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植物病毒弱毒疫苗在防治植物病毒病害中发挥着重要的作用,但对于其致弱的根本原因和机理仍不十分清楚。弱病毒能够在植物体内生存和繁殖,却不严重危害植物的生长、开花和种子生产,而对外来病毒具有杀灭和防治作用,这种共生和保护宿主的现象是大多数植物弱病毒所具有的共同… 相似文献
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1.抗病基因工程 黄瓜、马铃薯、番茄、烟草、苜蓿等植物,经常出现花叶病害而枯死。这些都是病毒引起的病害。人们在研究此病害过程中,发现了交叉保护现象,即先用弱病毒感染植物,再用强病毒感染植物,结果后者感染不上,达到兔疫防病作用。抗病毒基因工程有以下几方面。 相似文献
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天花粉蛋白基因转化番茄的研究 总被引:19,自引:0,他引:19
核糖体失活蛋白(ribosomeinactivatingprotein,RIP)是一类作用于核糖体,抑制蛋白质合成的蛋白毒素,它具有广谱抗植物病毒和动物病毒的活性,在异种植物中的抗性效应尤其明显。迄今为止,人们已经从50多种植物中分离出60多种不... 相似文献
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双链RNA能诱导转录后的基因沉默,是生物抵御病毒入侵、维持自身基因稳定的一种自我保护机制.把源自病毒的基因构建成反向重复结构转入植物体内,其转录出的RNA会通过分子内序列互补形成双链,将入侵病毒的同源序列降解,使转基因植株获得对病毒的高抗性.RNA干扰型抗病毒转基因植株中,转病毒基因的mRNA不存在或存在量很少,也不会翻译成有功能的病毒蛋白,因此不存在病毒RNA重组、异源包装及协生作用的潜在风险,具有较高的生物安全性.双链RNA抗病毒转基因正在成为一种高效、安全的植物抗病毒策略. 相似文献
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植物RNA 沉默机制的主要功能之一是具有抗病毒作用. 在被病毒侵染的宿主细胞中发现的病毒来源的小RNA表明, 宿主的RNA沉默机制可以靶向病毒RNA. 随着vsiRNAs 高通量测序技术的发展, 近年来的遗传学研究揭示了vsiRNAs 的起源和组成以及它们调控基因表达的潜在功能. 本文简述了vsiRNAs 的起源和生物合成过程, 并着重围绕在抗病毒过程中vsiRNAs 介导的对病毒基因组和宿主转录本的RNA 沉默现象进行综述, 以更好地理解植物中vsiRNAs 在病毒致病性以及和宿主互作中的作用机制. 相似文献
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植物反转录转座子及其在功能基因组学中的应用 总被引:6,自引:0,他引:6
高等植物中的反转录转座子是构成植物基因组的重要成分之一.它分病毒家族和非病毒家族两类,病毒家族包括反转录病毒和类似于反转录病毒的非病毒转座子,病毒家族中的反转录转座子可再细分为Ty3-gypsy类和Ty1-copia类;非病毒家族可细分为LINE类和SINE类.正常情况下大部分反转录转座子不具有活性,某些生物或非生物因素胁迫可激活部分反转录转座子转座.反转录转座子自身编码反转录酶进行转录,以"拷贝-粘贴"的转座模式导致基因组扩增和进化.具有活性的反转录转座子通过插入产生新的突变,可作为一种基因标签技术,应用于功能基因组学研究,并成为研究植物基因功能和表达的重要技术平台.本文综述了近几年来在植物反转录转座子方面的研究进展,主要包括植物反转录转座子的结构、特征、活性及其对基因组的影响和它们在功能基因组学中的应用. 相似文献
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马传染性贫血病毒是反转录病毒科慢病毒属的成员之一 ,不仅与人免疫缺陷病毒具有序列同源性 ,而且与其血清具有交叉反应。马传染性贫血驴白细胞弱毒疫苗是迄今为止唯一研究成功的慢病毒疫苗。在马传贫病毒囊膜基因的研究中有助于弄清其抗原变异、持续感染和疫苗免疫机理 ,为艾滋病疫苗的研究提供借鉴。对囊膜基因的结构、变异及其在机体免疫应答中的作用进行了讨论。 相似文献
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弱毒疫苗ToMV-K的复制酶基因在2670-2672核苷酸处发生UGA突变,研究表明该突变是导致病毒弱化的主要原因。通过ToMV-K复制酶的突变区与其它具有UGA渗漏终止密码的植物ssRNA病毒基因组通读结构区的分析和比较,发现ToMV-K和其它植物病毒的UGA渗漏与通读相关基因的共同特征:CGG基元,通读区的α-螺旋结构和一些疏水氨基酸残基使UGA的通读成为可能。这些渗漏与通读的特征可能才是ToMV\|K致弱的根本原因。可以根据这一模式,探讨对其它植物ssRNA的病毒如PVX、PVY、CMV等的基因组改造和致弱研究。 相似文献
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Transgenic Plants Expressing Potato Virus X ORF2 Protein (p24) Are Resistant to Tobacco Mosaic Virus and Ob Tobamoviruses 总被引:1,自引:0,他引:1
X. Ares G. Calamante S. Cabral J. Lodge P. Hemenway R. N. Beachy A. Mentaberry 《Journal of virology》1998,72(1):731-738
The p24 protein, one of the three proteins implicated in local movement of potato virus X (PVX), was expressed in transgenic tobacco plants (Nicotiana tabacum Xanthi D8 NN). Plants with the highest level of p24 accumulation exhibited a stunted and slightly chlorotic phenotype. These transgenic plants facilitate the cell-to-cell movement of a mutant of PVX that contained a frameshift mutation in p24. Upon inoculation with tobacco mosaic virus (TMV), the size of necrotic local lesions was significantly smaller in p24+ plants than in nontransgenic, control plants. Systemic resistance to tobamoviruses was also evidenced after inoculation of p24+ plants with Ob, a virus that evades the hypersensitive response provided by the N gene. In the latter case, no systemic symptoms were observed, and virus accumulation remained low or undetectable by Western immunoblot analysis and back-inoculation assays. In contrast, no differences were observed in virus accumulation after inoculation with PVX, although more severe symptoms were evident on p24-expressing plants than on control plants. Similarly, infection assays conducted with potato virus Y showed no differences between control and transgenic plants. On the other hand, a considerable delay in virus accumulation and symptom development was observed when transgenic tobacco plants containing the movement protein (MP) of TMV were inoculated with PVX. Finally, a movement defective mutant of TMV was inoculated on p24+ plants or in mixed infections with PVX on nontransgenic plants. Both types of assays failed to produce TMV infections, implying that TMV MP is not interchangeable with the PVX MPs. 相似文献
