Non-identity of cystine lyase with β-cystathionase in turnip roots

An active preparation of cystine lyase (EC 4.4.1.-) was prepared from turnip roots and its substrate specificity examined. Only L-cysteine, cysteine-S-SO₃, and the sulphoxides of L-djenkolic acid, S-methyl-and S-ethyl-L-cysteine were substrates. L-Cystathione, L-djenkolic acid, S-methyl-and S-ethyl-cysteines were not cleaved by this enzyme. The K_m for L-cystine was 1.3 mM and L-cystathionine acted as an effective competitive inhibitor with a K_i of 0.7 mM. After dialysis against 10 mM potassium phosphate buffer pH 7.5, added pyridoxal phosphate was absolutely necessary for activity. In addition a marked stimulation was observed in the presence of ammonium sulphate. The products of the reaction were cysteine persulphide, pyruvate and presumably ammonia. The persulphide was easily demonstrated by cleavage with CN^? to yield SCN^? under conditions in which elemental sulphur was unreactive.     

Effects of short chain fatty acids on seedlings

Abstract. Primary roots of lettuce show no appreciable diminution of sensitivity of SCFA between 24 and 72 h, so it is likely that all actively growing primary roots are susceptible to inhibition by SCFA. While roots do not recover from long exposures to high concentrations of SCFA, partial recovery is seen following exposure to intermediate levels.
SCFA inhibit elongation of lettuce and turnip hypocotyls as well as roots. However, higher concentrations are required to produce a given inhibition of hypocotyl. In contrast with the inhibition of roots, inhibition of shoots is markedly dependent on the chain length of the fatty acid. Thus, either access to sites of action or action at the sites differs between shoots and roots of the same seedling plants.     

苦豆子生物碱对萝卜蚜的毒力及其对几种酯酶的影响

苦豆子Sophora alopecuroids(L.)的次生代谢物质为喹诺里西定生物碱类。本研究明确了该生物碱中的野靛碱对萝卜蚜(Lipaphis erysimi)有很高的毒杀作用,对其无翅成蚜的致死中浓度(LC₅₀浸渍法)为(432.59±2.12)mg/L,优于著名的杀蚜生物碱毒黎碱和烟碱,两者对该试虫的LC₅₀分别为(684.70±2.28)mg/L和(1090.65±2.01)mg/L。用小菜蛾(Plutella xylostella)幼虫作试虫,得知苦豆子7种主要生物碱对昆虫的乙酰胆碱酯酶(AChE)有抑制作用,其抑制程度排序为：总碱>野靛碱>槐胺碱>槐定碱>槐果碱>氧化苦参碱>苦参碱>苦豆碱。野靛碱和苦豆碱对a-乙酸萘酯酶、a-乙酸萘酯羧酸酯酶及酯酶同功酶的活性亦表现不同程度的抑制作用。     

Low parasitism by Diaeretiella rapae (Hym.: Braconidae) of Lipaphis pseudobrassicae (Hemip.: Aphididae): pre- or post-ovipositional host resistance?

While the aphid Lipaphis pseudobrassicae (Davis) (Hemip.: Aphididae: Macrosiphini) is considered one of the preferred hosts of Diaeretiella rapae (McIntosh) (Hym.: Braconidae: Aphidiinae) in several parts of the world, field surveys in Uberlandia (Brazil) found parasitism of this aphid to not exceed 10%. This study sought to determine the cause of this low parasitism, as well as the effects of parasitism on the intrinsic growth rate of the aphid population. We evaluated parasitism, percentage emergence, developmental time, longevity, number of attacks and number of parasitoid larvae in L. pseudobrassicae and compared these to the same characteristics in Brevicoryne brassicae (L.) and Myzus persicae (Sulzer). The lowest percentage of parasitism was found in L. pseudobrassicae, followed by M. persicae and B. brassicae. The ratio between the number of parasitoid larvae and the number of ovipositions in L. pseudobrassicae ranged from 0.02 to 0.03, while, in B. brassicae, it was between 0.41 and 0.44 and, in M. persicae, between 0.62 and 0.80, indicating high mortality rates of early stages of D. rapae in L. pseudobrassicae. Parasitism by D. rapae reduced the r_m of L. pseudobrassicae. The r_m for parasitised aphids was only 63% of that for unparasitised aphids. However, no hosts died before reaching adulthood, and 83% of parasitised aphids were still able to reproduce. As a result, the r_m of the aphid was positive, resulting in population growth of L. pseudobrassicae, even among individuals parasitised during the second instar. Our results indicate the existence of L. pseudobrassicae genotypes that are completely resistant to D. rapae.     

Bt toxin is not taken up from soil or hydroponic culture by corn,carrot, radish,or turnip

The culture of transgenic Bt corn (Zea mays L.) has resulted in concern about the uptake of the Cry1Ab protein toxin by crops subsequently grown in soils in which Bt corn has been grown. The toxin released to soil in root exudates of Bt corn, from the degradation of the biomass of Bt corn, or as purified toxin, was not taken up from soil, where the toxin is bound on surface-active particles (e.g. clays and humic substances), or from hydroponic culture, where the toxin is not bound on particles, by non-Bt corn, carrot (Daucus carota L.), radish (Raphanus sativus L.), and turnip (Brassica rapa L.). The persistence of the toxin in soil for 90 days after its addition in purified form or for 120–180 days after its release in exudates or from biomass, the longest times evaluated, confirmed that the toxin was bound on surface-active particles in soil, which protected the toxin from biodegradation. The greater toxicity of the toxin in soil amended with 9% montmorillonite or kaolinite than in soil amended with 3% of these clay minerals indicated that the binding and persistence of the toxin increased as the clay concentration was increased.     

