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Preprint

 

2017

Keymer A*, Pimprikar P*, Wewer V, Huber C, Brands M, Bucerius SL, Delaux PM, Klingl V, von Roepenack-Lahaye E, Wang TL, Eisenreich W, Dörmann P, Parniske M, Gutjahr C
Lipid transfer from plants to arbuscular mycorrhiza fungi.
eLife 6. pii: e29107. PDF
Preprint at bioRxiv

Cerri MR, Wang Q, Stolz P, Folgmann J, Frances L, Katzer K, Li X, Heckmann AB, Wang TL, Downie JA, Klingl A, de Carvalho-Niebel F*, Xie F*, Parniske M* (2017)
The ERN1 transcription factor gene is a target of the CCaMK/CYCLOPS complex and controls rhizobial infection in Lotus japonicus
New Phytologist 215: 323-337.

Gutjahr C*, Parniske M* (2017)
Cell Biology: control of partner life-time in a plant-fungus relationship.
Current Biology, 27: R420-R423.  

2016

Nagae M, Parniske M, Kawaguchi M, Takeda N (2016)
The relationship between thiamine and two symbioses: root nodule symbiosis and arbuscular mycorrhiza.
Plant Signaling and Behaviour, 11:e1265723.

Gong X, Bräcker L, Bölke N, Plata C, Zeitlmayr S, Metzler D, Olbricht K*, Gompel N*, Parniske M* (2016)
Strawberry accessions with reduced Drosophila suzikii emergence from fruits. 
Frontiers in Plant Sciences 7: 1880. PDF

Nagae M, Parniske M, Kawaguchi M, Takeda N (2016)
The thiamine biosynthesis gene THI1 promotes nodule growth and seed maturation.
Plant Physiology 172: 2033-2043.

Pimprikar P, Carbonnel S, Paries M, Katzer K, Klingl V, Bohmer MJ, Karl L, Floss DS, Harrison MJ, Parniske M,
Gutjahr C (2016) 
A CCaMK-CYCLOPS-DELLA complex activates transcription of RAM1 to regulate arbuscule branching. 
Current Biology 26: 987-998.

2015

Qiu L., Lin J.S., Xu J., Sato S., Parniske M., Wang T.L., Downie J.A., Xie F. (2015)
SCARN a novel class of SCAR protein that is required for root hair infection during legume nodulation.
PloS Genetics 11(10):e1005623. PDF

Bahara A., Ding Y., Kühner R., Zuccaro A., Parniske M. (2015) 
Colonization of root cells and plant growth promotion by Piriformospora indica occurs independently of plant common symbiosis genes. 
Frontiers in Plant Science 6:667. PDF

 2014

Ried M.K., Antolín-Llovera M., Parniske M. (2014) Spontaneous symbiotic reprogramming of plant roots triggered by receptor-like kinases. eLife 3.3:e03891. PDF

Antolín-Llovera M., Petutsching E.K., Ried M.K., Lipka V., Nürnberger T., Robatzek S., Parniske M. (2014) Knowing your friends and foes - plant receptor-like kinases as initiators of symbiosis or defence. New Phytologist 204: 791-803.

Hayashi M., Parniske M. (2014) Symbiosis and pathogenesis: what determines the difference? Current Opinion in Plant Biology 20, v-vi.

Antolin-Llovera, M., Ried, M., Parniske, M. (2014) Cleavage of the SYMBIOSIS RECEPTOR-LIKE KINASE ectodomain promotes complex formation with Nod Factor Receptor 5. Current Biology 17, 422-427.

Singh, S.*, Katzer, K.*, Lambert, J., Cerri, M., Parniske, M., (2014) CYCLOPS, a DNA-binding transcriptional activator, orchestrates symbiotic root nodule development. Cell Host Microbe 15, 139-152.

