Difference between revisions of "Team:SCAU-China/HP/Silver"

Latest revision as of 03:24, 3 December 2016

SCAU

Silver

Our human practices involve in several aspects including biosafety, social activity and public education. Our aSTARice is a genetically-modified organism, (GMO), so our work focuses on promotion of the knowledge for GMO and survey on people's concern about GMO.

1. Self-improvement

First of all, we should make sure that we ourselves have correct understanding on the GMO issue, therefore, we took part in some lectures about GMO and food security.

We attended the lecture given by Jianping Kou from the Department of Science, Technology and Education of the Minstry of Agriculture of China; Min Lin from the Institute of Biotechnology of Chinese Academy of Agricultural Sciences; Yongning Wu from the Key Laboratory of Food Safety Risk Assessment, Ministry of Health of China. In this talk, we obtained a lot of information in analysing GMO. In this lectures, we knew that transgenic food sold in market are safe because they were tested by many relevant departments and labs for many years. So far, only few transgenic products have permission to enter Chinese market. After lecture, we communicated with these scientists about new technologies used in transgenic researches.

To get a better understanding about agriculture, we joined the Sixth Asian Conference on Precision Agriculture as volunteers.

2. Innovation and Entrepreneurship Forum

As most undergraduate students have no idea about how to carry out a biological project correctly, we held an Innovation and Entrepreneurship Forum in our college. We gave a speech on our projects and the ways to do our biological research. Our forum attracted more than 300 students and most of them were impressed in our project.

3. Laboratory Open Day

As many freshmen in our are eager to learn more about biological researchs in labs, we held a Laboratory Open Day for high school students, college students to visit our lab. We introduced the function of different equipments and showed them our video and posters. Our efforts might enhance the understanding of science and technology, so the students may love science and work on science in the future.

4. Guideposts Making

Our university is quite large and contains several districts, the visitors always get lost in our campus. To help new students in finding their directions, we made many "iGEM guideposts" and placed them in different corners of our campus. We wanted to provide convenience for others. Meanwhile, we could also popularize scientific knowledge.

5. Biological graffiti painting

The dormitory area of many students in our university is far away from the main campus. we have to cross a boring as well as dark tunnel to reach our lab or library. In this year, our university sponsored an event to beautify the tunnel. We participated in this activity and painted a part of this tunnel. Our graffiti showed a large plant cell and its organelles.

6. Video making

To introduce our team and synthetic biology in a simple way, we made the videos and posters in a cheerful and colorful way.

if you cant's see the vedio,click here to download

7. Risk assessment

We used rice as a bioreactor to produce astaxanthin, and hope the aSTARice can serve as a food in human's daily life, so we are very cautious about the safety of aSTARice.

We believe that risks are mainly embodied in the following two aspects: one is that the encoding products of marker genes might be potentially toxic and allergenic for human or livestock. Antibiotic genes might be transferred into gut microbes' genome of humans or animals, increasing the resistance of the microbes to the antibiotics, and which results in reducing the effectiveness of antibiotics in clinical treatment; the other one is that marker genes could be spread through pollens or in other methods into other organisms, which is called genetic drift. Genetic drift can transfer antibiotic genes to weeds or other plants, which is threatening the ecological environment now.

In order to reduce the side effects of antibiotic marker genes, we use a technique called selectable marker-free technique in the project, so the final aSTARice is a marker-free transgenic plants (MFTPs). We design a Cre-LoxP based side-direct recombinant system to knock out hygromycin phosphotransferase gene, minimizing the effect of the selectable maker gene.

In order to reduce the risk of genetic drift as well as the threat to the ecological environment, we add isolation area to surround the experimental fields. By isolating the transgenic rice, we reduce the possibility of genetic drift caused by the transfer of the pollen, sufficiently guaranteeing the safety of the project. What's more, we are also analyzing coding products by HPLC and trying to make sure that there is no harmful products in our rice.

Rice was chosen as the chassis though it isn't included in the white line, but we checked-in with the official website in the beginning. Because we are the first team who choose rice as chassis, we have to assess the safety for rice.