Immunodetection of RNA-Dependent RNA Polymerase from Turnip Yellow Luteovirus Using Monoclonal Antibodies

Monoclonal antibodies (MAbs) to the RNA-dependent RNA polymerase from turnip yellow luteovirus (TYV) were prepared using a recombinant protein as immunogen and were shown to be directed to C-terminal part of the viral replicase. These MAbs were found to interact with a 70-kDa protein found in extracts from TYV-infected plants. Our result is the first successful attempt at detecting the RNA-dependent RNA polymerase of a luteovirus in infected plant extracts. We also found that the protein is not processed further and its accumulation and content in the infected plant obey a definite dynamics during the infection.     

Turnip crinkle virus-encoded suppressor of RNA silencing interacts with Arabidopsis SGS3 to enhance virus infection

Most plant viruses encode suppressors of RNA silencing (VSRs) to protect themselves from antiviral RNA silencing in host plants. The capsid protein (CP) of Turnip crinkle virus (TCV) is a well-characterized VSR, whereas SUPPRESSOR OF GENE SILENCING 3 (SGS3) is an important plant-encoded component of the RNA silencing pathways. Whether the VSR activity of TCV CP requires it to engage SGS3 in plant cells has yet to be investigated. Here, we report that TCV CP interacts with SGS3 of Arabidopsis in both yeast and plant cells. The interaction was identified with the yeast two-hybrid system, and corroborated with bimolecular fluorescence complementation and intracellular co-localization assays in Nicotiana benthamiana cells. While multiple partial TCV CP fragments could independently interact with SGS3, its hinge domain connecting the surface and protruding domains appears to be essential for this interaction. Conversely, SGS3 enlists its N-terminal domain and the XS rice gene X and SGS3 (XS) domain as the primary CP-interacting sites. Interestingly, SGS3 appears to stimulate TCV accumulation because viral RNA levels of a TCV mutant with low VSR activities decreased in the sgs3 knockout mutants, but increased in the SGS3-overexpressing transgenic plants. Transgenic Arabidopsis plants overexpressing TCV CP exhibited developmental abnormalities that resembled sgs3 knockout mutants and caused similar defects in the biogenesis of trans-acting small interfering RNAs. Our data suggest that TCV CP interacts with multiple RNA silencing pathway components that include SGS3, as well as previously reported DRB4 (dsRNA-binding protein 4) and AGO2 (ARGONAUTE protein 2), to achieve efficient suppression of RNA silencing-mediated antiviral defence.     

Performance of cabbage stem flea beetle larvae (Psylliodes chrysocephala) in brassicaceous plants and the effect of glucosinolate profiles

The cabbage stem flea beetle (CSFB), Psylliodes chrysocephala L. (Coleoptera: Chrysomelidae), is one of the most important pests in European winter oilseed rape production. Adult beetles feed on young leaves whereas larvae mine within the petioles and stems. Larval infestation can cause significant crop damage. In this study, the host quality for CSFB of four oilseed rape (Brassica napus L.) cultivars and seven other brassicaceous species with different glucosinolate (GSL) profiles was assessed under controlled conditions. Larval instar weights and mortality were measured after 14 and 21 days of feeding in the petioles of test plants. To study the impact of GSL on the performance of larvae, the GSL contents in petioles from non-infested and infested plants were analysed before, and 21 days after, the start of larval infestation. Larval performance was not significantly different between the four cultivars of oilseed rape, but differed considerably among the other brassicaceous species tested. In comparison to the weight of larvae in the standard B. napus cv. Robust, the larval weight was higher in turnip rape (Brassica rapa L. var. silvestris) and significantly reduced in white mustard (Sinapis alba L.), oil radish (Raphanus sativa L. var. oleiformis), and cabbage (Brassica oleracea L. convar. capitata var. alba). The duration of larval development increased in white mustard and oilseed radish. The GSL profiles of the petioles showed little difference between non-infested and infested plants of oilseed rape whereas the content of aliphatic GSL increased in the infested turnip rape plants. In contrast, the aliphatic and benzenic GSL decreased in infested Indian rape (B. rapa subsp. dichotoma Roxb.). Larval weight was not correlated with the total GSL content of plants, neither before infestation nor 21 days after. Larval weight was positively correlated with progoitrin and 4-hydroxyglucobrassicin. White mustard, which provides inferior host quality for larval development, has the potential to introduce insect resistance into high-yielding oilseed rape cultivars in breeding programmes.     

Replication of the cauliflower mosaic virus: role and stability of the cloned delta 3 discontinuity sequence

A fragment of cauliflower mosaic virus (CaMV) DNA, containing delta 3, one of the three discontinuity sequences, was cloned in various ways into CaMV DNA deleted for the delta 3 sequence. The series of constructions was monitored for the appearance of the typical single-strand (ss) discontinuity after hybrid CaMV replication in plants. The delta 3 discontinuity was observed only if the orientation of inserted DNA sequence was the same as in the wild-type virus. Long polylinker sequences used for insertion of the fragment into cloned viral DNA, affected the stability of the insert in progeny viral DNA in plants by acting as recombination targets.