Binder, A., Lambert, J., Morbitzer, R., Popp, C., Ott, T., Lahaye, T., Parniske, M. (2014) A modular plasmid assembly kit for multigene expression, gene silencing and silencing rescue in plants. PloS One 9(2):e88218. PDF

Binder, A., Parniske, M. (2014) Analysis of the Lotus japonicus nuclear pore NUP107-160 subcomplex reveals pronounced structural plasticity and functional redundancy. Frontiers in Plant Science 4:552. PDF

2013

Gutjahr, C. and Parniske, M. (2013) Cell and developmental biology of the arbuscular mycorrhiza symbiosis. Annual Review of Cell and Developmental Biology
PDF

Groth, M., Kosuta, S., Gutjahr, C., Haage, K., Hardel, S.L., Schaub, M., Brachmann, A., Sato, S., Tabata, S., Findlay, K., et al. (2013). Two Lotus japonicus symbiosis mutants impaired at distinct steps of arbuscule development. Plant Journal 75, 117-129.

Credali, A., Garcia-Calderon, M., Dam, S., Perry, J., Diaz-Quintana, A., Parniske, M., Wang, T.L., Stougaard, J., Vega, J.M., and Marquez, A.J. (2013). The K+-Dependent Asparaginase, NSE1, is Crucial for Plant Growth and Seed Production in Lotus japonicus. Plant and Cell Physiology 54, 107-118.

Lahrmann, U., Ding, Y., Banhara, A., Rath, M., Hajirezaei, M.R., Doehlemann, S., von Wiren, N., Parniske, M., and Zuccaro, A. (2013). Host-related metabolic cues affect colonization strategies of a root endophyte. Proceedings of the National Academy of Sciences of the United States of America 110, 13965-13970.

2012

Antolin-Llovera, M., Ried, M.K., Binder, A., Parniske, M. (2012). Receptor Kinase Signaling Pathways in Plant-Microbe Interactions. Annual Review of Phytopathology, Vol 50, 451-473.
PDF

De Luis, A., Markmann, K., Cognat, V., Holt, D.B., Charpentier, M., Parniske, M., Stougaard, J., and Voinnet, O. (2012). Two MicroRNAs Linked to Nodule Infection and Nitrogen-Fixing Ability in the Legume Lotus japonicus. Plant Physiology 160, 2137-U2714.

Den Herder, G., Yoshida, S., Antolin-Llovera, M., Ried, M.K., and Parniske, M. (2012). Lotus japonicus E3 Ligase SEVEN IN ABSENTIA4 Destabilizes the Symbiosis Receptor-Like Kinase SYMRK and Negatively Regulates Rhizobial Infection. Plant Cell 24, 1691-1707.

Gossmann, J.A., Markmann, K., Brachmann, A., Rose, L.E., and Parniske, M. (2012). Polymorphic infection and organogenesis patterns induced by a Rhizobium leguminosarum isolate from Lotus root nodules are determined by the host genotype. New Phytologist 196, 561-573.

Krebs, M., Held, K., Binder, A., Hashimoto, K., Den Herder, G., Parniske, M., Kudla, J., and Schumacher, K. (2012). FRET-based genetically encoded sensors allow high-resolution live cell imaging of Ca2+dynamics. Plant Journal 69, 181-192.

Liao, J., Singh, S., Hossain, M.S., Andersen, S.U., Ross, L., Bonetta, D., Zhou, Y., Sato, S., Tabata, S., Stougaard, J., et al. (2012). Negative regulation of CCaMK is essential for symbiotic infection. Plant Journal 72, 572-584.

Sandal, N., Jin, H., Rodriguez-Navarro, D.N., Temprano, F., Cvitanich, C., Brachmann, A., Sato, S., Kawaguchi, M., Tabata, S., Parniske, M., et al. (2012). A set of Lotus japonicus Gifu x Lotus burttii recombinant inbred lines facilitates map-based cloning and QTL mapping. DNA Research 19, 317-323.

Singh, S., and Parniske, M. (2012). Activation of calcium- and calmodulin-dependent protein kinase (CCaMK), the central regulator of plant root endosymbiosis. Current Opinion in Plant Biology 15, 444-453.

Strauss, T., van Poecke, R.M.P., Strauss, A., Roemer, P., Minsavage, G.V., Singh, S., Wolf, C., Strauss, A., Kim, S., Lee, H.-A., et al. (2012). RNA-seq pinpoints a Xanthomonas TAL-effector activated resistance gene in a large-crop genome. Proceedings of the National Academy of Sciences of the United States of America 109, 19480-19485.

