低温对梨(Pyrus communis L.)果实后熟过程中乙烯合成和反应的影响(英文)

Passe Crassane梨果实采后需经过 6 0～ 80d的低温处理才能正常后熟。为了明确低温促进果实成熟的机理 ,对果实进行了低温和低温结合 1 MCP(1 甲基环丙烯 ,乙烯作用抑制剂 )和丙烯 (乙烯类似物 )处理。研究发现 :果实经低温处理后 ,乙烯合成前体———ACC含量大幅度升高 ,而未经低温处理的果实 ,无论贮藏在空气中或用丙烯 1 0 0 0μl/L处理 ,果实中ACC、M ACC含量均保持较低水平。但冷藏前用 1 MCP处理可抑制冷藏果实或冷藏后升温的果实ACC含量的增高。这说明果实的后熟过程与低温和依赖乙烯的ACC合成酶的活性和基因的表达密切相关。未经冷藏的果实于 2 0℃下用丙烯处理 ,果实不能自发合成乙烯 ,但当果实经过冷藏后再用丙烯处理 ,则果实对丙烯的反应能力随冷藏时间延长而增强。为了进一步了解低温诱导的乙烯反应过程。我们对乙烯受体基因进行了研究。定量PCR分析结果表明 ,与拟南芥ETR1同源的基因的表达不受低温的调节。但冷藏后升温 ,或在升温后用丙烯处理时 ,mRNA含量降低。这些结果说明 ,低温可能是通过影响乙烯信号转导途径下游的其它因子而调节依赖乙烯的ETR1基因和ACC合成酶基因的表达 ,从而影响果实的成熟过程     

An unusual root tip formation in hairy root culture of Hyoscyamus muticus

Summary Hairy root cultures of Hyoscyamus muticus were established using Agrobacterium rhizogenes ATCC 15834. In one out of 8 clones established, an unusual root tip formation was observed after transfer of cultures from half-strength Murashige and Skoog (1962) to White's medium (1939). This phenomenon was associated with the production of a fine brownish cell suspension culture. Hairy root development resumed after transfer of the root tips from White to half-strength Murashige and Skoog medium. After plating the isolated brownish cells on hormone-free half-strength Murashige and Skoog or White solid medium, callus proliferation was observed, and then redifferentiation of hairy roots occurred. The polymerase chain reaction analysis of the H. muticus hairy root (clone Z2) revealed that only the tl region of the T-DNA was integrated. The growth and the production of five tropane alkaloids by this clone were examined.Abbreviations PCR Polymerase Chain Reaction - MS medium Murashige and Skoog Medium - 1/2 MS medium half-strength MS medium - WP medium Woody Plant medium - RC medium Root Culture medium - WH medium White medium - HPLC High Performance Liquid Chromatography - wt. weight     

Enzymatic detoxification of eutypine, a toxin from Eutypa lata, by Vitis vinifera cells: partial purification of an NADPH-dependent aldehyde reductase

Eutypine, 4-hydroxy-3-(3-methyl-3-butene-1-ynyl) benzaldehyde, is a toxin produced by Eutypa lata (Pers.: Fr.) Tul., the causal agent of dying arm disease of Vitis vinifera L. (grapevine). Previously, we have shown that eutypine is involved in the development of disease symptoms. In the present study, the effects of V. vinifera cell-suspension cultures on the biological activity of the toxin were investigated. Eutypine was converted by grapevine tissues into a single compound, identified by mass spectrometry and nuclear magnetic resonance as 4-hydroxy-3-(3-methyl-3-butene-1-ynyl) benzyl alcohol, designated eutypinol. This compound was found to be non-toxic for grapevine tissues. Unlike eutypine, eutypinol failed to affect the oxidation rate or membrane potential of isolated mitochondria. In grapevine cells, reduction of eutypine into the corresponding alcohol is an NADPH-dependent enzymatic reaction. An enzyme which reduced eutypine was partially purified, over 1000-fold, using a five-step purification procedure. By gel filtration and sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the protein was found to have a molecular mass of 54–56 kDa. The enzyme exhibited an apparent K _m for eutypine of 44 μM, and was active between pH 6.8 and 7.5 with a maximum at pH 7.0. The eutypine reductase activity was improved by Mn²⁺ and Mg²⁺ and inhibited by disulfiram and p-hydroxymercuribenzoate. The possible role of the eutypine-detoxification mechanism in the defense reactions of V. vinifera cells is discussed. Received: 20 April 1998 / Accepted: 22 September 1998     

Enhanced SPR Sensitivity with Nano-Micro-Ribbon Grating—an Exhaustive Simulation Mapping

In this study, we theoretically investigate the sensing potential of 2D nano- and micro-ribbon grating structuration on the surface of Kretschmann-based surface plasmon resonance (SPR) biosensors when they are employed for detection of biomolecular binding events. Numerical simulations were carried out by employing a model based on the hybridization of two classical methods, the Fourier modal method and the finite element method. Our calculations confirm the importance of light manipulation by means of structuration of the plasmonic thin film surfaces on the nano- and micro-scales. Not only does it highlight the geometric parameters that allow the sensitivity enhancement compared with the response of the conventional SPR biosensor based on a flat surface but also describes the transition from the regime where the propagating surface plasmon mode dominates to the regime where the localized surface plasmon mode dominates. An exhaustive mapping of the biosensing potential of the 2D nano- and micro-structured biosensors surface is presented, varying the structural parameters related to the ribbon grating dimensions, i.e., the widths and thicknesses. The nano- and micro-structuration also leads to the creation of regions on biosensor chips that are characterized by strongly enhanced electromagnetic (EM) fields. New opportunities for further improving the sensitivity are offered if localization of biomolecules can be carried out in these regions of high EM fields. The continuum of nano- and micro-ribbon structured biosensors described in this study should prove a valuable tool for developing sensitive and reliable 2D-structured plasmonic biosensors.     

