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Cytological approaches to simuliid biosystematics in relation to the epidemiology and control of human onchocerciasis 总被引:1,自引:0,他引:1
W S Procunier 《Génome》1989,32(4):559-569
This paper presents an overview of advances in cytological research on the biosystematics of vector simuliid complexes in the areas of identification, age grading, and the evolution of resistance in relation to the epidemiology and control of human onchocerciasis. Systematic theory is discussed and relevant examples are given to show its application in predicting and resolving current problems in species identification for New World and Old World vector complexes. These complexes include Simulium damnosum s.l. and S. neavei s.l. from Africa and S. exiguum s.l., S. metallicum s.l., S. ochraceum s.l., and S. oyapockense s.l. from Latin America. The evolution of resistance in S. damnosum s.l. and the need for future molecular research as part of resistance management strategies are discussed. 相似文献
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The 5S RNA genes of Drosophila melanogaster in either an isogenic wild-type or a multiply inverted (SM1) chromosome 2 increase their multiplicity when opposite a deficiency for the 5S gene site. This is analogous to the compensation phenomenon previously described for the 18S and 28S ribosomal RNA genes of the X chromosome nucleolus organizer region. Molecular hybridization of 5S RNA to DNA containing various doses of the 56F1-9 region of chromosome 2 demonstrates that most, if not all, of the 5S genes reside in or near this region. Also, a deficiency missing approximately one-half of the wild-type number of 5S genes was isolated and genetically localized. This mutant has a phenotype like that of bobbed, a mutant known to be partially deficient in 18S and 28S ribosomal RNA genes. Finally, we report the existence of a chromosomal rearrangement which splits the second chromosome into two segments, each containing 5S DNA. 相似文献
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X chromosome nucleolus organizer mutants which alter major type I repeat multiplicity in Drosophila melanogaster 总被引:3,自引:0,他引:3
The nucleolus organizer (NO) of the D. melanogaster X chromosome is composed of ribosomal repeat units which contain two types (I and II) of non-rDNA insertions (In+) and repeats with no insertions (In-). Evidence from other laboratories indicate random interspersion of all types of repeat units within the X NO. An EcoRI and BamHI examination of rDNA from two bobbed mutants, bb2rI and mal12 demonstrates segregation of the major type I repeat units. The 46 rDNA repeats of the bb2rI NO contain no detectable major type I repeats whereas the majority of the 68 rDNA mal12 repeats are major type I and tandemly linked. This observation suggests that gross deletions of rDNA can result in nucleolus organizer regions with predominantly one type of repeat unit. Additivity tests demonstrate that the 46 ribosomal repeats of the bb2rI chromosome revert the phenotype of other bobbed NOs, but the 68 mal12 ribosomal repeats show no or slight additivity. This is in agreement with the observation that In+ repeats do not significantly contribute to functional rRNA. A Southern blot analysis using BamHI which cuts only in type I insertions demonstrates that the majority of major type I In+ repeating units exist in tandem linkage group(s) within the X NO. 相似文献
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Marker Assisted Selection of Fusarium Head Blight Resistance Genes in Two Doubled Haploid Populations of Wheat 总被引:4,自引:0,他引:4
Yang Z.P. Gilbert J. Somers D.J. Fedak G. Procunier J.D. McKenzie I.H. 《Molecular breeding : new strategies in plant improvement》2003,12(4):309-317
Fusarium head blight, caused primarily by Fusarium graminearum, is the most important wheat disease in Canada causing both grain yield and quality losses. Selection for resistance to Fusarium head blight in breeding programs has been difficult because of the complex inheritance of resistance and the environmental effect on disease development and expression. The present study was conducted to examine microsatellite markers associated with resistance to Fusarium head blight and evaluate the effectiveness of these microsatellite markers in selecting for resistance to Fusarium head blight in two doubled-haploid populations segregating for Sumai 3-derived resistance genes. Both doubled-haploid populations were evaluated for resistance to Fusarium head blight by inoculation with F. graminearum in the greenhouse. Eight microsatellite markers from chromosomes 3BS, 6B and 5AL were applied to both doubled-haploid populations. The most significant microsatellite markers were found on the short arm of chromosome 3B, explaining 12% and 36% of phenotypic variation for resistance in the DH181/AC Foremost and AC Foremost/93FHB 21 doubled-haploid populations, respectively. Another important microsatellite marker, gwm644 on 6B, explained 21 % of the phenotypic variation for resistance to Fusarium head blight in the DH181/AC Foremost doubled-haploid population. There was a general lack of marker polymorphism on 5AL for the parents used in this study. Microsatellite markers on chromosome 3BS in addition to microsatellite markers on 6B have the potential for accelerating the development of wheat cultivars with improved Fusarium head blight resistance through the use of marker-assisted selection. 相似文献
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