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分生孢子的 的英文翻译、例句

分生孢子的

基本解释 (translations)
conidial  ·  G.

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HTF1 did not affect the development of conidiophore,but specifically blocked the condium development.

进一步分析表明HTF1不影响分生孢子梗的发育,但对分生孢子的分化起关键作用。

Quantitative RT-PCR results showed that HTF1 is involved in the conidiation pathway,Htf1 mutant is not de-repressed in conidiophore development under non-conducive conditions.The observed phenotype of enhanced conidiophore development in the htf1 mutant may result from its defect in conidium development.It is possible that some feedback signal from conidia may inhibit further conidiophore development in M.grisea.

定量RT-PCR的结果也表明HTF1参与产孢信号途径。htf1突变体在不利于产孢条件下并没有去抑制分生孢子梗的发育,因此htf1突变体产生比野生型菌株数量更多的分生孢子梗可能是由于其无法形成分生孢子的原因导致的,这也似乎预示了在稻瘟病菌中很有可能存在一些来自分生孢子的反馈信号以进一步抑制分生孢子梗的发育。

The most suitable range of temperature is 25~30℃ and lethal temperature is 56℃ for hypha growth, the most suitable temperature is 25℃ for produce more conidiospore and lethal temperature is 56℃ for conidiospore. Within the pH range of 3~11 the hypha could grow and produce conidiospore. The optimum pH is 5~7 for hypha growth and 3, 9, 10 for produce more conidiospore. The range of glucose concentration is 2%~8% for hypha growth, the most suitable glucose concentration is 2% for hypha growth and produce more conidiospore. The effect of illumination on Bipolaris cynodontis was significance to the growth hypha and spore numbers. The whole light is advantage of hypha growth, but could not produce conidiospore. Alternation of light and darkness for 12 hours is advantage of hypha growth, as well as produce conidiospore.

菌丝最佳生长温度是25~30℃之间,在25℃时最利于产孢,菌丝生长和分生孢子的致死温度是56℃;该菌在pH 3~11范围内均能生长,产生分生孢子,菌丝生长的最适pH 5~7,产孢量最大的pH是3,9,10;糖浓度在2%~8%菌丝能生长,在糖浓度为2%时菌丝生长最好,产孢量最高;光照对病原菌的菌丝生长和产孢有明显影响,在全光照的条件下有利于菌丝的生长,但不会产孢,黑暗12h光照12h既利于菌丝生长又利于产孢,而全黑暗的条件下不利于菌丝生长和产孢。

S extract had an inhibition effect against Sphaerotheca fuligenea,The inhibition rate was 100% when extract concentration was 20mg/mL and the inhibition rate got to 67.66% even at the concentration of 2.5mg/mL. The extract of E. humifusa had different preventive effects against four strains of S. fuliginea from four districts in Shanghai. The preventive effects on the Qibao and Baoshan were better than those of Nanhui and Qingpu. The microorganism inhibition experiment by filter papers indicated that the extract of E. humifusa had higher inhibition effect against bacteria than on pathogenic fungus. Diameters of the zone of inhibition of salmonellas, Echerichia coli and Staphylococcus aureus were 15.77mm, 12.27mm and 10.53mm respectively. The extract of E. humifusa had a certain effect against Colletotrichum lagenarium, Botrytis cinerea, Rhizoctomia solan and Pyricularia oryza but no effect against Helminthosporium maydis and Gibberella zea. The 4 cation exchange resins and ethanol deposition were used to isolate the active fractions from supernate after alkali deposition.

