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1. Full Text 'Glomus Intraradices DAOM197198', a Model Fungus in Arbuscular Mycorrhiza Research, Is Not Glomus intraradices
by Herbert Stockinger and Christopher Walker and Arthur SchĆ¼ĆŸler
The New Phytologist, ISSN 0028-646X, 9/2009, Volume 183, Issue 4, pp. 1176 - 1187
Glomus intraradices-Wke fungi are the most intensely studied arbuscular mycorrhizal (AM) fungi. However, there are several AM fungi named as C. intraradices... 
Fungi | Polymerase chain reaction | Biological taxonomies | Databases | Mycorrhizal fungi | Ribosomal DNA | Phylogenetics | Information technology | Sequencing | Fungal spores | Glomus intraradices | Molecular phylogeny | DNA barcoding | Large subunit (LSU) rDNA | Glomus irregulare | Internal transcribed spacer (ITS) region rDNA | Species definition | Intraspecific rDNA variability | species definition | POPULATION | GLOMEROMYCOTA | SEQUENCES | large subunit (LSU) rDNA | POT CULTURES | GLOMALES | IDENTIFICATION | PLANT SCIENCES | GENETIC DIVERSITY | VARIABILITY | internal transcribed spacer (ITS) region rDNA | intraspecific rDNA variability | molecular phylogeny | SP-NOV | PROSPECTS | Mycorrhizae - genetics | DNA, Ribosomal | DNA, Ribosomal Spacer | Species Specificity | Base Sequence | Glomeromycota - classification | Mycorrhizae - isolation & purification | Glomeromycota - genetics | Phylogeny | DNA, Fungal | Ribosome Subunits | Sequence Analysis, DNA | Recombinant DNA | Index Medicus
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2. Full Text The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont
by E. Tisserant and A. Kohler and P. Dozolme-Seddas and R. Balestrini and K. Benabdellah and A. Colard and D. Croll and C. Da Silva and S. K. Gomez and R. Koul and N. Ferrol and V. Fiorilli and D. Formey and Ph. Franken and N. Helber and M. Hijri and L. Lanfranco and E. Lindquist and Y. Liu and M. Malbreil and E. Morin and J. Poulain and H. Shapiro and D. van Tuinen and A. Waschke and C. AzcĆ³n-Aguilar and G. BĆ©card and P. Bonfante and M. J. Harrison and H. KĆ¼ster and P. Lammers and U. Paszkowski and N. Requena and S. A. Rensing and C. Roux and I. R. Sanders and Y. Shachar-Hill and G. Tuskan and J. P. W. Young and V. Gianinazzi-Pearson and F. Martin and Joint Genome Institute (JGI)
New Phytologist, ISSN 0028-646X, 2/2012, Volume 193, Issue 3, pp. 755 - 769
The arbuscular mycorrhizal symbiosis is arguably the most ecologically important eukaryotic symbiosis, yet it is poorly understood at the molecular level. To... 
Symbiosis | Fungi | Transcriptomes | Enzymes | Spore germination | Genes | Genomes | Plants | Mycelium | Fungal spores | Rapid reports | small secreted proteins | mycorrhiza | symbiosis | transcript profiling | Glomeromycota | meiosis and recombination genes | Glomus | Meiosis and recombination genes | Transcript profiling | Mycorrhiza | Small secreted proteins | PHOSPHATE TRANSPORTER GENES | PLANT | AMMONIUM TRANSPORTER | EXPRESSION PROFILES | GENOME | PLANT SCIENCES | LACCARIA-BICOLOR | LOTUS-JAPONICUS | CELL-WALL | MEDICAGO-TRUNCATULA | NITROGEN TRANSFER | Fungal Proteins - chemistry | Gene Expression Regulation, Fungal | Protein Structure, Tertiary | Gene Library | RNA, Messenger - genetics | Glomeromycota - genetics | Plants - microbiology | Up-Regulation - genetics | Transcriptome - genetics | Colony Count, Microbial | Fungal Proteins - genetics | Mycorrhizae - growth & development | RNA, Messenger - metabolism | Symbiosis - genetics | Meiosis - genetics | Mycorrhizae - genetics | Base Sequence | Fungal Proteins - secretion | Polymorphism, Single Nucleotide - genetics | Genes, Fungal - genetics | Mycelium - genetics | Glomeromycota - growth & development | Polysaccharides | Plant physiology | Analysis | Genomics | Universities and colleges | Gene expression | Index Medicus | Life Sciences
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3. Full Text First cloning and characterization of two functional aquaporin genes from an arbuscular mycorrhizal fungus Glomus intraradices
by Tao Li and Ya-Jun Hu and Zhi-Peng Hao and Hong Li and You-Shan Wang and Bao-Dong Chen
New Phytologist, ISSN 0028-646X, 1/2013, Volume 197, Issue 2, pp. 617 - 630
Arbuscular mycorrhizal (AM) symbiosis is known to stimulate plant drought tolerance. However, the molecular basis for the direct involvement of AM fungi (AMF)... 