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Effects of Two Strains of Tobacco Mosaic Virus on Photosynthetic Characteristics and Nitrogen Partitioning in Leaves of Nicotiana tabacum cv Xanthi during Photoacclimation under Two Nitrogen Nutrition Regimes 总被引:2,自引:2,他引:0 
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下载免费PDF全文 Photoacclimation was studied in tobacco leaves (Nicotiana tabacum cv Xanthi) infected with two strains of tobacco mosaic virus (TMV) and grown under different light and nitrogen nutrition regimes. Photosynthetic acclimation measured by the quantum yield and the maximum rate in saturating light of CO2-saturated photosynthesis was impaired to a greater extent in tobacco leaves infected with TMV strain PV230 than in those infected with TMV strain PV42. Infection with TMV strain PV230 severely impaired photosynthetic acclimation at high light/low nitrogen and during transfer from low to high light. Expanding leaves showing chlorotic-mosaic symptoms had greatly reduced capacity to acclimate to high light compared with controls and with developed leaves without visible symptoms. We conclude that the failure of expanding leaves to acclimate was largely due to the destruction of chloroplasts in yellow areas of the tissue, accompanied by severe reduction in ribulose-1,5-bisphosphate carboxylase/oxygenase levels, and corresponding reduction in photosynthesis on a leaf-area basis. When corrected for areas of healthy green tissue, photoacclimation of infected leaves was the same as that of controls. Visible symptom development was greatest in high light/low nitrogen treatments. In developed leaves without visible symptoms, virus accumulation, which was as extensive as in expanding leaves, accelerated senescence and impaired photoacclimation during transfer from low light to high light. Generally, infection with TMV strain PV42 did not impair photosynthetic acclimation and even enhanced it in some treatments, even though virus accumulated to the same concentration as in PV230-infected leaves. These data show that TMV does not simply impair photoacclimation in tobacco by competing with chloroplasts for leaf nitrogen reserves. Rather, specific properties of severe strains, such as PV230, which lead to visible symptom development and patchy loss of photosynthetic activity in expanding leaves as well as general acceleration of chloroplast senescence in developed leaves, contribute to impaired photoacclimation, which is generally exacerbated by low nitrogen nutrition. 相似文献
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Chemical suppression of the symptoms of two virus diseases 总被引:3,自引:0,他引:3
Carbendazim applied at the rate of 2 g per plant to the roots of tobacco (Nicotiana tabacum cv. White Burley) plants before infection with tobacco mosaic virus (TMV) caused very considerable reduction in the severity of disease symptoms in systemically infected leaves but did not affect their virus content. Leaves of untreated, infected plants had a greatly reduced chlorophyll content 100 days after infection whereas the chlorophyll content of leaves of infected plants treated with carbendazim was similar to that of normal uninfected leaves. Carbendazim had no effect on the infectivity of TMV in vitro or on the local lesion reaction of N. glutinosa plants when inoculated with TMV. Carbendazim was applied to lettuce cv. Cobham Green at a total rate of o-i g per plant before and after they were infected with beet western yellows virus and the plants were then grown on in the field. At harvest time (50 days after infection) almost all the treated virus-infected plants were of a normal green appearance, whereas the untreated controls were almost all very severely yellowed and unmarketable. 相似文献
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Y Devash A Gera D H Willis M Reichman W Pfleiderer R Charubala I Sela R J Suhadolnik 《The Journal of biological chemistry》1984,259(6):3482-3486
