Mechanisms of resistance in the rice cultivar Manikpukha to the rice stem nematode Ditylenchus angustus

The incompatible interaction between the rice cultivar Manikpukha and the rice stem nematode Ditylenchus angustus has been reported recently. This research focuses on the underlying mechanisms of resistance in Manikpukha. Invasion, post‐infection development and reproduction of D. angustus were compared in compatible and incompatible interactions to identify the stage in which resistance occurs. The results indicate that resistance in Manikpukha is associated with reduced development and reproduction, implying that resistance acts post‐invasion. We studied the possible involvement of three classical defence hormones, salicylic acid (SA), jasmonic acid (JA) and ethylene (ET), in response to infection in a compatible interaction using biosynthesis/signalling‐deficient transgenic rice lines. All three hormones appear to have an influence on the basal defence of Nipponbare against the stem nematode. Although hormone application increases basal defences, expression studies and hormone analyses after nematode infection in Manikpukha did not show a clear involvement of the hormone defense pathways for SA, ET and JA. However, it seems that OsPAL1 plays a pivotal role in resistance, indicating that the phenylpropanoid pathway and its products might be key players in the incompatible interaction. Lignin measurement showed that, although basal levels are similar, Manikpukha had a significantly higher lignin content on nematode infection, whereas it was decreased in the susceptible cultivar. The results presented here show that SA, ET and JA are involved in basal defences, but the resistance of Manikpukha against D. angustus probably relies on products of the phenylpropanoid pathway.     

Inhibition of human glutathione transferases by multidrug resistance chemomodulators in vitro

Reversal of the drug-resistance phenotype in cancer cells usually involves the use of a chemomodulator that inhibits the function of a resistance-related protein. The aim of this study was to investigate the effects of MDR chemomodulators on human recombinant glutathione S-transferase (GSTs) activity. IC₅₀ values for 15 MDR chemomodulators were determined using 1-chloro-dinitrobenzene (CDNB), cumene hydroproxide (CuOOH) and anticancer drugs as substrates. GSTs A1, P1 and M1 were inhibited by O⁶-benzylguanine (IC₅₀s around 30 μM), GST P1-1 by sulphinpyrazone (IC₅₀ = 66 μM), GST A1-1 by sulphasalazine, and camptothecin (34 and 74 μM respectively), and GST M1-1 by sulphasalazine, camptothecin and indomethacin (0.3, 29 and 30 μM respectively) using CDNB as a substrate. When ethacrynic acid (for GST P1-1), CuOOH (for A1-1) and 1,3-bis (2-chloroethyl)-1-nitrosourea (for GST M1-1) were used as substrates, these compounds did not significantly inhibit the GST isoforms. However, progesterone was a potent inhibitor of GST P1-1 (IC₅₀ = 1.4 μM) with ethacrynic acid as substrate. These results suggest that the target of chemomodulators in vivo could be a specific resistance-related protein.     

dsRNA-mediated resistance to Beet Necrotic Yellow Vein Virus infections in sugar beet (Beta vulgaris L. ssp. vulgaris)

Rhizomania, one of the most devastating diseases in sugar beet, is caused by Beet Necrotic Yellow Vein Virus (BNYVV) belonging to the genus Benyvirus. Use of sugar beet varieties with resistance to BNYVV is generally considered as the only way to maintain a profitable yield on rhizomania-infested fields. As an alternative to natural resistance, we explored the transgenic expression of viral dsRNA for engineering resistance to rhizomania. Transgenic plants expressing an inverted repeat of a 0.4 kb fragment derived from the BNYVV replicase gene displayed high levels of resistance against different genetic strains of BNYVV when inoculated using the natural vector, Polymyxa betae. The resistance was maintained under high infection pressures and over prolonged growing periods in the greenhouse as well as in the field. Resistant plants accumulated extremely low amounts of transgene mRNA and high amounts of the corresponding siRNA in the roots, illustrative of RNA silencing as the underlying mechanism. The transgenic resistance compared very favourably to natural sources of resistance to rhizomania and thus offers an attractive alternative for breeding resistant sugar beet varieties.     

Nalidixic acid-resistant mutations of the gyrB gene of Escherichia coli

Summary DNA fragments of 3.4 kb containing the gyrB gene were cloned from Escherichia coli KL-16 and from spontaneous nalidixic acid-resistant mutants. The mutations (nal-24 and nal-31) had been determined to be in the gyrB gene by transduction analysis. Nucleotide sequence analysis of the cloned DNA fragments revealed that nal-24 was a G to A transition at the first base of the 426th codon of the gyrB gene, resulting in an amino acid change from aspartic acid to asparagine, and nal-31 was an A to G transition at the first base of the 447th codon, resulting in an amino acid change from lysine to glutamic acid. This indicates that mutations in the gyrB gene are responsible for nalidixic acid resistance.     

