SummaryPlants can sense the direction of gravity and change the growth orientation of their organs. To elucidate the molecular mechanisms of gravity perception and the signal transduction of gravitropism, we have characterized a number of shoot gravitropism (sgr) mutants of Arabidopsis. The sgr5-1 mutant shows reduced gravitropism in the inflorescence stem but its root and hypocotyl have normal gravitropism. SGR5 encodes a zinc finger protein with a coiled-coil motif. The SGR5-GFP fusion protein is localized in the nucleus of Arabidopsis protoplasts, suggesting that SGR5 may act as a transcription factor. Analysis of GUS expression under the control of the SGR5 promoter revealed that SGR5 is mainly expressed in the endodermis, the gravity-sensing tissue in inflorescence stems. Furthermore, the observation that endodermis-specific expression of SGR5 using the SCR promoter in the sgr5-1 mutant restores shoot gravitropism indicates that it could function in the gravity-sensing endodermal cell layer. In contrast to other sgr mutants reported previously, almost all amyloplasts in the endodermal cells of the sgr5-1 mutant sedimented in the direction of gravity. Taken together, our results suggest that SGR5 may be involved in an early event in shoot gravitropism such as gravity perception and/or a signaling process subsequent to amyloplast sedimentation as a putative transcription factor in gravity-perceptive cells.
Migrations of Toxocara canis larvae were observed in experimentally infected chickens. Three groups of three chickens were inoculated orally with T. canis eggs. Within each group, individual chickens received either 5,000, 10,000, or 20,000 eggs. A group of infected chickens was then necropsied at either 1, 3 or 6 days post infection (dpi). The entire duodenum, spleen, liver, heart, lungs, right inner pectoral muscle, and brain were subjected to pepsin digestion for larval recovery. Larvae were predominantly (>87%) recovered from the liver and lungs, and only a few larvae were seen in other organs or tissues in all chickens, with the exception of the duodenum at 1 dpi of chickens inoculated with 20,000 eggs. The percentage of total larval recovery varied widely among chickens (range: 0.4-16.7%). Similar numbers of larvae were distributed in the liver and lungs at 1 dpi. Subsequently, more larvae were found in the lungs than the liver at 3 dpi, whereas the larval distributions in the liver and lungs were reversed at 6 dpi. These observations suggest that T. canis larvae can migrate by a hepatopulmonary route in the chicken, and reinforces the possibility that chickens harboring migrating T. canis larvae may pose a zoonotic risk, especially if the liver is consumed.
To detect five different avian Eimeria species, we applied the SYBR Green-based real-time polymerase chain reaction (PCR) assay for the diagnosis of field-isolated parasites by using their individual species-specific primer sets. The primer sets were originally designed for Eimeria acervulina, E brunetti, E necatrix, and E tenella based on the sequence of the internal transcribed spacer 1 region of ribosomal DNA, whereas for E. maxima the primer sets were derived from sequences reported previously. The detection limit of these assays was defined at 10(2) or 10(1) oocysts depending on species. Melting curves from the real-time PCR assay showed that each species has a single peak and specific melting temperature value. Fecal samples from 32 poultry farms, which were endemic for coccidiosis, were examined using this assay. The data showed that E. brunetti was found in 21 farms, E maxima and E. necatrix in 16 farms, E. tenella in 12 farms, and E. acervulina in eight farms. This survey revealed that E brunetti was highly prevalent in Japan. This technique is not only easy and rapid but also available to detect Eimeria species specifically; therefore, it can be a valuable tool for diagnostic work for chicken coccidiosis.
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