大蒜对菲律宾蛤仔早期生长发育的影响

实验了不同大蒜汁浓度(0、2、4、8、16、32 mg/L)对菲律宾蛤仔受精卵孵化率,幼虫生长、存活、变态及稚贝生长与存活的影响,总结了室内大规模人工育苗过程中大蒜防病效果。结果表明:随着大蒜汁浓度的增加,孵化率降低;大蒜汁浓度达到16mg/L,胚胎发育延迟;达到32mg/L,受精卵不能孵化为正常幼虫。浮游期间,幼虫的生长受大蒜汁抑制,幼虫的存活率则随着大蒜汁浓度增加先升高后降低;幼虫的变态率随着大蒜汁浓度的增加先升高后降低,以16mg/L为最适浓度;变态规格随着大蒜汁浓度增加而减小。室内培育期间,稚贝生长与存活随着大蒜汁浓度的增加先升高后降低,以8mg/L为最适浓度;室内大规模人工育苗过程中,使用浓度为8-10mg/L大蒜汁可以起到较好的防病效果。     

枯草芽孢杆菌BS2对葡萄灰霉病菌抑菌机制的初步探索

对葡萄灰霉病菌的生防枯草芽孢杆菌BS2菌液成分及胞外蛋白的抑菌机制进行了初步研究,BS2对葡萄灰霉病菌具有较好的拮抗作用,其菌液成分和胞外蛋白经20°C-120°C处理后,抑菌效果存在差异。BS2的菌液成分及胞外蛋白对灰霉病菌的产孢、萌发和菌丝的生长等方面均具有较好的抑制作用,且对灰霉病菌菌丝的原生质有囊泡和颗粒化现象。由此分析,BS2抑菌活性物质是多种成分共同作用的结果,抑菌物质中含有对温度敏感的高分子蛋白质,且抑菌机制也是从多方面共同起作用。     

拮抗菌株的筛选及其发酵滤液抑菌活性考察

从土壤中筛选出3株具有抑菌活性的菌株,其中1#菌株对金黄色葡萄球菌、枯草芽孢杆菌、灰霉葡萄孢菌、变异链球菌、大肠杆菌均有较强抑制作用,初步鉴定为地衣芽孢杆菌。对其性质进行考察结果表明,在30℃,pH 7.0,150 r/min的条件下,恒温振荡培养24 h,测其发酵滤液的抑菌活力约为2 000 IU/mL。该发酵滤液具有较强的热稳定性,60℃放置1 h,抑菌活性下降了29%;100℃放置30 min,抑菌活性下降了45%,放置1 h,抑菌活性下降了48%;121℃放置1 h,抑菌活性仍能保持40%。该发酵滤液抑菌作用的最适pH值为7.0,在pH 3.0时能保持71%的抑菌活性,在pH 11.0时,仍能维持67%的抑菌活性,此发酵滤液对蛋白酶K不敏感,并且蛋白酶K对该发酵滤液的抑菌活性也起一定的促进作用。     

海洋活性芽胞杆菌MD-5发酵时间优化及抑菌性质研究

[目的]探究海洋活性芽孢杆菌MD-5抑菌活性及性质。[方法]采用测定抑菌半径结合OD_(600)及pH确定最佳发酵时间;通过平板琼脂扩散法、平板对峙法测定其抑菌谱;通过测量抑菌圈面积探究加热时间、pH对抑菌活性物质的影响。[结果]在既定培养条件下,该菌株产抑菌活性物质最优的发酵时间为34 h,对多种指示菌具有抑制作用;其发酵上清在100℃下加热2、5、10 min活性保留分别为88.9%、60.4%、38.9%,加热15 min完全失活;当pH 5.0～7.0活性基本不变,pH为酸性活性有所降低,为碱性活性下降明显,pH≥11完全失活。[结论]该菌株具有广谱的抑菌作用,可有效抑制革兰氏阳性菌和部分阴性菌及真菌;所产生的活性物质对温度及pH敏感,高温或碱性环境易于降解失活。     

