2020年

[1] Guoqiang Zhang, Xinrui Zhao, Xueliang Li, Guocheng Du, Jingwen Zhou*, Jian Chen*. Challenges and possibilities for bio-manufacturing cultured meat. Trends in Food Science &Technology, 2020. 97: 443-450.

[2] Weizhu Zeng, Likun Guo, Sha Xu, Jian Chen, Jingwen Zhou*. High-Throughput Screening Technology in Industrial Biotechnology. Trends in Biotechnology, 2020.

[3] Wu Yaokang, Chen Taichi, Liu Yanfeng, Tian Rongzhen, Lv Xueqin, Li Jianghua, Du Guocheng, Chen Jian, Ledesma - Amaro Rodrigo, Liu Long*. Design of a programmable biosensor-CRISPRi genetic circuits for dynamic and autonomous dual-control of metabolic flux in Bacillus subtilis. Nucleic Acids Research. 2020. 48: 996-1009.

[4] Xu Xianhao, Liu Yanfeng, Du Guocheng, Ledesma-Amaro Rodrigo, Liu Long*. Microbial chassis development fornatural products biosynthesis. Trends in Biotechnology.2020.doi: 10.1016/j.tibtech. 2020.01.002.

[5] Lv Xueqin, Wu Yaokang, Tian Rongzhen, Gu Yang, Liu Yanfeng, Li Jianghua, Du Guocheng, Ledesma-Amaro Rodrigo,Liu Long*. Synthetic metabolic channel by functional membrane microdomains for compartmentalized flux control.Metabolic Engineering.2020.doi: 10.1016/j.ymben.2020.02.003.

[6] Lv Xueqin, Jin Ke, Wu Yaokang, Zhang Cheng, Cui Shixiu, Zhu Xiaonan, Li Jianghua, Du Guocheng, Liu Long*.Enzyme assembly guided by SPFH-induced functional inclusion bodies for enhanced cascade biocatalysis.Biotechnology and Bioengineering. 2020. doi: 10.1002/bit.27304

[7] He J, Kang Z*, et al. 2020. Carbohydrate Polymers. 231:115700.

[8] Yang H, Liu YF*, Li JH, Liu L, Du GC, Chen J*. Systems metabolic engineering of Bacillus subtilisfor efficient biosynthesis of 5-methyltetrahydrofolate. Biotechnology and Bioengineering, 2020, DOI:10.1002/bit. 27332.

2021年

[1] Zhao Xinrui, Zhou Jingwen, Du Guocheng, Chen Jian. Recent Advances in the Microbial Synthesis of Hemoglobin. Trends in Biotechnology. 2021. 39: 3.

[2] Xu Ruirui, Wang Yang, Huang Hao, Jin Xuerong, Li Jianghua, Du Guocheng, Kang Zhen. Closed-Loop System Driven by ADP Phosphorylation from Pyrophosphate Affords Equimolar Transformation of ATP to 3 '-Phosphoadenosine-5 '-phosphosulfate. ACS Catalysis. 2021. 11: 10405−10415.

[3] Luo Zhengshan, Yu Shiqin, Zeng Weizhu, Zhou Jingwen. Comparative analysis of the chemical and biochemical synthesis of keto acids. Biotechnology Advances. 2021. 47: 107706.

[4] Liu Shike, Lyu Yunbin, Yu, Shiqin Cheng Jie, Zhou Jingwen. Efficient Production of Orientin and Vitexin from Luteolin and Apigenin Using Coupled Catalysis of Glycosyltransferase and Sucrose Synthase. Journal of Agricultural and Food Chemistry. 2021, 69: 6578-6587.

[5] Deng Chen, Lv Xueqin, Li Jianghua, Zhang Hongzhi, Liu Yanfeng, Du Guocheng, Amaro Rodrigo Ledesma, Liu Long. Synergistic improvement of N-acetylglucosamine production by engineering transcription factors and balancing redox cofactors. Metabolic Engineering. 2021. 67: 330–346.

[6] Jin Xuerong, Zhang Weijiao, Wang Yang, Sheng Jingyu, Xu, Ruirui, Li Jianghua, Du Guocheng, Kang Zhen. Biosynthesis of non-animal chondroitin sulfate from methanol using genetically engineered Pichia pastoris. Green Chemistry. 2021. 23: 4365.

[7] Zhang Guoqiang, Chen Yukun, Li Qinghua, Zhou Jingwen, Li Jianghua, Du Guocheng. Growth-coupled evolution and high-throughput screening assisted rapid enhancement for amylase-producing Bacillus licheniformis. 2021, 69: 15268-15278.

