Tiezhu Li scite author profile

Eucommia ulmoides, also called hardy rubber tree, is an economically important tree; however, the lack of its genome sequence restricts the fundamental biological research and applied studies of this plant species. Here, we present a high-quality assembly of its ∼1.2-Gb genome (scaffold N50 = 1.88 Mb) with at least 26 723 predicted genes for E. ulmoides, the first sequenced genome of the order Garryales, which was obtained using an integrated strategy combining Illumina sequencing, PacBio sequencing, and BioNano mapping. As a sister taxon to lamiids and campanulids, E. ulmoides underwent an ancient genome triplication shared by core eudicots but no further whole-genome duplication in the last ∼125 million years. E. ulmoides exhibits high expression levels and/or gene number expansion for multiple genes involved in stress responses and the biosynthesis of secondary metabolites, which may account for its considerable environmental adaptability. In contrast to the rubber tree (Hevea brasiliensis), which produces cis-polyisoprene, E. ulmoides has evolved to synthesize long-chain trans-polyisoprene via farnesyl diphosphate synthases (FPSs). Moreover, FPS and rubber elongation factor/small rubber particle protein gene families were expanded independently from the H. brasiliensis lineage. These results provide new insights into the biology of E. ulmoides and the origin of polyisoprene biosynthesis.

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Cucurbit[8]uril-Based Giant Supramolecular Vesicles: Highly Stable, Versatile Carriers for Photoresponsive and Targeted Drug Delivery

et al. 2018

ACS Appl. Mater. Interfaces

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Highly stable giant supramolecular vesicles were constructed by hierarchical self-assembly of cucurbit[8]uril (CB[8])-based supra-amphiphiles for photoresponsive and targeted intracellular drug delivery. These smart vesicles can encapsulate the model drugs with high loading efficiencies and then release them by manipulating photoswitchable CB[8] heteroternary complexation to regulate the formation and dissociation of supra-amphiphiles that cause dramatic morphological changes of the assemblies to achieve remote optically controlled drug delivery. More importantly, the confocal microscopy analysis, cellular uptake experiment, and cell viability assay have shown that the giant vesicles are able to maintain the structural integrity and stability within actual cellular environments and exhibit obvious advantages for intracellular drug delivery such as low toxicity, easy surface modification for tumor-targeting selectivity, and rapid internalization into different human cancer cell lines. A synergistic mechanism that integrates multiple pathways including energy-dependent endocytosis, macropinocytosis, cholesterol-dependent endocytosis, and microtubule-related endocytosis was determined to facilitate the internalization process. Moreover, cytotoxicity experiments and flow cytometric analysis have demonstrated that the doxorubicin hydrochloride-loaded vesicles exhibited a significant therapeutic effect for tumor cells upon UV light irradiation, which makes the photoresponsive system more promising for potential applications in pharmaceutically relevant fields.

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Saponins as modulators of nuclear receptors

Zhang

Zhong

et al. 2018

Critical Reviews in Food Science and Nutrition

121

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Improving urban bus emission and fuel consumption modeling by incorporating passenger load factor for real world driving

2016

Applied Energy

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Vehicle Specific Power (VSP) has been increasingly used as a good indicator for the 9 instantaneous power demand on engines for real world driving in the field of vehicle emission and fuel 10 consumption modeling. A fixed vehicle mass is normally used in VSP calculations. However, the influence 11 of passenger load was always been neglected. The major objective of this paper is to quantify the influence 12 of passenger load on diesel bus emissions and fuel consumptions based on the real-world on-road emission 13 data measured by the Portable Emission Measurement System (PEMS) on urban diesel buses in Nanjing, 14China. Meanwhile, analyses are conducted to investigate whether passenger load affected the accuracy of 15 emission and fuel consumption estimations based on VSP. The results show that the influence of passenger 16 load on emission and fuel consumption rates were related to vehicle's speed and acceleration. As for the 17 distance-based factors, the influence of passenger load was not obvious when the buses were driving at a 18 relative high speed. However the effects of passenger load were significant when the per-passenger factor 19 was used. Per-passenger emission and fuel consumption factors decreased as the passenger load increased. 20It was also found that the influence of passenger load can be omitted in the emission and fuel consumption 21 rate models at low and medium speed bins but has to be considered in the models for high speed and VSP 22 bins. Otherwise it could lead to an error of up to 49%. The results from this research will improve the 23 accuracy of urban bus emission and fuel consumption modeling and can be used to improve planning and 24 management of city buses and thus achieve energy saving and emission reduction. 25

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Manufacture of Cheddar cheese using probiotic Lactobacillus plantarum K25 and its cholesterol-lowering effects in a mice model

Zhang

Zhang²,

Liu

et al. 2012

World J Microbiol Biotechnol

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The probiotic adjunct Lactobacillus plantarum K25 was inoculated into milk to produce probiotic cheese. The effect of Lb. plantarum K25 on cheese composition, microbiological growth and survival during the manufacturing and ripening period, primary and secondary proteolysis during cheese ripening, and the in vivo cholesterol-lowering ability of the probiotic cheese were investigated. The results showed that the use of adjunct Lb. plantarum K25 in Cheddar cheese did not affect the cheese components including moisture, protein, fat, salt content and the pH value of cheese. During the whole ripening period, the probiotic adjunct maintained its viability, suggesting the effectiveness of Cheddar cheese as a vehicle for delivery of probiotic bacteria. No significant differences were observed in water-soluble nitrogen, 70 % ethanol-soluble nitrogen, 5 % phosphotungstic acid-soluble nitrogen, free amino acids and urea-PAGE patterns between the control and probiotic cheeses. Assessment of the in vivo cholesterol-lowering property of cheese with Lb. plantarum K25 showed that the levels of serum total cholesterol, low-density lipoprotein cholesterol and triglycerides decreased significantly, and the level of serum high-density lipoprotein cholesterol increased in mice fed with the probiotic cheese. The results indicated the potential function as a dietary item of the probiotic cheese with Lb. plantarum K25 to reduce the risk of cardiovascular diseases.

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Tiezhu Li

The Hardy Rubber Tree Genome Provides Insights into the Evolution of Polyisoprene Biosynthesis

Cucurbit[8]uril-Based Giant Supramolecular Vesicles: Highly Stable, Versatile Carriers for Photoresponsive and Targeted Drug Delivery

Saponins as modulators of nuclear receptors

Improving urban bus emission and fuel consumption modeling by incorporating passenger load factor for real world driving

Manufacture of Cheddar cheese using probiotic Lactobacillus plantarum K25 and its cholesterol-lowering effects in a mice model

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