The influence of the mating type on virulence of Mucor irregularis

[1]  T. James,et al.  The frequency of sex in fungi , 2016, Philosophical Transactions of the Royal Society B: Biological Sciences.

[2]  Sudhir Kumar,et al.  MEGA7: Molecular Evolutionary Genetics Analysis Version 7.0 for Bigger Datasets. , 2016, Molecular biology and evolution.

[3]  Changqing Chang,et al.  The mating-type locus b of the sugarcane smut Sporisorium scitamineum is essential for mating, filamentous growth and pathogenicity. , 2016, Fungal genetics and biology : FG & B.

[4]  P. Fuentes-Prior,et al.  A novel gain-of-function STAT1 mutation resulting in basal phosphorylation of STAT1 and increased distal IFN-γ-mediated responses in chronic mucocutaneous candidiasis. , 2015, Molecular immunology.

[5]  X. Xia,et al.  Primary cutaneous mucormycosis caused by Mucor irregularis , 2015, Clinical and experimental dermatology.

[6]  H. Uezato,et al.  Primary cutaneous mucormycosis caused by Mucor irregularis in an elderly person , 2015, The Journal of dermatology.

[7]  I. Samanta Cutaneous, Subcutaneous and Systemic Mycology , 2015, Veterinary Mycology.

[8]  R. Hamelin,et al.  The MAT1-1:MAT1-2 Ratio of Sporothrix globosa Isolates in Japan , 2015, Mycopathologia.

[9]  J. Heitman,et al.  Distinct and redundant roles of exonucleases in Cryptococcus neoformans: implications for virulence and mating. , 2014, Fungal genetics and biology : FG & B.

[10]  J. Heitman,et al.  Sexual reproduction of human fungal pathogens. , 2014, Cold Spring Harbor perspectives in medicine.

[11]  B. Rammaert,et al.  Mucor irregularis-associated cutaneous mucormycosis: Case report and review , 2014, Medical mycology case reports.

[12]  U. Saikia,et al.  Primary Cutaneous Mucormycosis Presenting as a Giant Plaque: Uncommon Presentation of a Rare Mycosis , 2014, Mycopathologia.

[13]  T. Klingebiel,et al.  Rhizopus oryzae hyphae are damaged by human natural killer (NK) cells, but suppress NK cell mediated immunity. , 2013, Immunobiology.

[14]  A. Patil,et al.  Rhizomucor variabilis: a rare causative agent of primary cutaneous zygomycosis. , 2013, Indian journal of medical microbiology.

[15]  Guanghui Wang,et al.  The MAT Locus Genes Play Different Roles in Sexual Reproduction and Pathogenesis in Fusarium graminearum , 2013, PloS one.

[16]  W. Bao,et al.  Interleukin-22 Mediates Early Host Defense against Rhizomucor pusilluscan Pathogens , 2013, PloS one.

[17]  J. Meis,et al.  Taxonomy and epidemiology of Mucor irregularis, agent of chronic cutaneous mucormycosis , 2013, Persoonia.

[18]  M. Hogardt,et al.  Flagellin Induces Myeloid-Derived Suppressor Cells: Implications for Pseudomonas aeruginosa Infection in Cystic Fibrosis Lung Disease , 2013, The Journal of Immunology.

[19]  A. Rivera,et al.  Cytokines and the regulation of fungus-specific CD4 T cell differentiation. , 2012, Cytokine.

[20]  A. Idnurm Sex Determination in the First-Described Sexual Fungus , 2011, Eukaryotic Cell.

[21]  K. O’Donnell,et al.  Heterothallic mating in Mucor irregularis and first isolate of the species outside of Asia. , 2011, Medical mycology.

[22]  J. Heitman,et al.  Sporangiospore Size Dimorphism Is Linked to Virulence of Mucor circinelloides , 2011, PLoS pathogens.

[23]  K. O’Donnell,et al.  Chronic Rhinofacial Mucormycosis Caused by Mucor irregularis (Rhizomucor variabilis) in India , 2011, Journal of Clinical Microbiology.

[24]  A. Utani,et al.  Rhizomucor variabilis infection in human cutaneous mucormycosis , 2011, Clinical and experimental dermatology.

[25]  G. Butler,et al.  Evolution of Mating within the Candida parapsilosis Species Group , 2011, Eukaryotic Cell.

[26]  J. Christians,et al.  Virulence in an insect model differs between mating types in Aspergillus fumigatus. , 2011, Medical mycology.

[27]  J. Heitman,et al.  Structure, Function, and Phylogeny of the Mating Locus in the Rhizopus oryzae Complex , 2010, PloS one.