Characterization of cultured insect cells selected by <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> crystal toxin

Summary Selection for resistance against Bacillus thuringiensis (Bt) Cry1Ac10 in the Trichoplusia ni (Hübner) cell line BTI-TN-5B1-4 (TnH5) was tested, and the development of resistance in the selected cells was like a S-form curve. Monitoring at the Cry1Ac10 50th challenge, the resistance ratio was 1, 294-fold as many as that of initial cells. But the resistance to Cry1Ac10 declined gradually when the selection was relaxed. The resistance declined rapidly at the low level of resistance and slowly at the high level of resistance. This resistant cell had high resistance to all the tested solubilized trypsin-treated mixture of crystal multitoxins of B. thuringiensis subsp. aizawai GC-91, an engineering bacterium of Bt, B. thuringiensis subsp. aizawai HD-133 and B. thuringiensis subsp. kurstaki HD-1, and low cross-resistance (19.7-fold) to activated Cry1C. Both N-acetyl-d-galactosamine (GalNAc) and tunicamycin did not inhibit the toxicity of Cry1Ac10 to the susceptible TnH5 cells. Comparison of the total proteins of the selected resistant cells with that of the nonselected susceptible cells by two-dimensional electrophoresis analysis showed that were obvious differences among the 11 protein expression. These results strongly suggest that there exists an unknown mechanism of resistance in the cell line that was different from the reported mechanisms in insects.     

Molecular characterization of antimicrobial resistance in Salmonella isolated from animals in Japan

Aims:  To investigate the prevalence of integrons and antimicrobial resistance genes in Salmonella recovered from animals in Japan.
Methods and Results:  Forty-eight out of ninety-four (51·1%) Salmonella isolates showed multidrug resistance phenotypes and harboured at least one antimicrobial resistance gene. Twenty-two out of forty-seven (46·8%) Salmonella enterica serovar Typhimurium that were multidrug-resistant were of definitive phage type DT104. Class 1 integrons were identified in 34/94 isolates (36·2%): 21 isolates containing two gene cassettes, aadA2 and bla _PSE–1, and 13 containing one gene cassette, aadA1 , aadA2 or bla _PSE–1. Class 2 integrons containing estX - sat2 - aadA1 gene cassettes were only identified in Salmonella Enteritidis. The β-lactamase-encoding gene, bla _TEM, was only detected in S. Typhimurium. The plasmid-mediated quinolone resistance gene, qnrS1 , was identified in S. Typhimurium and Salmonella Thompson.
Conclusions:  Our results characterized integrons and antimicrobial resistance genes in Salmonella of animal origin. To the best of our knowledge, this is the first report of qnrS in Salmonella from Japan and also the first report of qnrS in S . Thompson.
Significance and Impact of the Study:  Little is known about the molecular basis of antimicrobial resistance in Salmonella isolated from animals. This study provides useful data on the incidence of integrons and resistance genes in Salmonella of animal origin.     

Plasmid-borne mercury resistance in aquatic bacteria

Abstract Bacteria isolated from the River Mersey were analysed for their tolerance to mercury (HgCl₂). About 40% of the population was tolerant to mercury and in 13 of 52 mercury-tolerant isolates tested the mercury resistance (Hg^®) was transferred to Escherichia coli in conjugal matings. These 13 isolates represented a range of gram-negative genera and in each case mercury resistance was coded by a conjugative plasmid. These plasmids (75 kb to > 250 kb in size) all expressed mercury resistance of the narrow spectrum variety, volatilised HgCl₂ to elemental Hg° vapour and showed some degree of temperature sensitivity of transfer. None expressed resistance to nine different antibiotics. These 13 Hg^R plasmids were classified by restriction mapping into three distinct groups typified by pMER11, pMER327 and pMER610. The eight pMER610 group plasmids are identical and belong to the IncHI-2 group. Two of the four pMER327 group plasmids are closely related while the other two contain some common restriction fragments. pMER11 is quite distinct from the other groups. These results imply that within this aquatic environment plasmids play an important role in the response of bacteria to contaminating mercury and that there is widespread plasmid transfer and considerable genetic rearrangement.     

