Martin Parniske
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German geneticist
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Martin Parniskebiology Degrees
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Genetics
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Molecular Biology
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Biology
Martin Parniske's Degrees
- PhD Genetics University of Tübingen
- Masters Biology University of Tübingen
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Why Is Martin Parniske Influential?
(Suggest an Edit or Addition)According to Wikipedia, Martin Parniske is a German biologist with a specialisation in genetics, microbiology and biochemistry. He is university professor and head of the Institute of Genetics at the Faculty of Biology of the Ludwig Maximilian University of Munich. Parniske's scientific focus is on the molecular interaction between plants and symbiotic and pathogenic organisms including bacteria, fungi, oomycetes and insects.
Martin Parniske's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Arbuscular mycorrhiza: the mother of plant root endosymbioses (2008) (1697)
- A plant receptor-like kinase required for both bacterial and fungal symbiosis (2002) (870)
- Interaction of elicitor‐induced DNA‐binding proteins with elicitor response elements in the promoters of parsley PR1 genes. (1996) (643)
- Novel Disease Resistance Specificities Result from Sequence Exchange between Tandemly Repeated Genes at the Cf-4/9 Locus of Tomato (1997) (580)
- Deregulation of a Ca2+/calmodulin-dependent kinase leads to spontaneous nodule development (2006) (433)
- Characterization of the tomato Cf-4 gene for resistance to Cladosporium fulvum identifies sequences that determine recognitional specificity in Cf-4 and Cf-9. (1997) (415)
- CYCLOPS, a mediator of symbiotic intracellular accommodation (2008) (410)
- Cell and developmental biology of arbuscular mycorrhiza symbiosis. (2013) (406)
- Plastid proteins crucial for symbiotic fungal and bacterial entry into plant roots (2005) (390)
- Evolution of signal transduction in intracellular symbiosis. (2002) (352)
- Pronounced Intraspecific Haplotype Divergence at the RPP5 Complex Disease Resistance Locus of Arabidopsis (1999) (345)
- NUCLEOPORIN85 Is Required for Calcium Spiking, Fungal and Bacterial Symbioses, and Seed Production in Lotus japonicus (2007) (344)
- Advances and current challenges in calcium signaling. (2018) (338)
- A TILLING Reverse Genetics Tool and a Web-Accessible Collection of Mutants of the Legume Lotus japonicus 1 (2003) (332)
- Seven Lotus japonicus Genes Required for Transcriptional Reprogramming of the Root during Fungal and Bacterial Symbiosisw⃞ (2005) (317)
- Intracellular accommodation of microbes by plants: a common developmental program for symbiosis and disease? (2000) (307)
- Modes of expression and common structural features of the complete phenylalanine ammonia-lyase gene family in parsley. (1995) (288)
- Transcriptome analysis of Arabidopsis clubroots indicate a key role for cytokinins in disease development. (2006) (283)
- Lotus japonicus Nodulation Requires Two GRAS Domain Regulators, One of Which Is Functionally Conserved in a Non-Legume1[C][W] (2006) (279)
- CYCLOPS, a DNA-binding transcriptional activator, orchestrates symbiotic root nodule development. (2014) (270)
- Lipid transfer from plants to arbuscular mycorrhiza fungi (2017) (270)
- SymRK defines a common genetic basis for plant root endosymbioses with arbuscular mycorrhiza fungi, rhizobia, and Frankiabacteria (2008) (263)
- Oligopeptide elicitor-mediated defense gene activation in cultured parsley cells. (1995) (233)
- FRET-based genetically encoded sensors allow high-resolution live cell imaging of Ca²⁺ dynamics. (2012) (232)
- Lotus japonicus CASTOR and POLLUX Are Ion Channels Essential for Perinuclear Calcium Spiking in Legume Root Endosymbiosis[W] (2008) (228)
