Your search keyword '"Pang, Bao-Ping"' showing total 5 results

1. Laboratory Selection, Cross-Resistance, Risk Assessment to Lambda-Cyhalothrin Resistance, and Monitoring of Insecticide Resistance for Plant Bug Lygus pratensis (Hemiptera: Miridae) in Farming-Pastoral Ecotones of Northern China

Author

Tan, Yao, Ma, Yi, Jia, Bing, Homem, Rafael A., Williamson, Martin S., Gao, Shu-Jing, Han, Hai-Bin, Xiang, Kai-Feng, Sun, Xue-Tao, Gao, Xia, and Pang, Bao-Ping

Published

2021

2. Effects of Temperature on the Termination of Egg Diapause and Post-Diapause Embryonic Development of Galeruca daurica (Coleoptera: Chrysomelidae)

Author

Zhou, Xiao-Rong, Gao, Jing-Chun, and Pang, Bao-Ping

Published

2016

3. Comparative Analysis of Transcriptome Responses to Cold Stress in Galeruca daurica (Coleoptera: Chrysomelidae).

Author

Zhou XR, Shan YM, Tan Y, Zhang ZR, and Pang BP

Subjects

Animals, Coleoptera genetics, Gene Expression Regulation, Cold-Shock Response, Coleoptera metabolism, Transcriptome

Abstract

Galeruca daurica (Joannis) has become a new insect pest in the Inner Mongolia grasslands since 2009, and its larvae and eggs have strong cold tolerance. To get a deeper insight into its molecular mechanisms of cold stress responses, we performed de novo transcriptome assembly for G. daurica by RNA-Seq and compared the transcriptomes of its larvae exposed to five different temperature treatments (-10, -5, 0, 5, and 25°C for 1 h and then recovered at 25°C for 1 h), respectively. Compared with the control (25°C), the numbers of differentially expressed genes (DEGs) decreased from 1,821 to 882, with the temperature declining from 5 to -10°C. Moreover, we obtained 323 coregulated DEGs under different low temperatures. Under four low temperatures (-10, -5, 0, and 5°C), a large number of genes were commonly upregulated during recovery from cold stresses, including those related to cuticle protein, followed by cytochrome P450, clock protein, fatty acid synthase, and fatty acyl-CoA reductase; meanwhile, lots of genes encoding cuticle protein, RNA replication protein, RNA-directed DNA polymerase, and glucose dehydrogenase were commonly downregulated. Our findings provide important clues for further investigations of key genes and molecular mechanisms involved in the adaptation of G. daurica to harsh environments., (© The Author(s) 2019. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2019

4. The Complete Mitochondrial Genome of the Plant Bug Lygus pratensis Linnaeus (Hemiptera: Miridae).

Author

Tan Y, Jia B, Chi YM, Han HB, Zhou XR, and Pang BP

Subjects

Animals, Genes, rRNA, Phylogeny, RNA, Transfer genetics, Genome, Insect, Genome, Mitochondrial, Hemiptera genetics

Abstract

Lygus pratensis is a phytophagous pest responsible for yield losses in Bt alfalfa and other economic crops in Northwestern China. To better characterize Miridae at the genomic level, the complete mitochondrial (mt) genome of L. pratensis was sequenced and analyzed in this study. The mt genome was amplified via the polymerase chain reaction to generate overlapping fragments. These fragments were then sequenced, spliced, and analyzed to include the examination of nucleotide composition, codon usage, compositional biases, protein-coding genes (PCGs), and RNA secondary structures. Phylogenetic relationships between L. pratensis and other species in different Heteroptera families were also examined. The mt genome was found to be a typical circular genome with a length of 16,591 bp and a total AT content of 75.1%, encoded for 13 PCGs, 22 transfer RNAs (tRNAs), 2 ribosomal RNAs (lrRNA and srRNA), and a noncoding control region. The nucleotide composition of the entire mt genome was heavily biased toward A and T. All of the tRNAs were predicted to have classic clover leaf structures, but three of the tRNAs (tRNAAsn, tRNAHis, tRNAHis) were missing the TΨC loop. The control region (2,017 bp), which was found to be located between 12S and tRNAIle, contained three tandem repeat elements. Phylogenetic analyses showed that L. pratensis is closely related to the other three examined Lygus bugs, and that it is a sister group to Apolygus and Adelphocoris. This study confirms the usability of the mt genome in phylogenesis studies pertaining to the Lygus genus, within Miridae.

Published

2018

5. Supercooling capacity and cold hardiness of band-winged grasshopper eggs (Orthoptera: Acrididae).

Author

Pang BP, Li N, and Zhou XR

Subjects

Animals, China, Cold Temperature adverse effects, Fats analysis, Freezing adverse effects, Grasshoppers chemistry, Grasshoppers growth & development, Ovum chemistry, Ovum growth & development, Ovum physiology, Seasons, Soil chemistry, Time Factors, Water analysis, Diapause, Insect, Grasshoppers physiology, Humidity

Abstract

The band-winged grasshopper, Oedaleus asiaticus Bei-Bienko, is one of the most dominant and economically important grasshopper species in the steppe grasslands and farming-pastoral ecotone in northern China. It is a univoltine species and overwinters as eggs in soil. The cold hardiness of its eggs was examined in the laboratory. Water content in soil significantly affected the supercooling points (SCPs), water content and fat content of prediapause eggs. With the increase of water content in soil, the SCP, and water content of prediapause eggs rose whereas the fat content declined. There was a significant relationship between the SCP and water content or fat content of prediapause eggs. The SCPs of prediapause and diapause eggs varied from -7.6 to -28.4°C and the SCPs of eggs 30 d after oviposition could be divided into two groups. The means of high SCP group (-11.0 to -11.9°C) were much higher than those of low SCP group (-21.8 to -21.9°C), and the majority belonged to the latter (90.48-93.33%). The SCPs of prediapause eggs and early-diapause eggs 30 d after oviposition were significantly higher than those of deep-diapause eggs 60 d after oviposition. The survival rates of diapause eggs were significantly different among different temperature treatments. The survival rate was higher than 88% at greater than -20°C and declined significantly to 57% at -25°C, and suddenly dropped to zero at -30°C. The lower lethal temperature (Ltemp50) for 12 h exposure was -25.3°C and the lower lethal time (Ltime50) at -20°C was 32.8 d. As the mean SCPs of diapause eggs were similar to their Ltemp50, the SCP of eggs can be considered as a good indicator of cold hardiness for O. asiaticus and that this grasshopper is a freeze-intolerant insect., (© The Author 2014. Published by Oxford University Press on behalf of the Entomological Society of America.)

Published

2014