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The occurrence and diversity of Grapevine leafroll-associated virus 1 (GLRaV-1) and Grapevine leafroll-associated virus 3 (GLRaV-3) in the soft scales Parthenolecanium corni and Pulvinaria innumerabilis and in the mealybug Pseudococcus maritimus was determined in leafroll-affected vineyards in the Finger Lakes region of New York. Groups of 1 to 4 specimens were collected under loose grapevine bark and tested by reverse-transcription polymerase chain reaction (RT-PCR) for segments of the second diverged copy of the GLRaV-1 coat protein gene or GLRaV-3 heat-shock protein 70-homologue gene. Virus-specific RT-PCR products were amplified from immature insect vectors and adult mealybugs. Single viral amplicons were obtained mostly from immature vectors (35%, 30 of 85) and dual viral amplicons from immature (16%, 10 of 61) and adult (100%, 14 of 14) mealybugs, including individuals. These observations suggested a simultaneous uptake of GLRaV-1 and GLRaV-3 by individual mealybugs. Furthermore, a comparative nucleotide sequence analysis of viral amplicons from soft scales, mealybugs, and grapevines from which vectors were collected showed identical or highly similar haplotypes, indicating that uptake of GLRaV-1 and GLRaV-3 likely occurred by direct feeding of vectors on their host plants.

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In this report, we describe the structural and functional analyses of four acyl-CoA desaturase-encoding cDNAs that we isolated from RNA expressed in the pheromone gland of the corn earworm, Helicoverpa zea. We deduced the homology relationships of the encoded proteins, designated HzPGDs1, HzPGDs2, HzPGDs3 and HzFBDs, to each other and to previously described desaturases of the cabbage looper moth, Trichoplusia ni, the fly, Drosophila melanogaster, and other more distantly related organisms. We also isolated genomic DNA fragments of the four H. zea desaturase-encoding genes, determined the locations of introns present in them, and compared them to conserved intron positions in reported desaturase genes of other species. We measured the levels of the four desaturase mRNAs in H. zea pheromone glands and larval fat bodies by RT-PCR. We established the functional identities of the deduced proteins HzPGDs1 and HzPGDs2, encoded by the two desaturase mRNAs that are differentially and abundantly expressed in pheromone glands of sexually mature adult H. zea females, by functional expression of their encoding cDNAs in a desaturase-deficient mutant, ole1, of the yeast Saccharomyces cerevisiae. We compared the unique unsaturated fatty acid profiles of HzPGDs1- and HzPGDs2-expressing transformants to those of strains expressing previously described Delta11 and Delta9 desaturases of T. ni.

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Acyl-CoA delta 9-desaturases play essential roles in fatty acid metabolism and the regulation of cell membrane fluidity. In this research, a cDNA sequence was obtained from Trichoplusia ni adult fat body mRNA by using RT-PCR with degenerate primers based on other characterized delta 9-desaturase sequences. The remainder of the sequence was amplified using 3'- and 5'-RACE. A 1439 bp cDNA reconstructed from three overlapping PCR products contains an ORF encoding a 353-amino acids (aa) protein that shows clear homology (greater than 50% aa identity and greater than 65% aa similarity to characterized insect and vertebrate desaturases). The ORF of this cDNA was subcloned into an expression vector, which relieved the unsaturated fatty acid (UFA) auxotrophy of a desaturase-deficient yeast strain following genetic transformation. The newly characterized desaturase from T. ni produced fatty acids delta 9-16 and delta 9-18 in a 1:6 ratio, compared to a 5:1 ratio, respectively, with the yeast delta 9 desaturase. A Northern blot hybridization and a RT-PCR experiment showed that temporal and tissue-specific patterns of expression of the corresponding mRNA are distinct from those of the delta 11-desaturase mRNA present in the pheromone glands of adult females. Based on its homology to other desaturases, the widespread distribution of its corresponding mRNA in various tissues, and its functional assay, we conclude that this cDNA encodes the apoprotein corresponding to the desaturase component of the metabolic delta 9-desaturase complex of T. ni.

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The kdr insecticide resistance trait in the house fly, Musca domestica, confers resistance to the rapid paralysis (knockdown) and lethal effects of 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT) and pyrethroids. Flies with the kdr trait exhibit reduced neuronal sensitivity to these compounds, which are known to act at voltage-sensitive sodium channels of nerve membranes. To test the hypothesis that a mutation in a voltage-sensitive sodium channel gene confers the kdr phenotype, we have cloned genomic DNA corresponding to a segment of the house fly homologue of the para sodium channel gene of Drosophila melanogaster, identified restriction-site polymorphisms within this segment between the kdr strain 538ge and an inbred insecticide-susceptible lab stain, and developed a sensitive polymerase chain reaction-based diagnostic procedure to determine the sodium channel genotype of individual flies. A genetic linkage analysis performed with these molecular markers shows that the kdr trait is tightly linked (within about 1 map unit) to the voltage-sensitive sodium channel gene segment exhibiting the DNA sequence polymorphism. These findings provide genetic evidence for a mutation at or near a voltage-sensitive sodium channel gene as the basis for kdr resistance.

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