[8] Huang Ziyang, Mao Xinzhu, Lv Xueqin, Sun Guoyun, Zhang Hongzhi, Lu Wei, Liu Yanfeng, Li Jianghua, Du Guocheng, Liu Long. Engineering diacetylchitobiose deacetylase from Pyrococcus horikoshii towards an efficient glucosamine production. Bioresource Technology. 2021. 334: 125241.

[9] Xu Yameng, Wu Yaokang, Lv Xueqin, Sun Guoyun, Zhang Hongzhi, Chen Taichi, Du Guocheng, Li Jianghua, Liu Long. Design and construction of novel biocatalyst for bioprocessing: Recent advances and future outlook. Bioresource Technology. 2021. 332: 125071.

[10] Zhang Qian, Zeng Weizhu, Xu Sha, Zhou Jingwen. Metabolism and strategies for enhanced supply of acetyl-CoA in Saccharomyces cerevisiae. Bioresource Technology. 2021. 342: 125789.

[11] Peng Zheng, Xu Peng, Song Yang, Du Guocheng, Zhang Juan, Chen Jian. Cysteine-mediated cyclic metabolism drives the microbial degradation of keratin. ACS Sustainable Chemistry & Engineering. 2021. 9: 9861−9870.

[12] Zhang Xiaolong, Wang Chenyun, Lv Xueqin, Liu Long, Li Jianghua, Du Guocheng, Wang Miao, and Liu Yanfeng. Engineering of Synthetic Multiplexed Pathways for High-Level N‐Acetylneuraminic Acid Bioproduction. Journal of Agricultural and Food Chemistry. 2021, 69: 14868−14877.

[13] Zhang Bohan, Zhao Xinrui, Wang Ziwei, Wang Haoze, Zhou Jingwen, Du Guocheng, Chen Jian, Li Jianghua. Efficient Secretory Expression and Purification of Food-Grade Porcine Myoglobin in Komagataella phaffii. Journal of Agricultural and Food Chemistry. 2021, 69: 10235−10245.

[14] Yin, Xiaoqiang; Li, Yangyang; Zhou, Jingwen; Rao, Shengqi; Du, Guocheng; Chen, Jian; Liu, Song. Enhanced Production of Transglutaminase in Streptomyces mobaraensis through Random Mutagenesis and Site-Directed Genetic Modification. Journal of Agricultural and Food Chemistry. 2021, 69: 3144–3153.

[15] Xinglong Wang, Jianhui Du, Beichen Zhao, Haiyan Wang, Shengqi Rao, Guocheng Du, Jingwen Zhou, Jian Chen, and Song Liu. Significantly Improving the Thermostability and Catalytic Efficiency of Streptomyces mobaraenesis Transglutaminase through Combined Rational Design. Journal of Agricultural and Food Chemistry. 2021, 69: 15268-15278.

[16] Guan Xin, Lei Qingzi, Yan Qiyang, Li Xueliang, Zhou Jingwen, Du Guocheng, Jian Chen. Trends and ideas in technology, regulation and public acceptance of cultured meat. Future Foods. 2021. 3: 100032.

[17] Zhang Junxuan, Li Xueliang, Liu Hongfei, Zhou Jingwen, Chen Jian, Du Guocheng. Hydrodynamics and mass transfer in spinner flasks: Implications for large scale cultured meat production.Biochemical Engineering Journal. 2021. 167: 107864.

[18] Ling Chen, Wallace Yokoyama, Pricilla Alves, Yuqing Tan, James Pan, Fang Zhong*. Effect of encapsulation on β-carotene absorption and metabolism in mice. Food Hydrocolloids, 2021, 121: 107009.

[19] Xia Yixun, De Mingo Noelia, Mendez Martín Jesú, Bodeau Julie Perret Marine, Zhong Fang*, O' Mahony Michael*. Is the absolute scaling model the basis for the 9-point hedonic scale? Evidence from Poulson's stimulus range equalizing bias. Food Quality and Preference, 2021, 89:104153.

[20] Junge Shang, Fang Zhong, Song Zhu, Dejian Huang, Yue Li*. Formation, structural characteristics and physicochemical properties of beeswax oleogels prepared with tea polyphenol loaded gelators. Food &Function, 2021, 12: 1662.

