Yuanhuizi He scite author profile

Calcium-dependent protein kinases (CDPKs) are plant-specific calcium sensors that play important roles in various aspects of plant physiology. Here, we investigated phylogenic relationships, chromosomal locations, gene structures, and tissue-specific, herbivory- and drought-induced expression profiles of soybean (Glycine max) GmCDPKs. Fifty GmCDPK genes were identified, which phylogenetically grouped into 4 distinct clusters and distributed across 13 sub-clusters. Individual classes of GmCDPKs harbor highly conserved mRNA splicing sites, and their exon numbers and lengths were consistent with the phylogenetic relationships, suggesting that at least 13 ancestral CDPK genes had emerged before the split of monocots and eudicots. Gene expression analysis indicated that several GmCDPKs were tissue-specific expressed. GmCDPKs’ transcript levels changed after wounding, exhibited specific expression patterns after simulated Spodoptera exigua feeding or soybean aphid (Aphis glycines) herbivory, and were largely independent of the phytohormones jasmonic acid and salicylic acid. The most pronounced transcriptional responses were detected after drought and abscisic acid treatments with more than half of all GmCDPKs being upregulated, suggesting their important roles during abiotic stress responses in soybean. Our data provide an important foundation for further functional dissection of GmCDPKs, especially in the context of soybean-insect interactions and drought stress adaptation.

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Using Cs‐137 fingerprinting technique to estimate sediment deposition and erosion rates from Yongkang depression in the karst region of Southwest China

Bai

Zhang

Chen

et al. 2010

Land Degrad Dev

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Understanding the erosion and deposition rates is very important for designing soil and water conservation measures. However, existing methods of assessing the rates of soil loss present many limitations and are difficult to apply to in karst areas, and there is still very little data in this areas. Karst depressions comprise geomorphologically important sources and sinks for sediments and can provide the long-term history records of environmental changes. But there have been few similar studies focused on its sediments in the world. In this paper, the Cs-137 technique was employed to estimate the sediment deposition rate of karst depression to assess the surface erosion. The results indicate that the average deposition rate, deposition amount and specific deposit yield for the Yongkang catchments since 1963 were estimated to be 4Á32 mm y À1 , 3Á16 t y À1 and 20Á53 t km À2 y À1 , respectively. The results obtained were consistent with the actual monitoring data of local runoff plots, and confirm the validity of the overall approach. So it was suggested that the mean specific sediment yields of 20 t km À2 y À1 can be representative of the soil loss rates in the regions.

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Mango Malformation Disease in South China Caused by Fusarium proliferatum

Zhan

Yang

Ho³

et al. 2010

Journal of Phytopathology

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A total of 13 Fusarium isolates were obtained from samples of malformed mango seedlings from Yunnan and Sichuan provinces in China, and five morphologically similar isolates were confirmed causing the disease by satisfying KochÕs postulates. One typical isolate (MG4) was selected for detailed morphological and molecular studies. Based on the following morphological characteristics, isolate MG4 was identified as Fusarium proliferatum: white aerial mycelium on PSA (potato sucrose agar: potato 200 g; sucrose 15 g; agar 18 g; distilled water 1000 ml) medium; hyaline reverse of colonies on PSA; production of pink pigment on rice medium and the production of conidia on branched conidiophore with monophialides bearing false heads of conidia. On carnation leaf agar medium, the microconidia were ovate to elongated ovoid, 0-1 septate, 3.1-10.2 · 1.5-2.2 lm; the macroconidia were fusiform, 3-5 septate, 18-38 · 1.8-2.4 lm, whereas chlamydospores and sexual structures were absent on all media used. The identity of the pathogen was confirmed by its high similarity (99.8-100%) in the sequence alignment of rDNA-ITS 1 and 4 with both isolates of F. proliferatum in the GenBank database.

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Yuanhuizi He

Genome-wide identification of calcium-dependent protein kinases in soybean and analyses of their transcriptional responses to insect herbivory and drought stress

Using Cs‐137 fingerprinting technique to estimate sediment deposition and erosion rates from Yongkang depression in the karst region of Southwest China

Mango Malformation Disease in South China Caused by Fusarium proliferatum

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