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1.
胁迫相关蛋白(stress-associated proteins, SAPs)在植物对胁迫应答和胁迫调控中起重要作用。木薯是我国重要的粮食作物和经济作物,细菌性枯萎病(cassava bacterial blight, CBB)已严重危害我国木薯产业的健康发展。为了探讨木薯MeSAP基因在抗细菌性枯萎病中的作用,本研究克隆了我国主栽木薯品种‘华南8号’(SC8)的MeSAP13基因,分析该基因在细菌性枯萎病病原菌侵染时的表达模式及其编码蛋白的基本特性。利用基于木薯花叶病毒介导的基因沉默(virus induced gene silencing, VIGS)技术抑制了MeSAP13基因在木薯SC8叶片中的表达,通过接种细菌性枯萎病病原菌XpmHN11对MeSAP13的抗病功能进行抗性鉴定。结果发现:在病原菌XpmHN11侵染叶片3 d后MeSAP13基因表达量显著上调,说明木薯MeSAP13基因能够响应病原菌的侵染;在VIGS载体转化木薯叶片40 d后发现,与转化pCsCMV-A载体的对照叶片相比,MeSAP13在转化pCsCMV-MeSAP13叶片中的表达量显著下调了40%~60%,表明通过VIGS技术成功抑制了MeSAP13在木薯叶片中的表达。将病原菌XpmHN11接种至MeSAP13基因沉默叶片和对照植株叶片,发现MeSAP13基因沉默植株接种叶片的水渍状病斑面积显著大于对照植株接种叶片。分析侵染后0、3、6 d病原菌XpmHN11的繁殖情况发现,在侵染后3 d和6 d的MeSAP13基因沉默植株接种叶片中,其病原菌数量显著高于对照植株接种叶片。以上研究结果表明,抑制MeSAP13基因的表达,降低了木薯对细菌性枯萎病的抗性。 相似文献
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盆栽条件下,以御旱型辽豆14和干旱敏感型辽豆21为研究对象,设置干旱、轻度干旱和适宜水分三个处理,探讨不同生长时期控水条件下,御旱型大豆植株光合特性和叶绿素荧光特性变化的特征和规律,以期揭示御旱基因型大豆抗旱的光合调控机理。结果表明:各个时期控水,土壤水分都显著影响大豆植株的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs);干旱限制了植株的Pn、Tr、Gs、胞间CO2浓度(Ci),辽豆21的蒸腾速率平均值高于辽豆14。随着土壤含水量的增加,植株Ci浓度逐步提高。土壤干旱条件下的初始荧光(F0 )值最大,结荚期(R3-R5)控水时F0 值最低。干旱胁迫降低了植株的最大光化学效率(Fv/Fm)、电子传递效率(ETR)和实际光化学效率(ΦPSⅡ )。同一时期控水,御旱基因型辽豆14的最大荧光产量(Fm)和Fv/Fm高于辽豆21的值。干旱胁迫下,御旱基因型辽豆14能够维持较低的蒸腾速率,较高的Fm和Fv/Fm值,这可能是御旱型辽豆14抗旱的重要原因。 相似文献
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橡胶树灵芝茎腐病病原菌鉴定及其生物学特性测定 总被引:1,自引:0,他引:1
在海南省澄迈等地的橡胶树林地发现一种新的茎腐病,由灵芝属的一种木腐菌侵染橡胶树活立木的茎干引起,株发病率约为1%~2%,田间发生茎腐病的断干橡胶树植株,新抽枝条上的叶片失绿,无光泽,变黄后脱落,后期树冠稀疏,生长不良、枯枝,病树茎干木质部组织白腐,重病植株整株枯死。对该病害的病原菌进行致病性测定、形态学特征鉴定,并建立ITS、LSU和SSU多基因系统发育树。结合形态学鉴定和多基因系统发育树鉴定结果,海南橡胶树灵芝茎腐病的病原菌鉴定为南方灵芝[Ganoderma austral (Fr.) Pat.]。生物学特性测定结果表明,该菌的菌丝最适生长条件为:温度30 ℃,pH 6.0,黑暗条件,马铃薯葡萄糖琼脂(PDA)培养基培养。 相似文献
4.
