Your search keyword '"Zhou, Fujie"' showing total 3 results

1. A Multi-Streamline Approach for Upcycling PET into a Biodiesel and Asphalt Modifier.

Author

Chen, Kainan, Mraiza, Zeinab, Pu, Yunqiao, Li, Jinghao, Liu, Zhihua, Ragauskas, Arthur J., Zhou, Fujie, and Yuan, Joshua S.

Subjects

ASPHALT modifiers, CRUMB rubber, PLASTIC scrap, GLOBAL warming, SCANNING electron microscopy, BIODEGRADABLE plastics, BIOCONVERSION, POLYMERS

Abstract

The non-degradable nature of petroleum-based plastics and the dependence on petroleum-based products in daily life and production are dilemmas of human development today. We hereby developed a plastic waste upcycling process to address these challenges. A multi-stream fraction strategy was developed to process poly (ethylene terephthalate) (PET) plastics into soluble and insoluble fractions. The soluble fraction was used as a sole carbon source for microbial fermentation to produce biodiesel precursor lipids with an appreciable bioconversion yield. The insoluble fraction containing fractionated polymers was used as the asphalt binder modifiers. The downsized PET additive improved the high-temperature performance of the asphalt binder by 1 performance grade (PG) without decreasing the low-temperature PG. Subsequent SEM imaging unveiled alterations in the micromorphology induced by PET incorporation. Further FTIR and 1H NMR analysis highlighted the aromatic groups of PET polymers as a crucial factor influencing performance enhancement. The results demonstrated the multi-stream fraction as a promising approach for repurposing plastic waste to produce biodiesel and modify asphalt. This approach holds the potential to tackle challenges in fuel supply and enhance infrastructure resilience to global warming. [ABSTRACT FROM AUTHOR]

Published

2024

2. Gene Association Analysis of Quantitative Trait Based on Functional Linear Regression Model with Local Sparse Estimator.

Author

Wang, Jingyu, Zhou, Fujie, Li, Cheng, Yin, Ning, Liu, Huiming, Zhuang, Binxian, Huang, Qingyu, and Wen, Yongxian

Subjects

*REGRESSION analysis, *FALSE positive error, *GENETIC variation, *LINKAGE disequilibrium, *RICE

Abstract

Functional linear regression models have been widely used in the gene association analysis of complex traits. These models retain all the genetic information in the data and take full advantage of spatial information in genetic variation data, which leads to brilliant detection power. However, the significant association signals identified by the high-power methods are not all the real causal SNPs, because it is easy to regard noise information as significant association signals, leading to a false association. In this paper, a method based on the sparse functional data association test (SFDAT) of gene region association analysis is developed based on a functional linear regression model with local sparse estimation. The evaluation indicators CSR and DL are defined to evaluate the feasibility and performance of the proposed method with other indicators. Simulation studies show that: (1) SFDAT performs well under both linkage equilibrium and linkage disequilibrium simulation; (2) SFDAT performs successfully for gene regions (including common variants, low-frequency variants, rare variants and mix variants); (3) With power and type I error rates comparable to OLS and Smooth, SFDAT has a better ability to handle the zero regions. The Oryza sativa data set is analyzed by SFDAT. It is shown that SFDAT can better perform gene association analysis and eliminate the false positive of gene localization. This study showed that SFDAT can lower the interference caused by noise while maintaining high power. SFDAT provides a new method for the association analysis between gene regions and phenotypic quantitative traits. [ABSTRACT FROM AUTHOR]

Published

2023

3. Simulation Research on the Methods of Multi-Gene Region Association Analysis Based on a Functional Linear Model.

Author

Li, Shijing, Zhou, Fujie, Shen, Jiayu, Zhang, Hui, and Wen, Yongxian

Subjects

*GENETIC variation, *FUNCTIONAL analysis, *GENOME-wide association studies, *RESEARCH methodology, *LOCUS (Genetics)

Abstract

Genome-wide association analysis is an important approach to identify genetic variants associated with complex traits. Complex traits are not only affected by single gene loci, but also by the interaction of multiple gene loci. Studies of association between gene regions and quantitative traits are of great significance in revealing the genetic mechanism of biological development. There have been a lot of studies on single-gene region association analysis, but the application of functional linear models in multi-gene region association analysis is still less. In this paper, a functional multi-gene region association analysis test method is proposed based on the functional linear model. From the three directions of common multi-gene region method, multi-gene region weighted method and multi-gene region loci weighted method, that test method is studied combined with computer simulation. The following conclusions are obtained through computer simulation: (a) The functional multi-gene region association analysis test method has higher power than the functional single gene region association analysis test method; (b) The functional multi-gene region weighted method performs better than the common functional multi-gene region method; (c) the functional multi-gene region loci weighted method is the best method for association analysis on three directions of the common multi-gene region method; (d) the performance of the Step method and Multi-gene region loci weighted Step for multi-gene regions is the best in general. Functional multi-gene region association analysis test method can theoretically provide a feasible method for the study of complex traits affected by multiple genes. [ABSTRACT FROM AUTHOR]

Published

2022