氮肥配施生物炭和脲酶抑制剂对夏玉米-冬小麦产量及氮素利用的影响

于2019—2021年采用再裂区设计,设置氮肥、生物炭和脲酶抑制剂3个因素,主处理设5个氮水平：0、75、150、225 kg·hm^-2和300 kg·hm^-2,副处理设2个生物炭水平：0 t·hm^-2和7.5 t·hm^-2,副副处理设2个脲酶抑制剂水平：0%和2%,共20个处理,研究氮肥配施生物炭和脲酶抑制剂对夏玉米-冬小麦轮作体系作物产量和氮肥吸收利用的影响。结果表明,施用生物炭显著提高夏玉米和冬小麦产量、植株氮素吸收量、氮肥表观利用率、氮素收获指数以及夏玉米地上部生物量,较不施生物炭处理分别增加4.4%和2.9%、2.3%和3.0%、25.8%和13.5%、4.9%和6.1%、4.5%;氮肥单独配施生物炭可显著提高夏玉米和冬小麦产量、植株氮素吸收量和氮肥表观利用率,且氮肥和生物炭具有显著的交互效应。施用脲酶抑制剂显著增加夏玉米植株氮素吸收量和氮肥表观利用率,较不施脲酶抑制剂处理分别提高1.5%和3.0%;氮肥单独配施脲酶抑制剂可提高夏玉米植株氮素吸收量和氮肥表观利用率,但氮肥与脲酶抑制剂无显著...     

广东省稻菜轮作区中牛筋草对十种除草剂的抗性水平及靶基因序列分析

为明确广东省稻菜轮作区中牛筋草对10种常用除草剂的抗性水平及抗性分子机制,采用整株生物测定法测定广东省稻菜轮作区内8个牛筋草种群P1～P8对草甘膦、草铵膦和乙酰辅酶A羧化酶(acetyl-CoA carboxylase,ACCase)抑制剂类等10种除草剂的抗性水平,并进一步分析P1和P8种群相关靶标酶基因5-烯醇丙酮酰莽草酸-3-磷酸合酶(5-enolpyruvyl-shikimate-3-phosphate synthase,EPSPS)、谷氨酰胺合成酶(glutamine synthetase,GS)和ACCase的部分功能区序列特征。结果显示,牛筋草P1～P8种群对草甘膦抗性指数为敏感种群的5.9倍～17.7倍,其中P8种群对草甘膦的抗性水平最高;8个种群对草铵膦也产生了不同程度的抗性,抗性指数为敏感种群的2.3倍～14.2倍,其中P1种群抗性最高。牛筋草P1和P8种群均对ACCase抑制剂类除草剂精喹禾灵、氰氟草酯和噁唑酰草胺产生了交互抗性;P1种群ACCase基因在第2 041位氨基酸处发生突变,该突变在牛筋草种群中首次发现;而P8种群ACCase基因则在第2 027位氨基...     

Encasement of Erysiphe graminis haustoria after treatment with bromuconazole

Preventive application of bromuconazole caused reduction in size and increased encasement rate of haustoria of Erysiphe graminis DC. For example, seven days after inoculation, 60 and 70% of haustoria had been encased in leaves treated with 8 mg litre⁻¹ and 16 mg litre⁻¹ respectively; the average length of the digitations was 8–10 μm in treated cells compared to 24 μm in untreated cells. The encasement process extended from the neck region to the whole haustorium. Haustorial bodies from treated plants had electron-dense cytoplasm and their organelles were more difficult to identify than in control plants. Extrahaustorial matrix was reduced to an unusually thin, osmiophilic pellicle, surrounded by abundant heterogeneous encasement material. Curative treatment induced similar changes, especially in the margin of the colonies. In the centre of the colony, haustoria were less affected by the fungicide; deposition of collar-like material, modification of extrahaustorial matrix and membrane and accumulation of plant cytoplasm around the digitations resulted in an intermediate, ‘swollen’ state of digitate haustoria. The possible pathway of encasement events is discussed.     