豇豆是海南最主要的冬季瓜菜之一。2019年,调查发现豇豆贮运期间出现一种严重的软腐病。通过病原菌分离、致病性测定、形态学观察和分子生物学鉴定,鉴定该病原菌为瓜果腐霉[Pythium aphanidermatum (Edson) Fitzp.]。采用生长速率法对该病原菌生物学特性进行初步研究。结果表明:该菌菌落适宜生长温度范围为30~35 ℃,最适生长温度为35 ℃,菌落致死温度为50 ℃、10 min;适宜生长的pH为7.0~9.0,最适pH为9.0;最适碳源为可溶性淀粉;最适氮源为蛋白胨;不同光照条件对菌落生长没有显著影响。本研究首次报道瓜果腐霉(P. aphanidermatum)引起豇豆的采后病害。 相似文献
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叶斑类病害是危害大田期烟草的主要病害之一,大多由真菌侵染所致,病害易暴发流行,对烟草的品质及产量造成重大影响。本研究采用组织分离法从广西‘K326’烟叶具有典型病斑的叶片上分离、纯化获得菌株,通过致病性测定结合形态学特征以及分子生物学手段对病原菌进行鉴定,同时采用菌丝生长速率法测定不同培养基、温度、pH、碳源、氮源、光照,致死温度处理以及10种常用化学药剂对病原菌菌丝生长的影响。该叶斑病的典型病症为:初期烟叶产生灰白色小圆斑,病害加重圆斑逐渐扩散成不规则状,病斑中心形成穿孔,颜色为灰白色,边缘棕褐色,伴随褪绿的黄色晕圈。通过分离纯化获得2个菌株,分别命名为HZFC36和HZZS76。致病性测定结果表明,2个菌株均可在叶片无伤条件下导致健康‘K326’烟叶部产生病斑。结合形态学特征和多基因位点(LSU、ITS、RPB2和TUB2)系统发育进化分析将引起广西烟草叶斑病的病原菌鉴定为Epicoccum latusicollum。该病原菌在CMA培养基上生长最快,最适生长温度为28℃,最适pH为6,最佳碳源、氮源为蔗糖和牛肉浸粉,全光照条件更利于病原菌的生长,致死温度为47℃,水浴10 min。室内药剂初步筛选结果显示,50%啶酰菌胺和25%吡唑醚菌酯对病原菌的抑制效果最好,平均EC50值分别为4.752×10-2、4.989×10-2 mg/L。本研究结果为E. latusicollum引起烟草叶斑病的田间防控奠定了一定的理论基础。 相似文献
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为了明确苦瓜双色平脐蠕孢叶斑病菌(Bipolaris bicolor)的生物学特性及其对杀菌剂的敏感性,研究了不同培养条件对该病原菌菌丝生长的影响,并测定了10种杀菌剂对该病原菌的抑制作用。结果表明:该病原菌菌丝生长最适温度为25~30 ℃,最适pH范围为6~7,适宜培养基为马铃薯蔗糖培养基(PSA)和玉米粉培养基(CMA),持续黑暗和光暗交替有利于菌丝生长;不同碳源和氮源对菌丝生长的影响差异显著,其中葡萄糖和蛋白胨分别为最适碳源和氮源,菌丝生长致死温度为45 ℃。250 g/L苯醚甲环唑乳油毒力最强,EC50为0.0233 mg/L,其次为250 g/L吡唑醚菌酯悬浮剂、20%抑霉唑水乳剂和50%嘧菌环胺水分散粒剂。 相似文献
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为自主研发抗除草剂的甘蓝型油菜,从细菌(Isotericola variabilis)中克隆I.variabilis-EPSPS*基因,使油菜产生草甘膦抗性。通过农杆菌介导法将I.variabilis-EPSPS*转入甘蓝型油菜自交系育127,获得转I.variabilis-EPSPS*基因单株E1。草甘膦耐受性结果表明,转I.variabilis-EPSPS*基因T1代在不同浓度草甘膦的培养基中能够正常生长,而非转基因对照生长严重受阻。I.variabilis-EPSPS*成功整合于油菜基因组并可稳定遗传,草甘膦处理后表达量增加,而且在草甘膦浓度改变时仍保持稳定表达。在温室用41%草甘膦异丙胺盐商品制剂(农达)600倍稀释液(1/3田间生产推荐中剂量)处理转I.variabilis-EPSPS*基因E1的T1植株,体内莽草酸累计量远低于非转基因对照。通过对角果长、每角果粒数和千粒重等农艺性状考察发现,转基因植株和对照相比无显著性差异。田间喷施农达400倍液(1/2田间生产推荐中剂量),发现转基因E1T1植株正常生长而对照全部死亡。鉴于I.variabilis-EPSPS*基因在转基因油菜中能够稳定遗传并赋予了油菜草甘膦除草剂抗性,认为该抗草甘膦转基因油菜是一份新种质。 相似文献