Gene-nutrient interactions with dietary fat modulate the association between genetic variation of the ACSL1 gene and metabolic syndrome

Long-chain acyl CoA synthetase 1 (ACSL1) plays an important role in fatty acid metabolism and triacylglycerol (TAG) synthesis. Disturbance of these pathways may result in dyslipidemia and insulin resistance, hallmarks of the metabolic syndrome (MetS). Dietary fat is a key environmental factor that may interact with genetic determinants of lipid metabolism to affect MetS risk. We investigated the relationship between ACSL1 polymorphisms (rs4862417, rs6552828, rs13120078, rs9997745, and rs12503643) and MetS risk and determined potential interactions with dietary fat in the LIPGENE-SU.VI.MAX study of MetS cases and matched controls (n = 1,754). GG homozygotes for rs9997745 had increased MetS risk {odds ratio (OR) 1.90 [confidence interval (CI) 1.15, 3.13]; P = 0.01}, displayed elevated fasting glucose (P = 0.001) and insulin concentrations (P = 0.002) and increased insulin resistance (P = 0.03) relative to the A allele carriers. MetS risk was modulated by dietary fat, whereby the risk conferred by GG homozygosity was abolished among individuals consuming either a low-fat (<35% energy) or a high-PUFA diet (>5.5% energy). In conclusion, ACSL1 rs9997745 influences MetS risk, most likely via disturbances in fatty acid metabolism, which was modulated by dietary fat consumption, particularly PUFA intake, suggesting novel gene-nutrient interactions.     

Selection studies on anthelmintic resistant and susceptible populations of Trichostrongylus colubriformis of sheep

Waller P. J., Dobson R. J., Donald A. D., Griffiths D. A. and Smith E.F. 1985. Selection studies on anthelmintic resistant and susceptible populations of Trichostrongylus colubriformis of sheep. International Journal for Parasitology15: 669–676. A T. colubriformis population (BCK), formerly resistant to benzimidazole anthelmintics, but now highly resistant to levamisole after 6 years exposure to this drug alone in the field, was passed through 12 generations in the laboratory in three separate lines exposed either to selection with thiabendazole or levamisole, or to no selection. Another population (McM) not previously exposed to these anthelmintics was treated similarly in two lines, selected with thiabendazole or not selected.Selection with thiabendazole resulted in a return of benzimidazole resistance in the BCK line which occurred faster than in the McM line, but a similar level of resistance was reached in each by the twelfth generation. Resistance ratios in both selected lines compared with the unselected McM line were less than 20: 1, and only 1.5 times the recommended dose rate of thiabendazole was required to remove more than half of the resistant population. This suggests that a polygenic vigour tolerance rather than a specific resistance had been selected.In the case of levamisole resistance, the BCK population was found to contain two distinct subpopulations, one susceptible and the other highly resistant. Resistance ratios for the highly resistant subpopulation were greater than 4000: 1, implying a specific resistance controlled by a major gene. During the 12 generations of levamisole selection, the proportion of resistant phenotypes fluctuated about an average level of 70%, suggesting that susceptibility alleles were being maintained in the population through superior heterozygote fitness. This conclusion is supported by a significant decline in levamisole resistance in the absence of levamisole selection. Moreover, thiabendazole selection hastened the reversion to levamisole suceptibility.The results provide support for the reintroduction of a benzimidazole anthelmintic to control this helminth population, and for a slow rotation in the use of drugs with different modes of action.     

Evaluating the physiological effect of strobilurin-based fungicide (Opera 183 g/L SE) against Sclerotium rolfsii and Aspergillus niger pathogens of Arachis hypogaea L.

Abstract

The present study was designed to investigate the effect of fungicide Opera 183?g/L SE on groundnut crop (either as seed or foliar treatment) to control damages and losses incurred especially by the soil borne pathogens Sclerotium rolfsii and Aspergillus niger. The results revealed that 0.15% Opera-treated seeds showed early germination, high percentage of germination, less mortality rate in S. rolfsii and A. niger-infested soil. Enhanced activities of defence-related enzymes, protein, carbohydrate and chlorophyll content up to 2–4 d were observed in Opera-treated plants as compared with untreated plants. Moreover, the application of Opera had a positive effect on yield up to 22%, green fodder at the time of harvest and no disease incidence. From the present study, it is recommended that application of Opera at 750?ml/hectare in the form of foliar treatment to groundnut plants could help in inducing resistance towards opportunistic pathogens and also could enhance the yield.