玉米叶绿体表达载体的构建及AsRED基因原核表达

从玉米幼嫩叶片中提取玉米叶绿体基因DNA,通过PCR克隆出叶绿体同源重组片段trnA和trnI、叶绿体特异性启动子Prrn以及终止子psbA.构建玉米叶绿体表达载体pBAIRTARED,含有一个人工操纵子,其中,筛选标记基因aadA和红色荧光蛋白报告基因AsRED处于Prrn启动子和psbA终止子控制.将构建的载体转化大肠杆菌BL21（DE3）,观测到重组细胞呈现红色,表明构建的载体可以用于玉米叶绿体转化以及表达报告基因.     

Recurrent outbreaks of root mat in cucumber and tomato are associated with a monomorphic, cucumopine, Ri-plasmid harboured by various Alphaproteobacteria

Recurrent outbreaks of root mat have occurred in the UK and France in cucumber and tomato. Root mat is caused by bacterial strains harbouring a Ri-plasmid (pRi). Fifteen root mat-associated (RMA) cucumopine pRi were analysed by PCR-restriction fragment length polymorphism (RFLP) and Southern blotting. These pRi were harboured by Agrobacterium biovar 1 strains isolated during a 1970s outbreak of root mat in UK soil grown cucumber, and also by Agrobacterium biovar 1, Ochrobactrum, Rhizobium and Sinorhizobium isolated during outbreaks of root mat in cucumber and tomato grown hydroponically in the UK and France since 1993. PCR-RFLP analysis of the T-DNA and virD2 regions showed sequence homology between all cucumopine pRi, indicating that these pRi are monomorphic, and thus this pRi remained in the UK without inducing symptoms for some 15 years between outbreaks in the 1970s and 1990s. Cucumopine pRi were also shown to possess the virE2 substitute GALLS gene by Southern blotting. Two other pRi, harboured by Agrobacterium isolated from a recent root mat outbreak in one tomato crop, were also shown to possess the GALLS gene but were shown not to be cucumopine pRi by PCR-RFLP.     

Altered Expression of Auxin-binding Protein 1 Affects Cell Expansion and Auxin Pool Size in Tobacco Cells

Auxin-binding protein 1 (ABP1) has an essential role in auxin-dependent cell expansion, but its mechanisms of action remain unknown. Our previous study showed that ABP1-mediated cell expansion is auxin concentration dependent. However, auxin distribution in plant tissue is heterogeneous, complicating the interpretation of ABP1 function. In this study, we used cells in culture that have altered expression of ABP1 to address the mechanism of ABP1 action at the cellular level, because cells in culture have homogeneous cell types and could potentially circumvent the heterogeneous auxin-distributions inherent in plant tissues. We found that cells overexpressing ABP1 had altered sensitivity to auxin and were larger, with nuclei that have undergone endoreduplication, a finding consistent with other data that support an auxin extracellular receptor role for ABP1. These cells also had a higher free auxin pool size, which cannot be explained by altered auxin transport. In cells lacking detectable ABP1, a higher rate of auxin metabolism was observed. The results suggest that ABP1 has, beyond its proposed role as an auxin extracellular receptor, a role in mediating auxin availability.     

An evolutionary space-time model with varying among-site dependencies

It is now widely accepted that sites in a protein do not undergo independent evolutionary processes. The underlying assumption is that proteins are composed of conserved and variable linear domains, and thus rates at neighboring sites are correlated. In this paper, we comprehensively examine the performance of an autocorrelation model of evolutionary rates in protein sequences. We further develop a model in which the level of correlation between rates at adjacent sites is not equal at all sites of the protein. High correlation is expected, for example, in linear functional domains. On the other hand, when we consider nonlinear functional regions (e.g., active sites), low correlation is expected because the interaction between distant sites imposes independence of rates in the linear sequence. Our model is based on a hidden Markov model, which accounts for autocorrelation at certain regions of the protein and rate independence at others. We study the differences between the novel model and models which assume either independence or a fixed level of dependence throughout the protein. Using a diverse set of protein data sets we show that the novel model better fits most data sets. We further analyze the potassium-channel protein family and illustrate the relationship between the dependence of rates at adjacent sites and the tertiary structure of the protein.     