Toth, K., Stratil, T.F., Madsen, E.B., Ye, J., Popp, C., Antolin-Llovera, M., Grossmann, C., Jensen, O.N., Schuessler, A., Parniske, M., et al. (2012). Functional Domain Analysis of the Remorin Protein LjSYMREM1 in Lotus japonicus. Plos One 7.

Venkateshwaran, M., Cosme, A., Han, L., Banba, M., Satyshur, K.A., Schleiff, E., Parniske, M., Imaizumi-Anraku, H., and Ane, J.-M. (2012). The Recent Evolution of a Symbiotic Ion Channel in the Legume Family Altered Ion Conductance and Improved Functionality in Calcium Signaling. Plant Cell 24, 2528-2545.


2011

Kosuta, S., Held, M., Hossain, M. S., Morieri, G., MacGillivary, A., Johansen, C., Antolín-Llovera, M., Parniske, M., Oldroyd, G. E. D., Downie, A. J., Karas, B. and Szczyglowski, K. (2011), Lotus japonicus symRK-14 uncouples the cortical and epidermal symbiotic program. The Plant Journal, 67: 929–940. doi: 10.1111/j.1365-313X.2011.04645.x


Serna A, Parniske M, Peck S.
Phosphoproteome analysis of Lotus japonicus Roots Reveals Shared and Distinct Components of Symbiosis and Defense.
Mol Plant Microbe Interact. 2011 Mar 29. [Epub ahead of print]

Krusell L, Sato N, Fukuhara I, Koch BE, Grossmann C, Okamoto S, Oka-Kira E, Otsubo Y, Aubert G, Nakagawa T, Sato S, Tabata S, Duc G, Parniske M, Wang TL, Kawaguchi M, Stougaard J.
The Clavata2 genes of pea and Lotus japonicus affect autoregulation of nodulation.
Plant J. 2011 Mar;65(6):861-871. doi: 10.1111/j.1365-313X.2010.04474.x. Epub 2011 Jan 31.

Madsen EB, Antolín-Llovera M, Grossmann C, Ye J, Vieweg S, Broghammer A, Krusell L, Radutoiu S, Jensen ON, Stougaard J, Parniske M.
Autophosphorylation is essential for the in vivo function of the Lotus japonicus Nod factor receptor 1 and receptor-mediated signalling in cooperation with Nod factor receptor 5.
Plant J. 2011 Feb;65(3):404-17. doi: 10.1111/j.1365-313X.2010.04431.x. Epub 2010 Dec 15.

Takeda N, Haage K, Sato S, Tabata S, Parniske M.
Activation of a Lotus japonicus subtilase gene during arbuscular mycorrhiza is dependent on the common symbiosis genes and two cis-active promoter regions.
Mol Plant Microbe Interact. 2011 Jan 24. [Epub ahead of print]


2010


Vriet C, Welham T, Brachmann A, Pike M, Pike J, Perry J, Parniske M, Sato S, Tabata S, Smith AM, Wang TL.
A suite of Lotus japonicus starch mutants reveals both conserved and novel features of starch metabolism.
Plant Physiol. 2010 Oct;154(2):643-55.

Groth M, Takeda N, Perry J, Uchida H, Dräxl S, Brachmann A, Sato S, Tabata S, Kawaguchi M, Wang TL, Parniske M.
NENA, a Lotus japonicus Homolog of Sec13, Is Required for Rhizodermal Infection by Arbuscular Mycorrhiza Fungi and Rhizobia but Dispensable for Cortical Endosymbiotic Development.
Plant Cell. 2010 Jul; 22(7):2509-26.


2009


Perry J, Brachmann A, Welham T, Binder A, Charpentier M, Groth M, Haage K, Markmann K, Wang TL, Parniske M.
TILLING in Lotus japonicus identified large allelic series for symbiosis genes and revealed a bias in functionally defective ethyl methanesulfonate alleles toward glycine replacements.
Plant Physiol. 2009 Nov;151(3):1281-91.

Leal-Bertioli SC, José AC, Alves-Freitas DM, Moretzsohn MC, Guimarães PM, Nielen S, Vidigal BS, Pereira RW, Pike J, Fávero AP, Parniske M, Varshney RK, Bertioli DJ.
Identification of candidate genome regions controlling disease resistance in Arachis.
BMC Plant Biol. 2009 Aug 22;9:112.