Full papers | Yeasts | Aquaporins | Plant roots | Corn | Cell membranes | Gene expression regulation | Plants | Drought | Dehydration | Mycelium | osmotic stress | arbuscular mycorrhizal | drought tolerance | Glomus intraradices | heterologous expression | aquaporin | Arbuscular mycorrhizal (AM) | Drought tolerance | Aquaporin | Heterologous expression | Osmotic stress | arbuscular mycorrhizal (AM) | EXOGENOUS ABA | DROUGHT STRESS | TOLERANCE | ESCHERICHIA-COLI | LACTUCA-SATIVA PLANTS | SACCHAROMYCES-CEREVISIAE | PLANT SCIENCES | LETTUCE PLANTS | WATER CHANNEL | EXPRESSION | GLYCINE-MAX | Fungal Proteins - chemistry | Protons | Osmotic Pressure | Calcium - metabolism | Molecular Sequence Data | Plant Roots - genetics | Colony Count, Microbial | Phylogeny | Mycorrhizae - growth & development | Aquaporins - genetics | Protoplasts - metabolism | Pichia - metabolism | Droughts | Cloning, Molecular | Gene Expression Regulation, Plant | Genes, Fungal - genetics | Transformation, Genetic | Zea mays - genetics | Stress, Physiological - genetics | Computational Biology | Water - metabolism | Glomeromycota - genetics | Fungal Proteins - genetics | Plant Roots - microbiology | Protein Transport - genetics | Mycorrhizae - genetics | Zea mays - microbiology | Mycelium - genetics | Pichia - growth & development | Fungal Proteins - metabolism | Glomeromycota - growth & development | Fungi | Genetic aspects | Gene expression | Cloning | Genes | Index Medicus
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4. Full Text Lead uptake by the symbiotic Daucus carota L.ā€“Glomus intraradices system and its effect on the morphology of extra- and intraradical fungal microstructures
by Alvarado-LĆ³pez, Carlos Juan and Dasgupta-Schubert, Nabanita and Ambriz, Jorge Enrique and Arteaga-Velazquez, Juan Carlos and Villegas, Javier A
Environmental Science and Pollution Research, ISSN 0944-1344, 1/2019, Volume 26, Issue 1, pp. 381 - 391
This work examines the strategies adopted by an arbuscular mycorrhizal symbiotic system to ameliorate environmental Pb stress by examining the concentrations... 
Symbiosis | Environmental Health | Ecotoxicology | Daucus carota | Arbuscular mycorrhizal fungi | Phytoremediation | Environment, general | Pb | Glomus intraradices | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | LOCALIZATION | INOCULATION | COLONIZATION | ENVIRONMENTAL SCIENCES | HEAVY-METAL | CONTAMINATED SOILS | ZEA-MAYS L | ACCUMULATION | BINDING | Soil Pollutants - metabolism | Biological Transport | Daucus carota - physiology | Lead - metabolism | Mycorrhizae | Daucus carota - microbiology | Glomeromycota | Plant Roots - microbiology | Mycelium | Cell walls | X ray fluorescence analysis | Fluorescence | Cultures | Mycelia | Iron | Apoplast | Spores | Fungi | Spectrometry | Vesicles | X-ray fluorescence | Morphology | Host plants | Arbuscular mycorrhizas | Lead | X ray spectra | Colonization | Deoxyribonucleic acid--DNA | Index Medicus
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5. Full Text Integrated multiā€omics analysis supports role of lysophosphatidylcholine and related glycerophospholipids in the Lotus japonicusā€“Glomus intraradices mycorrhizal symbiosis
by Vijayakumar, Vinod and Liebisch, Gerhard and Buer, Benjamin and Xue, Li and Gerlach, Nina and Blau, Samira and Schmitz, Jessica and Bucher, Marcel
Plant, Cell & Environment, ISSN 0140-7791, 02/2016, Volume 39, Issue 2, pp. 393 - 415
Interaction of plant roots with arbuscular mycorrhizal fungi (AMF) is a complex trait resulting in cooperative interactions among the two symbionts including... 