[28]  W. Goldman,et al.  Generation of IL-23 Producing Dendritic Cells (DCs) by Airborne Fungi Regulates Fungal Pathogenicity via the Induction of TH-17 Responses , 2010, PloS one.

[29]  J. Heitman,et al.  The Mating Type Locus (MAT) and Sexual Reproduction of Cryptococcus heveanensis: Insights into the Evolution of Sex and Sex-Determining Chromosomal Regions in Fungi , 2010, PLoS genetics.

[30]  F. Wood,et al.  Burn wounds infected by contaminated water: case reports, review of the literature and recommendations for treatment. , 2010, Burns : journal of the International Society for Burn Injuries.

[31]  J. Blanco,et al.  Mating type and invasiveness are significantly associated in Aspergillus fumigatus. , 2010, Medical mycology.

[32]  R. Ramani,et al.  Rhizomucor variabilis var. regularior and Hormographiella aspergillata Infections in a Leukemic Bone Marrow Transplant Recipient with Refractory Neutropenia , 2009, Journal of Clinical Microbiology.

[33]  Yong-nian Shen,et al.  Primary cutaneous zygomycosis caused by rhizomucor variabilis: a new endemic zygomycosis? A case report and review of 6 cases reported from China. , 2009, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[34]  Li Li,et al.  Primary Cutaneous Mucormycosis Caused by Rhizomucor variabilis in an Immunocompetent Patient , 2009, Mycopathologia.

[35]  J. Heitman,et al.  Orchestration of sexual reproduction and virulence by the fungal mating-type locus. , 2008, Current opinion in microbiology.

[36]  Joseph Heitman,et al.  Microsporidia Evolved from Ancestral Sexual Fungi , 2008, Current Biology.

[37]  L. Casselton Fungal sex genes-searching for the ancestors. , 2008, BioEssays : news and reviews in molecular, cellular and developmental biology.

[38]  J. Heitman,et al.  Identification of the sex genes in an early diverged fungus , 2008, Nature.

[39]  T. G. Mitchell,et al.  Interaction Between Genetic Background and the Mating-Type Locus in Cryptococcus neoformans Virulence Potential , 2005, Genetics.

[40]  J. Heitman,et al.  Deciphering the Model Pathogenic Fungus Cryptococcus Neoformans , 2005, Nature Reviews Microbiology.

[41]  T. G. Mitchell,et al.  Cryptococcus neoformans α Strains Preferentially Disseminate to the Central Nervous System during Coinfection , 2005, Infection and Immunity.

[42]  S. Shoham,et al.  The immune response to fungal infections , 2005, British journal of haematology.

[43]  B. Munday,et al.  Possible differences in pathogenicity between cane toad-, frog- and platypus-derived isolates of Mucor amphibiorum, and a platypus-derived isolate of Mucor circinelloides. , 2005, Medical mycology.

[44]  D. Howard Pathogenic fungi in humans and animals. , 2002 .

[45]  J. Heitman,et al.  Mating-Type Locus of Cryptococcus neoformans: a Step in the Evolution of Sex Chromosomes , 2002, Eukaryotic Cell.

[46]  J. Stalpers,et al.  Zygomycetes: the order Mucorales. , 2002 .

[47]  V. Solovyev,et al.  Ab initio gene finding in Drosophila genomic DNA. , 2000, Genome research.

[48]  B. Wickes,et al.  Cryptococcus neoformans STE12α Regulates Virulence but Is Not Essential for Mating , 2000, The Journal of experimental medicine.

[49]  M. Picard,et al.  Mating types and sexual development in filamentous ascomycetes , 1997, Microbiology and molecular biology reviews : MMBR.

[50]  B. Wickes,et al.  Genetic association of mating types and virulence in Cryptococcus neoformans , 1992, Infection and immunity.

[51]  T. Michailides,et al.  Mating types of Mucor piriformis isolated from soil and pear fruit in Oregon orchards (on the life history of Mucor piriformis) , 1986 .

[52]  K. Kwon-Chung,et al.  DISTRIBUTION OF α AND α MATING TYPES OF CRYPTOCOCCUS NEOFORMANS AMONG NATURAL AND CLINICAL ISOLATES , 1978 .

[53]  M. Schipper On certain species of mucor with a key to all accepted species ; On the genera rhizomucor and parasitella , 1978 .

[54]  M. Schipper A study on variability in mucor hiemalis and related species , 1974 .

[55]  A. Blakeslee SEXUAL REACTIONS BETWEEN HERMAPHRODITIC AND DIŒCIOUS MUCORS , 1915 .