Den Herder G, Parniske M.
The unbearable naivety of legumes in symbiosis.
Curr Opin Plant Biol. 2009 Aug;12(4):491-9.

Welham T, Pike J, Horst I, Flemetakis E, Katinakis P, Kaneko T, Sato S, Tabata S, Perry J, Parniske M, Wang TL.
A cytosolic invertase is required for normal growth and cell development in the model legume, Lotus japonicus.
J Exp Bot. 2009;60(12):3353-65. Epub 2009 May 27.

Takeda N, Sato S, Asamizu E, Tabata S, Parniske M.
Apoplastic Plant Subtilases Support Arbuscular Mycorrhiza Development in Lotus japonicus.
Plant J. 2009 Jun;58(5):766-77.

Maekawa-Yoshikawa M, Müller J, Takeda N, Maekawa T, Sato S, Tabata S, Perry J, Wang TL, Groth M, Brachmann A, Parniske M.
The temperature-sensitive brush mutant of the legume Lotus japonicus reveals a link between root development and nodule infection by rhizobia.
Plant Physiol. 2009 Apr;149(4):1785-96.

Markmann K, Parniske M.
Evolution of root endosymbiosis with bacteria: How novel are nodules?
Trends Plant Sci. 2009 Feb;14(2):77-86.


2008

Charpentier, M, Bredemeier, R, Wanner, G, Takeda, N, Schleiff, E, and Parniske, M  (2008).
Lotus japonicus CASTOR and POLLUX Are Ion Channels Essential for Perinuclear Calcium Spiking in Legume Root Endosymbiosis.
Plant Cell. 2008 Dec;20(12):3467-79. Epub 2008 Dec 23.

Gherbi, H, Markmann, K, Svistoonoff, S, Estevan, J, Autran, D, Giczey, G, Auguy, F, Peret, B, Laplaze, L, Franche, C, Parniske, M, and Bogusz, D (2008).
SymRK defines a common genetic basis for plant root endosymbioses with arbuscular mycorrhiza fungi, rhizobia, and Frankia bacteria.
Proc Natl Acad Sci U S A. 2008 Mar 25;105(12):4928-32. Epub 2008 Mar 3.

Markmann, K, Giczey, G, and Parniske, M (2008).
Functional Adaptation of a Plant Receptor- Kinase Paved the Way for the Evolution of Intracellular Root Symbioses with Bacteria.
PLoS Biol. 2008 Mar 4;6(3):e68.

Parniske, M (2008).
Arbuscular mycorrhiza: the mother of plant root endosymbioses.
Nat Rev Microbiol. 2008 Oct;6(10):763-75. Review.

Yano, K, Yoshida, S, Muller, J, Singh, S, Banba, M, Vickers, K, Markmann, K, White, C, Schuller, B, Sato, S, Asamizu, E, Tabata, S, Murooka, Y, Perry, J, Wang, TL, Kawaguchi, M, Imaizumi-Anraku, H, Hayashi, M, and Parniske, M (2008).
CYCLOPS, a mediator of symbiotic intracellular accommodation.
Proc Natl Acad Sci U S A. 2008 Dec 23;105(51):20540-5. Epub 2008 Dec 11.


2007

Horst, I, Welham, T, Kelly, S, Kaneko, T, Sato, S, Tabata, S, Parniske, M, and Wang, TL (2007).
TILLING Mutants of Lotus japonicus Reveal that Nitrogen Assimilation and Fixation can Occur in the Absence of Nodule-enhanced Sucrose Synthase.
Plant Physiol. 2007 Jun;144(2):806-20. Epub 2007 Apr 27.

Saito, K, Yoshikawa, M, Yano, K, Miwa, H, Uchida, H, Asamizu, E, Sato, S, Tabata, S, Imaizumi-Anraku, H, Umehara, Y, Kouchi, H, Murooka, Y, Szczyglowski, K, Downie, JA, Parniske, M, Hayashi, M, and Kawaguchi, M (2007).
NUCLEOPORIN85 is required for calcium spiking, fungal and bacterial symbioses, and seed production in Lotus japonicus.
Plant Cell 19(2):610-24.

Takeda, N, Kistner, C, Kosuta, S, Winzer, T, Pitzschke, A, Groth, M, Sato, S, Kaneko, T, Tabata, S, and Parniske, M (2007).
Proteases in plant root symbiosis.
Phytochemistry 68(1):111-21.


