QTLs for a component of partial resistance to cucumber mosaic virus in pepper: restriction of virus installation in host-cells

 Ninety four doubled-haploid (DH) lines obtained from the F₁ between Perennial, a cucumber mosaic virus (CMV)-partially resistant Capsicum annuum line, and Yolo Wonder, a CMV-susceptible C. annuum line, were analysed with 138 markers including mostly RFLPs and RAPDs. Clustering of RAPD markers was observed on five linkage groups of the intraspecific linkage map. These clusters could correspond to the centromeric regions of pepper chromosomes. The same progenies were evaluated for restriction of CMV installation in pepper cells in order to map quantitative trait loci (QTLs) controlling CMV resistance. This component of partial resistance to CMV was quantitatively assessed using a CMV strain that induced necrotic local lesions on the inoculated leaves. The number of local lesions gave an estimation of the density of the virus-infection sites. Genotypic variance among the DH lines was highly significant for the number of local lesions, and heritability was estimated to be 0.94. Using both analysis of variance and non-parametric tests, three genomic regions significantly affecting CMV resistance were detected on chromosomes Noir, Pourpre and linkage group 3, together explaining 57% of the phenotypic variation. A digenic epistasis between one locus that controlled significant trait variation and a second locus that by itself had no demonstrable effect on the trait was found to have an effect on CMV resistance. For each QTL, the allele from Perennial was associated with an increased resistance. Implications of QTL mapping in marker-based breeding for CMV resistance are discussed. Received: 16 September 1996     

Redox thermodynamics, acid-base equilibria and salt-induced effects for the cucumber basic protein. General implications for blue-copper proteins

 The reduction potential of the basic blue-copper protein from cucumber peels (CBP) was determined through voltammetric techniques in different conditions of temperature, pH and ionic composition of the medium. The most notable properties of CBP include a positive entropy change upon reduction, a low-pH protonation and detachment of a metal-binding histidine in the reduced protein, and specific binding interactions with a number of anions present in common laboratory buffers, which influence to some extent the redox thermodynamics. The enthalpy and entropy changes accompanying reduction of the Cu(II) center were compared with those for other blue-copper proteins and correlated with spectroscopic data, structural properties and theoretical calculations. This allows some general considerations to be offered regarding the determinants of the reduction potential in this protein class. It emerges, in line with previous studies of the electronic structure of blue-copper sites, that the enthalpic contribution to the reduction potential is mainly modulated by the metal-binding interactions in the trigonal N₂S ligand set, and particularly by the Cu-cysteinate bond, while the entropy term is mainly affected by solvation properties and possibly by the weak axial bond to copper. The role of solvent exposure of the metal site in the active-site protonations in reduced blue-copper proteins is discussed. Finally, it is shown that the Nernst-Debye-Huckel model qualitatively accounts for the ionic strength dependence of the reduction potential. Received: 20 December 1996 / Accepted: 26 March 1997     

Autonomous cell death, temperature sensitivity and the genetic control associated with resistance to cucumber mosaic virus (CMV) in diploid potatoes (Solanum spp.)

Cucumber mosaic virus (CMV) is a commonly occurring plant virus that causes severe damage in many crops, including the diploid crop species tomato and pepper (Lycopersicon spp. and Capsicum spp., respectively) of the family Solanaceae, but it is neither common nor economically important in cultivated potatoes (Solanum tuberosum; Solanaceae). Resistance to CMV was examined in two diploid (2n=2x=24), highly heterozygous potato populations (Solanum spp.; Solanaceae) consisting of 76 and 126 progeny. Resistance to long-distance transport of CMV controlled by one locus with a major effect and functional at a low temperature (18°C) but overcome at a high temperature (28°C) was identified in one population. In the other population, resistance was controlled by two loci with major effects. In both populations, additional genes with minor effects were probably also involved. Induced resistance to CMV, associated with autonomously developing cell death lesions (Anl) previously not known in potato, was expressed in one parental line. The mechanisms of resistance to CMV may be associated with an inherent or developmental lack of host factors required for compatible CMV-host interactions in viral long distance transport and/or inability of CMV to efficiently suppress the host gene silencing mechanism in potatoes. Polyploidy (gene dose) and high heterozygosity (multiple homologous genes) of potato cultivars may be significant in conferring the durable resistance to CMV. These data provide explanations why CMV is not common and economically important in cultivated potatoes, even though CMV commonly occurs in other crops, weeds and wild plants in potato production areas. Received: 11 February 1999 / Accepted: 25 March 1999     