[21] Chen Ling, Yokoyama Wallace, Tam Christina, Tan Yuqing, Alves Pricilla, Bartley Glenn, Zhong Fang*. Evaluation of cellular absorption and metabolism of beta-carotene loaded in nanocarriers after in vitro digestion. Journal of Agricultural and Food Chemistry, 2021, 69: 9383−9394.

[22] Shabbir Ahammed, Fei Liu, Jingmin Wu, Myat Noe Khin, Wallace H. Yokoyama, Fang Zhong*. Effect of transglutaminase crosslinking on solubility property and mechanical strength of gelatin-zein composite films. Food Hydrocolloids, 2021, 116:106649.

2022年

[1] Saqib, Md Nazmus; Ahammed, Shabbir; Liu, Fei; Zhong, Fang.Customization of liquid-core sodium alginate beads by molecular engineering.Carbohydrate Polymers,2022.

[2] Saqib, Md Nazmus; Liu, Fei; Chen, Maoshen; Ahammed, Shabbir; Liu, Xiaoyong; Zhong, Fang.Thermo-mechanical response of liquid-core beads as affected by alginate molecular structure.Food Hydrocolloids,2022.

[3] Yuan, Yongkai; Yin, Ming; Chen, Ling; Liu, Fei; Chen, Maoshen; Zhong, Fang.Effect of calcium ions on the freeze-drying survival of probiotic encapsulated in sodium alginate.Food Hydrocolloids,2022.

[4] Ma Yuxin, Ma Yun, Yu Zhe, Chiou Bor-Sen, Liu Fei*, Zhong Fang.Calcium spraying for fabricating collagen-alginate composite films with excellent wet mechanical properties.Food Hydrocolloids.2022.

[5] Ting Zhang, Zhe Yu, Yun Ma, Bor-Sen Chiou, Fei Liu*, Fang Zhong.Modulating physicochemical properties of collagen films by cross-linking with glutaraldehyde at varied pH values.Food Hydrocolloids,2022.

[6] Tan, Hao; Yu, Yang; Zhu, Yongqun; Liu, Tianhai; Miao, Renyun; Hu, Rongping; Peng, Weihong; Chen, Jian.Refactoring transcription factors for metabolic engineering.Biotechnology Advances,2022.

[7] Hu, Litao; Wang, Yang; Hu, Yunxiao; Yin, Juyi; Wang, Lingling; Du, Guocheng; Chen, Jian; Kang, Zhen.Biosynthesis of non-sulfated high-molecular-weight glycosaminoglycans and specific-sized oligosaccharides.Carbohydrate Polymers,2022.

[8] Zhang, Yonglin; Wang, Yang; Zhou, Zhengxiong; Wang, Peilin; Xi, Xintong; Hu, Shan; Xu, RuiRui; Du, Guocheng; Li, Jianghua; Chen, Jian; Kang, Zhen.Synthesis of bioengineered heparin by recombinant yeast Pichia pastoris.Green Chemistry,2022.

[9] Hao Huang, Xiaodong Hou, Ruirui Xu, Zhiwei Deng, Yang Wang, Guocheng Du, Yijian Rao, Jian Chen, Zhen Kang.Structure and cleavage pattern of a hyaluronate 3-glycanohydrolase in the glycoside hydrolase 79 family.Carbohydrate Polymers.2022.

[10] Deng, Chen; Wu, Yaokang; Lv, Xueqin; Li, Jianghua; Liu, Yanfeng; Du, Guocheng; Chen, Jian; Liu, Long.Refactoring transcription factors for metabolic engineering.Biotechnology Advances,2022.

[11] Lin, Lu; Gong, Mengyue; Liu, Yanfeng; Li, Jianghua; Lv, Xueqin; Du, Guocheng; Liu, Long.Combinatorial metabolic engineering of Escherichia coli for de novo production of 2 '-fucosyllactose.Bioresource Technology,2022.

[12] Yu, Wenwen; Jin, Ke; Wu, Yaokang; Zhang, Quanwei; Liu, Yanfeng; Li, Jianghua; Du, Guocheng; Chen, Jian; Lv, Xueqin; Ledesma-Amaro, Rodrigo; Liu, Long.A pathway independent multi-modular ordered control system based on thermosensors and CRISPRi improves bioproduction in Bacillus subtilis.Nucleic Acids Research,2022.

[13] Xu, Yameng; Wang, Xinglong; Zhang, Chenyang; Zhou, Xuan; Xu, Xianhao; Han, Luyao; Lv, Xueqin; Liu, Yanfeng; Liu, Song; Li, Jianghua; Du, Guocheng; Chen, Jian; Ledesma-Amaro, Rodrigo; Liu, Long.De novo biosynthesis of rubusoside and rebaudiosides in engineered yeasts.Nature Communications,2022.

