Your search keyword '"Bao-Fa Sun"' showing total 3 results

1. Deep RNA sequencing analysis of syncytialization-related genes during BeWo cell fusion.

Author

Ru Zheng, Yue Li, Huiying Sun, Xiaoyin Lu, Bao-Fa Sun, Rui Wang, Lina Cui, Cheng Zhu, Hai-Yan Lin, and Hongmei Wang

Subjects

RNA sequencing, CELL fusion, PLACENTA physiology, FORSKOLIN, K-means clustering

Abstract

The syncytiotrophoblast (STB) plays a key role in maintaining the function of the placenta during human pregnancy. However, the molecular network that orchestrates STB development remains elusive. The aim of this study was to obtain broad and deep insight into human STB formation via transcriptomics. We adopted RNA sequencing (RNA-Seq) to investigate genes and isoforms involved in forskolin (FSK)-induced fusion of BeWo cells. BeWo cells were treated with 50 µM FSK or dimethyl sulfoxide (DMSO) as a vehicle control for 24 and 48 h, and the mRNAs at 0, 24 and 48 h were sequenced. We detected 28,633 expressed genes and identified 1902 differentially expressed genes (DEGs) after FSK treatment for 24 and 48 h. Among the 1902 DEGs, 461 were increased and 395 were decreased at 24 h, whereas 879 were upregulated and 763 were downregulated at 48 h. When the 856 DEGs identified at 24 h were traced individually at 48 h, they separated into 6 dynamic patterns via a K-means algorithm, and most were enriched in down-even and up-even patterns. Moreover, the gene ontology (GO) terms syncytium formation, cell junction assembly, cell fate commitment, calcium ion transport, regulation of epithelial cell differentiation and cell morphogenesis involved in differentiation were clustered, and the MAPK pathway was most significantly regulated. Analyses of alternative splicing isoforms detected 123,200 isoforms, of which 1376 were differentially expressed. The present deep analysis of the RNA-Seq data of BeWo cell fusion provides important clues for understanding the mechanisms underlying human STB formation. [ABSTRACT FROM AUTHOR]

Published

2017

2. Obligate mutualism within a host drives the extreme specialization of a fig wasp genome.

Author

Jin-Hua Xiao, Zhen Yue, Ling-Yi Jia, Xin-Hua Yang, Li-Hua Niu, Zhuo Wang, Peng Zhang, Bao-Fa Sun, Shun-Min He, Zi Li, Tuan-Lin Xiong, Wen Xin, Hai-Feng Gu, Bo Wang, John H Werren, Robert W Murphy, David Wheeler, Li-Ming Niu, Guang-Chang Ma, and Ting Tang

Published

2013

3. Diffusive coevolution and mutualism maintenance mechanisms in a fig-fig wasp system.

Author

Rui-Wu Wang, Bao-Fa Sun, and Qi Zheng

Subjects

COEVOLUTION, MUTUALISM (Biology), WASPS, FIG, FICUS (Plants), METAPOPULATION (Ecology), ECOLOGICAL niche, POLLINATION, SPECIES

Abstract

In reciprocal mutualism systems, the exploitation events by exploiters might disrupt the reciprocal mutualism, wherein one exploiter species might even exclude other coexisting exploiter species over an evolutionary time frame. What remains unclear is how such a community is maintained. Niche partitioning, or spatial heterogeneity among the mutualists and exploiters, is generally believed to enable stability within a mutualistic system. However, our examination of a reciprocal mutualism between a fig species (Ficus racemosa) and its pollinator wasp (Ceratosolen fusciceps) shows that spatial niche partitioning does not sufficiently prevent exploiters from overexploiting the common resource (i.e., the female flowers), because of the considerable niche overlap between the mutualists and exploiters. In response to an exploiter, our experiment shows that the fig can (1) abort syconia-containing flowers that have been galled by the exploiter, Apocryptophagus testacea, which oviposits before the pollinators do; and (2) retain syconia-containing flowers galled by Apocryptophagus mayri, which oviposit later than pollinators. However, as a result of (2), there is decreased development of adult non-pollinators or pollinator species in syconia that have not been sufficiently pollinated, but not aborted. Such discriminative abortion of figs or reduction in offspring development of exploiters while rewarding cooperative individuals with higher offspring development by the fig will increase the fitness of cooperative pollinating wasps, but decrease the fitness of exploiters. The fig-fig wasp interactions are diffusively coevolved, a case in which fig wasps diversify their genotype, phenotype, or behavior as a result of competition between wasps, while figs diverge their strategies to facilitate the evolution of cooperative fig waps or lessen the detrimental behavior by associated fig wasps. In habitats or syconia that suffer overexploitation, discriminative abortion of figs or reduction in the offspring development of exploiters in syconia that are not or not sufficiently pollinated will decrease exploiter fitness and perhaps even drive the population of exploiters to local extinction, enabling the evolution and maintenance of cooperative pollinators through the movement between habitats or syconia (i.e., the metapopulations). [ABSTRACT FROM AUTHOR]

Published

2010