类芽孢杆菌BD3526抑菌活性物质的初步分离及性质测定北大核心CSCD

本实验以一株类芽孢杆菌BD3526为研究对象,采用丙酮浸提菌体得到抑菌活性粗品,通过Sephadex LH-20对样品进行初步纯化,结果表明粗品对藤黄微球菌CGMCC1.1848的最低抑菌浓度(MIC)为12.5 mg/m L,对金黄色葡萄球菌CGMCC1.879和单增李斯特菌CGMCC1.9136的MIC为25 mg/m L;Sephadex LH-20纯化样品对藤黄微球CGMCC1.1848的MIC为1 mg/m L,对金黄色葡萄球菌CGMCC1.879和单增李斯特菌CGMCC1.9136的MIC为2 mg/m L。样品经链霉蛋白酶处理后,活性基本消失。经加热、酸碱、胰蛋白酶、胃蛋白酶、脂肪酶、蛋白酶K处理后,活性没有明显变化。因此,类芽孢杆菌BD3526产生的是一种细菌素类的抑菌物质,该抑菌物质在食品和医疗行业有广阔的应用前景。     

以综合能力为标准筛选草莓灰霉病生防细菌

在草莓叶表、果表分离筛选出3株枯草芽孢杆菌(Bacillus subtilis)B1、B17和B18。3菌株对灰葡萄孢(Botrytis cinerea)孢子萌发的抑制作用达到100%、99%和85%,平板对峙抑菌距离达到6.6、7.0和6.7mm。在适宜病原菌生长的22℃、pH5条件下,3菌株生长良好。在草莓叶片、花和果实上定植能力B1>B17>B18,定植周期13d。     

一株深海热液口嗜热芽孢杆菌SY27F代谢产物活性的研究

【目的】对一株来源于深海热液口嗜热芽孢杆菌的次生代谢产物进行抑菌活性和抗肿瘤活性的初步研究。【方法】采用纸片法和微量肉汤稀释法检测嗜热芽孢杆菌SY27F次生代谢产物的抑菌活性,采用CCK-8法测定其次生代谢产物的抗肿瘤活性。【结果】抑菌实验表明,嗜热芽孢杆菌代谢产物对大肠杆菌、金黄色葡萄球菌均有抑菌作用,其最低抑菌浓度分别为1.56 mg/mL和3.13 mg/mL;细胞实验表明,其代谢产物对肿瘤细胞A549、HepG2、HeLa、MCF-7均有一定的抑制作用,其半致死浓度分别为0.390、0.451、0.704、1.105 mg/mL;与人肝肿瘤细胞(HepG2)相比,其对人正常肝细胞(L02)表现出良好的生物相容性。【结论】嗜热芽孢杆菌SY27F次生代谢产物具有一定的抑菌和抗肿瘤活性,可为寻找新型抑菌抗肿瘤活性物质提供优质资源。     

桑叶水提浸膏的抑菌作用研究

研究桑叶水提浸膏对五种食品常见污染菌的抑菌作用。通过滤纸片扩散法测定其相对抑菌活性。结果表明,桑叶水提浸膏对金黄色葡萄球菌有较强的抑制作用,对大肠杆菌作用次之,对枯草芽孢杆菌、荧光假单孢杆菌、巨大芽孢杆菌抑菌效果较差。桑叶水提浸膏对金黄色葡萄球菌的最小抑菌浓度是5%,抑菌作用受pH和温度的影响较大,在酸性条件下抑菌效果较好,低于60℃处理样品对抑菌效果影响不大,但高于80℃处理,样品抑菌活性明显降低。     

高产超氧化物歧化酶菌株发酵条件的研究

从1348株芽孢杆菌(Bacillus cereus)中分离和选育出高产超氧化物歧化酶(superoxide dismutase)菌株C328,并进行了产酶条件的研究。结果表明,该菌株最佳产酶的最适温度为30～35℃,培养基最适起始pH为8．0～8．5。金属离子Cd^2 、Mn^2 、Zn^2 ,表面活性剂吐温80、司班80、琥珀酸钠和无机盐CaCl2、CaCO3对产酶有抑制作用。适宜浓度的K2HPO4、EDTA、金属离子Fe^3 和表面活性剂NaAC对产酶有明显的促进作用。发酵培养用250mL三角瓶以30mL装液量酶活力最高。适宜种龄为8～12h,适宜接种量为0．9％～3％,最佳接种量为1％～2％。     

