Patents by Inventor Zhiyuan Gong
Zhiyuan Gong has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220256819Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: February 25, 2022Publication date: August 18, 2022Applicant: National University of SingaporeInventors: Zhiyuan GONG, Jiangyan HE, Bensheng JU, Toong Jin LAM, Yanfei XU, Tie YAN
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Patent number: 11259509Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: August 11, 2017Date of Patent: March 1, 2022Assignee: National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Publication number: 20180064074Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: August 11, 2017Publication date: March 8, 2018Applicant: National University of SingaporeInventors: Zhiyuan GONG, Jiangyan HE, Bensheng JU, Toong Jin LAM, Yanfei XU, Tie YAN
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Patent number: 9763430Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: January 10, 2013Date of Patent: September 19, 2017Assignee: National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Patent number: 9284535Abstract: A method for producing laccase by liquid fermentation of Lentinus edodes comprises the following steps of: (1) inoculating strains of Lentinus edodes into the PD liquid fermentation medium to perform activation culture and obtain a seed liquid; (2) inoculating the seed solution into a liquid fermentation medium to perform liquid fermentation culture, then adding an expansin solution to perform further culture, separating the supernatant to obtain a ferment solution; (3) extracting laccase from the ferment solution. A plant expansin and an optimized fermentation method are applied for producing laccase by liquid fermentation of Lentinus edodes, which increases the liquid fermentation output of laccase of Lentinus edodes remarkably, by more than 3 times in comparing with traditional fermentation production methods.Type: GrantFiled: March 22, 2013Date of Patent: March 15, 2016Assignee: INSTITUTE OF AGRICULTURAL RESOURCES AND ENVIRONMENT, SHANDONG ACADEMY OF AGRICULTURAL SCIENCESInventors: Qiang Yao, Zhiyuan Gong, Zhaohui Liu, Jiandong Han, Qi Wang, Xiao Liu, Luchang Wan, Pengfei Ren, Haixia Ren, Jin Li, Peng Yang, Tao Sun
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Patent number: 9284585Abstract: A method for increasing the yield of total flavonoids in Ganoderma lucidum mycelium by an expansin comprises: (1) inoculating Ganoderma lucidum into the PD liquid fermentation medium, activating the culturing of the strains and obtaining a seed solution; (2) inoculating the seed solution into a liquid fermentation medium, culturing and adding the expansin solution, then further culturing, isolating and obtaining Ganoderma lucidum mycelium; (3) extracting flavonoids from the Ganoderma lucidum mycelium and obtaining total flavonoids. A plant expansin is used for the liquid fermentation production of flavonoids ingredients of Ganoderma lucidum, and the fermentation process and extraction method are optimized to increase greatly the yield of total flavonoids in Ganoderma lucidum.Type: GrantFiled: April 7, 2013Date of Patent: March 15, 2016Assignees: SHANDONG QIHE BIO-TECHNOLOGY CO., LTD, INSTITUTE OF AGRICULTURAL RESOURCES AND ENVIRONMENT, SHANDONG ACADEMY OF AGRICULTURAL SCIENCESInventors: Qiang Yao, Zhiyuan Gong, Jianchang Su, Zhaohui Liu, Jilei Wang, Xingcheng Du, Xiao Liu, Xiaoyan Zhu, Qingxin Zhou, Shan Zhu, Yanwen Yang
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Publication number: 20150010964Abstract: A method for increasing the yield of total flavonoids in Ganoderma lucidum mycelium by an expansin comprises: (1) inoculating Ganoderma lucidum into the PD liquid fermentation medium, activating the culturing of the strains and obtaining a seed solution; (2) inoculating the seed solution into a liquid fermentation medium, culturing and adding the expansin solution, then further culturing, isolating and obtaining Ganoderma lucidum mycelium; (3) extracting flavonoids from the Ganoderma lucidum mycelium and obtaining total flavonoids. A plant expansin is used for the liquid fermentation production of flavonoids ingredients of Ganoderma lucidum, and the fermentation process and extraction method are optimized to increase greatly the yield of total flavonoids in Ganoderma lucidum.Type: ApplicationFiled: April 7, 2013Publication date: January 8, 2015Applicants: SHANDONG QIHE BIO-TECHNOLOGY CO., LTD, INSTITUTE OF AGRICULTURAL RESOURCES & ENVIRONMENT, SHANDONG ACADEMY OF AGRICULTURAL SCIENCESInventors: Qiang Yao, Zhiyuan Gong, Jianchang Su, Zhaohui Liu, Jilei Wang, Xingcheng Du, Xiao Liu, Xiaoyan Zhu, Qingxin Zhou, Shan Zhu, Yanwen Yang