Identification of a novel bile acid in swans, tree ducks, and geese: 3alpha,7alpha,15alpha-trihydroxy-5beta-cholan-24-oic acid

By HPLC, a taurine-conjugated bile acid with a retention time different from that of taurocholate was found to be present in the bile of the black-necked swan, Cygnus melanocoryphus. The bile acid was isolated and its structure, established by (1)H and (13)C NMR and mass spectrometry, was that of the taurine N-acyl amidate of 3alpha,7alpha,15alpha-trihydroxy-5beta-cholan-24-oic acid. The compound was shown to have chromatographic and spectroscopic properties that were identical to those of the taurine conjugate of authentic 3alpha,7alpha,15alpha-trihydroxy-5beta-cholan-24-oic acid, previously synthesized by us from ursodeoxycholic acid. By HPLC, the taurine conjugate of 3alpha,7alpha,15alpha-trihydroxy-5beta-cholan-24-oic acid was found to be present in 6 of 6 species in the subfamily Dendrocygninae (tree ducks) and in 10 of 13 species in the subfamily Anserinae (swans and geese) but not in other subfamilies in the Anatidae family. It was also not present in species from the other two families of the order Anseriformes. 3alpha,7alpha,15alpha-Trihydroxy-5beta-cholan-24-oic acid is a new primary bile acid that is present in the biliary bile acids of swans, tree ducks, and geese and may be termed 15alpha-hydroxy-chenodeoxycholic acid.     

A new, sensitive method for enzyme kinetic studies of scarce glucosides

The maize β-glucosidase Zm-p60.1 is important for the regulation of plant development through its role in the targeted release of free cytokinins from cytokinin-O-glucosides, their inactive storage forms. Enzyme kinetics studies using these scarce substrates close to physiological concentrations are difficult due to two reasons: (a) Available methods are mainly suited for end-point kinetics. (b) These methods are not sufficiently sensitive when using scarce glucoside substrates.We developed a glucose assay using a system comprising three enzymes β-glucosidase, glucose oxidase and horseradish peroxidase, with the new substrate N-acetyl-3,7-dihydroxyphenoxazine-Amplex Ultra Red reagent (Molecular Probes). A calibration curve was constructed for resorufin and validation was carried out by comparing our method with the standard spectrophotometric method using p-nitrophenyl-β-d-glucopyranoside. In comparison with the other methods, this method is more sensitive, precise and accurate. The assay is rapid and hence suited for continuous kinetics, it is readily adapted to suit automated procedures, and potential applications include its use in studying the physiological role(s) of enzymes that cleave scarce glucoside substrates.     

Gene activation in plastids by the CRE site-specific recombinase

We developed a novel system for gene activation in plastids that uses the CRE/loxP site-specific recombination system to create a translatable reading frame by excision of a blocking sequence. To test the system, we introduced an inactive gfp* gene into the tobacco plastid genome downstream of the selectable spectinomcyin resistance (aadA) marker gene. The aadA gene is the blocking sequence, and is flanked by directly oriented loxP sites for excision by the CRE. In the non-activated state, gfp* is transcribed from the aadA promoter, but the mRNA is not translated due to the lack of an AUG translation initiation codon. Green Fluorescent Protein (GFP) expression is activated by excision of the aadA coding segment to link up the gfp* coding region with the translation initiation codon of aadA. Tobacco plants that carry the inactive gfp* gene do not contain detectable levels of GFP. However, activation of gfp* resulted in GFP accumulation, proving the utility of CRE-induced protein expression in tobacco chloroplasts. The gene activation system described here will be useful to probe plastid gene function and for the production of recombinant proteins in chloroplasts.     