2006

Brachmann, A, and Parniske, M (2006).
The Most Widespread Symbiosis on Earth
PLoS Biology 4:1111-1112.

Heckmann, AB, Lombardo, F, Miwa, H, Perry, JA, Bunnewell, S, Parniske, M, Wang, TL, and Downie, JA (2006).
Lotus japonicus nodulation requires two GRAS domain regulators, one of which is functionally conserved in a non-legume.
Plant Physiol 142(4):1739-50.

Lombardo, F, Heckmann, AB, Miwa, H, Perry, JA, Yano, K, Hayashi, M, Parniske, M, Wang, TL, and Downie, JA (2006).
Identification of symbiotically defective mutants of Lotus japonicus affected in infection thread growth.
Mol Plant Microbe Interact 19(12):1444-50.

Mellersh, D, and Parniske, M (2006).
Common symbiosis genes of Lotus japonicus are not required for intracellular accommodation of the rust fungus Uromyces loti.
New Phytol 170(4):641-4.

Murray, J, Karas, B, Ross, L, Brachmann, A, Wagg, C, Geil, R, Perry, J, Nowakowski, K, MacGillivary, M, Held, M, Stougaard, J, Peterson, L, Parniske, M, and Szczyglowski, K (2006).
Genetic suppressors of the Lotus japonicus har1-1 hypernodulation phenotype.
Mol Plant Microbe Interact 19(10):1082-91.

Sandal, N, Petersen, TR, Murray, J, Umehara, Y, Karas, B, Yano, K, Kumagai, H, Yoshikawa, M, Saito, K, Hayashi, M, Murakami, Y, Wang, X, Hakoyama, T, Imaizumi-Anraku, H, Sato, S, Kato, T, Chen, W, Hossain, MS, Shibata, S, Wang, TL, Yokota, K, Larsen, K, Kanamori, N, Madsen, E, Radutoiu, S, Madsen, LH, Radu, TG, Krusell, L, Ooki, Y, Banba, M, Betti, M, Rispail, N, Skot, L, Tuck, E, Perry, J, Yoshida, S, Vickers, K, Pike, J, Mulder, L, Charpentier, M, Muller, J, Ohtomo, R, Kojima, T, Ando, S, Marquez, AJ, Gresshoff, PM, Harada, K, Webb, J, Hata, S, Suganuma, N, Kouchi, H, Kawasaki, S, Tabata, S, Hayashi, M, Parniske, M, Szczyglowski, K, Kawaguchi, M, and Stougaard, J (2006).
Genetics of symbiosis in Lotus japonicus: recombinant inbred lines, comparative genetic maps, and map position of 35 symbiotic loci.
Mol Plant Microbe Interact 19(1):80-91.

Siemens, J, Keller, I, Sarx, J, Kunz, S, Schuller, A, Nagel, W, Schmulling, T, Parniske, M, and Ludwig-Muller, J (2006).
Transcriptome analysis of Arabidopsis clubroots indicate a key role for cytokinins in disease development.
Mol Plant Microbe Interact 19(5):480-94.

Tirichine, L, Imaizumi-Anraku, H, Yoshida, S, Murakami, Y, Madsen, L, Miwa, H, Nakagawa, T, Sandal, N, Albrektsen , A, Kawaguchi , M, Downie , A, Sato, S, Tabata, S, Kouchi , H, Parniske, M, Kawasaki, S, and Stougaard , J (2006).
Deregulation of a Ca2+/calmodulin-dependent kinase leads to spontaneous nodule development.
Nature 441:1153-6.


2005


Imaizumi-Anraku, H, Takeda, N, Charpentier, M, Perry, J, Miwa, H, Umehara, Y, Kouchi, H, Murakami, Y, Mulder, L, Vickers, K, Pike, J, Downie, JA, Wang, T, Sato, S, Asamizu, E, Tabata, S, Yoshikawa, M, Murooka, Y, Wu, G, Kawaguchi, M, Kawasaki, S, Parniske, M, and Hayashi, M (2005).
Plastid proteins crucial for symbiotic fungal and bacterial entry into plant roots.
Nature 433(7025):527-31.