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Publication number: 20140363874Abstract: A method for producing laccase by liquid fermentation of Lentinus edodes comprises the following steps of: (1) inoculating strains of Lentinus edodes into the PD liquid fermentation medium to perform activation culture and obtain a seed liquid; (2) inoculating the seed solution into a liquid fermentation medium to perform liquid fermentation culture, then adding an expansin solution to perform further culture, separating the supernatant to obtain a ferment solution; (3) extracting laccase from the ferment solution. A plant expansin and an optimized fermentation method are applied for producing laccase by liquid fermentation of Lentinus edodes, which increases the liquid fermentation output of laccase of Lentinus edodes remarkably, by more than 3 times in comparing with traditional fermentation production methods.Type: ApplicationFiled: March 22, 2013Publication date: December 11, 2014Applicant: INSTITUTE OF AGRICULTURAL RESOURCES & ENVIRONMENT SHANDONG ACADEMY OF AGRICULTURAL SCIENCESInventors: Qiang Yao, Zhiyuan Gong, Zhaohui Liu, Jiandong Han, Qi Wang, Xiao Liu, Luchang Wan, Pengfei Ren, Haixia Ren, Jin Li, Peng Yang, Tao Sun
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Publication number: 20140007265Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: January 10, 2013Publication date: January 2, 2014Applicant: NATIONAL UNIVERSITY OF SINGAPOREInventors: Zhiyuan GONG, Jiangyan HE, Bensheng JU, Toong Jin LAM, Yanfei XU, Tie YAN
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Patent number: 8378169Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: December 22, 2011Date of Patent: February 19, 2013Assignee: National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Publication number: 20120167241Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: December 22, 2011Publication date: June 28, 2012Applicant: NATIONAL UNIVERSITY OF SINGAPOREInventors: Zhiyuan GONG, Jiangyan HE, Bensheng JU, Toon Jin LAM, Yanfei XU, Tie YAN
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Patent number: 8153858Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: May 15, 2007Date of Patent: April 10, 2012Assignee: National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Patent number: 7834239Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: October 21, 2003Date of Patent: November 16, 2010Assignee: The National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Publication number: 20080052787Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: May 15, 2007Publication date: February 28, 2008Inventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Lam, Yanfei Xu, Tie Yan
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Publication number: 20070071776Abstract: A recombinant vaccine that is useful for immunizing fish against ciliated ectoparasitic protozoans that cause white spot disease also known as ‘ich’. The disease is caused by Ichthyophthirius multifiliis which is a ciliated ectorparasitic protozoan that is an obligate parasite and therefore cannot grow in vitro. The instant vaccine replaces chemotherapy and vaccines prepared from I. Multifiliis production in live fish. The effective element of the vaccine is a recombinant fusion protein derived from an artificial DNA sequence for immobilization antigen, repeat I, of Ichthyophthirius multifiliis. The novel DNA nucleotide and amino acid sequences are disclosed.Type: ApplicationFiled: September 8, 2006Publication date: March 29, 2007Applicant: NATIONAL UNIVERSITY OF SINGAPOREInventors: Yoke SIN, Toong LAM, Zhiyuan GONG
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Patent number: 7135613Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed, respectively, were isolated and ligated to the 5? end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultra-violet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patters, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: GrantFiled: July 16, 1999Date of Patent: November 14, 2006Assignee: The National University of SingaporeInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Publication number: 20040143864Abstract: Four zebrafish gene promoters, which are skin specific, muscle specific, skeletal muscle specific and ubiquitously expressed respectively, were isolated and ligated to the 5′ end of the EGFP gene. When the resulting chimeric gene constructs were introduced into zebrafish, the transgenic zebrafish emit green fluorescence under a blue light or ultraviolet light according to the specificity of the promoters used. Thus, new varieties of ornamental fish of different fluorescence patterns, e.g., skin fluorescence, muscle fluorescence, skeletal muscle-specific and/or ubiquitous fluorescence, are developed.Type: ApplicationFiled: October 21, 2003Publication date: July 22, 2004Applicant: NATIONAL UNIVERSITY OF SINGAPOREInventors: Zhiyuan Gong, Jiangyan He, Bensheng Ju, Toong Jin Lam, Yanfei Xu, Tie Yan
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Patent number: 6307020Abstract: A family of related intracellular skin type antifreeze polypeptides and corresponding coding nucleic acids are provided. These are the first skin type intracellular antifreeze polypeptides and coding nucleic acids ever reported. The polypeptides are naturally expressed in the skin of Winter Flounder, and skin specific promoters are also provided. The polypeptides are used to make cells cold-resistant, and to improve the palatability of cold foods and liquids. Cold resistant eukaryotes and prokaryotes, including plants, animals and bacteria are made using the skin-type intracellular antifreeze polypeptides and nucleic acids.Type: GrantFiled: November 20, 1998Date of Patent: October 23, 2001Assignee: HSC Research and Development Ltd. PartnershipInventors: Choy Hew, Zhiyuan Gong