN M.

    Cellular pathways for viral transport through plasmodesmata

    Protoplasma, 248:75-99, 2011. | DOI : 10.1007/s00709-010-0246-1DOI logo

  • PENA E., NIEHL A. and HEINLEIN M.

    Viral studies point the way: Mechanisms of intercellular transport

    In: Kragler, Friedrich; Hülskamp, Martin (eds) Short and Long Distance Signalling. Advances in Plant Biology, vol 3. Springer., 2011. | DOI : 10.1007/978-1-4419-1532-0DOI logo

  • AMARI K., BOUTANT E., HOFMANN C., SCHMITT-KEICHINGER C., FERNANDEZ-CALVINO L., DIDIER P., LERICH A., MUTTERER J., THOMAS C., HEINLEIN M., MÉLY Y., MAULE A.J. and RITZENTHALER C.

    A family of plasmodesmal proteins with receptor-like properties for plant viral movement proteins.

    PLoS pathogens, e1001119, 2010. | DOI : 10.1371/journal.ppat.1001119.DOI logo

  • BOUTANT E., DIDIER P., NIEHL A., MÉLY Y., RITZENTHALER C. and HEINLEIN M.

    Fluorescent protein recruitment assay for demonstration and analysis of in vivo protein interactions in plant cells and its application to Tobacco mosaic virus movement protein.

    Plant Journal, 62:171-177, 2010. | DOI : 10.1111/j.1365-313X.2010.04126.x.DOI logo

  • OUKO M.O., SAMBADE A., BRANDNER K., NIEHL A., PEÑA E.J., AHAD A., HEINLEIN M. and NICK P.

    Tobacco mutants with reduced microtubule dynamics are less susceptible to TMV.

    Plant Journal, 62:829-839, 2010. | DOI : 10.1111/j.1365-313X.2010.04195.x.DOI logo

  • HOFMANN C., NIEHL A., SAMBADE A., STEINMETZ A. and HEINLEIN M.

    Inhibition of tobacco mosaic virus movement by expression of an actin-binding protein.

    Plant Physiology, 149:1810-1823, 2009. | DOI : 10.1104/pp.108.133827DOI logo

  • BOUTANT E., FITTERER C., RITZENTHALER C. and HEINLEIN M.

    Interaction of the Tobacco mosaic virus movement protein with microtubules during the cell cycle in tobacco BY-2 cells.

    Protoplasma, 237:3-12, 2009. | DOI : 10.1007/s00709-009-0062-7DOI logo

  • SAMBADE A. and HEINLEIN M.

    Approaching the cellular mechanism that supports the intercellular spread of Tobacco mosaic virus.

    Plant Signaling and Behavior, 4:35-38, 2009.

  • NIEHL A. and HEINLEIN M.

    Impact of RNA virus infection on plant cell function and evolution.

    Annals of the New York Academy of Sciences, 1178:120-128, 2009. | DOI : 10.1111/j.1749-6632.2009.04996.x.DOI logo

  • BOLZE F., NIEHL A., HEINLEIN M., MJDASIRI N., REHSPRINGER J.L., SCHAEFER N., DIDIER P., ARNTZ Y., MÉLY Y., GUG S., SPECHT A., GOELDNER M. and NICOUD J.F.

    Two-Photon Excitation in Life Sciences: From Observation to Action

    Nonlinear Optics Quantum Optics, 40:353-365, 2009.

  • BRANDNER K., SAMBADE A., BOUTANT E., DIDIER P., MÉLY Y., RITZENTHALER C. and HEINLEIN M.

    Tobacco mosaic virus movement protein interacts with green fluorescent protein-tagged microtubule end-binding protein 1.

    Plant Physiology, 147:611-623, 2008. | DOI : 10.1104/pp.108.117481DOI logo

  • SAMBADE A., BRANDNER K., HOFMANN C., SEEMANPILLAI M., MUTTERER J. and HEINLEIN M.

    Transport of TMV movement protein particles associated with the targeting of RNA to plasmodesmata.