Convergence, recurrence and diversification of complex sperm traits in diving beetles (Dytiscidae)

Sperm display remarkable morphological diversity among even closely related species, a pattern that is widely attributed to postcopulatory sexual selection. Surprisingly few studies have used phylogenetic analyses to discern the details of evolutionary diversification in ornaments and armaments subject to sexual selection, and the origins of novel sperm traits and their subsequent modification are particularly poorly understood. Here we investigate sperm evolution in diving beetles (Dytiscidae), revealing dramatic diversification in flagellum length, head shape, presence of sperm heteromorphism, and the presence/type of sperm conjugation, an unusual trait where two or more sperm unite for motility or transport. Sperm conjugation was found to be the ancestral condition in diving beetles, with subsequent diversification into three forms, each exhibiting varying degrees of evolutionary loss, convergence, and recurrence. Sperm head shape, but not length or heteromorphism, was found to evolve in a significantly correlated manner with conjugation, consistent with the different mechanisms of head alignment and binding required for the different forms of conjugation. Our study reveals that sperm morphological evolution is channeled along particular evolutionary pathways (i.e., conjugate form), yet subject to considerable diversification within those pathways through modification in sperm length, head shape, and heteromorphism.     

Solubilization and bio-conjugation of quantum dots and bacterial toxicity assays by growth curve and plate count

Quantum dots (QDs) are fluorescent semiconductor nanoparticles with size-dependent emission spectra that can be excited by a broad choice of wavelengths. QDs have attracted a lot of interest for imaging, diagnostics, and therapy due to their bright, stable fluorescence. QDs can be conjugated to a variety of bio-active molecules for binding to bacteria and mammalian cells. QDs are also being widely investigated as cytotoxic agents for targeted killing of bacteria. The emergence of multiply-resistant bacterial strains is rapidly becoming a public health crisis, particularly in the case of Gram negative pathogens. Because of the well-known antimicrobial effect of certain nanomaterials, especially Ag, there are hundreds of studies examining the toxicity of nanoparticles to bacteria. Bacterial studies have been performed with other types of semiconductor nanoparticles as well, especially TiO(2), but also ZnO and others including CuO. Some comparisons of bacterial strains have been performed in these studies, usually comparing a Gram negative strain with a Gram positive. With all of these particles, mechanisms of toxicity are attributed to oxidation: either the photogeneration of reactive oxygen species (ROS) by the particles or the direct release of metal ions that can cause oxidative toxicity. Even with these materials, results of different studies vary greatly. In some studies the Gram positive test strain is reportedly more sensitive than the Gram negative; in others it is the opposite. These studies have been well reviewed. In all nanoparticle studies, particle composition, size, surface chemistry, sample aging/breakdown, and wavelength, power, and duration of light exposure can all dramatically affect the results. In addition, synthesis byproducts and solvents must be considered. High-throughput screening techniques are needed to be able to develop effective new nanomedicine agents. CdTe QDs have anti-microbial effects alone or in combination with antibiotics. In a previous study, we showed that coupling of antibiotics to CdTe can increase toxicity to bacteria but decrease toxicity to mammalian cells, due to decreased production of reactive oxygen species from the conjugates. Although it is unlikely that cadmium-containing compounds will be approved for use in humans, such preparations could be used for disinfection of surfaces or sterilization of water. In this protocol, we give a straightforward approach to solubilizing CdTe QDs with mercaptopropionic acid (MPA). The QDs are ready to use within an hour. We then demonstrate coupling to an antimicrobial agent. The second part of the protocol demonstrates a 96-well bacterial inhibition assay using the conjugated and unconjugated QDs. The optical density is read over many hours, permitting the effects of QD addition and light exposure to be evaluated immediately as well as after a recovery period. We also illustrate a colony count for quantifying bacterial survival.