Thomas R. Oakley scite author profile

To control Heterodera glycines Ichinohe (soybean cyst nematode) in Glycine max (L.) Merr. (soybean), we evaluated the use of producing transgenic soybean seedlings expressing small interfering RNAs (siRNAs) against specific H. glycines genes. Gene fragments of three genes related to nematode reproduction or fitness (Cpn-1, Y25 and Prp-17) were PCR-amplified using specific primers and independently cloned into the pANDA35HK RNAi vector using a Gateway cloning strategy. Soybean roots were transformed with these constructions using a composite plant system. Confirmation of transformation was attained by PCR and Southern blot analysis. Transgene expression was detected using reverse transcription PCR (RT-PCR) and expression of siRNAs was confirmed in transgenic plants using northern blot analysis. Bioassays performed on transgenic composite plants expressing double-stranded RNA fragments of Cpn-1, Y25 and Prp-17 genes resulted in a 95, 81 and 79% reduction for eggs g(-1) root, respectively. Furthermore, we demonstrated a significant reduction in transcript levels of the Y25 and Prp-17 genes of the nematodes feeding on the transgenic roots via real-time RT-PCR whereas the expression of non-target genes were not affected. The results of this study demonstrate that over-expression of RNA interference constructs of nematode reproduction or fitness-related genes can effectively control H. glycines infection with levels of suppression comparable to conventional resistance.

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Host-Derived Artificial MicroRNA as an Alternative Method to Improve Soybean Resistance to Soybean Cyst Nematode

Tian

Oakley

et al. 2016

Genes

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The soybean cyst nematode (SCN), Heterodera glycines, is one of the most important pests limiting soybean production worldwide. Novel approaches to managing this pest have focused on gene silencing of target nematode sequences using RNA interference (RNAi). With the discovery of endogenous microRNAs as a mode of gene regulation in plants, artificial microRNA (amiRNA) methods have become an alternative method for gene silencing, with the advantage that they can lead to more specific silencing of target genes than traditional RNAi vectors. To explore the application of amiRNAs for improving soybean resistance to SCN, three nematode genes (designated as J15, J20, and J23) were targeted using amiRNA vectors. The transgenic soybean hairy roots, transformed independently with these three amiRNA vectors, showed significant reductions in SCN population densities in bioassays. Expression of the targeted genes within SCN eggs were downregulated in populations feeding on transgenic hairy roots. Our results provide evidence that host-derived amiRNA methods have great potential to improve soybean resistance to SCN. This approach should also limit undesirable phenotypes associated with off-target effects, which is an important consideration for commercialization of transgenic crops.

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A Two-Phase Cinematic PIV Method for Bubbly Flows

Oakley

Loth

Adrian

1997

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A cinematic particle image velocimeter (PIV) for measurement of time varying fields in two-phase flow is described. This system has the capability to track detailed characteristics of individual bubbles moving through a turbulent flow field, e.g., size, shape, velocity, and acceleration, and simultaneously to measure the instantaneous fluid velocity field on a two-dimensional plane. The system employs an argon-ion laser, a rotating polygonal mirror and a single 35 mm movie camera. Two features of this technique are the ability to capture bubble trajectories for long periods of time and the use of bubble images which appear as two fine point images for each instant, from which centroid and diameter can be deduced. The instrument is evaluated in an experiment on the dispersion of nominally 3.5 mm diameter bubbles from a point source in a two stream, turbulent, planar free-shear layer. Characteristics of the fluid field and the bubble motion are described.

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Cinematic particle image velocimetry of high-Reynolds-number turbulent free shear layer

1996

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Cinematic PIV of a turbulent free shear layer

Oakley

Loth

Adrian

1994

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Thomas R. Oakley

Host-derived suppression of nematode reproductive and fitness genes decreases fecundity of Heterodera glycines Ichinohe

Host-Derived Artificial MicroRNA as an Alternative Method to Improve Soybean Resistance to Soybean Cyst Nematode

A Two-Phase Cinematic PIV Method for Bubbly Flows

Cinematic particle image velocimetry of high-Reynolds-number turbulent free shear layer

Cinematic PIV of a turbulent free shear layer

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