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Publications (requires free Acrobat reader)
Barrows, B.D., Griffitts, J.S., and Aroian, R.V. (2007) Resistance is non-futile: Resistance to Crystal Toxin in the nematode Caenorhabditis elegans, J. Invert. Path.,95(3):198-200 (pdf available upon request).
Li, X.Q., Wei, J.Z., Tan, A., and Aroian, R.V., (2007) Resistance to root-knot nematode in tomato roots expressing a nematicidal Bacillus thuringiensis crystal protein, Plant Biotechnology Journal 5: pp. 455–464 (pdf available upon request).
Aroian R. V. and van der Goot, F.G., (2007) Pore-forming toxins and cellular
non-immune defenses (CNIDs).
Curr. Opin. Microbiol. 10:57-61.
Barrows, B.D., Haslam, S.M., Bischof, L.J., Morris, H.R., Dell, A., and Aroian, R.V. (2007) Resistance to Bt toxin in Caenorhabditis elegans from loss of fucose. J. Biol. Chem. 282: 3302-3311 .
Barrows, B.D., Griffitts, J.S., and Aroian, R.V. (2006). Caenorhabditis elegans Carbohydrates in Bacterial Toxin Resistance. Methods in Enzymology 417: 340-358.
Cappello, M., Bungiro, R.D., Harrison, L.M., Bischof, L.J., Griffitts, J.S., Barrows, B.D., and Aroian, R.V. (2006) A purified Bacillus thuringiensis crystal protein with therapeutic activity against the hookworm parasite Ancylostoma ceylanicum. Proc. Natl. Acad. Sci. 103(41): 15154-15159.
Bischof, L.J., Huffman, D.L., and Aroian, R.V. (2006) Assays for toxicity studies in C. elegans with Bt crystal proteins. Methods in Molecular Biology 351: 139-154.
Griffitts, J.S. and Aroian, R.V. (2005) Many roads to resistance: How invertebrates adapt to Bt toxins. Bioessays 27: 614-624.
Griffitts J.S., Haslam, S.M., Yang, T., Garczynski, S.F., Mulloy, B., Morris, H., Cremer, P.S., Dell, A., Adang, M.J., and Aroian, R.V. (2005). Glycolipids as receptors for Bacillus thuringiensis crystal toxin. Science 307: 922-925.
Huffman D.L., Abrami* L., Sasik* R., Corbeil J., van der Goot F.G., and Aroian R.V. (2004). Mitogen-activated protein kinase pathways defend against bacterial pore-forming toxins. Proc. Natl. Acad. Sci. 101(30): 10995-11000.
Huffman D.L., Bischof L.J., Griffitts J.S., and Aroian R.V. (2004). Pore worms: Using Caenorhabditis elegans to study how bacterial toxins interact with their target hosts. Int. J. Med. Microbiol., 293: 599-607.
Griffitts J.S., Huffman D.L., Whitacre J.L., Barrows B.D., Marroquin L.D., Müller R., Brown J.R., Hennet T., Esko J.D., and Aroian R.V. (2003). Resistance to a bacterial toxin is mediated by removal of a conserved glycosylation pathway required for toxin - host interactions, J. Biol. Chem., 278(46): 45594-45602.
Rappleye* C.A., Tagawa* A., Le Bot N., Ahringer J., Aroian R.V. (2003). Involvement of fatty acid pathways and cortical interaction of the pronuclear complex in Caenorhabditis elegans embryonic polarity, BMC Developmental Biology 3: 8.
Wei* J.Z., Hale* K., Carta L., Platzer E., Wong C., Fang S.C., and Aroian R.V. (2003). Bacillus thuringiensis Crystal proteins that target nematodes, Proc. Natl. Acad. Sci. 100: 2760-2765.
Rappleye C.A., Tagawa A., Lyczak, R. Bowerman B., and Aroian R.V. (2002). The anaphase-promoting complex and separin are required for embryonic anterior-posterior axis formation, Developmental Cell 2(2): 195-206.
Griffitts J.S., Whitacre J.L., Stevens D.E., and Aroian R.V. (2001). Bt toxin resistance from loss of a putative carbohydrate-modifying enzyme, Science, 293:860-864.
Tagawa A., Rappleye C., and Aroian R.V. (2001) pod-2, along with pod-1, defines a new class of genes required for polarity in the early Caenorhabditis elegans embryo, Developmental Biology, 233: 412-424.
Marroquin* L.D., Elyassnia* D., Griffitts J.S., Feitelson J.S. and Aroian R.V. (2000). Bacillus thuringiensis (Bt) toxin susceptibility and isolation of resistance mutants in the nematode Caenorhabditis elegans, Genetics, 155: 1693-1699.
Rappleye C., Paredez A., Smith C., McDonald K. and Aroian R.V. (1999). The coronin-like protein POD-1 is required for anterior-posterior axis formation and cellular architecture in the nematode Caenorhabditis elegans, Genes & Development, 13: 2838-2851.
*denotes equally contributing authors.
Raffi Aroian's previous publications
Aroian R.V., Field C. Pruliere G., Kenyon C., and Alberts B.M. (1997). Isolation of Actin Associated Proteins from Caenorhabditis elegans Oocytes and Their Localization in the Early Embry, EMBO Journal, 16: 1541-1549.
Aroian R.V., Lesa G.M., and Sternberg P.W. (1994). Mutations in the Caenorhabditis elegans let-23 EGF receptor-like gene define elements important for cell-type specificity and function. EMBO Journal 13: 360-366.
Aroian R.V., Carta L., Kaloshian I., Sternberg P.W. (1993) A free-living Panagrolaimus sp from Armenia can survive in anhydrobiosis for 8.7 years. J. Nematology 25: 500-502.
Aroian R.V., Levy A.D., Koga M., Ohshima Y., Kramer J.M., and Sternberg P.W. (1993). Splicing in Caenorhabditis elegans does not require an AG at the 3’ splice acceptor site. Molecular and Cellular Biology 13: 626-637.
Aroian R.V. and Sternberg P.W. (1991). Multiple functions of let-23,
a Caenorhabditis elegans receptor tyrosine kinase gene essential for vulval
induction. Genetics 128: 251-267.
Aroian R.V., Koga M., Mendel J.E., Ohshima Y., and Sternberg P.W. (1990).
The let-23 gene necessary for Caenorhabditis elegans vulval induction
encodes a tyrosine kinase of the EGF receptor subfamily. Nature 348: 693-699.
Han M. Aroian RV. Sternberg PW. (1990). The let-60 locus controls the switch between vulval and nonvulval cell fates in Caenorhabditis elegans. Genetics. 126(4):899-913.
Russell C.T., Aroian R., Arghavani M., and Nock K. (1984). Interplanetary Magnetic Field Enhancements and Their Association with the Asteroid 2201 Oljato. Science 226: 43-45.