Kistner, C, Winzer, T, Pitzschke, A, Mulder, L, Sato, S, Kaneko, T, Tabata, S, Sandal, N, Stougaard, J, Webb, KJ, Szczyglowski, K, and Parniske, M (2005).
Seven Lotus japonicus Genes Required for Transcriptional Reprogramming of the Root during Fungal and Bacterial Symbiosis
PLANT CELL 17:2217-2229.

Parniske, M (2005).
Plant-fungal associations: cue for the branching connection.
Nature 435(7043):750-1.

Udvardi, MK, Tabata, S, Parniske, M, and Stougaard, J (2005).
Lotus japonicus: legume research in the fast lane.
Trends Plant Sci 10(5):222-8.

Yoshida, S, and Parniske, M (2005).
Regulation of plant symbiosis receptor kinase through serine and threonine phosphorylation.
J Biol Chem 280(10):9203-9.


2004


Parniske, M (2004).
Molecular genetics of the arbuscular mycorrhizal symbiosis.
Curr Opin Plant Biol 7(4):414-21.

Stracke, S, Sato, S, Sandal, N, Koyama, M, Kaneko, T, Tabata, S, and Parniske, M (2004).
Exploitation of colinear relationships between the genomes of Lotus japonicus, Pisum sativum and Arabidopsis thaliana, for positional cloning of a legume symbiosis gene.
Theor Appl Genet 108(3):442-9.

Wulff, BB, Thomas, CM, Parniske, M, and Jones, JD (2004).
Genetic variation at the tomato Cf-4/Cf-9 locus induced by EMS mutagenesis and intralocus recombination.
Genetics 167(1):459-70.


2003


Parniske, M (2003).
ESI Special Topics - Dr. Martin Parniske answers a few questions about this month's fast breaking paper in the field of Plant & Animal Science.
Webpublished.

Parniske, M, and Downie, JA (2003).
Plant biology: locks, keys and symbioses.
Nature 425(6958):569-70.

Perry, JA, Wang, TL, Welham, TJ, Gardner, S, Pike, JM, Yoshida, S, and Parniske, M (2003).
A TILLING reverse genetics tool and a web-accessible collection of mutants of the legume Lotus japonicus.
Plant Physiol 131(3):866-71.


2002


Downie, JA, and Parniske, M (2002).
Plant biology: fixation with regulation.
Nature 420(6914):369-70.

Kistner, C, and Parniske, M (2002).
Evolution of signal transduction in intracellular symbiosis.
Trends Plant Sci 7(11):511-8.

Sandal, N, Krusell, L, Radutoiu, S, Olbryt, M, Pedrosa, A, Stracke, S, Sato, S, Kato, T, Tabata, S, Parniske, M, Bachmair, A, Ketelsen, T, and Stougaard, J (2002).
A genetic linkage map of the model legume Lotus japonicus and strategies for fast mapping of new loci.
Genetics 161(4):1673-83.

Stracke, S, Kistner, C, Yoshida, S, Mulder, L, Sato, S, Kaneko, T, Tabata, S, Sandal, N, Stougaard, J, Szczyglowski, K, and Parniske, M (2002).
A plant receptor-like kinase required for both bacterial and fungal symbiosis.
Nature 417(6892):959-62.


2000


Bonfante, P, Genre, A, Faccio, A, Martini, I, Schauser, L, Stougaard, J, Webb, J, and Parniske, M (2000).
The Lotus japonicus LjSym4 gene is required for the successful symbiotic infection of root epidermal cells.
Mol Plant Microbe Interact 13(10):1109-20.

Parniske, M (2000).
Intracellular accommodation of microbes by plants: a common developmental program for symbiosis and disease?
Curr Opin Plant Biol 3(4):320-8.


1999


Noel, L, Moores, TL, van Der Biezen, EA, Parniske, M, Daniels, MJ, Parker, JE, and Jones, JD (1999).
Pronounced intraspecific haplotype divergence at the RPP5 complex disease resistance locus of Arabidopsis.
Plant Cell 11(11):2099-112.

Parniske, M, and Jones, JD (1999).
Recombination between diverged clusters of the tomato Cf-9 plant disease resistance gene family.
Proc Natl Acad Sci U S A 96(10):5850-5.

