Rhizobium-lnduced calcium spiking in Lotus japonicus

Legumes and rhizobium bacteria form a symbiosis that results in the development of nitrogen-fixing nodules on the root of the host plant. The earliest plant developmental changes are triggered by bacterially produced nodulation (Nod) factors. Within minutes of exposure to Nod factors, sharp oscillations in cytoplasmic calcium levels (calcium spiking) occur in epidermal cells of several closely related legumes. We found that Lotus japonicus, a legume that follows an alternate developmental pathway, responds to both its bacterial partner and to the purified bacterial signal with calcium spiking. Thus, calcium spiking is not restricted to a particular pathway of nodule development and may be a general component of the response of host legumes to their bacterial partner. Using Nod factor-induced calcium spiking as a tool to identify mutants blocked early in the response to Nod factor, we show that the L. japonicus Ljsym22-1 mutant but not the Ljsym30 mutant fails to respond to Nod factor with calcium spiking.     

Expression screen by enzyme-linked immunofiltration assay designed for high-throughput purification of affinity-tagged proteins

High-throughput purification of affinity-tagged fusion proteins is currently one of the fastest developing areas of molecular proteomics. A prerequisite for success in protein purification is sufficient soluble protein expression of the target protein in a heterologous host. Hence, a fast and quantitative evaluation of the soluble-protein levels in an expression system is one of the key steps in the entire process. Here we describe a high-throughput expression screen for affinity-tagged fusion proteins based on an enzyme linked immunofiltration assay (ELIFA). An aliquot of a crude Escherichia coli extract containing the analyte, an affinity-tagged protein, is adsorbed onto the membrane. Subsequent binding of specific antibodies followed by binding of a secondary antibody horseradish peroxidase (HRP) complex then allows quantitative evaluation of the analyte using tetramethylbenzidine as the substrate for HRP. The method is accurate and quantitative, as shown by comparison with results from western blotting and an enzymatic glutathione S-transferase (GST) assay. Furthermore, it is a far more rapid assay and less cumbersome than western blotting, lending itself more readily to high-throughput analysis. It can be used at the expression level (cell lysates) or during the subsequent purification steps to monitor yield of specific protein.     

Fluoranthene determination based on a rapid and sensitive syringe extraction and solid-phase fluorescence technique

A rapid and sensitive strategy was proposed for the detection of fluoranthene (FL), which is a polycyclic aromatic hydrocarbon (PAH), in water samples. In this work, syringe solid-phase extraction (SPE) combined with solid-phase fluorescence spectrometry was used to determine FL in PAHs polluted environmental samples. The fluorescence signals were directly monitored on the membrane surface after FL was enriched by syringe SPE. Under the optimal conditions, the proposed method showed a linear relationship in the concentration range 2–50 μg/L with a correlation coefficient (R²) of 0.998, and the limit of detection was 0.143 μg/L. The recoveries varied from 93.47% to 109.81% in the actual samples, with the relative standard deviations (n = 3) ranging from 2.06% to 6.32%. According to the results, the established method can be applied in the field of rapid detection as it is fast, simple, portable, and highly sensitive, and has strong anti-interference.     

Rapamycin attenuates BAFF‐extended proliferation and survival via disruption of mTORC1/2 signaling in normal and neoplastic B‐lymphoid cells

B cell activating factor from the TNF family (BAFF) stimulates B‐cell proliferation and survival, but excessive BAFF promotes the development of aggressive B cells leading to malignant and autoimmune diseases. Recently, we have reported that rapamycin, a macrocyclic lactone, attenuates human soluble BAFF (hsBAFF)‐stimulated B‐cell proliferation/survival by suppressing mTOR‐mediated PP2A‐Erk1/2 signaling pathway. Here, we show that the inhibitory effect of rapamycin on hsBAFF‐promoted B cell proliferation/survival is also related to blocking hsBAFF‐stimulated phosphorylation of Akt, S6K1, and 4E‐BP1, as well as expression of survivin in normal and B‐lymphoid (Raji and Daudi) cells. It appeared that both mTORC1 and mTORC2 were involved in the inhibitory activity of rapamycin, as silencing raptor or rictor enhanced rapamycin's suppression of hsBAFF‐induced survivin expression and proliferation/viability in B cells. Also, PP242, an mTORC1/2 kinase inhibitor, repressed survivin expression, and cell proliferation/viability more potently than rapamycin (mTORC1 inhibitor) in B cells in response to hsBAFF. Of interest, ectopic expression of constitutively active Akt (myr‐Akt) or constitutively active S6K1 (S6K1‐ca), or downregulation of 4E‐BP1 conferred resistance to rapamycin's attenuation of hsBAFF‐induced survivin expression and B‐cell proliferation/viability, whereas overexpression of dominant negative Akt (dn‐Akt) or constitutively hypophosphorylated 4E‐BP1 (4EBP1‐5A), or downregulation of S6K1, or co‐treatment with Akt inhibitor potentiated the inhibitory effects of rapamycin. The findings indicate that rapamycin attenuates excessive hsBAFF‐induced cell proliferation/survival via blocking mTORC1/2 signaling in normal and neoplastic B‐lymphoid cells. Our data underscore that rapamycin may be a potential agent for preventing excessive BAFF‐evoked aggressive B‐cell malignancies and autoimmune diseases.     