Rice is the self-pollinated plant, the probability of crossing is just 1%, and the distance of the effective spread of rice pollen is hardly beyond 1 meter.

The phenomenon of pollen escape is the main way which leads to the flow of exogenous gene of transgene plants. Recently, the researches of transgene plants verified that the exogenous gene of transgene plants will flow to the same species or weeds and even the conventional species. As iGEMers, we took safety into consideration carefully so that we consulted plentiful papers, and then we found a conclusion that under the close distance less than 1% adjacent non-genetically modified plants would take place gene flow. If we increase the distance to 5~10 meters, the probabilities decrease to 0.001%~0.0001%, which means nearly no gene flow would happen in theory. When planting rice, we follow the safe regulations of transgenic plants strictly, to reduce the risk of gene flow.

8. Laws & regulations

The credibility of the policy about "aSTARice" transgenic rice project:

The Chinese government makes great effort to manage the safety of agricultural GMO, and has formed a set of laws which are suitable for Chinese domestic situation and consistent with international convention of laws and regulations, technical regulations and management system and has achieved remarkable results in accordance with the implementation of safety management.

(1) The legal system: the agricultural GMO safety management regulations, the measures for the administration of agricultural GMOs safety assessment, the safety measures for the administration of import of agricultural GMOs, the identification measures for the administration of GMOs, the agricultural genetically modified organisms processing measures for examination and approval, the inspection and quarantine measures for the administration of entry and exit of GMO products.

(2) The administrative management system: joint inter-ministerial meeting, agricultural genetically modified organisms safety management leading group, the provincial administrative department of agriculture, municipal (county) level administrative department of agriculture.

(3) Technical support system, safety evaluation, detection, monitoring and technical standards.