提取液对黄瓜白粉病菌体外分生孢子萌发抑制实验表明地锦提取液对黄瓜白粉病菌分生孢子的萌发有很好的抑制作用,抑制率随着地锦提取液浓度的增大而增高,当浓度为20mg/mL时,抑制率达到100%,即使在浓度为2.5mg/mL时,抑制率也达到了67.66%;室内盆栽苗期预防性实验表明了地锦提取液对上海4个不同地区的黄瓜白粉病菌均具有不同程度的抑制效果,对七宝和宝山地区的菌株抑制效果优于南汇和青浦地区的菌株;用滤纸片法测定了地锦提取液的抑菌谱,实验结果表明地锦提取液对供试的4种植物病原真菌:黄瓜炭疽病菌、黄瓜灰霉病菌、水稻纹枯病菌和水稻稻瘟病菌均具有一定的抑制效果,而对玉米小斑病菌和小麦赤霉病菌没有抑制效果,对供试的3种人类致病细菌沙门氏菌、大肠杆菌和金黄色葡萄球菌均具有很好抑菌效果,抑菌圈直径分别为:15.77mm, 12.27mm和10.53mm。

There was no significant effect of U0126 on the filamentous growth and condial production of the 10 tested fungal plant pathogens: S. turcica, Curvularia lunata, Cochliobolus sativus, Fusarium oxysporum, Alternaria solani, Coniothyrium diplodiella, A. alternata, A. porri, Botrytis cinerea and A. brassicae, but the inhibitor can strongly inhibit the spore germination of S. turcica, A.

在PDA培养基上,U0126对玉米大斑病菌、玉米黄斑病菌、小麦根腐病菌等10种植物病原真菌的菌落形态和生长速度没有显著影响,可以形成正常的菌丝、分生孢子,但U0126处理的玉米大斑病菌分生孢子萌发时间晚,芽管短,分生孢子的萌发百分率下降。U0126对分生孢子萌发的抑制程度随着浓度增加而上升,但随着处理时间的延长而下降。

It was found that the fungus 1403 resembles pathogenic F. verticillioides (teleomophy Gibberella moniliforme) in the production of false head or chains and abundant microconidia on the aerial mycelium, but different in the occasional formation of polyphialides with relatively long as well as short monophialides, in its typical coiled hyphae and mycelia fusion.

基于1403在形态学方面具有以下特征:产小型分生孢子的分生孢子梗较长,小型分生孢子呈椭圆形,大型分生孢子线形或略微弯曲,本文将它与有类似形态特征的镰刀菌进行了比较,发现1403与植物病原菌Fusarium verticillioides(有性态为Gibberella moniliforme)表面上很相似,气生菌丝均可产生大量假头状或链状的小型分生孢子,但深入的研究却发现1403与F。

Results showed mycelial growth occurred in the temperature range of 8--38℃, with optimal growth occurring between 20-28℃.

该病菌菌丝生长的温度范围为8~38℃,最适20~28℃;产生分生孢子的温度范围为10~38℃,最适25℃;分生孢子萌发的温度范围为8~38℃,最适25~32℃。

The results showed that BS-LX04 had strong antagonistic activity on the mycelia growth and conidia germination. The hyphae were suppressed by BS-LX04 and presented malformation. The conidia germination was inhibited, with an inhibition percentage of 73.22% when examined at 24 h after test. The germination was delayed by BS-LX04 and the germ tube and hyphae also presented malformation though some of the spores germinated and formed hypha.

结果表明BS-LX04对桑炭疸病病原菌的菌丝生长和分生孢子萌发具有较强的拮抗作用:能够使菌丝生长受阻且產生畸形;能够抑制分生孢子的萌发,培养24h检查孢子萌发抑制率为73.22%;能够推迟分生孢子的萌发时间,並导致萌发孢子的芽管和菌丝畸形而不能继续生长。

Glycin and L-tyrosine were the optimum nitrogen sources,and then L-leucine and L-asparagine.pH value determined the sporulatio...