ionomics | Glomus intraradices | fatty acid synthesis | transcriptomics | syn | ) | phospholipids | Glomeromycota | arbuscular mycorrhiza | lipidomics | Rhizophagus irregularis | Transcriptomics | Lipidomics | Phospholipids | Arbuscular mycorrhiza | Ionomics | Fatty acid synthesis | Glomus intraradices (syn: Rhizophagus irregularis) | FATTY-ACID SYNTHESIS | TRANSGENIC PLANTS | FUNCTIONAL-CHARACTERIZATION | TANDEM MASS-SPECTROMETRY | SACCHAROMYCES-CEREVISIAE | PLANT SCIENCES | PHOSPHATE TRANSPORTER | MEDICAGO-TRUNCATULA | HIGH-THROUGHPUT QUANTIFICATION | H+-ATPASE | Glycerophospholipids - metabolism | Transcription, Genetic - drug effects | Loteae - drug effects | Mycorrhizae - physiology | RNA, Messenger - metabolism | Glomeromycota - drug effects | Symbiosis - genetics | Biosynthetic Pathways - genetics | Time Factors | Lipid Metabolism - genetics | Symbiosis - drug effects | Proteomics - methods | Phosphates - pharmacology | Quantitative Trait, Heritable | Glomeromycota - physiology | RNA, Messenger - genetics | Lysophosphatidylcholines - metabolism | Loteae - microbiology | Transcriptome - drug effects | Transcriptome - genetics | Loteae - cytology | Metabolomics - methods | Subcellular Fractions - metabolism | Mycorrhizae - drug effects | Gene Expression Regulation, Plant - drug effects | Biosynthetic Pathways - drug effects | Sequence Analysis, RNA | Models, Biological | Lipid Metabolism - drug effects | Legumes | Beans | Synthesis | Analysis | Lipids | Mitochondrial DNA | Erythromycin | Mimosaceae | Fatty acids | Index Medicus
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6. Full Text The Long Hard Road to a Completed Glomus Intraradices Genome
by F. Martin and V. Gianinazzi-Pearson and M. Hijri and P. Lammers and N. Requena and I. R. Sanders and Y. Shachar-Hill and H. Shapiro and G. A. Tuskan and J. P. W. Young
The New Phytologist, ISSN 0028-646X, 12/2008, Volume 180, Issue 4, pp. 747 - 750
Fungi | Symbiosis | Symbionts | Meetings | Genomics | Genes | Genomes | Biology | Plants | Sequencing | Species | genome | Glomus intraradices | arbuscular mycorrhizal fungi | symbiosis | clustering | expressed sequence tag (EST) | Joint Genome Institute (JGI) | sequencing | Arbuscular mycorrhizal fungi | Clustering | Genome | Expressed sequence tag (EST) | PLANT SCIENCES | DNA, Mitochondrial - genetics | Mycorrhizae - genetics | Genome, Fungal | Glomeromycota - genetics | Sequence Analysis, DNA | Expressed Sequence Tags | Symbiosis - genetics | Environmental sciences | Index Medicus
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7. Full Text Nonself Vegetative Fusion and Genetic Exchange in the Arbuscular Mycorrhizal Fungus Glomus intraradices
by Daniel Croll and Manuela Giovannetti and Alexander M. Koch and Cristiana Sbrana and Martine Ehinger and Peter J. Lammers and Ian R. Sanders
The New Phytologist, ISSN 0028-646X, 3/2009, Volume 181, Issue 4, pp. 924 - 937
Arbuscular mycorrhizal fungi (AMF) form symbioses with the majority of plants and form extensive underground hyphal networks simultaneously connecting the... 