Growth analysis of UV-B-irradiated cucumber seedlings as influenced by photosynthetic photon flux source and cultivar

A growth analysis was made of ultraviolet-B (UV-B)-sensitive (Poinsett) and insensitive (Ashley) cultivars of Cucuumis satives L. grown in growth chambers at 600 μmol m⁻² s⁻¹ of photosynthetic photon flux (PPF) provided by red- and far-red-deficient metal halide (MH) or blue- and UV-A-deficient high pressure sodium/deluxe f HPS/DX) lamps. Plants were irradiated 6 h daiiy with 0.2 f-UV-B) or 18.2 C+UV-B) kJ m⁻² day⁻¹ of biologically effective UV-B for 8 or 15 days from time of seeding. In general, plants given supplemental UV-B for 15 days showed lower leaf area ratio (LARs, and higher specific leaf mass (SLM) mean relative growth rate (MRGR) and net assimilation rate (NAR) than that of control plants, but they showed no difference in leaf mass ratio (LMR), Plants grown under HPS/DX lamps vs MH lamps showed higher SLM and NAR. lower LAR and LMR. hut no difference in MRGR. LMR was the only growth parameter affected by cultivar: at 15 days, it was slightly greater in Poinsett than in Ashley. There were no interactive effects of UV-B. PPF source or cultivar on any of the growth parameters determined, indicating that the choice of either HPS/DX or MH lamps should not affect growth response to UV-B radiation. This was true even though leaves of UV-B-irradiated plants grown under HPS/DX lamps have been shown to have greater chlorosis than those grown under MH lamps.     

Study of multiplication of cucumber mosaic virus in susceptible and resistant Capsicum annuuum lines

A previous survey on pepper lines (Capsicum annuum L.) indicated that a susceptible cultivar, Yolo Wonder, reacted to cucumber mosaic virus (CMV) by producing a systemic yellow mosaic. By contrast, CMV caused no symptoms on lines Perennial and Vania. The virus is recoverable from the uninoculated leaves of Perennial, while in Vania CMV is restricted to the inoculated leaves. To interpret these phenomena, a comparative study on CMV multiplication rates, yield, specific infectivity and relative proportion of RNAs was made in the inoculated leaves of the three pepper varieties. The rate of CMV multiplication, as estimated by the double antibody sandwich form of enzyme-linked immu-nosorbent assay, was lower in Perennial than in Vania or Yolo Wonder. The yield of virus purified from Perennial was very low when compared with Vania or Yolo Wonder. The specific infectivity of the virus extracted from Perennial was less than that from Vania or Yolo Wonder. These results suggest that Perennial is resistant to CMV multiplication, while restriction of the virus in inoculated leaves of Vania is not due to the inhibition of the virus replication. However, polyacrylamide gel electrophoresis revealed that the RNA profiles of CMV purified from the three pepper lines were similar.     

黄瓜子叶扩张与细胞分裂素的关系

BA(benzyl adenine)专一性地促进离体黄瓜子叶的扩张。为了研究 BA 的作用机理,我们采用间接 EIISA 和 HPLC 的方法测定了子叶扩张过程中内源玉米素(Z)和玉米素核苷(ZR)含量的变化。离体黄瓜(Cucumis sativus,津研4号)子叶用10mg/l 的 BA 培养,72小时之后,处理子叶鲜重的增加比对照高70%。Z+ZR 在 BA 处理的子叶中有大量的积累。结果表明 BA 可能诱发了黄瓜子叶中的细胞分裂素生物合成和代谢的某些基因。     

外源DAN导入黄瓜引起变异的研究

利用花粉管通道技术,以抗黄瓜霜霉病的“苦瓜”“津四”黄瓜为供体,用“长春密刺”为受体,进行外源DNA直接导入,获得突变体,并得到遗传。     

Differential impact of low temperature on fatty acid unsaturation and lipoxygenase activity in figleaf gourd and cucumber roots