    Traffic, 9:2073-2088, 2008. | DOI : 10.1111/j.1600-0854.2008.00824.x.DOI logo

  • VOGLER H., KWON M.O., DANG V., SAMBADE A., FASLER M., ASHBY J. and HEINLEIN M.

    Tobacco mosaic virus movement protein enhances the spread of RNA silencing

    PLoS pathogens, e1000038, 2008. | DOI : 10.1371/journal.ppat.1000038DOI logo

  • HEINLEIN M.

    Microtubules and viral movement

    In: Springer, Berlin-Heidelberg (eds) Plant Microtubules: Development and Flexibility. Plant Cell Monographs, P. Nick., 2008. | DOI : 10.1007/7089_2007_147DOI logo

  • BOYKO V., HU Q., SEEMANPILLAI M., ASHBY J. and HEINLEIN M.

    Validation of microtubule-associated Tobacco mosaic virus RNA movement and involvement of microtubule-aligned particle trafficking.

    Plant Journal, 51:589-603, 2007.

  • VOGLER H., AKBERGENOV R., SHIVAPRASAD P.V., DANG V., FASLER M., KWON M.O., ZHANYBEKOVA S., HOHN T. and HEINLEIN M.

    Modification of small RNAs associated with suppression of RNA silencing by tobamovirus replicase protein.

    Journal of Virology, 81:10379-10388, 2007.

  • HOFMANN C., SAMBADE A. and HEINLEIN M.

    Plasmodesmata and intercellular transport of viral RNA

    Biochemical Society Transactions, 35:142-145, 2007.

  • WAIGMANN E. and HEINLEIN M.

    Viral Transport in Plants

    Plant Cell Monographs, Waigmann E, Heinlein M, 188, 2007. | DOI : 10.1007/978-3-540-69967-5DOI logo

  • WAIGMANN E., CURIN M. and HEINLEIN M.

    Tobacco mosaic virus – a model for macromolecular cell-to-cell spread.

    In: Springer Berlin-Heidelberg (ed) Viral Transport in Plants.. Plant Cell Monographs, vol 7. Waigmann E, Heinlein M., 2007. | DOI : 10.1007/978-3-540-69967-5DOI logo

  • ASHBY J., BOUTANT E., SEEMANPILLAI M., GRONER A., SAMBADE A., RITZENTHALER C. and HEINLEIN M.

    Tobacco mosaic virus movement protein functions as a structural microtubule-associated protein.

    Journal of Virology, 80:8329-8344, 2006.

  • SEEMANPILLAI M., ELAMAWI R., RITZENTHALER C. and HEINLEIN M.

    Challenging the role of microtubules in Tobacco mosaic virus movement by drug treatments is disputable.

    Journal of Virology, 80:6712-6715, 2006.

  • FERRALLI J., ASHBY J., FASLER M., BOYKO V. and HEINLEIN M.

    Disruption of microtubule organization and centrosome function by expression of tobacco mosaic virus movement protein.

    Journal of Virology, 80:5807-5821, 2006.

  • BOUTANT E., RITZENTHALER C. and HEINLEIN M.

    Etude de l'interaction microtubules - protéine de mouvement du virus de la mosaique du tabac.

    Virologie, 10:455-456, 2006. | DOI : 10.1684/vir.2006.0032DOI logo

  • HEINLEIN M.

    TMV movement protein targets cell-cell channels in plants and prokaryotes: possible roles of tubulin- and FtsZ-based cytoskeletons

    In: Landes Bioscience (ed) Cell-Cell-Channels, F. Baluska, D. Volkmann, P.W. Barlow., 2006.

  • HEINLEIN M.

    Systemic RNA silencing

    In: Blackwell Publishing (Oxford) (ed) Plasmodesmata. Ann. Plant Rev., vol 18. K. Oparka., 2005.

  • HEINLEIN M. and EPEL B.L.

    Macromolecular transport and signaling through plasmodesmata.