- Functional Adaptation of a Plant Receptor- Kinase Paved the Way for the Evolution of Intracellular Root Symbioses with Bacteria (2008) (224)
- NENA, a Lotus japonicus Homolog of Sec13, Is Required for Rhizodermal Infection by Arbuscular Mycorrhiza Fungi and Rhizobia but Dispensable for Cortical Endosymbiotic Development[C][W] (2010) (219)
- Phylogenomics reveals multiple losses of nitrogen-fixing root nodule symbiosis (2018) (217)
- Evolution of root endosymbiosis with bacteria: How novel are nodules? (2009) (202)
- Molecular genetics of the arbuscular mycorrhizal symbiosis. (2004) (194)
- Receptor kinase signaling pathways in plant-microbe interactions. (2012) (184)
- 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. (2011) (170)
- The Lotus japonicus LjSym4 gene is required for the successful symbiotic infection of root epidermal cells. (2000) (158)
- A CCaMK-CYCLOPS-DELLA Complex Activates Transcription of RAM1 to Regulate Arbuscule Branching (2016) (150)
- Host-related metabolic cues affect colonization strategies of a root endophyte (2013) (141)
- Mycorrhiza Mutants of Lotus japonicus Define Genetically Independent Steps During Symbiotic Infection (1998) (140)
- Lotus japonicus: legume research in the fast lane. (2005) (136)
- Activation of calcium- and calmodulin-dependent protein kinase (CCaMK), the central regulator of plant root endosymbiosis. (2012) (134)
- Recombination between diverged clusters of the tomato Cf-9 plant disease resistance gene family. (1999) (130)
- Identification of candidate genome regions controlling disease resistance in Arachis (2009) (125)
- The Clavata2 genes of pea and Lotus japonicus affect autoregulation of nodulation. (2011) (115)
- Apoplastic plant subtilases support arbuscular mycorrhiza development in Lotus japonicus. (2009) (114)
- Regulation of Plant Symbiosis Receptor Kinase through Serine and Threonine Phosphorylation* (2005) (114)
- Two MicroRNAs Linked to Nodule Infection and Nitrogen-Fixing Ability in the Legume Lotus japonicus1[W] (2012) (110)
- Isoflavonoid-inducible resistance to the phytoalexin glyceollin in soybean rhizobia (1991) (109)
- Plant defense responses of host plants with determinate nodules induced by eps-defective exob mutants of bradyrhizobium-japonicum (1994) (109)
- Chemotaxis and nod Gene Activity of Bradyrhizobium japonicum in Response to Hydroxycinnamic Acids and Isoflavonoids (1991) (106)
- RNA-seq pinpoints a Xanthomonas TAL-effector activated resistance gene in a large-crop genome (2012) (105)
- TILLING Mutants of Lotus japonicus Reveal That Nitrogen Assimilation and Fixation Can Occur in the Absence of Nodule-Enhanced Sucrose Synthase[C][W] (2007) (104)
- Distinct roles of Lotus japonicus SYMRK and SYM15 in root colonization and arbuscule formation. (2004) (104)
- Cleavage of the SYMBIOSIS RECEPTOR-LIKE KINASE Ectodomain Promotes Complex Formation with Nod Factor Receptor 5 (2014) (101)
- Genetics of symbiosis in Lotus japonicus: recombinant inbred lines, comparative genetic maps, and map position of 35 symbiotic loci. (2006) (101)
- Knowing your friends and foes--plant receptor-like kinases as initiators of symbiosis or defence. (2014) (96)
- Functional Domain Analysis of the Remorin Protein LjSYMREM1 in Lotus japonicus (2012) (94)
- TILLING in Lotus japonicus Identified Large Allelic Series for Symbiosis Genes and Revealed a Bias in Functionally Defective Ethyl Methanesulfonate Alleles toward Glycine Replacements1[W][OA] (2009) (94)
- Isoliquiritigenin, a strong nod gene- and glyceollin resistance-inducing flavonoid from soybean root exudate (1992) (91)
- A Modular Plasmid Assembly Kit for Multigene Expression, Gene Silencing and Silencing Rescue in Plants (2014) (90)
- A cytosolic invertase is required for normal growth and cell development in the model legume, Lotus japonicus (2009) (90)
- A genetic linkage map of the model legume Lotus japonicus and strategies for fast mapping of new loci. (2002) (86)