不同pH值对分生孢子的形成也有很大影响,偏碱性环境更有利于分生孢子的产生。

Biological characteristics of the pathogen and the resistance of 13 cultivars of tea plant to tea brown blight were studied by means of natural infection in the field and artificial inoculation in vitro. Resistant cultivars and susceptible cultivars of tea plant were divided. And the resistance mechanism was researched tentatively. The findings are as follows: 1 Some biological characteristics of the pathogenic fungus The experiment result showed: the optimum temperature for the growth of fungus mycelium was from 24 to 27℃, the optimum temperature for sporulation ranged 22 to 30℃. Treated at 54℃ in 10 minutes, the spores didn't germinate. The optimum pH for the growth of the mycelium was 5.1~5.9, the optimum pH for sporulation ranged 5.0~6.0. Light had no much effect on the growth of fungus mycelium, but had much effect on the reproduction of the spore.

首先,研究了茶云纹叶枯病病菌的生物学特性;其次,通过田间抗性调查和室内人工接种鉴定,对 13 个茶树品种进行了抗病性鉴定;第三,在前人研究的基础上,对茶树抗病机理作了更深入的研究,结果发现: 1 病原菌的生物学特性病原菌的分生孢子萌发的最适温度范围为 24~27℃,菌丝生长的最适温度范围为 22~30℃;致死温度为 55℃;菌丝生长的最适 pH 范围为 5.1~5.9,孢子萌发的最适 pH 范围是 5.0~6.0;光照对病菌生长速度及分生孢子萌发影响不大,但对其产孢的影响很大,特别是有光照与无光照处理之间差异显著,光照有利于分生孢子的形成。

更多网络解释与分生孢子的相关的网络解释 [注:此内容来源于网络,仅供参考]

conidiophore:分生孢子梗

分生孢子着生于已分化的分生孢子梗(conidiophore)或具有一定形状的小梗上,也有些真菌的分生孢子就着生在菌丝的顶端. 最普遍. 真菌的无性繁殖见图. (1)卵孢子(oospore) 是由两个大小不同的配子囊结合发育而成. 小型配囊称为雄器(antheridium),

acervulus:分生孢子盘

2.结构复杂的子实体产无性孢子的结构复杂的子实体有分生孢子器(Pycnidium)、分生孢子座(sporodochium)和分生孢子盘(acervulus)等几种结构. 分生孢子器是一个球形或瓶形的结构,在器的内壁四周表面或底部长有极短的分生孢子梗,

conidia:分生孢子

球孢白僵菌在液体、固体培养基上均能生长发育良好,并产生不同类型的孢子,分别为芽生孢子(blastospores)和分生孢子(conidia). 在液体培养条件下,球孢白僵菌产生芽生孢子或深层发酵分生孢子(submerged conidia).

conidial:分生孢子的

conictyre 锥形轮胎 | conidial 分生孢子的 | conidialcellwall 孢子壁

conidial:无性孢子的, 分生孢子的

conidial stage | 分生孢子期 | conidial | 无性孢子的, 分生孢子的 | conidiophore | 分生孢子

conidial:无性孢子的; 分生孢子的 (形)

conically 成圆锥形地 (副) | conidial 无性孢子的; 分生孢子的 (形) | conidiophore 分生孢子 (名)

conidial stage:分生孢子期

conidial layer | 分生孢子层 | conidial stage | 分生孢子期 | conidial | 无性孢子的, 分生孢子的

conidiiferous:具分生孢子的,产分生孢子的

conididium 分生孢子子实体 | conidiiferous 具分生孢子的,产分生孢子的 | conidioaleuriospore 类似顶生分生孢子

macroconidium:大分生孢子

按其形态和结构又可分大分生孢子和小分生孢子2种:大分生孢子(macroconidium)体积较大,由多个细胞组成,常呈梭状、棍棒状或梨状. 其大小、细胞数和颜色是鉴定的重要依据;小分生孢子(microconidium)较小,1个孢子只有1个细胞. 真菌都能产生小分生孢子,

sporodochium:分生孢子座

2.结构复杂的子实体产无性孢子的结构复杂的子实体有分生孢子器(Pycnidium)、分生孢子座(sporodochium)和分生孢子盘(acervulus)等几种结构. 分生孢子器是一个球形或瓶形的结构,在器的内壁四周表面或底部长有极短的分生孢子梗,