[14] Lv, Xueqin; Jin, Ke; Sun, Guoyun; Ledesma-Amaro, Rodrigo; Liu, Long.Microscopy imaging of living cells in metabolic engineering.TRENDS IN BIOTECHNOLOGY,2022.

[15] Li, Yang; Wu, Yaokang; Liu, Yanfeng; Li, Jianghua; Du, Guocheng; Lv, Xueqin; Liu, Long.A genetic toolkit for efficient production of secretory protein in Bacillus subtilis.Bioresource Technology,2022.

[16] Xueqin Lv, Angeles Hueso-Gil, Xinyu Bi, Yaokang Wu, Yanfeng Liu, Long Liu, Rodrigo Ledesma-Amaro.New synthetic biology tools for metabolic control.Current Opinion In Biotechnology,2022.

[17] Xiang Xiu, Yi Sun, Yaokang Wu, Ke Jin, Lisha Qu, Yanfeng Liu, Jianghua Li, Guocheng Du, Xueqin Lv, Long Liu.Modular remodeling of sterol metabolism for overproduction of 7-dehydrocholesterol in engineered yeast.Bioresource Technology,2022.

[18] Yameng Xu, Yaokang Wu, Yanfeng Liu, Jianghua Li, Guocheng Du, Jian Chen,Xueqin Lv, Long Liu.Sustainable bioproduction of natural sugar substitutes: Strategies and challenges.Trends In Food Science & Technology,2022.

[19] Li, Dong; Liu, Li; Qin, Zhijie; Yu, Shiqin; Zhou, Jingwen.Combined evolutionary and metabolic engineering improve 2-keto-L-gu- lonic acid production in Gluconobacter oxydans WSH-004.Bioresource Technology,2022.

[20] Li, Hongbiao; Lyv, Yunbin; Zhou, Shenghu; Yu, Shiqin; Zhou, Jingwen.Microbial cell factories for the production of flavonoids-barriers and opportunities.Bioresource Technology,2022.

[21] Zhijie Qin, Shiqin Yu, Jian Chen, Jingwen Zhou.Dehydrogenases of acetic acid bacteria.Biotechnology Advances,2022.

[22] Mengsu Liu，Chao Wang， Xuefeng Ren，SongGao，Shiqin Yu，Jingwen Zhou.Remodelling metabolism for high-level resveratrol production inYarrowia lipolytica.Bioresource Technology,2022.

[23] Shiqin Yu, Weizhu Zeng， Sha Xu, Jingwen Zhou*.Expediting the growth of plant-based meat alternatives by microfluidic technology:identification of the opportunities and challenges.Current Opinion In Biotechnology,2022.

[24] Peng, Zheng; Miao, Zhoudi; Ji, Xiaomei; Zhang, Guoqiang; Zhang, Juan.Engineering flexible loops to enhance thermal stability of keratinase for efficient keratin degradation.Science Of The Total Environment,2022.

[25] Zheng Peng, Shuai Luo, Dandan Zhao, Juan Zhang.Biosynthetic melanin with excellent performance can be used for heavy metal adsorption.Journal Of Cleaner Production,2022.

[26] Yangyang Li, Weiyan Song, Xuyue Han, Yachan Wang, Shengqi Rao, Quan Zhang, Jingwen Zhou, Jianghua Li, Song Liu, Guocheng Du.Recent progress in key lignocellulosic enzymes: Enzyme discovery, molecular modifications, production, and enzymatic biomass saccharification.Bioresource Technology,2022.

[27] Hu Baodong,Yu Haibo,Zhou Jingwen,Li Jianghua,Chen Jian,Du Guocheng,Lee Sang Yup,Zhao Xinrui. Whole-Cell P450 Biocatalysis Using Engineered Escherichia coli with Fine-Tuned Heme Biosynthesis.[J].Advanced Science,2022.

[28] Li, Qinghua; Lu, Jinchang; Zhang, Guoqiang; Liu, Song; Zhou, Jingwen; Du, Guocheng; Chen, Jian.Recent advances in the development of Aspergillus for protein production.Bioresource Technology,2022.

[29] Guan, Xin; Zhou, Jingwen; Du, Guocheng; Chen, Jian.Bioprocessing technology of muscle stem cells: implications for cultured meat.Trends In Biotechnology,2022.