枯草芽孢杆菌磁场诱变株对采后番茄灰霉病的控制效果研究

对枯草芽孢杆菌(Bacillus subtilis)进行了磁场诱变,获得了39个诱变株,通过与番茄灰霉病菌(Botrytis cinerea Pers.)拮抗作用的研究,获得3株高效拮抗菌。实验结果表明,枯草芽孢杆菌BS0.25-1,BS1.25和BS0.10-1为高效拮抗菌株,其中BS1.25对采后番茄灰霉病防治效果较好,20℃下贮藏5天后,先接种BS1.25的处理防效达100%,显著好于对照,为较理想的拮抗菌。     

大蒜根系分泌物的化感作用

以苍山白蒜和蔡家坡紫蒜为材料,采用水培方法收集根系分泌物,研究了2个大蒜品种的根系分泌物对莴苣种子发芽和幼苗生长及对黄瓜枯萎病菌、西瓜枯萎病菌的化感效应.结果表明:2个大蒜品种的根系分泌物对莴苣种子发芽和幼苗生长均表现为低浓度(0.1、0.2 g·mL-1)促进、高浓度(0.4、0.6 g·mL-1)抑制,高浓度时蔡家坡紫蒜的抑制作用大于苍山白蒜;对黄瓜枯萎病菌和西瓜枯萎病菌的菌丝生长及孢子萌发均表现为抑制作用,随着根系分泌物浓度的提高,抑制作用增强,其中黄瓜枯萎病菌较敏感,且蔡家坡紫蒜的抑制作用大于苍山白蒜.     

Inhibition of Helicobacter pylori by garlic extract (Allium sativum)

Abstract The antibacterial effect of aqueous garlic extract (AGE) was investigated against Helicobacter pylori . Sixteen clinical isolates and three reference strains of H. pylori were studied. Two different varieties of garlic were used. The concentration of AGE required to inhibit the bacterial growth was between 2–5 mg ml⁻¹. The concentration, for both AGE types, to inhibit 90% (MIC₉₀) of isolates was 5 mg ml⁻¹. The minimum bactericidal concentration (MBC) was usually equal to, or two-fold higher than, minimum inhibitory concentration (MIC). Heat treatment of extracts reduced the inhibitory or bactericidal activity against H. pylori ; the boiled garlic extract showed a loss of efficacy from two-to four-fold the values of MIC and the MBC obtained with fresh AGR. The antibacterial activity of garlic was also studied after combination with a proton pump-inhibitor (omeprazole) in a ratio of 250:1. A synergistic effect was found in 47% of strains studied; an antagonistic effect was not observed.     

Low allelochemical concentrations detected in garlic mustard-invaded forest soils inhibit fungal growth and AMF spore germination

Garlic mustard’s (Alliaria petiolata, Brassicaceae) invasive success is attributed in part to its release of allyl isothiocyanate (AITC) into the soil. AITC can disrupt beneficial arbuscular mycorrhizal fungi (AMF) associated with native plant roots, which limits their soil resource uptake. However, AITC and its precursor, sinigrin, have never been detected in garlic mustard-invaded forest soils. Here, we use high performance liquid chromatography (HPLC) and gas chromatography-mass spectrometry (GC–MS) to assess the concentration and bioactivity of these putative allelochemicals in paired forest plots uninvaded or invaded by garlic mustard. Our methods detected AITC and sinigrin only where garlic mustard was present and our recovery of AITC/sinigrin coincided with adult senescence. A bioassay of in situ fungal hyphae abundance revealed significantly reduced hyphal abundance in the presence of garlic mustard relative to uninvaded soils. Finally, the lowest concentration of AITC measured in the field (~0.001 mM) is highly inhibitory to the spore germination of a forest AMF species, Glomus clarum. Together, our data provide the first direct evidence of garlic mustard-produced sinigrin and AITC in forest soils and demonstrate that even low levels of these chemicals have the potential to significantly suppress AMF growth and spore germination, strengthening their status as allelopathic novel weapons.     