The effect of the 5'-dephosphorylated 2',5'-adenylate trimer and its 2',5'-trimer core analogs on the inhibition of tobacco mosaic virus (TMV) replication was determined in tobacco leaf discs, protoplasts, and whole tobacco plants, using infectivity tests and enzyme-linked immunosorbent assays. A structure-activity-metabolic stability-toxicity analysis of the 2',5'-adenylate trimer core molecule in TMV-infected Nicotiana glutinosa was determined. Modification at either the 6-amino position of the adenylate residues (i.e. inosinate trimer core) or at the 2' terminus (i.e. A-A-ara-A or A-A-Tu) inhibited replication of TMV. Modification of the 3'-hydroxyl group of the adenylate residues to 3-deoxyribose (i.e. the 2',5'-cordycepin trimer core) inhibited TMV replication better than the 2',5'-adenylate trimer core molecule. With enzyme-linked immunosorbent assays, there was complete inhibition of TMV replication by 200 nM 2',5'-adenylate trimer core for 60 h and by 200 nM 2',5'-cordycepin trimer core for 96 h. The amount of 2',5'-oligonucleotides associated with the leaves was determined using 2',5'-[3H]cordycepin trimer core; 1 X 10(-12) mol/cm2 of plant leaves inhibited TMV replication by 99%. No 2',5'-phosphodiesterase activity was detected in TMV-infected and noninfected leaf extracts. Therefore, the 2',5'-trimer cores were potent inhibitors of TMV replication at nanomolar concentrations, i.e. at 1000-fold lower concentration than that required in mammalian systems. 相似文献
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Reduced Photosystem II Activity and Accumulation of Viral Coat Protein in Chloroplasts of Leaves Infected with Tobacco Mosaic Virus 总被引:12,自引:5,他引:7 下载免费PDF全文
下载免费PDF全文 We previously reported (A Reinero, RN Beachy 1986 Plant Mol Biol 6:291-301) that coat protein (CP) of tobacco mosaic virus (TMV) accumulates in chloroplasts of systemically infected leaves. To determine the significance of such interaction we examined electron transport rates in chloroplasts containing different levels of TMV-CP. Tobacco (Nicotiana tabacum L.) plants were infected with either a TMV strain inducing chlorosis or with a strain inducing mild symptoms, and both the accumulation pattern of TMV-CP inside chloroplasts as well as the rates of photosynthetic electron transport were followed. The CP of the TMV strain inducing chlorosis was detected inside chloroplasts 3 days after infection, and thereafter accumulated at a rapid rate, first in the stroma and then in the thylakoid membranes. On the other hand, the CP of the TMV strain that caused only mild symptoms accumulated in chloroplasts to lower levels and little CP was associated with the thylakoids. In vivo and in vitro measurements of electron transport revealed that photosystem II activity was inhibited in plants infected with the aggressive TMV strain while no reduction was observed in plants infected with the mild strain. The capacity of chloroplasts to synthesize proteins was equivalent in organelles isolated from healthy and virus-infected leaves. The possibility that a large accumulation of TMV-CP inside chloroplasts may affect photosynthesis in virus-infected plants by inhibiting photosystem II activity is discussed. 相似文献
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The ultrastructural aheration of two host plants infected with tomato mosaic virus (ToMV) were studies with transmission electron microscopy. A large number of virus particles were found being accumulated in different cells such as epidermis, parenchyma cells and vascular bundle cells of Lycopersicon esculentum Mill. grown at 25℃ Crystalline inclusions and paracrystal inclusions composed of ToMV particles were observed in the cytoplasm or vacuoles. Some muhivesicular bodies and myeloid bodies protming into the vacuole and vires-specific vesicles associated with the tonoplast were also observed. The ultrastructuml alteration of Nicotiana tabacum L. tv. Xanthinn was similar to that in tomato infected by ToMV grown at 25 cE. In addition to the aggregate inclusions described above, some cytoplasmic angularly-layered aggregates and abnormal chloroplasts with small peripheral vesicles were observed in the parenchyma cells. The densely stained amorphous material was seen in the cytoplasm of N. tabacum L. cv. Xanthiun grown at 35℃. No X- body was observed in the cytoplasm of the ToMV infected tomato and tobacco grown at 25℃ or 35℃. The authors' results suggest a significant difference between the cytopathological effects of ToMV and tobacco mosaic virus (TMV). These characteristic difference may be useful in the virus diagnosis and identification virus infections in plants. 相似文献