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 			<div class="h1_font_size">Silver</div>
-			<div class="p_font_size"  style="text-indent:0em" >Our human practice work involved several questions relating to biosafety, social justice and public acceptance. Our aSTARice is actually a genetically-modified organism, so our work focuses on people's concern about GMO (genetically modified organisms).</div>
+			<div class="p_font_size"  style="text-indent:0em" >Our human practices involve in several aspects including biosafety, social activity and public education. Our aSTARice is a genetically-modified organism, (GMO), so our work focuses on promotion of the knowledge for GMO and survey on people's concern about GMO.</div>
 <br>
 			<div class="h2_font_size">1. Self-improvement</div>
-			<div class="p_font_size">First of all, we should make sure that we ourselves have correct understanding on this question. Because of this, we took part in some lectures about transgenic.</div>
+			<div class="p_font_size">First of all, we should make sure that we ourselves have correct understanding on the GMO issue, therefore, we took part in some lectures about GMO and food security. </div>
 			<div class="row" style="margin-top:20px">
 				<div class="col s6" align="right">
@@ Line 103: / Line 109: @@
 				</div>
 				<div class="col s6">
-					<div class="p_font_size">The first lecture was given by Jianping Kou, who is the director of the Department of "genetically modified organisms safety management and Intellectual Property  Office" from "Department of Science, Technology and Education" in MOA(Minstry of Agriculture) of China, and Min Lin, who is the director of Institute of Biotechnology of CAAS(Chinese Academy of Agricultural Sciences). In this lecture, we got to know that transgenic food sold in market are absolutely safe because they were tested by many relavent departments and labs in valid as well as scientific ways for many years. And up to now, only a few kinds of transgenic products have been given permission into Chinese market. After lecture, we communicated with these scientists about new technologies uesd in transgenic researchs.</div>
+					<div class="p_font_size">We attended the lecture given by Jianping Kou from the Department of Science, Technology and Education of the Minstry of Agriculture of China;  Min Lin from the Institute of Biotechnology of Chinese Academy of Agricultural Sciences; Yongning Wu from the Key Laboratory of Food Safety Risk Assessment, Ministry of Health of China. In this talk, we obtained a lot of information in analysing GMO. In this lectures, we knew that transgenic food sold in market are safe because they were tested by many relevant departments and labs for many years. So far, only few transgenic products have permission to enter Chinese market. After lecture, we communicated with these scientists about new technologies used in transgenic researches.</div>
 				</div>
 			</div>
 			<div class="row" style="margin-top:20px">
 				<div class="col s6">
-					<div class="p_font_size">Apart from that, we also took part in a talk given by Yongning Wu, who is the director of "Key Laboratory of Food Safety Risk Assessment, Ministry of Health" belonging to China National Center forFood Safety Risk Assessment (CFSA). In this talk, we obtained a lot of information in analysing GMO.</div>
-					<div class="p_font_size">As we are working to create a new kind of crop, we think we should also know more about agriculture, so we joined in The Sixth Asian Conference on Precision  Agriculture as voulnteers.</div>
+<br>
+					<div class="p_font_size">To get a better understanding about agriculture, we joined the Sixth Asian Conference on Precision Agriculture as volunteers.</div>
 				</div>
 				<div class="col s6" align="center">
@@ Line 116: / Line 123: @@
 			</div>
-			<div class="h2_font_size">2. Innovative and venture talk</div>
+			<div class="h2_font_size">2. Innovation and Entrepreneurship Forum</div>
-			<div class="p_font_size">As most undergraduate students have no idea about how to carry out a biological project correctly, we held a talk on innovative and venture in our college. We gave a speech about our two projects and our ways to do biological research, such as how to get papers from some databases and how to communicate with professors. Our talk attracted more than 300 students and most of them were impressed by our fantastic ideas.</div>
+			<div class="p_font_size">As most undergraduate students have no idea about how to carry out a biological project correctly, we held an Innovation and Entrepreneurship Forum in our college. We gave a speech on our projects and the ways to do our biological research. Our forum attracted more than 300 students and most of them were impressed in our project.</div>
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-			<div class="h2_font_size">3. Open day of laboratory</div>
+			<div class="h2_font_size">3.  Laboratory Open Day</div>
 			<div class="row" style="margin-top:20px">
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 			</div>
-			<div class="p_font_size">As many freshmen in our college are eager to learn more about biological researchs in labs, we held this open day activity for freshmen in our lab. We led those freshmen students to visit our lab, introduced the function of different equipments and showed them our team video and posters. For many among them, it was their first time to visit an advanced biological lab so that many students were strongly impressed by our well-managed lab.</div>