- Genetic and molecular analysis of tomato Cf genes for resistance to Cladosporium fulvum. (1998) (84)
- Dual requirement of the LjSym4 gene for mycorrhizal development in epidermal and cortical cells of Lotus japonicus roots. (2002) (80)
- The unbearable naivety of legumes in symbiosis. (2009) (75)
- Lotus japonicus symRK-14 uncouples the cortical and epidermal symbiotic program. (2011) (74)
- The Most Widespread Symbiosis on Earth (2006) (69)
- Lotus japonicus E3 Ligase SEVEN IN ABSENTIA4 Destabilizes the Symbiosis Receptor-Like Kinase SYMRK and Negatively Regulates Rhizobial Infection[C][W] (2012) (69)
- The ERN1 transcription factor gene is a target of the CCaMK/CYCLOPS complex and controls rhizobial infection in Lotus japonicus. (2017) (66)
- CERBERUS and NSP1 of Lotus japonicus are common symbiosis genes that modulate arbuscular mycorrhiza development. (2013) (65)
- The Recent Evolution of a Symbiotic Ion Channel in the Legume Family Altered Ion Conductance and Improved Functionality in Calcium Signaling[C][W] (2012) (62)
- Spontaneous symbiotic reprogramming of plant roots triggered by receptor-like kinases (2014) (62)
- Legume root metabolites and VA-mycorrhiza development (1993) (61)
- A Suite of Lotus japonicus Starch Mutants Reveals Both Conserved and Novel Features of Starch Metabolism1[W][OA] (2010) (60)
- Plant biology: Locks, keys and symbioses (2003) (59)
- SCARN a Novel Class of SCAR Protein That Is Required for Root-Hair Infection during Legume Nodulation (2015) (59)
- Homologues of the Cf-9 disease resistance gene (Hcr9s) are present at multiple loci on the short arm of tomato chromosome 1. (1999) (58)
- Production of the Phytoalexin Glyceollin I by Soybean Roots in Response to Symbiotic and Pathogenic Infection (1992) (57)
- Exob mutants of bradyrhizobium-japonicum with reduced competitiveness for nodulation of glycine-max (1993) (51)
- Genetic suppressors of the Lotus japonicus har1-1 hypernodulation phenotype. (2006) (51)
- Negative regulation of CCaMK is essential for symbiotic infection. (2012) (50)
- Plant–fungal associations: Cue for the branching connection (2005) (48)
- Faculty Opinions recommendation of Arbuscular mycorrhizal fungi elicit a novel intracellular apparatus in Medicago truncatula root epidermal cells before infection. (2005) (48)
- Hypersensitive reaction of nodule cells in the Glycine sp./Bradyrhizobium japonicum-symbiosis occurs at the genotype-specific level. (1990) (43)
- Exploitation of colinear relationships between the genomes of Lotus japonicus, Pisum sativum and Arabidopsis thaliana, for positional cloning of a legume symbiosis gene (2004) (43)
- Uptake of bacteria into living plant cells, the unifying and distinct feature of the nitrogen-fixing root nodule symbiosis. (2018) (42)
- Proteases in plant root symbiosis. (2007) (40)
- The K+-dependent asparaginase, NSE1, is crucial for plant growth and seed production in Lotus japonicus. (2013) (39)
- Accumulation of the Phytoalexin Glyceollin I in Soybean Nodules Infected by a Bradyrhizobium japonicum nifA Mutant (1991) (38)
- Colonization of root cells and plant growth promotion by Piriformospora indica occurs independently of plant common symbiosis genes (2015) (38)
- Genetic Variation at the Tomato Cf-4/Cf-9 Locus Induced by EMS Mutagenesis and Intralocus Recombination (2004) (37)
- Identification of symbiotically defective mutants of Lotus japonicus affected in infection thread growth. (2006) (34)
- A unified multi-kingdom Golden Gate cloning platform (2019) (33)
- Exopolysaccharide (EPS) synthesis in Bradyrhizobium japonicum : sequence, operon structure and mutational analysis of an exo gene cluster (1998) (33)
- Activation of a Lotus japonicus subtilase gene during arbuscular mycorrhiza is dependent on the common symbiosis genes and two cis-active promoter regions. (2011) (32)