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油梨根腐病是油梨根部重要病害,近年来逐渐增多,严重时可造成油梨整株死亡,已成为油梨产业发展的重要病害。目前广西已发现有4种油梨根腐病,是较难防治的土传病害。重点介绍4种油梨根腐病的特点、发生、病因、症状等,从农业、物理、生物、化学防治方面介绍油梨根腐病的防治技术。 相似文献
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由灵芝菌(Ganoderma pseudoferreum)引起的红根病是橡胶上危害面积最广、影响最大的世界性根部传染性病害。本研究利用环介导等温扩增技术(LAMP),以G. pseudoferreum线粒体Large rDNA特异片段为靶标序列,设计出G. pseudoferreum 特异性LAMP引物,以SYBR Green I为指示剂,建立基于颜色判断的直观、快速、灵敏的G. pseudoferreum LAMP检测方法,优化了反应体系和条件,进行了特异性、灵敏度及田间疑似病样的检测验证。结果表明:整个试验检测时间仅需80 min,在等温64 ℃条件下反应1 h能特异性检测出G. pseudoferreum;特异性检测中,G. pseudoferreum菌株扩增后呈阳性(绿色),而其他真菌均为阴性(橙色)。该技术最低检测限为1′10-5 ng/μL。田间疑似病样LAMP体系检测,病原检出率为85%。本研究建立的LAMP检测技术为橡胶树红根病菌的快速鉴定提供了新技术。 相似文献
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大豆根腐病是一种严重危害大豆生产的世界性土传病害。大豆根腐病病原复杂,病原鉴定是防治大豆根腐病的前提和基础。2019-2020年从山东省采集大豆根腐病标样432份,采用常规组织分离法对大豆水渍状的根系进行病原菌的分离和纯化,得到了279株菌株,其中52株菌株为腐霉菌(Pythium)。对这52株菌株通过形态学特征和ITS、CoxII和β-tubulin序列分析等分子生物学手段鉴定出3种腐霉菌,分别为瓜果腐霉Pythium aphanidermatum、终极腐霉Pythium ultimum和林栖腐霉Pythium sylvaticum。这3种腐霉菌的分离频率分别为:瓜果腐霉P. aphanidermatum占50%,终极腐霉P. ultimum占34.62%,林栖腐霉P. sylvaticum占15.38%,其中瓜果腐霉P. aphanidermatum为优势菌株。对这3种腐霉菌进行了致病性测定,发现3种腐霉菌均可侵染大豆,重复出大豆根腐病的症状。林栖腐霉P. sylvaticum作为大豆成株期根腐病的致病菌在国内是首次报道。研究结果为大豆根腐病的抗病育种及其防治提供了科学依据。 相似文献
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花生黑腐病是花生的重要病害,对生产造成严重影响,被列为我国进境植物检疫性病害。为明确花生黑腐病的病原菌种类和筛选有效防治药剂,采用形态学特征与分子生物学技术相结合的方法,对花生黑腐病害进行了病原菌鉴定,同时采用菌丝生长速率法测定了8种杀菌剂对花生黑腐病菌的抑制作用。结果表明:花生黑腐病害的病原菌为冬青丽赤壳Calonectria iliciola。8种杀菌剂室内毒力测定结果显示,10%戊唑醇EC对花生黑腐病菌的毒力最强,EC50值为1.12 μg/mL;300 g/L苯甲·丙环唑EC、29%吡萘嘧菌酯SC、25%咯菌腈SC、15%吡唑嘧菌酯SC和22.5%啶氧菌酯SC对花生黑腐病菌也有较好的抑制作用,EC50均低于10 μg/mL;30%精甲恶霉灵的抑制作用最差,EC50值为76.71 μg/mL。以上研究结果可为花生黑腐病的防治提供理论依据。 相似文献
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采用实验室测定和温室盆栽方法研究了8种杀菌剂对大豆疫霉菌(Phytophthora sojae)菌丝生长和繁殖的影响及它们对大豆疫霉根腐病的接种防治效果。结果表明,50%烯酰吗啉可湿性粉剂、97%甲霜灵可湿性粉剂和58%甲霜灵锰锌可湿性粉剂对大豆疫霉菌的菌丝生长和繁殖具有很好的抑制作用,该3种药剂能够明显抑制菌丝生长,抑制中浓度(EC50)值依次为0.1208μg/mL、0.1563μg/mL和0.3603μg/mL。浓度为10.0μg/mL时,对孢子囊形成和萌发的抑制率均为100%,对卵孢子形成抑制率分别为64.5%、59.5%和55.0%。接种防治试验结果显示,以上3种药剂喷药后7d防效依次为73.4%、68.8%和60.5%,其余的5种杀菌剂防治效果相对较差。 相似文献