Microbial genetics | Genetic exchange | Mycorrhizal fungi | Hyphae | Plant genetics | Alleles | Genetic loci | Evolutionary genetics | Fungal spores | Spores | Glomus intraradices | nonself vegetative fusion | genetic exchange | phenotypic traits | anastomoses | arbuscular mycorrhizal fungi (AMF) | crossing experiment | genetic markers | Crossing experiment | Arbuscular mycorrhizal fungi (AMF) | Genetic markers | Anastomoses | Nonself vegetative fusion | Phenotypic traits | POPULATION | COLLETOTRICHUM | NUCLEAR | NETWORKS | PLANT SCIENCES | VARIABILITY | INDIVIDUALS | EVOLUTION | HYPHAL FUSION | DIVERSITY | ANASTOMOSIS FORMATION | Glomeromycota - isolation & purification | Hyphae - genetics | Glomeromycota - physiology | Mycorrhizae - isolation & purification | Plant Roots - genetics | Genotype | Glomeromycota - genetics | Mycorrhizae - physiology | Genetic Markers | Phylogeny | Plant Roots - microbiology | RNA, Ribosomal - genetics | DNA Copy Number Variations | Symbiosis - genetics | Phenotype | Mycorrhizae - genetics | Crosses, Genetic | Hyphae - physiology | Evolutionary biology | Genetic research | Ecology | Index Medicus
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8. Full Text Glomus intraradices induces changes in root system architecture of rice independently of common symbiosis signaling
by Gutjahr, Caroline and Casieri, Leonardo and Paszkowski, Uta
New Phytologist, ISSN 0028-646X, 06/2009, Volume 182, Issue 4, pp. 829 - 837
ā€¢ā€‚ Arbuscular mycorrhizal fungi colonize the roots of most monocotyledons and dicotyledons despite their different root architecture and cell patterning. Among... 
Oryza sativa | Glomus intraradices | common symbiosis (SYM) pathway | signaling | mycorrhiza | symbiosis | rice | lateral root | root system architecture | Symbiosis | Signaling | Mycorrhiza | Common symbiosis (SYM) pathway | Lateral root | Rice (Oryza sativa) | Root system architecture | LATERAL ROOTS | ARBUSCULAR MYCORRHIZAL FUNGI | PLANT SCIENCES | PHOSPHATE | DIFFUSIBLE FACTOR | rice (Oryza sativa) | CONSERVATION | MEDICAGO-TRUNCATULA | PATHWAY | GROWTH | GENES | DIVERGENCE | Oryza - anatomy & histology | Signal Transduction | Glomeromycota - physiology | Oryza - microbiology | Symbiosis - physiology | Plant Roots - anatomy & histology | Colony Count, Microbial | Mutation - genetics | Mycorrhizae - growth & development | Plant Roots - microbiology | Glomeromycota - growth & development | Architecture | Rice | Index Medicus
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9. Full Text Pre-symbiotic and symbiotic interactions between Glomus intraradices and two Paenibacillus species isolated from AM propagules. In vitro and inĀ vivo assays with soybean (AG043RG) as plant host
by Bidondo, Laura FernƔndez and Silvani, Vanesa and Colombo, Roxana and PƩrgola, Mariana and Bompadre, Josefina and Godeas, Alicia
Soil Biology and Biochemistry, ISSN 0038-0717, 2011, Volume 43, Issue 9, pp. 1866 - 1872
Two indole-producing species, known to be associated with propagules of arbuscular mycorrhizal (AM) fungi, were examined for their mycorrhization helper... 
Indole-producers | Glomus intraradices | Pre-symbioticā€“symbiotic interactions | Paenibacillus rhizosphaerae | Paenibacillus favisporus | Pre-symbiotic-symbiotic interactions | MICROBIAL INTERACTIONS | MAIZE PLANTS | BACTERIA | ARBUSCULAR-MYCORRHIZAL FUNGI | CULTURE | SPORE PRODUCTION | MICROORGANISMS | SOIL SCIENCE | GROWTH | ROOTS | Glomus intra radices | RHIZOSPHERE | Glycine | Soybean | Atmospheric carbon dioxide
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10. Full Text GintAMT2, a new member of the ammonium transporter family in the arbuscular mycorrhizal fungus Glomus intraradices
by PĆ©rez-Tienda, Jacob and Testillano, Pilar S and Balestrini, Raffaella and Fiorilli, Valentina and AzcĆ³n-Aguilar, ConcepciĆ³n and Ferrol, Nuria
Fungal Genetics and Biology, ISSN 1087-1845, 11/2011, Volume 48, Issue 11, pp. 1044 - 1055
ā–ŗ A new transporter gene ( ) of is reported ā–ŗ GintAMT2 is located in the plasma membrane ā–ŗ Gene expression analyses show that and are differentially expressed... 