- Phosphoproteome analysis of Lotus japonicus roots reveals shared and distinct components of symbiosis and defense. (2011) (32)
- Polymorphic infection and organogenesis patterns induced by a Rhizobium leguminosarum isolate from Lotus root nodules are determined by the host genotype. (2012) (30)
- A Set of Lotus japonicus Gifu × Lotus burttii Recombinant Inbred Lines Facilitates Map-based Cloning and QTL Mapping (2012) (27)
- LCO Receptors Involved in Arbuscular Mycorrhiza Are Functional for Rhizobia Perception in Legumes (2019) (26)
- The Temperature-Sensitive brush Mutant of the Legume Lotus japonicus Reveals a Link between Root Development and Nodule Infection by Rhizobia[C][W][OA] (2009) (26)
- A quantitative hypermorphic CNGC allele confers ectopic calcium flux and impairs cellular development (2017) (23)
- Cell Biology: Control of Partner Lifetime in a Plant–Fungus Relationship (2017) (20)
- The Thiamine Biosynthesis Gene THI1 Promotes Nodule Growth and Seed Maturation1 (2016) (19)
- Plant biology: Fixation with regulation (2002) (18)
- Analysis of the Lotus japonicus nuclear pore NUP107-160 subcomplex reveals pronounced structural plasticity and functional redundancy (2013) (17)
- Common symbiosis genes of Lotus japonicus are not required for intracellular accommodation of the rust fungus Uromyces loti. (2006) (16)
- Strawberry Accessions with Reduced Drosophila suzukii Emergence From Fruits (2016) (16)
- Two Lotus japonicus symbiosis mutants impaired at distinct steps of arbuscule development. (2013) (16)
- A set of Arabidopsis genes involved in the accommodation of the downy mildew pathogen Hyaloperonospora arabidopsidis (2019) (14)
- Proteases in Plant Root Symbiosis (2007) (13)
- Symbiosis and pathogenesis: what determines the difference? (2014) (11)
- A CCaMK-CYCLOPS-DELLA Complex Activates Transcription of RAM1 to Regulate Arbuscule Branching (2016) (10)
- Dryas as a Model for Studying the Root Symbioses of the Rosaceae (2019) (10)
- The Impairment of the Nodulation Process, Induced by a Bradyrhizobium japonicum Exopolysaccharide Mutant is Determined by the Genotype of the Host Plant (1994) (9)
- The relationship between thiamine and two symbioses: Root nodule symbiosis and arbuscular mycorrhiza (2016) (9)
- Pleiotropic effect of fluoranthene on anthocyanin synthesis and nodulation of Medicago sativa is reversed by the plant flavone luteolin (1995) (8)
- Competitiveness and communication for effective inoculation byRhizobium, Bradyrhizobium and vesicular-arbuscular mycorrhiza fungi (2005) (6)
- Symbiosis-related genes sustain the development of a downy mildew pathogen on Arabidopsis thaliana (2018) (6)
- a Strong nodGene-andGlyceollin Resistance- Inducing Flavonoid fromSoybean RootExudate (1992) (5)
- Molecular, genetic and physiological analysis of Cladosporium resistance gene function in tomato. (1998) (5)
- A strawberry accession with elevated methyl anthranilate fruit concentration is naturally resistant to the pest fly Drosophila suzukii (2020) (5)
- TRANSCRIPTOME ANALYSIS OF ARABIDOPSIS THALIANA CLUBROOTS (2006) (4)
- Driving forward in reverse. (2009) (4)
- The Nuclear Pore Complex in Symbiosis and Pathogen Defence (2013) (4)
- Genomic approaches to interactions of plants with pathogens and symbionts (2001) (4)
- Nodule proteins and compartments (1988) (3)
- Castor and Pollux, the Twin Genes that Are Responsible for Endosymbioses in Lotus japonicus (2005) (3)
- Molecular Mechanisms Governing Arbuscular Mycorrhiza Development and Function (2013) (2)
- Nodule development and nitrogen fixation in the Rhizobium Bradyrhizobium system (1990) (2)
- Plant Genes Involved in Symbiotic Signal Perception/Signal Transduction (2014) (2)
- 96-Well DNA isolation method (2005) (2)
- Faculty Opinions recommendation of Breaking the code of DNA binding specificity of TAL-type III effectors. (2009) (2)
- A novel cis-element enabled bacterial uptake by plant cells (2022) (2)
