个人简介
Ann-Maree obtained a BSc (Hons), was awarded a University Medal, and then a PhD in Plant Sciences from the ANU. Her PhD research was completed at CSIRO on the interaction between flax and the rust pathogenic fungus Melampsora lini, this work was recognised by receiving the ‘CSIRO Plant Industry Chief’s Award for Individual Excellence in Research’. She then accepted a postdoctoral position at the University of California, Berkeley, where she continued to investigate molecular plant-pathogen interactions. In 2010, she was awarded an Australian Postdoctoral Fellowship from the ARC and returned to the ANU to work on the molecular basis of Fusarium wilt resistance in tomato. She continues to work on fungal-plant interactions using the flax-flax rust pathosystem
研究领域
My research focuses on trying to understand how phytopathogenic fungi manipulate their host to establish an infection through the use of effector proteins, and how plant resistance proteins function to trigger defence responses to prevent disease. Currently I am investigating these questions using two different fungal-plant interactions, Fusarium oxysporum f. sp. lycopersici which causes wilt disease of tomato and Melampsora lini which causes rust disease of flax
近期论文
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Anderson C, Khan MA, Jack C, Catanzariti A, Nemri A, Lawrence GJ, Ellis J, Hardham A, Dodds PN, Jones DA (2016) Genome analysis and avirulence gene cloning using a high-density RADseq map of the flax rust fungus, Melampsora lini. BMC Genomics – submitted
Thynne E, Saur IML, Simbaqueba J, Ogilvie HA, Gonzalez-Cendales Y, Mead O, Taranto A, Catanzariti A, Mcdonald MC, Schwessinger B, Jones DA, Rathjen JP and Solomon PS (2016) Fungal phytopathogens encode functional homologues of plant rapid alkalinisation factor (RALF) peptides. Molecular Plant Pathology, DOI:10.1111/mpp.124442016.
Gonzalez-Cendales Y, Catanzariti A, Baker B, McGrath DJ, Jones DA (2016) Identification of I-7 expands the repertoire of genes for resistance to Fusarium wilt in tomato to three resistance gene classes. Molecular Plant Pathology, DOI: 10.1111/mpp.12294.
Catanzariti A, Lim GTT, Jones DA (2015) The tomato I-3 gene: a novel gene for resistance to Fusarium wilt disease. New Phytologist, DOI: 10.1111/nph.13348.
Gonzalez-Cendales Y, Huong DTT, Lim GTT, McGrath DJ, Catanzariti A, Jones DA (2014) Application of CAPS markers to the mapping and marker-assisted breeding of genes for resistance to Fusarium wilt in tomato. Book-Chapter, In: Shavrukov Y, ed. Cleaved amplified polymorphic sequences (CAPS) markers in plant biology. New York, USA: Nova Science Publishers, 91–108.
Ve T, Williams SJ, Catanzariti A, Rafiqi M, Rahman M, Ellis JG, Hardham AR, Jones DA, Anderson PA, Dodds PN, Kobe B (2013) Structures of the flax-rust effector AvrM reveal insights into the molecular basis of plant-cell entry and effector-triggered immunity. PNAS USA, 110(43): 17594–17599.
Catanzariti A, Mago R, Ellis JG, Dodds PN (2011) Constructing haustorium-specific cDNA libraries from rust fungi. Methods in Molecular Biology, 712: 79–87.
Catanzariti A, Dodds PN, Ve T, Kobe B, Ellis JG, Staskawicz BJ (2010) The AvrM effector from flax rust has a structured C-terminal domain and interacts directly with the M resistance protein. Molecular Plant-Microbe Interactions, 23(1): 49–57.
Catanzariti A, Dodds PN, Ellis JG, Staskawicz BJ (2010) The interaction of avirulence and resistance gene products in flax rust disease – providing advances in rust research. Canadian Journal of Plant Pathology, 32(1): 11–19.
Catanzariti A, Jones DA (2010) Effector proteins of extracellular fungal plant pathogens that trigger host resistance. Functional Plant Biology, 37(10): 901–906.
Wang CA, Guncar G, Forwood JK, Teh T, Catanzariti A, Lawrence GJ, Loughlin FE, Mackay JP, Schirra HJ, Anderson PA, Ellis JG, Dodds PN, Kobe B (2007) Crystal structures of flax rust avirulence proteins AvrL567-A and -D reveal details of the structural basis for flax disease resistance specificity. Plant Cell, 19(9): 2898–28912.
Dodds PN, Catanzariti A, Lawrence GJ, Ellis JG (2007) Avirulence proteins of rust fungi: penetrating the host-haustorium barrier. Australian Journal of Agricultural Research, 58(6): 512–517.
Catanzariti A, Dodds PN, Ellis JG (2007) Avirulence proteins from haustoria-forming pathogens. FEMS Microbiology Letters, 269(2): 181–188.
Gun?ar G, Wang CA, Forwood JK, Teh T, Catanzariti A, Ellis JG, Dodds PN, Kobe B (2007) The use of Co2+ for crystallization and structure determination, using a conventional monochromatic X-ray source, of flax rust avirulence protein. Acta Crystallographica Section F, Structural Biology and Crystallization Communications, F63(Pt 3): 209–213.
Dodds PN, Lawrence GJ, Catanzariti A, Teh T, Wang CA, Ayliffe MA, Kobe B, Ellis JG (2006) Direct protein interaction underlies gene-for-gene specificity and coevolution of the flax resistance genes and flax rust avirulence genes. PNAS USA, 103(23): 8888–8893.
Ellis JG, Catanzariti A, Dodds PN (2006) The problem of how fungal and oomycete avirulence proteins enter plant cells. Trends in Plant Science, 11(2): 61–63.
Catanzariti A, Dodds PN, Lawrence GJ, Ayliffe MA, Ellis JG (2006) Haustorially expressed secreted proteins from flax rust are highly enriched for avirulence elicitors. Plant Cell, 18(1): 243–256.
Baker RT, Catanzariti A, Karunasekara Y, Soboleva TA, Sharwood R, Whitney S, Board PG (2005) Using deubiquitylating enzymes as research tools. Ubiquitin and Protein Degradation, Part A. Book series: Methods in Enzymology, 398(1): 540–554.
Catanzariti A, Soboleva TA, Jans DA, Board PG, Baker RT (2004) An efficient system for high-level expression and easy purification of authentic recombinant proteins. Protein Science, 13(5): 1331–1339.
Dodds PN, Lawrence GJ, Catanzariti A, Ayliffe MA, Ellis JG (2004) The Melampsora lini AvrL567 avirulence genes are expressed in haustoria and their products are recognized inside plant cells. Plant Cell, 16(3): 755–768.