Prof. Yunjun Yan is a professor and principle investigator of College of Life Sci. & Tech., Huazhong University of Sci.&Tech.. He got his PhD degree at Chinese Academy of Sciences.
His research covers three areas: Firstly, biotechnology for biomass energy, mainly focusing on key technologies for biodiesel production, Secondly, lipase engineering, mainly focusing on genetic engineering, protein engineering, fermentation engineering, and enzyme immobilization of lipases, and its application in biodiesel, health care products and pharmaceuticals, resolution of chiral drugs and organic synthesis, etc. Thirdly, aquatic ecology, mainly focusing on productivity ecology of aquatic ecosystems, bioenergetics and its dynamics in rivers and streams.
Prof. Yu Xue is a professor and principle investigator of College of Life Sci. & Tech., Huazhong University of Sci.&Tech.. He got his PhD degree at Universtiy of Sci. and Tech. of China.
Xue’s lab is interested in computational studies of post-translational modifications (PTMs), including phosphorylation, sumoylation and palmitoylation, etc. The genetic basis and influence of PTMs, modification dependent binding domain/motifs, and PTMs regulating cellular pathways and networks are also paid attention.
Dr. Qian Ge is the director of Student Affair Office in College of Life Sci. & Tech., Huazhong University of Sci.&Tech.. She got her PhD at Huazhong University of Sci.&Tech..
Dr. Ge is in charge of the team’s funding resource and team management.
Dr. Yi Zhan is a Student Affair Officer in College of Life Sci. & Tech., Huazhong University of Sci.&Tech.. He got his PhD at Huazhong University of Sci.&Tech..
Dr. Zhan is in charge of the instruction of team project and experiment design.
Ms. Qian Xie is a Student Affair Officer in College of Life Sci. & Tech., Huazhong University of Sci.&Tech.. She is in her final year of her MPA class.
Ms. Xie is in charge of the team human practice and student team member management.
This is the first time that I participate in the iGEM competition and this is definitely part of the most impressive experience in my life. iGEM speeded up my growth, forced me to know about my own limits and most importantly, motivated me to keep pursuing better and more interesting goals.
I'm entering my junior year at HUST in bioscience and. In the team, I am in charge of arranging experiments and standardizing parts. It's really an agreeable and unforgettable experience to be in such an amazing team and fight together with so many amazing teammates.
Firstly, I am responsible for all of the experiments of copper-sensitive promoter-PcusC, some jobs of another promoters PcoA, especially verification of copper-sensitive promoter.
Secondly, I am nearly in charge of all the events about teams communication as a representative of our team. This summer, I participated The iGEM Conference in Taiwan and the Central China iGEMers’ Consortium in HZAU. Besides, I received the iGEMers from SCAU. Above all, I am responsible for communicating with the Fishermen Wharf team to accomplish the safety part.
Thirdly, I recruited two Art Designers and asked one of my friends to help us design and make the toolkit-RBC.
I’m a senior in HUST Life School and I’m going to be a PhD student in structure biology. . Although I was new to iGEM, I was soon attracted by the idea and principle of synthetic biology. In our team, I mainly responsible for circuit designing, vector constructing, protein expression and data collection. I love doing experiment and can always have fun from it.
This is my senior year at HUST in biological science, and I’m honored to say that this is my third year to be an iGEMer. This year, I’m in charge of constructing two expression vectors in our Instructor, writing documents and giving presentation. It's really a great and unforgettable experience to be in such an amazing team and fight together with so many amazing people.
I am a senior student in biotechnology. And this is the second year for me to be a member of iGEM-HUST.I am responsible for constructing several vectors which are core of this year's project. This is amazing to stand a chance to work with these excellent people!
I am a senior student in biotechnology. I am responsible for constructing vectors used in our worker. I am honored to become an iGEMer to take part in such interesting competition.I got a lot during the process, knowledge, experiment skills, friendship and so on. It gives me a beautiful memories of my university.
In iGEM hust, I’ve experienced how to consummate an idea, how to complete a task using my own mind. For constructing a plasmid with Ompc and CBP/His, approximately 3 months was spent because of a tiny error; for the growth curves of E. coli with vectors containing different genes, we work all day. One year, we worked together for one aim. To my team members, my dear friends, I’d like to say lucky to be with you.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.
With the development of industry, copper is in increasingly great demand in our society, thus many countries are raising the production to meet the demands. [1] However, copper smelting, processing and electroplating and other industrial production processes produce a lot of sewage containing copper ion and some other contaminants, such as cyanide and fluoride. Pollutants of different sources of wastewater are listed in table 1. Copper ion, cyanide and fluoride are marked in red to highlight the severity of these three pollutants.