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湘莲腐败病是一种对湘莲危害极其严重的病,发病严重时,可导致莲藕严重减产甚至绝收。本试验从患病的莲藕上完成了对病原菌的分离,并对该致病菌进行了纯培养,从病菌的生物学特质、ITS序列分析及致病性接种鉴定等方面,确定该病菌的病原菌类型为尖镰孢菌。同时应用菌丝体生长速率法,对生产中防治湘莲腐败病的常用化学农药如多菌灵、百菌清等进行室内毒力测定,选择出最适的防治药剂。测试结果显示,不同药剂对病原菌菌丝生长的抑制作用存在明显的差别,抑制效果最明显的为硫磺·多菌灵,抑制中浓度( EC50)为19.87μg/mL;其次为多菌灵,EC50为104.11μg/mL。 相似文献
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Efficacy of biocontrol agents in planting mixes to colonize plant roots and control root diseases of vegetables and citrus 总被引:4,自引:0,他引:4
Tomato, bell pepper, celery and citrus were propagated in planting mixes amended with formulations of commercial biocontrol agents. Root colonization by selected biocontrol agents was evaluated for pepper, tomato and citrus, and found to be generally between 76 to 100% in both greenhouse ebb and flow, and bench-produced plants. Only colonization by Glomus intraradices was low, about 8%. All biological control agents, Trichoderma harzianum, Bacillus subtilis, G. intraradices, Gliocladium virens, and Streptomyces griseovirdis reduced crown rot of tomato in the field, with T. harzianum and B. subtilis being the most effective uniformly among four tests. Four biocontrols reduced Phytophthora root rot on citrus in the field, two applied as a drench to soil in pots reduced Thielaviopsis root rot on citrus, and two biocontrol agents in combination reduced celery root rot caused by Pythium and Fusarium spp., however, none improved above-ground plant growth or health of citrus and celery. Pepper crown and root rot caused by P. capsici was reduced by B. subtilis in one of two tests. 相似文献
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橡胶树红根病是我国分布最广、危害最重的橡胶树根部病害。为明确我国海南和云南地区橡胶红根病菌的生物学特性及对杀菌剂的敏感性,采用十字交叉法研究了不同培养条件对病菌菌丝生长的影响,并测定了10种不同杀菌剂对病菌的抑制作用。结果表明,病原菌在玉米+橡胶根的培养基上生长最快,对温度、pH等适应范围广,温度在13~31 ℃,pH在3~10均能生长,最适生长温度为28 ℃,多数菌株最佳pH为7~9,且能利用多种碳氮源;不同的碳源中,果糖、半乳糖、麦芽糖、葡萄糖和甘露糖较适合该菌的生长;在供试氮源中,菌丝在酪氨酸、牛肉浸膏的基础培养基上生长最快,在色氨酸和尿素的基础培养基上生长最慢;光照对病菌有抑制作用,黑暗有利于菌丝生长;菌丝的致死温度为47 ℃,10 min。不同地区的病原菌株间药剂敏感性存在一定差异,戊唑醇抑菌效果最好,其EC50为0.0312 μg/mL,其次为嘧菌酯、十三吗啉、咪鲜胺和腈菌唑,EC50分别为0.5581、0.6759、1.3763和1.5603 μg/mL。 相似文献
17.
