Nina M. Bárcenas scite author profile

A diagnostic polymerase chain reaction (PCR) method is presented for differentiating among the North American internal apple-feeding pests codling moth, Cydia pomonella (L.); oriental fruit moth, Grapholita molesta (Busck); lesser appleworm, Grapholita prunivora (Walsh); and cherry fruitworm, Grapholita packardi Zeller. An approximately 470-bp fragment of mitochondrial cytochrome oxidase subunit I (COI) was sequenced in three to six specimens of each species. Consistent and diagnostic differences were observed among the species in two regions of COI from which forward and reverse primers were designed to amplify a 112-116-bp segment of the gene. The primer sets were used to selectively amplify DNA from specimens of diverse geographic origin for each corresponding target species. Protocols were adapted for conventional and quantitative PCR, the latter being substantially faster. The method was validated as a decision-making tool for quarantine identifications for Mexico by representatives of their phytosanitary agency (Sanidad Vegetal). The method can facilitate identification of intercepted internal feeding Lepidoptera in apple and pear for many other importing nations.

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DNA Diagnostics to Identify Internal Feeders (Lepidoptera: Tortricidae) of Pome Fruits of Quarantine Importance

Bárcenas¹,

Unruh²,

Neven³

2005

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“CandidatusLiberibacter solanacearum” Associated With the Psyllid,Bactericera maculipennis(Hemiptera: Triozidae)

et al. 2017

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The psyllid Bactericera maculipennis (Crawford) (Hemiptera: Triozidae) often cohabits field bindweed (Convolvulus arvensis, Solanales: Convolvulaceae) and other plants with the congeneric psyllid, Bactericera cockerelli (Šulc), in the Pacific Northwestern United States. Bactericera cockerelli is a vector of "Candidatus Liberibacter solanacearum," the pathogen associated with zebra chip disease of potato (Solanales: Solanaceae). Because B. maculipennis and B. cockerelli both naturally occur on certain plants, we surveyed B. maculipennis adults collected from Washington and Idaho for presence of "Ca. L. solanacearum" to determine whether this psyllid also harbors this pathogen. Liberibacter was present in 30% of field-collected B. maculipennis and in 100% of colony-reared psyllids. Sequences of 16S rDNA and microsatellite markers revealed that "Ca. L. solanacearum" from B. maculipennis was closely related to Liberibacter haplotype B from B. cockerelli. Results of laboratory assays demonstrated that Liberibacter can be transmitted between B. cockerelli and B. maculipennis on plants within the Convolvulaceae. Potato plants challenged with Liberibacter-infected B. maculipennis did not become infected, apparently because potato is not a suitable host for the psyllid. We therefore conclude that B. maculipennis is not a direct threat to potato production, despite its association with Liberibacter. We are the first to report that "Ca. L. solanacearum" is associated with a psyllid other than B. cockerelli in North America. Results of our study demonstrate the importance of understanding the complete ecology of psyllids-including interactions with other psyllids on non-crop hosts-in predicting what crops or regions are potentially susceptible to the spread of Liberibacter.

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Rapid assessment of the sex of codling moth Cydia pomonella (Linnaeus) (Lepidoptera: Tortricidae) eggs and larvae

Fuková

Neven

Bárcenas

et al. 2009

J Applied Entomology

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Two different methods were tested to identify the sex of the early developmental stages of the codling moth Cydia pomonella (Linnaeus) (Lepidoptera: Tortricidae) with a WZ/ZZ (female/male) sex chromosome system. First, it was shown that the sex of all larval stages can be easily determined by the presence or absence of sex chromatin, which is formed by the female‐specific W chromosome in interphase nuclei. This trait can also be used to identify the sex of newly hatched larvae but it does require care and accuracy. Secondly, a new sexing technique was developed based on a molecular marker of the codling moth W chromosome. Flanking regions of an earlier described W‐specific sequence (CpW2) were isolated and sequenced and a 2.74 kb sequence (CpW2‐EcoRI), specific for the W chromosome, was obtained. Several PCR tests were conducted, which confirmed that the CpW2‐EcoRI sequence is a reliable marker for the sex identification in codling moth samples of different geographical origin. In addition, a fragment of a codling moth gene, period (Cpper) was isolated and sequenced. Results of southern hybridization of the Cpper probe with female and male genomic DNA suggested that the Cpper gene is located on the Z chromosome. Then a multiplex PCR assay was developed, which co‐amplified the CpW2‐EcoRI sequence to identify the W chromosome and the Z‐linked Cpper sequence, which served as a positive control of accurate processing of tested samples. The multiplex PCR provides an easy and rapid identification of the sex of embryos and early larval instars of the codling moth.

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Nina M. Bárcenas

Hypersensitive Response of Beans to <I>Apion godmani</I> (Coleoptera: Curculionidae)

DNA Diagnostics to Identify Internal Feeders (Lepidoptera: Tortricidae) of Pome Fruits of Quarantine Importance

DNA Diagnostics to Identify Internal Feeders (Lepidoptera: Tortricidae) of Pome Fruits of Quarantine Importance

“CandidatusLiberibacter solanacearum” Associated With the Psyllid,Bactericera maculipennis(Hemiptera: Triozidae)

Rapid assessment of the sex of codling moth Cydia pomonella (Linnaeus) (Lepidoptera: Tortricidae) eggs and larvae

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