Spore Yield and Microcycle Conidiation of Colletotrichum gloeosporioides in Liquid Culture

The effect of V8 juice concentration (5 to 40%, vol/vol), spore inoculum density (10⁵ and 10⁷ spores per ml), and liquid batch or fed-batch culture condition on mycelium and spore production by Colletotrichum gloeosporioides was evaluated. The amount of mycelium produced, the time required for initiation of sporulation following attainment of maximum mycelium, and the time for attainment of maximum spore concentration increased with increasing V8 juice concentration in batch culture. Cultures containing V8 juice at >10% achieved a similar spore density (apparent spore-carrying capacity) of about 0.8 mg of spores per ml (1 × 10⁷ to 2 × 10⁷ spores per ml) independent of inoculum density and V8 juice concentration. The relative spore yield decreased from a high of 64% of the total biomass for the low-inoculum 5% V8 culture, through 13% for the analogous 40% V8 culture, to a low of 2% for the high-inoculum 27% V8 culture. Fed-batch cultures were used to establish conditions of high spore density and low substrate availability but high substrate flux. The rate of addition of V8 juice was adjusted to approximate the rate of substrate utilization by the (increasing) biomass. The final spore concentration was about four times higher (3.0 mg of spores per ml) than the apparent spore-carrying capacity in batch culture. This high spore yield was obtained at the expense of greatly reduced mycelium, resulting in a high relative spore yield (62% of the total biomass). Microcycle conidiation occurred in the fed-batch but not batch systems. These data indicate that substrate-limited, fed-batch culture can be used to increase the amount and efficiency of spore production by C. gloeosporioides by maintaining microcycle conidiation conditions favoring allocation of nutrients to spore rather than mycelium production.     

Heat stable antimicrobial activity of Allium ascalonicum against bacteria and fungi

To study antimicrobial activity of shallot in comparison with that of garlic and onion against 23 strains of fungi and bacteria, water extracts of garlic, shallot and onion bulbs were prepared. Each extract was studied in different forms for their antimicrobial activity viz., fresh extract, dry extract and autoclaved extract. Minimal inhibitory concentration and minimal lethal concentrations of these extracts were determined against all organisms by broth dilution susceptibility test. Fresh extract of garlic showed greater antimicrobial activity as compared to similar extracts of onion and shallot. However, dried and autoclaved extracts of shallot showed more activity than similar extracts of onion and garlic. Fungi were more sensitive to shallot extract than bacteria. Amongst bacteria, B. cereus was most sensitive (MIC=5 mg ml(-1)). The lowest minimum bactericidal concentration of shallot extract amongst bacteria tested was 5 mg ml(-1) for B. cereus. Amongst fungi, Aureobasidium pullulans and Microsporum gypseum were most sensitive (MIC= 0.15 mg ml(-1)). The lowest minimum lethal concentration was 2.5 mg ml(-1) for Microsporum gypseum and Trichophyton mentagrophytes. It was therefore, expected that the antimicrobial principle of shallot was different than the antimicrobial compounds of onion and garlic. In addition, the antimicrobial component of the shallot extract was stable at 121 degrees C.     

Garlic Revisited: Antimicrobial Activity of Allicin-Containing Garlic Extracts against Burkholderia cepacia Complex