The Exploitation of Nematode-Responsive Plant Genes in Novel Nematode Control Methods

The molecular interactions between plants and sedentary nematodes are undergoing intense study, not only for reasons of fundamental research but also for the potential benefits to agriculture. The present technology allows the transformation of an increasing number of crop plants, providing new ways to introduce resistance against plant-parasitic nematodes. The ability of sedentary nematodes to induce specialized feeding sites in plant roots is one of the most fascinating aspects of this host–parasite interaction. Molecular approaches have been initiated to identify and characterize plant genes altered in expression after infection by sedentary nematodes. The results obtained indicate that many genes indeed become up-regulated upon nematode infection. Surprisingly, several so-called constitutive promoters that are normally used to achieve high expression in plant cells are completely ‘silenced’ in the feeding sites within days after nematode infection. Generally, there are two options available for the genetic engineering of nematode resistance: the synthesis of anti-nematode proteins or the localized production of a cytotoxic protein that interferes with the development of feeding cells. Nematode-induced promoters are very useful for the production by plants of sufficiently high levels of anti-nematode proteins at feeding sites. Alternatively, interfering with feeding-cell development is somewhat similar to the hypersensitive response evoked by nematodes in a naturally resistant plant. Here, destruction of specific plant cells can be achieved by the localized expression of a cytotoxin such as barnase, a potent ribonuclease. This approach, however, calls for a highly specific ‘non-leaky’ promoter, which is active only in the feeding cells. Another possibility is to use a two-component system, where the leakiness of the promoter in other tissues is counterbalanced by the constitutive expression of a neutralizing gene.     

Characterization and Inhibitor Studies of Chitinases from a Parasitic Blowfly (Lucilia cuprina), a Tick (Boophilus microplus), an Intestinal Nematode (Haemonchus contortus) and a Bean (Phaseolus vulgaris)

The molecular weight pattern and the stage-specific activities of chitinases from the blowfly Lucilia cuprina, the tick Boophilus microplus and the intestinal nematode Haemonchus contortus were examined. Chitinolytic enzymes could be detected in all parasite species tested, but the activity was different between the stages. Highest chitinolytic titers were found in blowfly pupae (83 kDa, 118 kDa), hatching larvae of ticks (58 kDa, 94 kDa) and nematode eggs (43 kDa). Leaves from ethylene-treated bean plants Phaseolus vulgaris expressed two basic Class I chitinases (Ia, Ib) of 34 kDa, differing in their amino acid sequences at residue 33 and 34 (Ia: glycine, proline; Ib: lysine, aspartic acid). Inhibitor studies with blowfly pupae revealed that allosamidin (IC₅₀=0·32 (±0·02) μM ) was by far the best inhibitor when compared with various amino sugar derivatives. This compound also inhibited chitinases from tick larvae (IC₅₀=0·69(±0·10) μM ) and nematode eggs (IC₅₀=0·048(±0·0045) μM ) specifically. Whereas Class Ia chitinase from bean leaves was inhibited only up to 18% by 10 μM allosamidin, it had an IC₅₀ of 1(±0·14) μM for the Ib type, which is the first plant chitinase described to be highly sensitive to allosamidin.     

Screening of Human CYP1A2 and CYP3A4 Inhibitors from Seaweed In Silico and In Vitro

Phenolic compounds and carotenoids are potential inhibitors of cytochrome P450s. Sixteen known compounds, phenolic compounds and carotenoids from seaweed were examined for potential inhibitory capacity against CYP1A2 and CYP3A4 in silico and in vitro. Morin, quercetin, and fucoxanthin inhibited the enzyme activity of CYP1A2 and CYP3A4 in a dose-dependent manner. The IC₅₀ values of morin, quercetin, and fucoxanthin were 41.8, 22.5, and 30.3 μM for CYP1A2 and 86.6, 16.1, and 24.4 μM for CYP3A4, respectively. Siphonaxanthin and hesperidin did not show any significant effect on CYP1A2, but they slightly inhibited CYP3A4 activity at high concentrations. In silico modeling of CYP’s binding site revealed that the potential inhibitors bound in the cavity located above the distal surface of the heme prosthetic group through the 2a or 2f channel of CYPs. This study presents an approach for quickly predicting CYP inhibitory activity and shows the potential interactions of compounds and CYPs through in silico modeling.     

