Citrus greening (CG) is among the most devastating citrus diseases worldwide. CG-infected trees exhibit interveinal chlorotic leaves due to iron (Fe) deficiency derived from CG; thus, Fe content is lower in infected leaves than in healthy leaves. In this study, we demonstrated that the foliar application of Fe2+ relieves the symptom of CG infection in citrus trees. We applied Fe2+ and citrate to the leaves of infected rough lemon plants. Following this treatment, a reduction in the number of yellow symptomatic leaves was observed, and their growth was restored. Using chlorophyll content as an index, we screened for effective Fe complexes and found that a high ratio of citrate to Fe2+ in the applied solution led to effects against CG in Shikuwasa trees. A high proportion of Fe2+ to total Fe was another key factor explaining the effectiveness of the solution in CG infection, indicating the importance of Fe2+ absorption into plant cells. We confirmed the proportion of Fe2+ to total Fe through the high correlation of reflectometry data via a triazine reaction and X-ray absorption fine structure analysis. These results demonstrate that the foliar application of a high-Fe2+ citrate solution can restore the growth of CG diseased trees.
A three-year-ten-month old boy with the Fukuyama type of congenital muscular dystrophy (FCMD), early onset of muscular hypotonia, severe mental retardation, a slow progressive course and a characteristic fundus appearance similar to that of gyrate atrophy is described. Hyperornithinaemia and iminoglycinuria were not noted. To our knowledge, this is the first reported case of FCMD associated with atypical gyrate atrophy of the choroid and retina.
Delivery of 2 micrograms of cholera toxin (CT), a specific, irreversible activator of adenyl cyclase, via the blood causes dilation of capillaries and stromal edema of the ciliary processes. These morphologic changes occur within 3 h, are maximal at 12 to 24 h, then gradually return to normal by 72 h. In the late phase of hypotony, ultrastructural changes in the ciliary epithelia, similar to Greeff vesicles, are due to a "paracentesis effect" from hypotony, caused by decreased aqueous flow through the eye. Delivery of 2 micrograms of the B subunit of CT (Sub-B) causes very mild capillary dilation and stromal edema of ciliary processes. These changes reach their peak at 3 h, then return to normal at 24 h. No significant damage occurred to the pigmented or non-pigmented epithelium with either agent. No hemorrhage, invasion of inflammatory cells or appearance of fibrin exudates in the ciliary processes could be detected.
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