Effects of homeopathic arsenic on tobacco plant resistance to tobacco mosaic virus. Theoretical suggestions about system variability, based on a large experimental data set.

CONTEXT: This research aimed at verifying the efficacy of homeopathic treatments by plant-based bioassays, which may be suitable for basic research, because they lack placebo effects and provide large datasets for statistical analyses. OBJECTIVE: To evaluate the effects of homeopathic treatments of arsenic trioxide (As2O3) on tobacco plants subjected to tobacco mosaic virus (TMV) inoculation as biotic stress. DESIGN: Blind, randomized experiment using tobacco leaf disks. MATERIALS AND METHODS: Tobacco plants (Nicotiana tabacum L. cultivar Samsun) carrying the TMV resistance gene N. TMV inoculated leaf disks were floated for 3 days in the following: Distilled water (control). H2O 5 and 45 decimal and centesimal potencies. As2O3 5 and 45 decimal and centesimal potencies. The main outcome measures is the number of hypersensitive lesions observed in a leaf disk. RESULTS: Homeopathic treatments of arsenic induce two effects on the plant: (i) increased resistance to TMV; (ii) decrease variability between experiments (system variability). CONCLUSIONS: In this experimental model two actions of homeopathic treatment were detected: decrease in system variability and enhancement of the natural tendency of the system towards an 'equilibrium point'.

Effects of homeopathic arsenic on tobacco plant resistence to tobacco mosaic virus. Theoretical suggestions about system variability, basead on a large experimental data set

This research aimed at verifying the efficacy of homeopathic treatments by plant-based bioassays, which may be suitable for basic research, because they lack placebo effects and provide large datasets for statistical analyses. (AU)

Inhibition of proteasome activity strongly affects kiwifruit pollen germination. Involvement of the ubiquitin/proteasome pathway as a major regulator.

The 26S proteasome is a multicatalytic complex that acts as primary protease of the ubiquitin-mediated proteolytic pathway in eukaryotes. We provide here the first evidence that the proteasome plays a key role in regulating pollen tube growth. Immunoblotting experiments revealed the presence of high levels of free ubiquitin and ubiquitin conjugates in rehydrated and germinating pollen of kiwifruit [Actinidia deliciosa var. deliciosa (A. Chev) C. F. Liang et A. R. Ferguson]. Proteasome activity, assayed fluorometrically, accompanied the progression of germination. Specific inhibitors of proteasome function such as benzyloxycarbonyl-leucinyl-leucinyl-leucinal (MG-132), clasto-lactacystin beta-lactone, and epoxomicin significantly decreased tube growth or altered tube morphology. High-molecular mass, ubiquitinated proteins accumulated in MG-132- and beta-lactone-treated pollen, indicating that proteasome function was effectively impaired. The inhibitors were also able to decrease in vitro proteasome activity in pollen extracts. Because MG-132 can inhibit calpains, as well as the proteasome, trans-epoxy succinyl-L-leucylamido-(4-guanidino) butane (E-64), an inhibitor of cysteine proteases, was investigated. Some reduction in tube growth rate was observed, but only at 80 microM E-64, and no abnormal tubes were produced. Furthermore, no inhibition of tube growth was observed when another inhibitor of cysteine proteases, leupeptin, or inhibitors of serine and aspartic proteases (phenylmethylsulfonyl fluoride and pepstatin) were used. Our results indicate that protein turnover during tube organization and elongation in kiwifruit pollen is important, and our results also implicate the ubiquitin/26S proteasome as the major proteolytic pathway involved.