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| − | <p> Lan is a fish farmer from Yuen Long, rearing Acontium, Redbelly Tilapia and mud carp. Algal blooms often occur when her ponds become turbid, causing her some fish to lose their appetite. She suspected it to be caused by toxic substances from algae. However, she admitted that certain species, including Bighead carps, feed on algae. Lan confesses that it is hard to strike a balance between algae and the toxin concentration. With her current means, she can only clear out an entire pond just to disinfect it with sunlight and tea ash. | + | <p> Lan is a fish farmer from Yuen Long, rearing Aconitum, Redbelly Tilapia and mud carp. Algal blooms often occur when her ponds become turbid, causing her some fish to lose their appetite. She suspected it to be caused by toxic substances from algae. However, she admitted that certain species, including Bighead carps, feed on algae. Lan confesses that it is hard to strike a balance between algae and the toxin concentration. With her current means, she can only clear out an entire pond just to disinfect it with sunlight and tea ash. |
| | </p> | | </p> |
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| − | <p> Lan is a fish farmer from Yuen Long, rearing Acontium, Redbelly Tilapia and mud carp. Algal blooms often occur when her ponds become turbid, causing her some fish to lose their appetite. She suspected it to be caused by toxic substances from algae. However, she admitted that certain species, including Bighead carps, feed on algae. Lan confesses that it is hard to strike a balance between algae and the toxin concentration. With her current means, she can only clear out an entire pond just to disinfect it with sunlight and tea ash. | + | <p>Fig. 1 Lan teaching us on how to use a fish net</p> |
| − | </p> | + | |
| − | | + | |
| | | | |
| | | | |
| | + | <p>Fig2. We were able to experience being a fish farmer in Lan’s fish farm</p> |
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| | + | <p> Mr To, another fish farmer, says fish are highly sensitive to their surroundings and will easily die off from slight and sudden environmental changes. Thus, toxic algal blooms are highly damaging to fisheries. |
| | + | </p> |
| | | | |
| − | <h3>Project Inspiration</h3>
| + | <p>Fig. 3 Team members meeting with Mr To</p> |
| − | <p>Our project is inspired from various aspects, including school lessons, books, news articles hiking trips, and even previous iGEM teams. </p> | + | |
| − | <h4>i. School lessons: </h4>
| + | |
| − | <h5>Chemistry: </h5>
| + | |
| − | <p>We’ve learnt that certain species of cyanobacteria is capable of nitrogen fixation. We understand the ecological importance of nitrogen fixation. Microcystis aeruginosa can carry out metal sorption. However, they also produce neurotoxins and hepatotoxins, microcystin. These cyclic heptapeptides can cause lethal consequences. </p>
| + | |
| | | | |
| − | <img src="https://static.igem.org/mediawiki/2019/1/18/T--HK_SSC--Microcystin.png" style="height:50vh;"/><br> | + | <p>Fig. 4 Algae infested pond at Mr To’s farm</p> |
| − | Fig. 1 Chemical structure of Microcystin-LR | + | |
| − | <h5>Biology:</h5>
| + | |
| − | <p>We have learnt the cellular structure of cyanobacteria. From teachers and text books, we have had a brief understanding in how photosynthesis is carried out in cyanobacteria. More than half of the world’s oxygen is produced via phytoplankton (including cyanobacteria). On the contrary, we are aware that the bloom of cyanobacteria will blocked sunlight and slow down the photosynthesis rate of other water plants. Certain cyanobacteria (including Microcystis) may even produce toxins that inhibit certain enzymes in animals. </p>
| + | |
| − | <img src="https://static.igem.org/mediawiki/2019/f/f5/T--HK_SSC--Microcystis.jpg" style="height:50vh;"/><br>
| + | |
| − | Fig 2. Microcystis Aeruginosa
| + | |
| − | (https://www.usgs.gov/media/images/microcystis-aeruginosa-microscopic-view
| + | |
| − | Accessed on 18/8)
| + | |
| | | | |