Leen C. Davidse Oda C. M. Gerritsma Joy Ideler Klaas Pie Grardy C. M. Velthuis 《Crop Protection》1988,7(6):347-355
The activity of the phenylamide fungicides metalaxyl, cyprofuram, benalaxyl and oxadixyl against phenylamide-sensitive and phenylamide-resistant strains of Phytophthora megasperma f. sp. medicaginis and Phytophthora infestans has been compared in several tests. Metalaxyl showed the highest activity amongst the four fungicides against mycelial growth of sensitive strains on agar media. Benalaxyl and cyprofuram showed the highest activity against resistant strains. RNA synthesis of sensitive strains, measured as [3H]uridine incorporation, was inhibited by about 80% (P. megasperma) and by about 40% (P. infestans) by all phenylamides at concentrations of 1 μg/ml. At higher concentrations inhibition remained at this level, indicating that only part of the RNA synthesis was inhibited. RNA synthesis of resistant strains was completely insensitive to metalaxyl and oxadixyl at concentrations as high as 200 μg/ml. Cyprofuram, however, at concentrations above 1 μg/ml (P. megasperma) and 10 μg/ml (P. infestans) was inhibitory and at 200 μg/ml this compound almost completely inhibited the phenylamide-sensitive part of the RNA synthesis of both strains. In contrast to the other phenylamides, benalaxyl affected [3H]uridine uptake into mycelium at concentrations higher than 10 μg/ml, and at 100 μg/ml inhibition of uptake was almost total with both sensitive and resistant strains of both Phytophthora species. Inhibition of [3H]uridine uptake obviously is a feature of a second mechanism of action of benalaxyl. Endogenous RNA polymerase activity of isolated nuclei from sensitive strains of P. megasperma was inhibited at phenylamide concentrations as low as 0·1 μg/ml whereas that from resistant strains was not affected at concentrations as high as 100 μg/ml. Similarly, endogenous nuclear RNA polymerase activity of sensitive P. infestans strains appeared to be more sensitive to the phenylamides than that of resistant P. infestans strains. This suggests that resistance that developed in field strains of P. infestans has a basis similar to that of mutagen-induced resistance in laboratory strains of P. megasperma. Tests of the fungicidal activity of the phenylamides determined in a lucerne seedling assay (P. megasperma) and a detached potato leaf assay (P. infestans) clearly differentiated between sensitive and resistant strains. Resistance levels to cyprofuram and benalaxyl were as high as those to metalaxyl and oxadixyl, indicating that the additional effect of a second mechanism of action of benalaxyl and the property of cyprofuram to inhibit RNA synthesis of resistant strains at higher concentrations are of limited practical importance for counteracting phenylamide resistance. 相似文献
18.
本研究以三七(Panax notoginseng)植株及其产品和近缘种为研究对象,采用L9(3 4)正交试验对三七素的提取工艺进行了优化,然后利用HPLC法检测三七素含量,并对各样品中的三七素含量进行了比较分析。结果表明:优化后的三七素提取条件为超纯水、料液比1∶20(g/mL),提取1次(10 min);三七素在三七花蕾中的含量最高,其次是根状茎和主根,但是三七茎叶中也有较高含量的三七素,说明三七花蕾和茎叶均可作为三七素的提取原料;在三七产品中三七花的三七素含量最高,达到3.33%,其次是剪口(根状茎)、筋条(侧根)和须根;但三七素的含量与三七个头大小(头数)并无明显的相关性;在三七近缘种姜状三七(P. zingiberensis)和野三七(P. vienamensis var. fuscidiscus)主根、珠子参(P. japonicus var. major)根状茎中的三七素含量显著低于三七主根三七素含量,也显著低于三七其他部位的三七素含量,说明三七是最佳的三七素来源植物。三七素的含量主要受到物种和部位的影响,与产品规格无关。本文所建立的三七素提取方法和HPLC检测方法,能够快速简便、稳定可靠测定样品中三七素含量;并可为三七素相关标准的建立奠定基础,为三七的综合利用开发提供依据。 相似文献
19.
Evaluation of in-furrow fungicide treatments to control rhizoctonia root rot of wheat 总被引:4,自引:0,他引:4
The efficacy of eight fungicides, placed in-furrow at sowing, to reduce rhizoctonia root rot and increase yields of wheat was examined in glasshouse and field experiments. Under glasshouse conditions three of the fungicides, coated on clay granules at a rate equivalent to 400 g a.i. ha−1, reduced root rot of wheat grown in soil inoculated with Rhizoctonia solani. None of the chemicals stimulated growth of wheat in the absence of disease, but three retarded growth. Experiments at six sites with different soil types and rhizoctonia risk in north-west Victoria, Australia, showed that the fungicide-coated granules were generally ineffective at reducing both incidence and severity of rhizoctonia root rot of wheat. However, tebuconazole was effective at two sites and at one of these flutriafol, RH-7592, cyproconazole and diniconazole also reduced disease severity. Yields were increased by 51% with tebuconazole at one site, by 40% with diniconazole at another and by between 23 and 30% with RH-7592, diniconazole, flutriafol and flutolanil, at a third site. 相似文献