A multi-generation analysis of the stability of transgenic virus resistance in doubled-haploid tobacco lines

Plants can be genetically engineered for virus resistance by transformation with a viral gene. We transformed tobacco with the tomato spotted wilt virus (TSWV) nucleocapsid gene from the Hawaiian L isolate in order to obtain TSWV resistant breeding lines. Doubled-haploid lines were produced from primary transgenic plants that were selected for resistance to the virus. Several of these lines showed very high levels of resistance and were symptomless after inoculation with the Hawaiian L isolate of TSWV. The accumulation of only low levels of full-length transgene RNA and protein observed in these lines is consistent with an RNA-mediated mechanism of resistance. The lines that were highly resistant to the Hawaiian L isolate of TSWV were also found to be highly resistant to several other isolates of TSWV, while lines that were only moderately resistant to the Hawaiian L isolate were often susceptible to the other isolates. The highly resistant lines were advanced over several generations by self-pollination. Although these lines were fully homozygous, several lines lost resistance in later generations, indicating that the resistance was unstable. Selection for resistance in these unstable lines did not prevent the occurrence of susceptible progeny in subsequent generations. Therefore, testing over several generations is required to determine the stability of resistance when breeding crops with transgenic virus resistance.     

Biological and Molecular Characterization of Three Isolates of Tomato aspermy virus Infecting Chrysanthemums in India

Severe mosaic, chlorotic ringspots and flower deformation were observed during the winter of November 2006–February 2007 on chrysanthemums ( Chrysanthemum morifolium ) at three locations in India: Lucknow (UP), Dhanbad (MP) and Kolkata (WB). Tomato aspermy virus (TAV) was detected in affected plants by ELISA and by RT-PCR using TAV specific primers. These TAV isolates were mechanically transmitted to test plant species and also by aphids ( Aphis gossypii ) to Lycopersicon esculentum . The complete RNA 3 of each TAV isolate was cloned and sequenced and determined to be 2386 nucleotides (nt) long, and to encode two open reading frames (ORFs): the movement protein (MP) of 741 nt and the coat protein (CP) of 657 nt translating in to 246 and 218 amino acid (aa), respectively. When RNA 3 sequences of the Indian isolates were multiple aligned with seven other strains of TAV occurring worldwide, Indian isolates shared 98–99% identities among themselves and with the KC, V, P, B, I and C strains of TAV. In phylogenetic analysis, the Lucknow and Kolkata isolates of TAV clustered together and showed a close relationship with the KC-TAV strain from South Korea, whereas the Dhanbad isolate formed an independent cluster and showed closeness with the V-TAV strains from Spain and Australia. Recombination events were also observed in the CP region of the Dhanbad isolate, supporting its diverse behaviour. This is the first report of the complete RNA 3 sequence of these three Indian TAV isolates.     

Analysis of pathogenicity mutants of a bacteriocin producing Xanthomonas perforans

Since the initial discovery of Xanthomonas perforans on tomato in 1991, it has completely displaced Xanthomonas euvesicatoria as the bacterial spot of tomato pathogen in Florida. Previous research has shown that X. perforans produces at least three different bacteriocin-like compounds (BcnA, BcnB, BcnC) antagonistic toward X. euvesicatoria strains. In this study pathogenicity-attenuated, bacteriocin-producing mutants of X. perforans were created to determine their potential as biological control agents for control of X. euvesicatoria. Several candidate genes were chosen based on previous studies in which mutant phenotypes exhibited reduced virulence in either X. perforans (OpgH_Xcv) or the closely related X. euvesicatoria strain 85-10 (hpaB, hpaC, xopA, xopD, avrBs2 and gumD). Each candidate gene in X. perforans was amplified and PCR-assisted deletion mutagenesis was performed in the wild-type (wt) X. perforans strain to create potential attenuation mutants. Each mutant was tested for growth rate, disease severity and antagonism toward X. euvesicatoria strains. Three mutants, XopA, opgH, and gumD were significantly less pathogenic than the wild-type strain with the opgH mutant reaching significantly lower internal populations than all other mutants except hpaC. The opgH-strain was the most affected in its ability to grow internally in plant tissue while inhibiting X. euvesicatoria populations equal to or more than the other mutant strains. This mutant strain could potentially be used as part of an effective biological control strategy.     

