Sensitive and Rapid Detection of Edwardsiellosis in Fish by a Loop-Mediated Isothermal Amplification Method

Here we report a rapid and sensitive method (using loop-mediated isothermal amplification [LAMP]) for the diagnosis of edwardsiellosis, a fish disease caused by Edwardsiella tarda, in Japanese flounder. A set of four primers was designed, and conditions for the detection were optimized for the detection of E. tarda in 45 min at 65°C. No amplification of the target hemolysin gene was detected in other related bacteria. When the LAMP primers were used, detection of edwardsiellosis in infected Japanese flounder kidney, and spleen and seawater cultures was possible. We have developed a rapid and sensitive diagnostic protocol for edwardsiellosis detection in fish. This is the first report of the application of LAMP for the diagnosis of a fish pathogen.     

Synergistic effects of flavonoids and ascorbate on enhancement in DNA degradation induced by a bleomycin-Fe complex

Flavonoids were examined for synergistic effects with ascorbate on enhancement of DNA degradation induced by a bleomycin(BLM)-Fe complex. The synergistic effects of flavonoids and ascorbate on DNA degradation induced by the BLM-Fe complex were observed to be greater with flavonoids such as isorhamnetin, kaempferol and morin, which accelerated oxidation more markedly in the presence, than in the absence of BLM. Conversely, myricetin and fisetin, which showed oxidation barely accelerated by the addition of BLM, inhibited DNA degradation promoted by ascorbate. Consequently, there was a good correlation between oxidation of flavonoids accelerated by BLM and the extent of DNA degradation promoted synergistically with ascorbate. Our previous studies indicated that oxidation of flavonoids accelerated by BLM and DNA degradation promoted by flavonoids were not correlated with Fe(III)-reducing activity of flavonoids. Those results suggest that Fe(III)-reducing activity of flavonoids is not the only factor determining DNA degradation-promoting activity induced by the BLM-Fe complex. On the other hand, in a Fenton reaction, degradation of 2-deoxy-d-ribose promoted by flavonoids was correlated to the Fe(III)-reducing activity of flavonoids. However, there was not a synergistic interaction between flavonoids and ascorbate in the degradation of 2-deoxy-d-ribose. Therefore, it is suggested that the synergistic DNA degradation caused by flavonoids and ascorbate in the BLM-Fe redox cycle arose from the difference in the reductive processes in which flavonoids and ascorbate mainly act.     

Nonhomologous end-joining in a cell-free extract from the cultured silkworm cell line BmN4

Nonhomologous end-joining (NHEJ) is one of the repair pathways for double-strand breaks (DSBs) in eukaryotic cells. By using linearized plasmid substrates, we have detected intramolecular NHEJ activity in a cell-free extract from the cultured silkworm cell line BmN4. The efficiency of NHEJ differed according to the structure of DNA ends; approximately 1% of input DNA was repaired when the substrate had cohesive ends. The reaction required the hydrolysis of nucleotide triphosphate; interestingly, all of four rNTPs or four dNTPs could support the reaction. A substrate with non-complementary DNA ends was mainly repaired by the DNA polymerase-mediated pathway. These results indicate that the present cell-free system will be useful to analyze the molecular mechanisms of DSB repair and NHEJ in insect cells.     

Sensitive and rapid detection of edwardsiellosis in fish by a loop-mediated isothermal amplification method

Here we report a rapid and sensitive method (using loop-mediated isothermal amplification [LAMP]) for the diagnosis of edwardsiellosis, a fish disease caused by Edwardsiella tarda, in Japanese flounder. A set of four primers was designed, and conditions for the detection were optimized for the detection of E. tarda in 45 min at 65 degrees C. No amplification of the target hemolysin gene was detected in other related bacteria. When the LAMP primers were used, detection of edwardsiellosis in infected Japanese flounder kidney, and spleen and seawater cultures was possible. We have developed a rapid and sensitive diagnostic protocol for edwardsiellosis detection in fish. This is the first report of the application of LAMP for the diagnosis of a fish pathogen.     

A Model Transgenic Cereal Plant with Detoxification Activity for the Estrogenic Mycotoxin Zearalenone

Zearalenone (ZEN) is an estrogenic mycotoxin produced by the necrotrophic cereal pathogen Fusarium graminearum. This mycotoxin is detoxified by ZHD101, a lactonohydrolase from Clonostachys rosea, or EGFP:ZHD101, its fusion to the C-terminus of an enhanced green fluorescence protein. We previously showed that egfp:zhd101 is efficiently expressed in T₀ leaves of rice. In this study, we assessed the feasibility of in planta detoxification of the mycotoxin using progeny. When protein extract from T₁ leaves was incubated with ZEN, the amount of the toxin decreased significantly as measured by HPLC. ZEN degradation activity was also detected in vivo in transgenic T₂ seeds. These results suggest that zhd101 can be exploited as an efficient and cost-effective system for protection of important cereals that are more susceptible to the pathogen (e.g., wheat and maize) from contamination with the estrogenic mycotoxin.     