+			<div class="p_font_size">As many freshmen in our are eager to learn more about biological researchs in labs, we held a Laboratory Open Day for high school students, college students to visit our lab. We introduced the function of different equipments and showed them our video and posters. Our efforts might enhance the understanding of science and technology, so the students may love science and work on science in the future.</div>
-			<div class="p_font_size">Several months later, a group of high school students from many famous middle schools in Guangzhou came to visit our university. Our college decided to open our lab for visiting and we took charge of this open day again. We tried our best to make this open day a success, for the reason that many of those young high school students might be impressed by this experience and make their decision to work in science and engineering in the future.</div>
+<br>
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-			<div class="h2_font_size">4. Making guideposts</div>
+			<div class="h2_font_size">4. Guideposts Making</div>
-			<div class="p_font_size">Our university has quite a large campus, which contains several districts,so it is normal that visitors get lost in our campus. To help new students in finding their directions,we made many "iGEM guideposts" and placed them in different corners of our campus. We want to provide convenience for others.Meanwhile, we also want to popularize scientific knowledge.</div>
+			<div class="p_font_size">Our university is quite large and contains several districts, the visitors always get lost in our campus. To help new students in finding their directions, we made many "iGEM guideposts" and placed them in different corners of our campus. We wanted to provide convenience for others. Meanwhile, we could also popularize scientific knowledge.</div>
 			<div class="row" style="margin-top:20px">
 				<div class="col s7" align="center">
@@ Line 158: / Line 166: @@
 			</div>
-			<div class="h2_font_size">5. Making biological graffiti</div>
+			<div class="h2_font_size">5. Biological graffiti painting</div>
 			<div class="row" style="margin-top:20px">
 				<div class="col s4" align="center">
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 				<div class="col s8">
-					<div class="p_font_size">Many students of our university reside in dormitory which is far away from the main campus. If we want to go to our lab or library, we have to cross a culvert,which is dark and boring. In this year, College of art of SCAU ( South China Agricultural University ) sponsored an beautification of this culvert. We participated in this activity and painted a part of this culvert. Our graffiti showed out a big plant cell and its ultra-structure.</div>
+					<div class="p_font_size">The dormitory area of many students in our university is far away from the main campus. we have to cross a boring as well as dark tunnel to reach our lab or library. In this year, our university sponsored an event to beautify the tunnel. We participated in this activity and painted a part of this tunnel. Our graffiti showed a large plant cell and its organelles.</div>
 					<div class="row" style="margin-top:20px">
 						<div class="col s6" align="center">
@@ Line 176: / Line 184: @@
 			</div>
-			<div class="h2_font_size">6. Making iGEM video</div>
+			<div class="h2_font_size">6. Video making</div>
 			<div class="row" style="margin-top:20px">
 				<div class="col s1"></div>
 				<div class="col s10">
-					<img alt="image" class="img-responsive col s11" src="https://static.igem.org/mediawiki/2016/5/54/T--SCAU-China--Silver14.png">
+					<div align="center">
+						<img alt="image" class="img-responsive" src="https://static.igem.org/mediawiki/2016/5/54/T--SCAU-China--Silver14.png">
+					</div>
 				</div>
 			</div>
-			<div class="p_font_size">To most college students, science is always not as attractive as sports or computer games, but why can’t we show science in a cheerful and colorful way? For this reason, we made this video to introduce our team and synthetic biology in a simple way.</div>
+			<div class="p_font_size">To introduce our team and synthetic biology in a simple way, we made the videos and posters in a cheerful and colorful way.</div>
 					<!--(放上我们的视频T--SCAU-China--HP-video.wmv）-->
+			<div align="center">
+			<video class="video-js vjs-default-skin vjs-big-play-centered" controls preload="auto" width="640px" height="480px" poster="">
+				<source src="https://static.igem.org/mediawiki/2016/8/8c/T--SCAU-China--HP-video.mp4" type='video/mp4' />
+				<!--<source src="https://static.igem.org/mediawiki/2016/8/81/T--SCAU-China--HP-video1.webm" type='video/webm' />-->
+			</video>
+			</div>
+			<div align="center">
+				<a href="https://static.igem.org/mediawiki/2016/8/8c/T--SCAU-China--HP-video.mp4" > if you cant's see the vedio,click here to download</a>
+			</div>
+</div>
 			<br>
 			<div class="h2_font_size">7. Risk assessment</div>
-			<div class="p_font_size">As our project is using the rice as a bioreactor to produce astaxanthin, and we also hope that aSTARice can serve as a kind of food in human’s daily lives, so we are very concerned about the safety of aSTARice.</div>
+			<div class="p_font_size">We used rice as a bioreactor to produce astaxanthin, and hope the aSTARice can serve as a food in human's daily life, so we are very cautious about the safety of aSTARice.</div>
 <br>