硝化抑制剂对枸杞园土壤的作用效果研究

通过室内恒温培养试验,筛选出效果最佳的硝化抑制剂剂型及剂量并应用于枸杞园土壤,研究其对枸杞产量及品质的影响。室内恒温培养试验供试硝化抑制剂为2-氯-6-三氯甲基吡啶(Nitrapyrin)、双氰胺(DCD)和3,4-二甲基吡唑磷酸盐(DMPP),共设17个处理：未添加硝化抑制剂(CK),添加Nitrapyrin(纯氮量的0.1%、0.2%、0.3%、0.4%、0.5%、0.6%),添加DMPP(纯氮量的0.5%、1.0%、1.5%和2.0%),添加DCD(纯氮量的1.0%、2.0%、3.0%、3.5%、4.0%和5.0%)。结果表明：在砂土的培养中,三者硝化抑制效果表现为DMPP≥Nitrapyrin＞DCD;DMPP和Nitrapyrin的硝化抑制率分别为71.90%~75.17%和4.83%~77.28%。但由于DMPP的价格(240~360元·kg^-1)及用量均高于Nitrapyrin(155元·kg^-1),故选择纯氮量0.5%的Nitrapyrin应用于大田试验。田间试验设置4个处理：农民习惯施肥为SF100,SFN100、SFN80及SFN60处理是在SF100处理基础上分别减少0%、40%、60%的枸杞专用肥同时添加纯氮量为0.5%浓度的Nitrapyrin。结果表明：田间试验中施用Nitrapyrin处理的产量较SF100处理分别提高了6.67%,5.80%及3.52%,同时与SF100处理相比,SFN100处理的多糖及蛋白质含量分别提高了16.22%及8.67%。综合经济效益及生态效益,浓度为纯氮量0.5%的Nitrapyrin为最佳处理。在大田试验中施用Nitrapyrin同时减少枸杞专用肥的用量,枸杞产量及效益均有所提高,且蛋白质及多糖含量有显著增加。因此,可初步认为硝化抑制剂的施用对枸杞的种植有“减肥增效”的作用。     

紫斑牡丹种子浸提液对植物种子萌发和幼苗生长的影响

以紫斑牡丹种子为研究对象,研究不同质量浓度(0、0.025、0.050、0.075、0.100 g·mL-1)的种皮和胚乳水浸提液对白菜、小麦和绿豆种子萌发、幼苗生长和幼苗的抗氧化酶活性的影响,探究紫斑牡丹种子内源抑制物质的活性,为进一步研究紫斑牡丹种子休眠机理提供理论依据。结果表明:紫斑牡丹种皮和胚乳中均含有抑制受体植物种子萌发和幼苗生长的物质,且同一质量浓度下,胚乳浸提液的抑制作用强于种皮浸提液;种皮和胚乳浸提液对白菜幼苗生长的抑制作用高于小麦和绿豆;种皮和胚乳浸提液对3种受体植物幼苗根长的抑制作用大于苗高和鲜质量;种皮和胚乳浸提液对3种受体植物幼苗的SOD、CAT和POD活性均产生了一定的影响。其中,随着种皮浸提液质量浓度的提高,受体植物幼苗SOD、POD活性先上升后下降,而CAT活性持续下降;加入胚乳浸提液后,受体植物幼苗的CAT、POD活性与对照相比显著下降,SOD活性则依然随着胚乳浸提液质量浓度的升高而表现出先上升后下降的趋势。由结果可知,紫斑牡丹种皮和胚乳浸提液中均含有能抑制受体植物种子萌发和幼苗生长的物质,并且能够影响受体幼苗的抗氧化酶活性,但是紫斑牡丹种皮和胚乳内源抑制物质的活性存在一定的差异。