The antimicrobial activities of garlic and other plant alliums are primarily based on allicin, a thiosulphinate present in crushed garlic bulbs. We set out to determine if pure allicin and aqueous garlic extracts (AGE) exhibit antimicrobial properties against the Burkholderia cepacia complex (Bcc), the major bacterial phytopathogen for alliums and an intrinsically multiresistant and life-threatening human pathogen. We prepared an AGE from commercial garlic bulbs and used HPLC to quantify the amount of allicin therein using an aqueous allicin standard (AAS). Initially we determined the minimum inhibitory concentrations (MICs) of the AGE against 38 Bcc isolates; these MICs ranged from 0.5 to 3% (v/v). The antimicrobial activity of pure allicin (AAS) was confirmed by MIC and minimum bactericidal concentration (MBC) assays against a smaller panel of five Bcc isolates; these included three representative strains of the most clinically important species, B. cenocepacia. Time kill assays, in the presence of ten times MIC, showed that the bactericidal activity of AGE and AAS against B. cenocepacia C6433 correlated with the concentration of allicin. We also used protein mass spectrometry analysis to begin to investigate the possible molecular mechanisms of allicin with a recombinant form of a thiol-dependent peroxiredoxin (BCP, Prx) from B. cenocepacia. This revealed that AAS and AGE modifies an essential BCP catalytic cysteine residue and suggests a role for allicin as a general electrophilic reagent that targets protein thiols. To our knowledge, we report the first evidence that allicin and allicin-containing garlic extracts possess inhibitory and bactericidal activities against the Bcc. Present therapeutic options against these life-threatening pathogens are limited; thus, allicin-containing compounds merit investigation as adjuncts to existing antibiotics.     

Sensitivity of food pathogens to garlic (Allium sativum)

The inhibitory activity of garlic ( Allium sativum ) against Staphylococcus aureus, Salmonella typhi, Escherichia coli and Listeria monocytogenes was measured by the 'turbidity' method. Minimum inhibitory concentration (MIC) of garlic at 80% inhibition level was calculated for these bacteria. All bacterial pathogenic strains tested were inhibited by garlic; E. coli was most sensitive and Listeria monocytogenes was least sensitive. Therefore, garlic has potential for the preservation of processed foods.     

Effect of raw versus boiled aqueous extract of garlic and onion on platelet aggregation.

The effects of aqueous extracts of raw and boiled garlic and onions were studied in vitro on the collagen-induced platelet aggregation using rabbit and human platelet-rich plasma. A dose dependant inhibition of rabbit platelet aggregation was observed with garlic. Onion also showed dose-dependent inhibitory effects on the collagen-induced platelet aggregation but this inhibition was of a lesser magnitude compared to garlic when related to dose. The concentration required for 50% inhibition of the platelet aggregation for garlic was calculated to be approximately 6.6 mg ml(-1) plasma, whereas the concentration for onion was 90 mg ml(-1) plasma. Boiled garlic and onion extracts showed a reduced inhibitory effect on platelet aggregation. Garlic but not onion significantly inhibits human platelet aggregation in a dose-dependent fashion. The potency of garlic in inhibiting the collagen-induced platelet aggregation is approximately similar to that of rabbit platelets (8.8 mg ml(-1) produced 50% inhibition of platelet aggregation). The results of this study show that garlic is about 13 times more potent than onion in inhibiting platelet aggregation and suggest that garlic and onion could be more potent inhibitors of blood platelet aggregation if consumed in raw than in cooked or boiled form.     

Allicin disrupts the cell's electrochemical potential and induces apoptosis in yeast

The volatile substance allicin gives crushed garlic (Allium sativum) its characteristic odor and is a pro-oxidant that undergoes thiol-disulfide exchange reactions with -SH groups in proteins and glutathione. The antimicrobial activity of allicin is suspected to be due to the oxidative inactivation of essential thiol-containing enzymes. We investigated the hypothesis that at threshold inhibitory levels allicin can shunt yeast cells into apoptosis by altering their overall redox status. Yeast cells were treated either with chemically synthesized, pure allicin or with allicin in garlic juice. Allicin-dependent cell oxidation was demonstrated with a redox-sensitive GFP construct and the shift in cellular electrochemical potential (E(hc)) from less than -215 to -181mV was calculated using the Nernst equation after the glutathione/glutathione disulfide couple (2GSH/GSSG) in the cell was quantified. Caspase activation occurred after allicin treatment, and yeast expressing a human antiapoptotic Bcl-XL construct was rendered more resistant to allicin. Also, a yeast apoptosis-inducing factor deletion mutant was more resistant to allicin than wild-type cells. We conclude that allicin in garlic juice can activate apoptosis in yeast cells through its oxidizing properties and that this presents an alternative cell-killing mechanism to the previously proposed specific oxidative inactivation of essential enzymes.