Previous studies show that low temperature strongly induces suberin layers in the roots of chilling-sensitive cucumber plants, while in contrast, low temperature produces a much weaker induction of suberin layers in the roots of the chilling-tolerant figleaf gourd [S.H. Lee, G.C. Chung, S. Steudle, Gating of aquaporins by low temperature in roots of chilling-sensitive cucumber and -tolerant figleaf gourd, J. Exp. Bot. 56 (2005) 985-995; S.H. Lee, G.C. Chung, E. Steudle, Low temperature and mechanical stresses differently gate aquaporins of root cortical cells of chilling-sensitive cucumber and figleaf gourd, Plant Cell Environ. (2005) in press; S.J. Ahn, Y.J. Im, G.C. Chung, B.H. Cho, S.R. Suh, Physiological responses of grafted-cucumber leaves and rootstock roots affected by low root temperature, Scientia Hort. 81 (1999) 397-408]. Here, the effect of low temperature on fatty acid unsaturation and lipoxygenase activity was examined in cucumber and figleaf gourd. The double bond index demonstrated that membrane lipid unsaturation shows hyperbolic saturation curve in figleaf gourd roots while a biphasic response in cucumber roots to low temperature. In figleaf gourd, the hyperbolic response in the double bond index was primarily due to accumulation of linolenic acid. Chilling stress also significantly induced lipoxygenase activity in figleaf gourd roots. These results suggest that the degree of unsaturation of root plasma membrane lipids correlates positively with chilling-tolerance. Therefore, studies that compare the effects of chilling on cucumber and figleaf gourd may provide broad insight into stress response mechanisms in chilling-sensitive and chilling-tolerant plants. Furthermore, these studies may provide important information regarding the relationship between lipid unsaturation and lipoxygenase function/activity, and between lipoxygenase activity and water channeling during the response to chilling stress. The possible roles of these processes in chilling tolerance are discussed.     

蓬莱玉参早期发育的形态学观察

本研究对仿刺参(Apostichopus japonicus)的一个特殊品系蓬莱玉参产卵、受精及胚胎和幼体发育过程进行显微观察,并与普通仿刺参进行比较。在19~21℃水温下,蓬莱玉参受精卵分别在受精12 min和24 min后释放第一、二极体,1 h后卵裂成2细胞期,之后每30 min左右完成一次卵裂,6 h后进入囊胚期,19 h后发育成原肠胚;40 h后进入耳状幼体阶段,在其后侧臂的一端出现一个不规则形的石灰质骨片,并发现其位置与水体腔处于同一侧这一规律;5 d和8 d后发育为中耳状幼体和大耳状幼体,10 d后变态发育为樽形幼体,骨片由不规则状发育为齿轮状,并出现第二个石灰质骨片;12 d后发育为五触手,14 d后发育成稚参,40 d后发育为幼参。蓬莱玉参胚胎和幼体发育时序与当前已报道的仿刺参无显著差异,但从幼参开始蓬莱玉参通体始终为白色,而普通仿刺参在45日龄时体表局部出现色素,疣足处较为明显,60日龄幼体一半以上全身布满色素。蓬莱玉参因通体纯白色而受到了众多养殖企业和研究领域的关注,本文的结果为其今后的研究奠定了可靠的理论基础。     

Two amino acids near the N‐terminus of Cucumber mosaic virus 2b play critical roles in the suppression of RNA silencing and viral infectivity

Cucumber mosaic virus (CMV) 2b suppresses RNA silencing primarily through the binding of double‐stranded RNA (dsRNA) of varying sizes. However, the biologically active form of 2b remains elusive. Here, we demonstrate that the single and double alanine substitution mutants in the N‐terminal 15th leucine and 18th methionine of CMV 2b exhibit drastically attenuated virulence in wild‐type plants, but are efficiently rescued in mutant plants defective in RNA‐dependent RNA polymerase 6 (RDR6) and Dicer‐like 4 (DCL4). Moreover, the transgenic plants of 2b, but not 2blm (L15A/M18A), rescue the high infectivity of CMV‐Δ2b through the suppression of antiviral silencing. L15A, M18A or both weaken 2b suppressor activity on local and systemic transgene silencing. In contrast with the high affinity of 2b to short and long dsRNAs, 2blm is significantly compromised in 21‐bp duplex small interfering RNA (siRNA) binding ability, but maintains a strong affinity for long dsRNAs. In cross‐linking assays, 2b can form dimers, tetramers and oligomers after treatment with glutaraldehyde, whereas 2blm only forms dimers, rather than tetramers and oligomers, in vitro. Together, these findings suggest that L15 and M18 of CMV 2b are required for high affinity to ds‐siRNAs and oligomerization activity, which are essential for the suppression activity of 2b on antiviral silencing.