Analysis of the frequency of inheritance of transposed Ds elements in Arabidopsis after activation by a CaMV 35S promoter fusion to the Ac transposase gene

The Ac/Ds transposon system of maize shows low activity in Arabidopsis. However, fusion of the CaMV 35S promoter to the transposase gene (35S::TPase) increases the abundance of the single Ac mRNA encoded by Ac and increases the frequency of Ds excision. In the experiments reported here it is examined whether this high excision frequency is associated with efficient re-insertion of the transposon. This was measured by using a Ds that carried a hygromycin resistance gene (HPT) and was inserted within a streptomycin resistance gene (SPT). Excision of Ds therefore gives rise to streptomycin resistance, while hygromycin resistance is associated with the presence of a transposed Ds or with retention of the element at its original location. Self-fertilisation of most individuals heterozygous for Ds and 35S::TPase produced many streptomycin-resistant (strep^r) progeny, but in many of these families a small proportion of strep^r seedlings were also resistant to hygromycin (hyg^r). Nevertheless, 70% of families tested did give rise to at least one strep^r, hyg^r seedling, and over 90% of these individuals carried a transposed Ds. In contrast, the Ac promoter fusion to the transposase gene (Ac::TPase) produced fewer strep^rhyg^r progeny, and only 53% of these carried a transposed Ds. However, a higher proportion of the strep^r seedlings were also hyg^r than after activation by 35S::TPase. We also examined the genotype of strep^r, hyg^r seedlings and demonstrated that after activation by 35S::TPase many of these were homozygous for the transposed Ds, while this did not occur after activation by Ac::TPase. From these and other data we conclude that excisions driven by 35S::TPase usually occur prior to floral development, and that although a low proportion of strep^r progeny plants inherit a transposed Ds, those that do can be efficiently selected with an antibiotic resistance gene contained within the element. Our data have important implications for transposon tagging strategies in transgenic plants and these are discussed.     

Benzofuroquinoline Derivatives Had Remarkable Improvement of their Selectivity for Telomeric G-Quadruplex DNA over Duplex DNA upon Introduction of Peptidyl Group

In order to improve the selectivity of 5-N-methyl quindoline (cryptolepine) derivatives as telomeric quadruplex binding ligands versus duplex DNA, a series of peptidyl-benzofuroquinoline (P-BFQ) conjugates (2a-2n) were designed and synthesized. Their interactions with telomeric quadruplex and duplex DNA were examined by using the fluorescence resonance energy transfer (FRET) melting assay, surface plasmon resonance (SPR), circular dichroism spectroscopy (CD), and molecular modeling studies. Introduction of a peptidyl group at 11-position of the aromatic benzofuroquinoline scaffold not only effectively increased its binding affinity, but also significantly improved its selectivity toward telomeric quadruplex versus duplex DNA. Combined with the data for their inhibitory effects on telomerase activity, their structure-activity relationships (SARs) studies showed that the types of amino acid residues and the length of the peptidyl side chains were important for the improvement of their interactions with the telomeric G-quadruplex. Long-term exposure of human cancer cells to 2c showed a remarkable cessation in population growth and cellular senescence phenotype, and accompanied by a shortening of the telomere length.     

A general method of polymerase-chain-reaction-enabled protein domain mutagenesis: construction of a human protein S-osteonectin gene.

Polymerase chain reaction (PCR) amplification was employed to construct a mosaic gene consisting of the propeptide region of protein S and the glutamic acid-rich domain of osteonectin. The strategy is straightforward, results in large amounts of material, and is universally applicable for the generation of protein domain chimeras. In some cases 10% dimethyl sulfoxide aided the amplification. Four base CCGC "clamp" sequences adjacent to BamHI restriction sites at the ends of the PCR products were used to enhance the ligation of products. A hybrid inverse complement oligonucleotide primer composed of sequences containing 20 nucleotides of protein S and 16 nucleotides of osteonectin was used in the first round of PCR. An additional osteonectin sequence was added to the initial amplified product by performing PCR using a second "boot-strap" primer containing 18 nucleotides of osteonectin. Primers used to amplify osteonectin encompassed the 146-aminoacid NH2-terminal half of osteonectin. The double-stranded first-round fragments of protein S-osteonectin and osteonectin were subsequently mixed together and one elongation cycle of PCR was performed. Annealing occurred as the result of the 34-base-pair overlap region composed of osteonectin sequence. Taq polymerase was used for elongation with subsequent recombinant DNA synthesis. After elongation, external primers were added to amplify the protein S-osteonectin gene construct. The protocol we have developed allows noncoding and coding segments of DNA to be linked, GC-rich areas of DNA to be amplified, hybridization temperatures to be increased, annealing times to be reduced, and PCR of products to be subcloned.