Ascaris

Ascaris lumbricoides Ascariasis roundworm disease Ascaris pneumonia... 

The most important pathogens causing faecal-oral water-borne diseases, with the exception of helmints (Ascaris, Trichurus, Taenia, etc.) are compiled in Table 2. These, virtually absent in the developed countries, are stiU highly prevalent in developing countries, though without causing serious illness [8]. 

Merlini G, Ascari E, Amboldi N, Bellotti V, Arbustini E, Perfetti V, Ferrari M, Zorzoli I, Marinone MG, Garini P, et al. Interaction of the anthracycline 4 -iodo-4 -deoxydoxorubicin with amyloid fibrils inhibition of amyloidogenesis. Proc Natl Acad Sci USA 1995 92 2959-2963. 

Ho NFH, DP Thompson, TG Geary, TJ Raub, CL Barsuhn. (1990). Biophysical transport properties of the cuticle of Ascaris suum. Mol Biochem Parasitol 41 153-166. 

Identification may be by gross examination for adult helminths or, more commonly, by microscopic examination for protozoa, helminth eggs, and larvae. The diagnostic forms of some parasites, such as the eggs of Ascaris spp., are present on a regular basis. Other forms, such as malaria parasites, Taenia eggs, or Giardia cysts, vary from day to day. 

Plectus aquatilis r Ascarissuum r Ascaris lumbricoides f- Parascaris equomm r Baylisascaris procyonis - Toxascaris leonina... 

Fig. 1.3. (Opposite) COI genes of strongylid and other nematodes. Aligned COI sequences (from Sukhdeo etal., 1997 (where each is designated by the GenBank accession number), except for Ascaris suum ASCOI and C. elegans CECOI which are from Okimoto et al. (1992), O. volvulus COI which is from Keddie etal. (1998) and B. malayiCO sequence which is unpublished data of the author) were analysed using maximum parsimony and neighbour joining.

Anderson, T.J. (1995) Ascaris infections in humans from North America molecular evidence for cross-infection. Parasitology 110, 215-219. 

Anderson, TJ. and Jaenike, J. (1997) Host specificity, evolutionary relationships and macrogeographic differentiation among Ascaris populations from humans and pigs. Parasitology 115, 325-342. 

Anderson, T.J.C., Romero-Abal, M.E. and Jaenike, J. (1993) Genetic structure and epidemiology of Ascaris populations patterns of host affiliation in Guatemala. Parasitology 107, 319-334. 

Anderson, T.J., Komuniecki, R., Komuniecki, P.R. andjaenike.j. (1995a) Are mitochondria inherited paternally in Ascaris InternationalJournal for Parasitology 25, 1001-1004. 

Anderson, T.J., Romero-Abal, M.E. andjaenike,j. (1995b) Mitochondrial DNAand Ascaris microepidemiology the composition of parasite populations from individual hosts, families and villages. Parasitology 110, 221-229. 

Blaxter, M.L., Vanfleteren, J., Xia, J. and Moens, L. (1994b) Structural characterisation of an Ascaris myoglobin. Journal of Biological Chemistry 269, 30181-30186. 

Okimoto, R., MacFarlane, J.L., Clary, D.O. and Wolstenholme, D.R. (1992) The mitochondrial genomes of two nematodes, Caenorhabditis elegans and Ascaris suum. Genetics 130, 471-498. 

Peng, W., Anderson, T.J., Zhou, X. and Kennedy, M.W. (1998) Genetic variation in sympatric Ascaris populations from humans and pigs in China. Parasitology 117, 355-361. 

Powers, T.O., Harris, T.S. and Hyman, B.C. (1993) Mitochondrial DNA sequence divergence among Meloidogyne incognita, Romanomermis culcivorax, Ascaris suum and Caenorhabditis elegans. Journal of Nematology 25, 564—572. 

Nadler, S.A., Lindquist, R.L. and Near, T.J. (1995) Genetic structure of midwestem Ascaris suurn populations a comparison of isoenzyme and RAPD markers. Journal of Parasitology 81, 385-394. 

Zhu, X.Q, Chilton, N.B., Jacobs, D.E., Boes, J. and Gasser, R.B. (1999a) Characterisation of Ascaris from human and pig hosts by nuclear ribosomal DNA sequences. InternationalJournal for Parasitology 29, 469 78. 

Fraser, E.M. and Kennedy, M.W. (1990) Heterogeneity in the expression of surface exposed epitopes among larvae of Ascaris lumbricoides. Parasite Immunology 13, 219-225. 

Bisoffi, M., Marti, S. and Betschart, B. (1996) Repetitive peptide motifs in the cuticlin of Ascaris suum. Mokcubr and Biochemical Parasitobgy 80, 55-64. 

Favre, R., Cermola, M., Nunes, C.P., Hermann, R., Muller, M. and Bazzicalupo, P. (1998) Immuno-cross-reactivity of CUT-1 and cuticlin epitopes between Ascaris lumbricoides, Caenorhabditis elegans, and Heterorhabditis. Journal of Structural Biology 123, 1-7. 

Fetterer, R.H., Rhoads, M.L. and Urban, J.F. (1993) Synthesis of tyrosine-derived cross-links in Ascaris suum cuticular proteins. Journal of Parasitology 79,160-166. 

Fujimoto, D., Horiuchi, K. and Hirama, M. (1981) Isotrityrosine, a new crosslinking amino-acid isolated from Ascaris cuticle collagen. Biochemical and Biophysical Research Communications 99, 637-643. 

Kingston, B.I., Wainwright, S.M. and Cooper, D. (1989) Comparison of collagen gene-sequences in Ascaris suum and Caenorhabditis elegans. Molecular and Biochemical Parasitology 37, 137-146. 

Timinouni, M. and Bazzicalupo, P. (1997) cut-7-like genes of Ascaris lumbricoides. Gene 193, 81-87. 

Justus, D. and Ivey, M. (1969) Chitinase activity in developmental stages of Ascaris suum and its inhibition by antibody. Journal of Parasitology 55, 472-476. 

Rogers, W.P. (1958) Physiology of the hatching of eggs of Ascaris lumbricoides. Nature 181, 1410-1411. 

Ward, K. and Fairbairn, D. (1972) Chitinase in developing eggs of Ascaris suum (Nematoda). Journal of Parasitology 58, 546-549. 

---