Parniske, M, Wulff, BB, Bonnema, G, Thomas, CM, Jones, DA, and Jones, JD (1999).
Homologues of the Cf-9 disease resistance gene (Hcr9s) are present at multiple loci on the short arm of tomato chromosome 1.
Mol Plant Microbe Interact 12(2):93-102.

Stougaard, J, Szczyglowski, K, de, Br, and Parniske, M (1999).
Genetic nomenclature guidelines for the model legume Lotus japonicus.
Trends Plant Sci 4(8):300-301.


1998


Becker, BU, Kosch, K, Parniske, M, and Muller, P (1998).
Exopolysaccharide (EPS) synthesis in Bradyrhizobium japonicum: sequence, operon structure and mutational analysis of an exo gene cluster.
Mol Gen Genet 259(2):161-71.

Jones, DA, Brading, P, Dixon, M, Hammond-Kosack, K, Harrison, K, Hatzixanthis, K, Parniske, M, Piedras, P, Torres, M, Tang, S, Thomas, C, and Jones, JD (1998).
Molecular, genetic and physiological analysis of Cladosporium resistance gene function in tomato.
Symp Soc Exp Biol 51:111-3.

Thomas, CM, Dixon, MS, Parniske, M, Golstein, C, and Jones, JD (1998).
Genetic and molecular analysis of tomato Cf genes for resistance to Cladosporium fulvum.
Philos Trans R Soc Lond B Biol Sci 353(1374):1413-24.

Wegel, E, Schauser, L, Sandal, N, Stougaard, J, and Parniske, M (1998).
Mycorrhiza Mutants of Lotus japonicus Define Genetically Independent Steps During Symbiotic Infection
MPMI 11(9):933-936.


1997


Parniske, M, Hammond-Kosack, KE, Golstein, C, Thomas, CM, Jones, DA, Harrison, K, Wulff, BB, and Jones, JD (1997).
Novel disease resistance specificities result from sequence exchange between tandemly repeated genes at the Cf-4/9 locus of tomato.
Cell 91(6):821-32.

Thomas, CM, Jones, DA, Parniske, M, Harrison, K, Balint-Kurti, PJ, Hatzixanthis, K, and Jones, JD (1997).
Characterization of the tomato Cf-4 gene for resistance to Cladosporium fulvum identifies sequences that determine recognitional specificity in Cf-4 and Cf-9.
Plant Cell 9(12):2209-24.


1996


Rushton, PJ, Torres, JT, Parniske, M, Wernert, P, Hahlbrock, K, and Somssich, IE (1996).
Interaction of elicitor-induced DNA-binding proteins with elicitor response elements in the promoters of parsley PR1 genes.
EMBO J 15(20):5690-700.


1995


Hahlbrock, K, Scheel, D, Logemann, E, Nurnberger, T, Parniske, M, Reinold, S, Sacks, WR, and Schmelzer, E (1995).
Oligopeptide elicitor-mediated defense gene activation in cultured parsley cells.
Proc Natl Acad Sci U S A 92(10):4150-7.

Logemann, E, Parniske, M, and Hahlbrock, K (1995).
Modes of expression and common structural features of the complete phenylalanine ammonia-lyase gene family in parsley.
Proc Natl Acad Sci U S A 92(13):5905-9.

Wetzel, A, Parniske, M, and Werner, D (1995).
Pleiotropic effect of fluoranthene on anthocyanin synthesis and nodulation of Medicago sativa is reversed by the plant flavone luteolin.
Bull Environ Contam Toxicol 54(5):633-9.


1992


Kape, R, Parniske, M, Brandt, S, and Werner, D (1992).
Isoliquiritigenin, a strong nod gene- and glyceollin resistance-inducing flavonoid from soybean root exudate.
Appl Environ Microbiol 58(5):1705-10.


1991


Kape, R, Parniske, M, and Werner, D (1991).
Chemotaxis and nod Gene Activity of Bradyrhizobium japonicum in Response to Hydroxycinnamic Acids and Isoflavonoids.
Appl Environ Microbiol 57(1):316-319.

Parniske, M, Ahlborn, B, and Werner, D (1991).
Isoflavonoid-inducible resistance to the phytoalexin glyceollin in soybean rhizobia.
J Bacteriol 173(11):3432-9.