Accumulation of Indole‐3‐Acetic Acid in Rice sl Mutant Leaves Infected with Bipolaris oryzae

Rice leaves accumulate serotonin in response to infection by Bipolaris oryzae. The leaves of the sl mutant, which is deficient in the gene encoding tryptamine 5‐hydroxylase, accumulate tryptamine instead of serotonin upon infection by B. oryzae. Because tryptamine is a possible precursor of indole‐3‐acetic acid (IAA), we investigated the accumulation of IAA in sl leaves infected with B. oryzae. Liquid chromatography coupled with tandem mass spectrometry analysis indicated that IAA accumulated at approximately 1.5 μmol/gFW in the leaves of sl mutant. This accumulation was suppressed by 95% by the treatment with the tryptamine decarboxylase inhibitor, (S)‐α‐(fluoromethyl)tryptophan, at 100 μm , indicating that tryptamine served as the precursor of IAA. The accumulation of IAA was not reproduced by treatment with CuCl₂ or by exogenous feeding of tryptamine. Furthermore, inoculation of Magnaporthe grisea induced only a lower level of IAA accumulation. On the other hand, B. oryzae produced IAA in culture media containing tryptamine. These findings strongly suggested that the metabolism of tryptamine by B. oryzae was responsible for IAA accumulation in the leaves of the sl mutant. Serotonin added to the culture media was also converted into 5‐hydroxyindole‐3‐acetic acid (5HIAA) at a rate similar to that of tryptamine. Considering that wild‐type rice leaves accumulate serotonin for defensive purposes, reducing the concentration of serotonin by conversion into 5HIAA may be significant as a detoxification process in the interaction between B. oryzae and rice.     

Conditional deletion of CD98hc inhibits osteoclast development

The CD98 heavy chain (CD98hc) regulates virus-induced cell fusion and monocyte fusion, and is involved in amino acid transportation. Here, we examined the role that CD98hc plays in the formation of osteoclasts using CD98hc^flox/floxLysM-cre peritoneal macrophages (CD98hc-defect macrophages). Peritoneal macrophages were stimulated with co-cultured with osteoblasts in the presence of 1,25(OH)² vitamin D₃, and thereafter stained with tartrate-resistant acid phosphatase staining solution. The multinucleated osteoclast formation was severely impaired in the peritoneal macrophages isolated from the CD98hc^-defect mice compared with those from wild-type mice. CD98hc mediates integrin signaling and amino acid transport through the CD98 light chain (CD98lc). In integrin signaling, suppression of the M-CSF-RANKL-induced phosphorylation of ERK, Akt, JNK and p130Cas were observed at the triggering phase in the CD98h-defect peritoneal macrophages. Moreover, we showed that the general control non-derepressible (GCN) pathway, which was activated by amino acid starvation, was induced by the CD98hc-defect peritoneal macrophages stimulated with RANKL. These results indicate that CD98 plays two important roles in osteoclast formation through integrin signaling and amino acid transport.     

Cleavage within Reelin Repeat 3 Regulates the Duration and Range of the Signaling Activity of Reelin Protein

Reelin is a secreted glycoprotein that plays essential roles in the brain. Reelin is specifically cleaved at two distinct sites, called N-t and C-t, with the former being the major one. N-t cleavage can occur both in the extracellular space and in the endosomes, although the physiological importance of endosomal N-t cleavage has not been investigated. In this study, we first determined the exact N-t cleavage site catalyzed by a protease secreted by cerebral cortical neurons. Cleavage occurred between Pro-1244 and Ala-1245 within Reelin repeat 3. A Reelin mutant in which Pro-1244 was replaced with aspartate (Reelin-PD) was resistant to a protease secreted by cultured cerebral cortical neurons, and its biological activity stayed active longer than that of wild-type Reelin. Interestingly, Reelin-PD remained in the intracellular compartments longer than wild-type Reelin and persistently activated downstream signaling. Therefore, N-t cleavage of Reelin is required for halting the signaling machinery in the extracellular space as well as within endosomes of target neurons. We established a monoclonal antibody specific to uncleaved Reelin protein and found that it is localized in the vicinity of Reelin-producing cells, whereas the N-terminal fragment diffuses, or is transported, to distant regions. These data demonstrate that N-t cleavage of Reelin plays critical roles in regulating the duration and range of Reelin functions both in the extracellular milieu and in the intracellular compartments.     

Research note: High efficiency transformation of the diatom Phaeodactylum tricornutum with a promoter from the diatom Cylindrotheca fusiformis

A high efficiency transformation system was established for the pennate diatom Phaeodactylum tricornutum Bohlin using a plasmid containing fucoxanthin chlorophyll a/c binding protein ( fcp ) promoter/terminator and nitrate reductase ( NR ) promoter/terminator that are derived from the pennate diatom Cylindrotheca fusiformis . The plasmid that contains the zeocin resistance gene ( ble ) with the fcp promoter and enhanced green fluorescent protein gene ( egfp ) with the NR promoter was introduced into P. tricornutum using microparticle bombardment. Transformants (650 ± 58 per 10⁸ cells) were obtained. The yield of transformants was between 1.5 and 130 times higher than previously reported P. tricornutum transformation systems. Four to seven copies of the ble gene were integrated into genomic DNA of the transformants. This high efficiency transformation system of P. tricornutum is expected to provide a powerful tool for high-throughput analysis of gene function using homologous recombination or RNAi.