    International Review of Cytology, 235:93-164, 2004. | DOI : 10.1016/S0074-7696(04)35003-5DOI logo

  • KOVALCHUK I., KOVALCHUK O., KALCK V., BOYKO V., FILKOWSKI J., HEINLEIN M. and HOHN B.

    Pathogen-induced systemic plant signal triggers DNA rearrangements.

    Nature, 423:760-762, 2003.

  • CHEN W., PROVART N.J., GLAZEBROOK J., KATAGIRI F., CHANG H.S., EULGEM T., MAUCH F., LUAN S., ZOU G., WHITHAM S.A., BUDWORTH P.R., TAO Y., XIE Z., CHEN X., LAM S., KREPS J.A., HARPER J.F., SI-AMMOUR A., MAUCH-MANI B., HEINLEIN M., KOBAYASHI K., HOHN T., DANGL J.L., WANG X. and ZHU T.

    Expression profile matrix of Arabidopsis transcription factor genes suggests their putative functions in response to environmental stresses.

    Plant Cell, 14:559-574, 2002.

  • HEINLEIN M.

    Plasmodesmata: dynamic regulation and role in macromolecular cell-to-cell signaling.

    Current Opinion in Plant Biology, 5:543-552, 2002.

  • HEINLEIN M.

    The spread of tobacco mosaic virus infection: insights into the cellular mechanism of RNA transport

    Cellular and Molecular Life Sciences, 59:58-82, 2002.

  • BOYKO V., ASHBY J.A., SUSLOVA E., FERRALLI J., STERTHAUS O., DEOM C.M. and HEINLEIN M.

    Intramolecular complementing mutations in tobacco mosaic virus movement protein confirm a role for microtubule association in viral RNA transport.

    Journal of Virology, 76:3974-3980, 2002.

  • HEINLEIN M.

    The illustrious life of a tobacco pathogen.

    Cell, 109:670-671, 2002. | DOI : 10.1016/S0092-8674(02)00778-XDOI logo

  • BUCHER G.L., TARINA C., HEINLEIN M., DISERIO F., MEINS F.J. and IGLESIAS V.A.

    Local expression of enzymatically active class I beta-1, 3-glucanase enhances symptoms of TMV infection in tobacco.

    Plant Journal, 28:361-369, 2001.

  • KOTLITZKY G., KATZ A., VAN DER LAAK J., BOYKO V., LAPIDOT M., BEACHY R.N., HEINLEIN M. and EPEL B.L.

    A dysfunctional movement protein of tobacco mosaic virus interferes with targeting of wild-type movement protein to microtubules.

    Molecular Plant-Microbe Interactions, 14:895-904, 2001. | DOI : 10.1094/MPMI.2001.14.7.895DOI logo

  • BOYKO V., FERRALLI J., ASHBY J., SCHELLENBAUM P. and HEINLEIN M.

    Function of microtubules in intercellular transport of plant virus RNA.

    Nature Neuroscience, 2:826-832, 2000.

  • BOYKO V., FERRALLI J. and HEINLEIN M.

    Cell-to-cell movement of TMV RNA is temperature-dependent and corresponds to the association of movement protein with microtubules.

    Plant Journal, 22:315-325, 2000.

  • BOYKO V., VAN DER LAAK J., FERRALLI J., SUSLOVA E., KWON M.O. and HEINLEIN M.

    Cellular targets of functional and dysfunctional mutants of tobacco mosaic virus movement protein fused to green fluorescent protein.

    Journal of Virology, 74:11339-11346, 2000.

  • BEACHY R.N. and HEINLEIN M.

    Role of P30 in replication and spread of TMV.

    Traffic, 1:540-544, 2000.

  • HEINLEIN M., PADGETT H.S., GENS J.S., PICKARD B.G., CASPER S.J., EPEL B.L. and BEACHY R.N.

    Changing patterns of localization of the tobacco mosaic virus movement protein and replicase to the endoplasmic reticulum and microtubules during infection.

    Plant Cell, 10:1107-1120, 1998.

  • HEINLEIN M., WOOD M.R., THIEL T. and BEACHY R.N.

