科研成果

2013
Feng L, Hong S, Rong J, You Q, Dai P, Huang R, Tan Y, Hong W, Xie C, Zhao J, et al. Bifunctional unnatural sialic acids for dual metabolic labeling of cell-surface sialylated glycans. Journal of the American Chemical Society [Internet]. 2013;(25):9244-9247. 访问链接
Yuan Y, Pei J, Lai L. Binding site detection and druggability prediction of protein targets for structure-based drug design. Current Pharmaceutical Design [Internet]. 2013;(12):2326-2333. 访问链接
Wen D, Zhang J, Xiong R, Liu R, Chen L. Bioaugmentation with a pyridine-degrading bacterium in a membrane bioreactor treating pharmaceutical wastewater. Journal of Environmental Sciences [Internet]. 2013;25(11):2265-2271. 访问链接
Xiao R-P. Bioimaging for cardiometabolic translational medicine: From cellular messengers to organism function. Journal of Molecular Medicine [Internet]. 2013;(8):905-906. 访问链接
Lin L, Tian X, Hong S, Dai P, You Q, Wang R, Feng L, Xie C, Tian Z-Q, Chen X. A bioorthogonal raman reporter strategy for SERS detection of glycans on live cells. Angewandte Chemie - International Edition [Internet]. 2013;(28):7266-7271. 访问链接
Wang Q, Shen B, Zheng P, Feng H, Guo Y, Cao W, Chen L, Liu X, Zhao G, Xu S, et al. BmCREC is an endoplasmic reticulum (ER) resident protein and required for ER/golgi morphology. Journal of Biological Chemistry [Internet]. 2013;(37):26649-26657. 访问链接
Xu Y, Zhang Y, Wu B. Bright solitons in spin-orbit-coupled Bose-Einstein condensates. Physical Review A - Atomic, Molecular, and Optical Physics. 2013;(1).
Liu HL, Xu FR. Calculations of electric quadrupole moments and charge radii for high-K isomers. Science China Physics, Mechanics and Astronomy [Internet]. 2013;56:2037-2041. 访问链接
Feng H, Chen L, Wang Q, Shen B, Liu L, Zheng P, Xu S, Liu X, Chen J, Teng J. Calumenin-15 facilitates filopodia formation by promoting TGF-b superfamily cytokine GDF-15 transcription. Cell Death and Disease [Internet]. 2013;(10). 访问链接
Loyalka P, Liu C, Song Y, Yi* H, Huang X, Wei J, Zhang L, Shi Y, Chu J, Rozelle S. Can information and counseling help students from poor rural areas go to high school? evidence from china. Journal of Comparative Economics. 2013;41:1012-1025.
Mo D, Swinnen J, Zhang L, Yi H, Qu Q, Boswell M, Rozelle S. Can One-to-One Computing Narrow the Digital Divide and the Educational Gap in China? The Case of Beijing Migrant Schools. World Development. 2013;46:14-29.
Samur MK, Yan Z, Wang X, Cao Q, Munshi NC, Li C, Shah PK. canEvolve: A Web Portal for Integrative Oncogenomics. [Internet]. 2013;(2). 访问链接
Whelan RS, Konstantinidis K, Xiao R-P, Kitsis RN. Cardiomyocyte life-death decisions in response to chronic β-adrenergic signaling. Circulation Research [Internet]. 2013;(3):408-410. 访问链接
Xie R, Hong S, Chen X. Cell-selective metabolic labeling of biomolecules with bioorthogonal functionalities. Current Opinion in Chemical Biology [Internet]. 2013;(5):747-752. 访问链接
Song R, Peng W, Zhang Y, Lv F, Wu H-K, Guo J, Cao Y, Pi Y, Zhang X, Jin L, et al. Central role of E3 ubiquitin ligase MG53 in insulin resistance and metabolic disorders. Nature [Internet]. 2013;(7437):375-379. 访问链接
Song R, Peng W, Zhang Y, Lv F, Wu H-K, Guo J, Cao Y, Pi Y, Zhang X, Jin L, et al. Central role of E3 ubiquitin ligase MG53 in insulin resistance and metabolic disorders. Nature [Internet]. 2013;(7437):375-379. 访问链接
Song R, Peng W, Zhang Y, Lv F, Wu H-K, Guo J, Cao Y, Pi Y, Zhang X, Jin L, et al. Central role of E3 ubiquitin ligase MG53 in insulin resistance and metabolic disorders. Nature [Internet]. 2013;(7437):375-379. 访问链接
Song R, Peng W, Zhang Y, Lv F, Wu H-K, Guo J, Cao Y, Pi Y, Zhang X, Jin L, et al. Central role of E3 ubiquitin ligase MG53 in insulin resistance and metabolic disorders. [Internet]. 2013;(7437):375-379. 访问链接
He R, Wu Q, Zhou H, Huang N, Chen J, Teng J. Cep57 protein is required for cytokinesis by facilitating central spindle microtubule organization. Journal of Biological Chemistry [Internet]. 2013;(20):14384-14390. 访问链接
Cheng XL, Xie S. Characteristics of atmospheric polycyclic aromatic hydrocarbons (PAHs) in gas and particle phase in April and July 2011 in Beijing, China, in Advanced Materials Research.Vol 664. Trans Tech Publ; 2013:99–105. 访问链接Abstract
Presence of atmospheric PAHs in urban and suburban region (Beijing, China) was studied in April and July 2011. Forty-four pairs of gas and particle (TSP) phase samples were collected every six day by high volume (Hi-Vol) air samplers at four sampling sites, and determined separately by GC/MS based on USEPA Method TO-13A. Average total concentration (gas + particles) of PAHs (T-PAHs) was 135.1±49.0 ng/m3 and 181.2±40.9 ng/m3 in April and July, respectively. Gas phase PAHs (G-PAHs) was the major fraction, comprising 63–92% of T-PAHs. Lighter (2-, 3-, 4-ring) and heavier (5-,6-ring) PAHs were found predominantly in gas and particle phase, respectively. 2- to 6- ring PAHs contributed 10%, 53%, 26%, 7% and 4% of T-PAHs, respectively. Five major PAHs, naphthalene (NAP), fluorene (FLU), PHE, fluoranthene (FLA), and pyrene (PYR) contributed 70 – 90% of T-PAHs. G-PAHs increased significantly while PAHs in particle phase (P-PAHs) decreased from April to July. Volatilization from soil and more emission from power generation increase might explain the increase of G-PAHs, and the washout of P-PAHs along with particles might explain the decrease of P-PAHs. Given particulate organic carbon (OC) and elemental carbon (EC) being well correlated, P-PAHs was moderately correlated with OC and EC, suggesting that there were other mechanisms contributing to P-PAHs different from those of OC/EC. Significant correlation between P-PAHs with SO2 and NO2 suggested coal combustion and automobile exhaust to be contamination contributors.

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