-			<div class="p_font_size">We believe that risks are mainly embodied in the following two aspects : one is that the encoding products of marker genes might be toxic and allergenic potentially for human or livestock. Antibiotic gene might be transferred into gut microbes’ genome of humans or animals, increase the resistance of the microbes of the antibiotic, thus result in reducing the effectiveness of antibiotics in clinical treatment ; the other one is that marker genes could be spread through pollens or other methods into other organisms, which is called genetic drift. Genetic drift can transfer antibiotic genes to weeds or other plants,which is threatening the ecological environment.</div>
+			<div class="p_font_size">We believe that risks are mainly embodied in the following two aspects: one is that the encoding products of marker genes might be potentially toxic and allergenic for human or livestock. Antibiotic genes might be transferred into gut microbes' genome of humans or animals, increasing the resistance of the microbes to the antibiotics, and which results in reducing the effectiveness of antibiotics in clinical treatment; the other one is that marker genes could be spread through pollens or in other methods into other organisms, which is called genetic drift. Genetic drift can transfer antibiotic genes to weeds or other plants, which is threatening the ecological environment now.</div>
 <br>
-			<div class="p_font_size">In order to reduce the effects of antibiotic marker gene, we use a technique called selectable marker-free technique in the project, so the final aSTARice is an marker-free transgenic plants(MFTPs). We design a Cre-loxP based side-direct recombinant system to knock out hygromycin phosphotransferase gene, minimizing the effect of the selectable maker gene.</div>
+			<div class="p_font_size">In order to reduce the side effects of antibiotic marker genes, we use a technique called selectable marker-free technique in the project, so the final aSTARice is a marker-free transgenic plants (MFTPs). We design a <em>Cre-LoxP</em> based side-direct recombinant system to knock out hygromycin phosphotransferase gene, minimizing the effect of the selectable maker gene.</div>
 <br>
-			<div class="p_font_size">In order to reduce the risk of genetic drift as well as the threat to the ecological environment, we add isolation area to surround the experimental fields. By isolating the transgenic rice, we reduce the possibility of genetic drift duel to the transfer of the pollen, sufficiently guaranteeing the safety of the project. Whats more, we are also analyzing  coding products by HPLC and trying to make sure that there is no harmful products in our rice.</div>
+			<div class="p_font_size">In order to reduce the risk of genetic drift as well as the threat to the ecological environment, we add isolation area to surround the experimental fields. By isolating the transgenic rice, we reduce the possibility of genetic drift caused by the transfer of the pollen, sufficiently guaranteeing the safety of the project. What's more, we are also analyzing coding products by HPLC and trying to make sure that there is no harmful products in our rice.</div>
 <br>
-			<div class="p_font_size">Rice was chose as the chassis though it isn’t included in the white line, but we checked-in with the official website in the beginning. Because we are the first team who choose rice as chassis, we have to asses the safety for rice.</div>
+			<div class="p_font_size">Rice was chosen as the chassis though it isn't included in the white line, but we checked-in with the official website in the beginning. Because we are the first team who choose rice as chassis, we have to assess the safety for rice.</div>
 <br>
-			<div class="p_font_size">Rice is the self-pollinated plant so that the gemotype in the individuals is pure and homogeneous. The probabilities that two flowers take place cross-pollinated are just 1%，and the distance of the spread of rice pollen is hardly beyond 1 meter.</div>
+			<div class="p_font_size">Rice is the self-pollinated plant, the probability of crossing is just 1%, and the distance of the effective spread of rice pollen is hardly beyond 1 meter.</div>
 <br>
-			<div class="p_font_size">The phenomena of pollen escape are the main ways which lead to the flow of exogenous gene of transgene plants. Recently, the reaches of transgene plants verified that the exogenous gene of transgene plants will flow to the same species or weeds and even the conventional species. As igemers, we took safety into consideration carefully so that we saw plentiful papers, and that we found a conclusion that under the close distance less than 1% adjacent non-genetically modified plants take place gene flow. If we increase the distance to 5~10 meters, the probabilities decrease to 0.001%~0.0001%, which will not happen in theory. when planting rice, we follow seriously the safe regulations of transgene plants so we have faith that it is impossible for gene flow come up under this plant distance.</div>
+			<div class="p_font_size">The phenomenon of pollen escape is the main way which leads to the flow of exogenous gene of transgene plants. Recently, the researches of transgene plants verified that the exogenous gene of transgene plants will flow to the same species or weeds and even the conventional species. As iGEMers, we took safety into consideration carefully so that we consulted plentiful papers, and then we found a conclusion that under the close distance less than 1% adjacent non-genetically modified plants would take place gene flow. If we increase the distance to 5~10 meters, the probabilities decrease to 0.001%~0.0001%, which means nearly no gene flow would happen in theory. When planting rice, we follow the safe regulations of transgenic plants strictly, to reduce the risk of gene flow.</div>