Genome-wide insights into population structure and genetic history of tunisian local cattle using the illumina bovinesnp50 beadchip

Background

Tunisian local cattle populations are at risk of extinction as they were massively crossed with imported breeds. Preservation of indigenous livestock populations is important because each of them comprises a unique set of genes resulting from a local environment-driven selection that occurred over hundreds of years. The diversity and genetic structure of Tunisian local cattle populations are poorly understood. However, such information is crucial to the conservation and sustainable use of genetic resources.In addition, comparing the genomic structure of population sets from different parts of the world could help yield insight into their origin and history.In the present study, we provide a detailed assessment of the population structure of the three Tunisian local cattle populations using various methods, and we highlight their origin and history by investigating approximately ~38,000 SNPs in a broad panel of 878 individuals from 37 worldwide cattle breeds representative of African, European and indicine populations.

Results

Our study revealed a low level of divergence and high genetic diversity in Tunisian local cattle reflecting low levels of genetic drift. A Comparison with the worldwide cattle panel pinpointed the admixed origin of the genome of the three Tunisian populations with the two main European and African ancestries. Our results were in agreement with previous historical and archaeological reports about the past gene flow that existed between North African and South European breeds, in particular with Iberian cattle. We also detected a low-level indicine introgression in the three Tunisian populations and we inferred that indicine ancestry was inherited via African ancestors.

Conclusions

Our results represent the first study providing genetic evidence about the origin and history of Tunisian local cattle. The information provided by the fine-scale genetic characterization of our study will enhance the establishment of a national conservation strategy for these populations. These results may enable the identification of genetic variants involved in adaptation to harsh environmental conditions.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1638-6) contains supplementary material, which is available to authorized users.     

PtaRHE1, a Populus tremula × Populus alba RING‐H2 protein of the ATL family,has a regulatory role in secondary phloem fibre development

REALLY INTERESTING NEW GENE (RING) proteins play important roles in the regulation of many processes by recognizing target proteins for ubiquitination. Previously, we have shown that the expression of PtaRHE1, encoding a Populus tremula × Populus alba RING‐H2 protein with E3 ubiquitin ligase activity, is associated with tissues undergoing secondary growth. To further elucidate the role of PtaRHE1 in vascular tissues, we have undertaken a reverse genetic analysis in poplar. Within stem secondary vascular tissues, PtaRHE1 and its corresponding protein are expressed predominantly in the phloem. The downregulation of PtaRHE1 in poplar by artificial miRNA triggers alterations in phloem fibre patterning, characterized by an increased portion of secondary phloem fibres that have a reduced cell wall thickness and a change in lignin composition, with lower levels of syringyl units as compared with wild‐type plants. Following an RNA‐seq analysis, a biological network involving hormone stress signalling, as well as developmental processes, could be delineated. Several candidate genes possibly associated with the altered phloem fibre phenotype observed in amiRPtaRHE1 poplar were identified. Altogether, our data suggest a regulatory role for PtaRHE1 in secondary phloem fibre development.     

Phenolic content and antioxidant activity in two contrasting Medicago ciliaris lines cultivated under salt stress

The objective of this study was to determine more indepth physiological and antioxidant responses in two Medicago ciliaris lines (a salt-tolerant line TNC 1.8 and a salt-sensitive line TNC 11.9) with contrasting responses to 100 mM NaCl. Under salt stress, both lines showed a decrease in total biomass and in the growth rate for roots, but TNC 1.8 was less affected by salt than TNC 11.9 in that it maintained leaf growth even in the presence of added salt. In both lines, salt stress mainly affected micronutrient status (Fe, Mn, Cu and Zn) rather than K nutrition, but the tolerant line TNC 1.8 accumulated more Na in leaves and less in roots compared with TNC 11.9. Salt stress decreased total soluble sugars (TSS) in all organs of the sensitive line TNC 11.9, whereas TSS was only reduced in roots of the tolerant line. The salt-induced drop in growth was linked to an increase in lipid peroxidation in roots of both lines and in leaves of the sensitive line. The salt-tolerant line TNC 1.8 was more efficient at managing salt-induced oxidative damage in leaves and to a lesser extent in roots than the salt-sensitive line TNC 11.9, by preserving higher phenolic compound and superoxide dismutase levels in both organs.     

pFiD188, the linear virulence plasmid of Rhodococcus fascians D188

Rhodococcus fascians is currently the only phytopathogen of which the virulence genes occur on a linear plasmid. To get insight into the origin of this replicon and into the virulence strategy of this broad-spectrum phytopathogen, the sequence of the linear plasmid of strain D188, pFiD188, was determined. Analysis of the 198,917 bp revealed four syntenic regions with linear plasmids of R. erythropolis, R. jostii, and R. opacus, suggesting a common origin of these replicons. Mutational analysis of pFi_086 and pFi_102, similar to cutinases and type IV peptidases, respectively, showed that conserved region R2 was involved in plasmid dispersal and pointed toward a novel function for actinobacterial cutinases in conjugation. Additionally, pFiD188 had three regions that were unique for R. fascians. Functional analysis of the stk and nrp loci of regions U2 and U3, respectively, indicated that their role in symptom development was limited compared with that of the previously identified fas, att, and hyp virulence loci situated in region U1. Thus, pFiD188 is a typical rhodococcal linear plasmid with a composite structure that encodes core functions involved in plasmid maintenance and accessory functions, some possibly acquired through horizontal gene transfer, implicated in virulence and the interaction with the host.