金丝小枣多糖ZP3c的分离纯化及其组成分析

经DEAE-SepharoseCL-6B、SepharoseCL-6B和Sephadex G-200柱层析,得到一个均一的金丝小枣多糖组分(ZP3c).ZP3c的中性单糖是由鼠李糖、阿拉伯糖和半乳糖组成,其摩尔比为1:2.13:19.3.经红外光谱测定,ZP3c的酯化度为41.85%.     

中国春及其ph2b突变体与秦岭黑麦杂种胚胎发育的比较研究

对普通小麦中国春(CS)及其突变体(CSph2b)与秦岭黑麦远缘杂交的受精过程及其杂种早期胚胎发育进行了研究.结果显示,大部分秦岭黑麦花粉能在CS及CSph2b小麦柱头上萌发,花粉管可顺利伸入花柱和胚囊;CS和CSph2b已授粉子房中,分别有80.12%和84.80%完成双受精过程而形成正常胚及胚乳,也有小部分仅有卵核受精或极核受精而只形成胚或胚乳,两者总受精率分别为86.74%和88.89%,成胚率分别为83.73%和87.14%.表明中国春及其突变体CSph2b与秦岭黑麦的可杂交性都很高,并且CSph2b略高于CS.     

羧化壳聚糖在蚊净香草组培中的应用研究

本文研究羧化壳聚糖在蚊净香草组培中的应用。试验结果表明,在诱导培养基中附加2 g/L羧化壳聚糖,有利于提高蚊净香草诱导率;附加4 g/L羧化壳聚糖,试管苗增殖率达6倍,且根系发达。     

法兰地草莓的芳香类和黄酮类成分

为了解草莓(Fragaria×ananassa Duch.)法兰地品种的化学成分,采用色谱分离方法,从新鲜果实的乙醇提取物中获得19个化合物。通过波谱数据分析鉴定了它们的结构,分别为对羟基苯甲酸(1)、没食子酸乙酯(2)、鞣花酸3-O-α-L-鼠李糖苷(3)、苄基β-D-葡萄糖苷(4)、淫羊藿次苷F2(5)、苄基6-O-α-L-呋喃阿拉伯糖基-β-D-葡萄糖苷(6)、苯乙基6-O-α-L-呋喃阿拉伯糖基-β-D-葡萄糖苷(7)、反式肉桂酰基β-D-葡萄糖苷(8)、顺式肉桂酰基β-D-葡萄糖苷(9)、反式对香豆酰基β-D-葡萄糖苷(10)、顺式对香豆酰基β-D-葡萄糖苷(11)、反式阿魏酰基β-D-葡萄糖苷(12)、山柰酚(13)、反式椴树苷(14)、山柰酚3-O-β-D-葡萄糖醛酸苷(15)、槲皮素(16)、槲皮素3-O-β-D-葡萄糖苷(17)、槲皮素3-O-β-D-葡萄糖醛酸苷(18)和根皮苷(19),化合物1~12为芳香类,其余为黄酮类。所有化合物均为首次从法兰地品种中报道,化合物4~9为首次从草莓中获得。     

Comparative study of the cell wall composition of broccoli, carrot, and tomato: structural characterization of the extractable pectins and hemicelluloses

This study delivers a comparison of the pectic and hemicellulosic cell wall polysaccharides between the commonly used vegetables broccoli (stem and florets separately), carrot, and tomato. Alcohol-insoluble residues were prepared from the plant sources and sequentially extracted with water, cyclohexane-trans-1,2-diamine tetra-acetic acid, sodium carbonate, and potassium hydroxide solutions, to obtain individual fractions, each containing polysaccharides bound to the cell wall in a specific manner. Structural characterization of the polysaccharide fractions was conducted using colorimetric and chromatographic approaches. Sugar ratios were defined to ameliorate data interpretation. These ratios allowed gaining information concerning polysaccharide structure from sugar composition data. Structural analysis of broccoli revealed organ-specific characteristics: the pectin degree of methoxylation (DM) of stem and florets differed, the sugar composition data inferred differences in polymeric composition. On the other hand, the molar mass (MM) distribution profiles of the polysaccharide fractions were virtually identical for both organs. Carrot root displayed a different MM distribution for the polysaccharides solubilized by potassium hydroxide compared to broccoli and tomato, possibly due to the high contribution of branched pectins to this otherwise hemicellulose-enriched fraction. Tomato fruit showed the pectins with the broadest range in DM, the highest MM, the greatest overall linearity and the lowest extent of branching of rhamnogalacturonan I, pointing to particularly long, linear pectins in tomato compared with the other vegetable organs studied, suggesting possible implications toward functional behavior.