- A promiscuity locus confers Lotus burttii nodulation with rhizobia from five different genera (2021) (2)
- Regulatory Mechanisms of Symrk Kinase Activity (2005) (1)
- Author response: A quantitative hypermorphic CNGC allele confers ectopic calcium flux and impairs cellular development (2017) (1)
- Peribacteroid Membrane Stability and Phytoalexin Production in Legume Nodules (1988) (1)
- A CCaMK/Cyclops response element in the promoter of Lotus japonicus Calcium-Binding Protein 1 (CBP1) mediates transcriptional activation in root symbioses. (2022) (1)
- Lotus japonicus nodulation requires two GRAS-domain regulators, NSP1 and NSP2 (2008) (1)
- Faculty Opinions recommendation of Short-chain chitin oligomers from arbuscular mycorrhizal fungi trigger nuclear Ca2+ spiking in Medicago truncatula roots and their production is enhanced by strigolactone. (2013) (0)
- Breeding potential of underutilizedFragariaspecies (2021) (0)
- DNA Sequence Analysis of Induced Mutants in Soybean (2010) (0)
- Knowingyourfriendsandfoes-plantreceptor-likekinasesasinitiators of symbiosis or defence (2014) (0)
- Chemotaxis andnodGeneActivity ofBradyrhizobium japonicum in Response toHydroxycinnamic AcidsandIsoflavonoids (1991) (0)
- RPG interacts with E3-ligase CERBERUS to mediate rhizobial infection in Lotus japonicus (2022) (0)
- A unified multi-kingdom Golden Gate cloning platform (2019) (0)
- Faculty Opinions recommendation of Targeted screening for induced mutations. (2002) (0)
- Faculty Opinions recommendation of A phosphate transporter from Medicago truncatula involved in the acquisition of phosphate released by arbuscular mycorrhizal fungi. (2002) (0)
- Genetics and genomics in Lotus japonicus. (2002) (0)
- Faculty Opinions recommendation of BRI1/BAK1, a receptor kinase pair mediating brassinosteroid signaling. (2002) (0)
- Faculty Opinions recommendation of HAR1 mediates systemic regulation of symbiotic organ development. (2003) (0)
- Symbiosis as evolution from chemical defense to structural defense (compartmentation) (1992) (0)
- Mutagenesis in Lotus japonicus (2005) (0)
- A band of misfits: Role of unexpected proteins in the plant symbiotic signaling pathway (2016) (0)
- Faculty Opinions recommendation of NSP1 of the GRAS protein family is essential for rhizobial Nod factor-induced transcription. (2005) (0)
- Faculty Opinions recommendation of Arabidopsis gp91phox homologues AtrbohD and AtrbohF are required for accumulation of reactive oxygen intermediates in the plant defense response. (2002) (0)
- Faculty Opinions recommendation of A tomato cysteine protease required for Cf-2-dependent disease resistance and suppression of autonecrosis. (2003) (0)
- Using wild species and genomic tools to improve resistance in peanut (Arachis hypogaea l.) (2005) (0)
- Faculty Opinions recommendation of Plant pathogen recognition mediated by promoter activation of the pepper Bs3 resistance gene. (2007) (0)
- Faculty Opinions recommendation of DELLA proteins regulate arbuscule formation in arbuscular mycorrhizal symbiosis. (2014) (0)
- A CCaMK/Cyclops response element in the promoter of L. japonicus Calcium-Binding Protein 1 (CBP1) mediates transcriptional activation in root symbioses (2021) (0)
- Legume root metabolites and VA-mycorrhiza development (Glycine max, Vicia faba) (1993) (0)
- Faculty Opinions recommendation of BAK1, an Arabidopsis LRR receptor-like protein kinase, interacts with BRI1 and modulates brassinosteroid signaling. (2002) (0)
- Decision letter: Blumenols as shoot markers of root symbiosis with arbuscular mycorrhizal fungi (2018) (0)
- Maintenance and Quantitative Phenotyping of the Oomycete-plant Model Pathosystem Hyaloperonospora arabidopsidis-Arabidopsis. (2020) (0)
- Faculty Opinions recommendation of Induction, suppression and requirement of RNA silencing pathways in virulent Agrobacterium tumefaciens infections. (2006) (0)
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