Narrow-band ultraviolet B therapy attenuates cutaneous T-cell responses in hapten-induced,experimental contact dermatitis in beagles     

Saki Onishi-Sakamoto  Kiichi Makishi  Kazumoto Takami  Ryota Asahina  Sadatoshi Maeda  Masahiko Nagata  Peter F. Moore  Kaori Ide  Koji Nishifuji 《Veterinary dermatology》2021,32(6):605-e161

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A comparison of dietary habits among women in Japan and Hawaii     

Takata Y  Maskarinec G  Franke A  Nagata C  Shimizu H 《Public health nutrition》2004,7(2):319-326

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Comparison of Survival Times for Dogs with Pituitary‐Dependent Hyperadrenocorticism in a Primary‐Care Hospital: Treated with Trilostane versus Untreated          下载免费PDF全文

N. Nagata  K. Kojima  M. Yuki 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2017,31(1):22-28

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Temporal and spatial dynamics of begomovirus disease in tomatoes in central Brazil          下载免费PDF全文

M. A. Macedo  T. M. Costa  J. C. Barbosa  J. L. Pereira  M. Michereff‐Filho  R. L. Gilbertson  A. K. Inoue‐Nagata  A. Bergamin Filho 《Plant pathology》2017,66(4):529-538

Over the last two decades, begomovirus diseases have increased in importance in Brazilian tomato crops. The major management strategy in Brazil is the application of insecticides to control the whitefly vector, but this is often unsuccessful. The objective of this work was to study the spatial and temporal progression of the disease in two processing tomato production areas in Central Brazil. A total of 24 plots (225 plants each) in six fields were evaluated weekly by visual inspection for plants with begomovirus symptoms. The predominant begomovirus in tomato plants with symptoms was Tomato severe rugose virus, and it was also detected in weeds and other crop plants. No correlation between incidence of begomovirus disease and whitefly population was found. The disease progression was rapid, with a slightly aggregated distribution of plants with symptoms. No relevant differences were observed in the temporal and spatial analyses, although an important difference was detected between plots located at the centre (PC) and the edge (PE) of the fields. In the temporal analysis, the begomovirus incidence and area under disease progress curve values were lower in PC than in PE. In the spatial analysis, plants with begomovirus symptoms were more aggregated in PC than in PE. These results suggest that the distribution of plants with symptoms in PC and PE could be a result of three dissemination mechanisms: one random (primary) and two aggregated, a real secondary spread, and a false secondary spread. The implications of these differences on disease management are discussed.  相似文献