 <br>
-			<div class="h2_font_size">8. Laws&regulations </div>
+			<div class="h2_font_size">8. Laws & regulations </div>
-			<div class="p_font_size">The credibility of the policy about “aSTARice” transgenic rice project:</div>
+			<div class="p_font_size">The credibility of the policy about "aSTARice" transgenic rice project:</div>
 <br>
-<div class="h3_font_size">8.1 The world health organization</div>
-			<div class="p_font_size">In 2002, the world health organization claimed in "20 questions about genetically modified food". All of the genetically modified products as so far in the international market have passed the risk assessment by the national authorities. These different assessments in general follow the same basic principles, including the environment and human health risk assessment. These assessments are transparent, they did not show any risk for human health.</div>
+			<div class="p_font_size">The Chinese government makes great effort to manage the safety of agricultural GMO, and has formed a set of laws which are suitable for Chinese domestic situation and consistent with international convention of laws and regulations, technical regulations and management system and has achieved remarkable results in accordance with the implementation of safety management.</div>
 <br>
-			<div class="h3_font_size">8.2 The United Nations</div>
+			<div class="p_font_size">(1) The legal system: the agricultural GMO safety management regulations, the measures for the administration of agricultural GMOs safety assessment, the safety measures for the administration of import of agricultural GMOs, the identification measures for the administration of GMOs, the agricultural genetically modified organisms processing measures for examination and approval, the inspection and quarantine measures for the administration of entry and exit of GMO products.</div>
-			<div class="p_font_size">The United Nations food and agriculture organization in 2003-2004 in "the food and agriculture condition report” clearly pointed out that the current existed modified crops and food is safe, the method used to test its safety is appropriate. So far, there is no safety accident caused by eating genetically modified crops. Millions of people eat the food derived from genetically modified crops, mainly maize, soybean and rape seed, but did not find any adverse effect.</div>
 <br>
-			<div class="h3_font_size">8.3 The European</div>
+			<div class="p_font_size">(2) The administrative management system: joint inter-ministerial meeting, agricultural genetically modified organisms safety management leading group, the provincial administrative department of agriculture, municipal (county) level administrative department of agriculture.</div>
-			<div class="p_font_size">In 2009, the transgenic group of European food safety authority set out an authoritative scientific opinion about herbicide resistant and insect-resistantcrops that in terms of impact on the environment of human and animal health, gm is the same safe as non-gm, without any harm to health and the environment.</div>
 <br>
-			<div class="h3_font_size">8.4 The United States</div>
+			<div class="p_font_size">(3) Technical support system, safety evaluation, detection, monitoring and technical standards.</div>
-			<div class="p_font_size">In 2010, the United States national academy of sciences claimed in “the influence on American agricultural sustainability ”. In general, compared to traditional agriculturaltechnology for American farmers, genetically modified has created a huge environmental benefits and economic benefits.</div>
-			<div class="p_font_size">The world health organization, the United Nations food and agriculture organization, the us food and drug administration and other international organizations and authorities have said the current approval of commercialization of transgenic food is safe and edible.</div>
-<br>
-			<div class="h3_font_size">8.5 China:</div>
-			<div class="p_font_size">The Chinese government attaches great importance to the management work of the safety of agricultural genetically modified organisms, has formed a set of law which is suitable for China's national situation and consistent with international convention of laws and regulations, technical regulations and management system. As a result, it has achieved remarkable resultsin accordance with the implementation of safety management.</div>
-<br>
-			<div class="p_font_size">( 1 ). The legal system: the agricultural genetically modified organisms safety management regulations, the measures for the administration of agricultural genetically modified organisms safety assessment, the safety measures for the administration of import of agricultural genetically modified organisms, the identification measures for the administration of agricultural genetically modified organisms, the agricultural genetically modified organisms processing measures for examination and approval, the inspection and quarantine measures for the administration of entry and exit of genetically modified products.</div>
-<br>
-			<div class="p_font_size">( 2 ). The administrative management system: joint inter-ministerial meeting, agricultural genetically modified organisms safety management leading group, the provincial administrative department of agriculture, municipal (county) level administrative department of agriculture.</div>
-<br>
-			<div class="p_font_size">( 3 ). Technical support system, safety evaluation, detection, monitoring and technical standards.</div>
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