Immunolocalization | Glomus intraradices | [formula omitted] transporter | Gene expression | Arbuscular mycorrhizal fungi | Laser microdissection | transporter | NH | NITROGEN CATABOLITE REPRESSION | MOLECULAR CHARACTERIZATION | ASPERGILLUS-NIDULANS | EXTERNAL HYPHAE | NH4+ transporter | SACCHAROMYCES-CEREVISIAE | FILAMENTOUS FUNGI | PHOSPHATE TRANSPORTER | EXTRARADICAL MYCELIUM | ORGANIC MATERIAL | GENETICS & HEREDITY | GLUTAMINE-SYNTHETASE | MYCOLOGY | Amino Acid Sequence | Nitrogen - metabolism | DNA, Fungal - genetics | Models, Molecular | Molecular Sequence Data | Glomeromycota - genetics | DNA, Fungal - chemistry | Gene Expression Profiling | Fungal Proteins - genetics | Glomeromycota - enzymology | Phylogeny | Genetic Complementation Test | Sequence Analysis, DNA | Cell Membrane - chemistry | Sequence Homology, Amino Acid | Mycorrhizae - enzymology | Mycorrhizae - genetics | Membrane Transport Proteins - genetics | Gene Deletion | Quaternary Ammonium Compounds - metabolism | Membrane Transport Proteins - metabolism | Protein Conformation | Fungal Proteins - metabolism | Index Medicus
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11. Full Text Alleviation of salt stress in Lotus glaber by Glomus intraradices
by AnalĆ­a I Sannazzaro and Oscar A Ruiz and Edgardo O AlbertĆ³ and Ana Bernardina MenĆ©ndez
Plant and Soil, ISSN 0032-079X, 1/2006, Volume 285, Issue 1/2, pp. 279 - 287
Lotus glaber is a glycophytic, perennial legume from Europe that occurs widely in saline habitats. We evaluated the effect of mycorrhizal fungus colonization... 
Fungi | Salt tolerance | Plant growth | Table salt | Plant roots | Plants | Genotypes | Soil salinity | Chlorophylls | Salinity | Lotus glaber | Glomus intraradices | Sodium | Mycorrhiza | SALINE SOILS | salinity | AGRONOMY | FUNGI | mycorrhiza | genotypes | FIELD CONDITIONS | VESICULAR-ARBUSCULAR MYCORRHIZAL | PLANT SCIENCES | sodium | SOIL SCIENCE | GROWTH | NACL | PLANTS | ROOTS | NUTRITION | INFECTION | Microbiology
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12. Full Text The greater effectiveness of Glomus mosseae and Glomus intraradices in improving productivity, oil content and tolerance of saltā€stressed menthol mint (Mentha arvensis)
by Bharti, Nidhi and Baghel, Savita and Barnawal, Deepti and Yadav, Anju and Kalra, Alok
Journal of the Science of Food and Agriculture, ISSN 0022-5142, 07/2013, Volume 93, Issue 9, pp. 2154 - 2161
BACKGROUND Mentha arvensis is cultivated in large parts of the world for its menthol-rich essential oil. The study investigates the potential of four... 
salinity | menthol | Mentha arvensis | AM fungi | Glomus | Menthol | Salinity | SOUTHWEST CHINA | MAIZE PLANTS | ARBUSCULAR MYCORRHIZAL FUNGI | FOOD SCIENCE & TECHNOLOGY | SPORE DENSITY | FIELD CONDITIONS | FATTY-ACID | GROWTH | AGRICULTURE, MULTIDISCIPLINARY | FREE PROLINE | SALINITY TOLERANCE | CHEMISTRY, APPLIED | NUTRIENT-UPTAKE | Pigments, Biological - analysis | Plant Shoots - growth & development | Glomeromycota - isolation & purification | Oils, Volatile - chemistry | Species Specificity | Mentha - growth & development | Crops, Agricultural - growth & development | Spores, Fungal - growth & development | Crops, Agricultural - microbiology | Spores, Fungal - isolation & purification | Plant Shoots - chemistry | Proline - analysis | Mentha - chemistry | Mentha - metabolism | Salt-Tolerance | Crops, Agricultural - chemistry | Mentha - microbiology | Plant Stems - chemistry | Water-Electrolyte Balance | Plant Roots - growth & development | Plant Stems - growth & development | Pigments, Biological - biosynthesis | Plant Leaves - chemistry | Symbiosis | Plant Roots - metabolism | Proline - biosynthesis | Glomeromycota - physiology | Lipid Metabolism | Plant Roots - microbiology | India | Spores, Fungal - physiology | Plant Leaves - metabolism | Plant Stems - metabolism | Plant Leaves - growth & development | Plant Shoots - metabolism | Plant Roots - chemistry | Lipid Peroxidation | Menthol - metabolism | Crops, Agricultural - metabolism | Glomeromycota - growth & development | Menthol - analysis | Herbs | Fungi | Oils & fats | Food science | Abiotic stress | Index Medicus
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