    Targeting and modification of prokaryotic cell–cell junctions by tobacco mosaic virus cell‐to‐cell movement protein

    Plant Journal, 14:345-351, 1998.

  • KAHN T.W., LAPIDOT M., HEINLEIN M., REICHEL C., COOPER B., GAFNY R. and BEACHY R.N.

    Domains of the TMV movement protein involved in subcellular localization

    Plant Journal, 15:15-25, 1998.

  • BEACHY R.N., PADGETT H.S., KAHN T.W., BENDAHMANE M., FITCHEN J.H., HEINLEIN M., WATANABE Y. and EPEL B.L.

    Cellular and molecular mechanisms of coat protein and movement protein mediated resistance against TMV

    In: IS-MPMI, St. Paul, MN, USA. (eds) Biology of Plant-Microbe Interactions., Stacey M, Mullin B, Gresshoff PM., 1997.

  • WANG L., HEINLEIN M. and KUNZE R.

    Methylation pattern of Activator transposase binding sites in maize endosperm.

    Plant Cell, 8:747-758, 1996.

  • HEINLEIN M.

    Excision patterns of Activator (Ac) and Dissociation (Ds) elements in Zea mays L.: implications for the regulation of transposition.

    Genetics, 144:1851-1869, 1996.

  • PADGETT H.S., EPEL B.L., KAHN T.W., HEINLEIN M., WATANABE Y. and BEACHY R.N.

    Distribution of tobamovirus movement protein in infected cells and implications for cell‐to‐cell spread of infection

    Plant Journal, 10:1079-1088, 1996.

  • EPEL B.L., PADGETT H.S., HEINLEIN M. and BEACHY R.N.

    lant virus movement protein dynamics probed with a GFP-protein fusion.

    Gene, 173:75-79, 1996.

  • BOEHM U., HEINLEIN M., BEHRENS U. and KUNZE R.

    One of three nuclear localization signals of maize Activator (Ac) transposase overlaps the DNA‐binding domain

    Plant Journal, 7:441-451, 1995.

  • HEINLEIN M.

    Variegation patterns caused by excision of the maize transposable element Dissociation (Ds) are autonomously regulated by allele-specific Activator (Ac) elements and are not due to trans-acting modifier genes.

    Molecular Genetics and Genomics, 246:1-9, 1995.

  • HEINLEIN M., EPEL B.L., PADGETT H.S. and BEACHY R.N.

    Interaction of tobamovirus movement proteins with the plant cytoskeleton.

    Science, 270:1983-1985, 1995.

  • HEINLEIN M., BRATTIG T. and KUNZE R.

    In vivo aggregation of maize Activator (Ac) transposase in nuclei of maize endosperm and Petunia protoplasts.

    Plant Journal, 5:705-714, 1994.

  • HEINLEIN M. and STARLINGER P.

    Variegation patterns caused by transposable element Ac.

    Maydica, 36:309-316, 1991.

  • HEINLEIN M. and STARLINGER P.

    Tissue- and cell-specific expression of the two sucrose synthase isoenzymes in developing maize kernels.

    Molecular Genetics and Genomics, 215:441-446, 1989.

  • STARLINGER P., COUPLAND G., FUSSWINKEL H., HEINLEIN M., KUNZE R., LAUFS J., LI M.G., STOCHAJ U., BAKER B., SCHELL J., BOTH C., OELLIG C., DOERFLER W. and SCHWARTZ D.

    Studies on transposable element Ac in Zea mays.

    In: Alan R. Liss Inc., NY (eds) The molecular basis of plant development.. UCLA Symposia on molecular and cellular biology, vol 92. R. Goldberg., 1989. | DOI : 10.1002/jcb.240380704DOI logo

  • HAUSER C., FUSSWINKEL H., LI J., OELLIG C., KUNZE R., MÜLLER-NEUMANN M., HEINLEIN M., STARLINGER P. and DOERFLER W.

    Overproduction of the protein encoded by the maize transposable element Ac in insect cells by a baculovirus vector.

    Molecular Genetics and Genomics, 214:373-378, 1988.