| − | <h5>Geography: </h5>
| + | <p> Mr Yeung, owner of Yeung’s Fisheries Ltd, says algal blooms usually occur due to excessive fish excrement in ponds. He stated that there are both toxic and non-toxic algal blooms. He was able to distinguish the difference by the smell of the pond. He told us that the toxic substances produced in algal blooms can remain in the pond for a long period of time. He once experienced massive fish loss which was susceptible to the remains of toxins after an algal bloom. Currently, Mr Yeung uses filter feeder fish and ripe lime powder in addition to sunlight and tea ash when controlling algal blooms. However, he finds all the above methods highly inefficient and inconvenient due to the need to clear out the entire pond.</p> |
| − | <p>Through studies in soil and water sources, we learnt how excessive use of fertilizers create eutrophic waters, which gives rise to cyanobacterial blooms. Teachers also taught us how global warming raises the temperature, which favours the rapid growth of cyanobacteria (especially Microcystis Aeruginosa). </p> | + | |
| | | | |
| − | <h4>ii. News Articles</h4> | + | <p>Fig. 5 Algal bloom in Mr Yeung’s farm</p> |
| − | <p>Cyanobacterial bloom has always been a global concern. Countries from all around the world, especially countries with agricultural industries. New articles from around the world have shown economic losses and environmental damages caused by algal blooms. Severe cases of blue-green algal blooms resulted in the contamination of fresh water sources. Recreational activities in nearby areas have to be banned. Inspired by these articles, we hope to solve the problem of the accumulation of toxic substances produced by harmful algal blooms.</p>
| + | |
| − | <a href="https://www.bbc.com/news/uk-49344232"> UK </a> <br>
| + | |
| − | <a href="https://chinadialogueocean.net/2959-algal-blooms-are-starving-chinas-seas-of-oxygen/"> China </a> <br>
| + | |
| − | <a href="https://www.kwtx.com/content/news/Blue-green-algae-lethal-to-dogs-also-can-affect-humans-547547641.html"> US Texas </a> <br>
| + | |
| − | <a href="https://www.iowapublicradio.org/post/toxic-bacteria-blooms-impacting-water-systems-across-iowa-dnr-survey-shows#stream/0"> US Laowa </a> <br>
| + | |
| − | <a href="https://www.accuweather.com/en/weather-news/vibrant-green-algae-overwhelming-lake-erie-visible-from-outer-space/70008969"> Lake Erie </a> <br>
| + | |
| − | <a href="https://globalnews.ca/news/5660170/saint-john-river-blue-green-algae/"> Canada </a> <br>
| + | |
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| − | <h4>iii. Trips</h4> | + | <h4>Integrating ideas</h4> |
| − | <h5>T-PARK</h5>
| + | |
| − | <p>We visited T-PARK, at Tuen Mun Hong Kong, near Deep Bay. This picture is taken facing Shen Zhen. Oyster fisheries are common there. As seen from the photo, certain areas were found to be green. We were unsure whether the green patches are algae or not, and decided to conduct further investigation. </p>
| + | |
| − | <img src="https://static.igem.org/mediawiki/2019/9/93/T--HK_SSC--GeogFieldTrip.jpeg" style="height:50vh;"/><br>
| + | |
| − | Fig 3. Photo taken in T-Park, Hong Kong
| + | |
| | | | |
| − | <h5>Hiking</h5>
| + | <p>After conducting the interviews and learning about the limitations of current algal bloom control methods, we integrated these ideas into our project and decided to use dCas9 enzyme as it is an efficient platform for gene silencing. Instead of clearing out an entire pond, fish farmers could simply use the enzyme to silence detrimental genes with high efficiency.</p> |
| − | <p>Some team members discovered unusual green patches, which were thought to be algae. We were interested in knowing how these organisms impact our daily lives. As we dwell into this topic, we realized that cyanobacteria can bring both benefits and disadvantages to the ecological system. Therefore, we decided to design a project that minimizes the harms that cyanobacteria may bring. </p> | + | |
| − | <img src="https://static.igem.org/mediawiki/2019/8/86/T--HK_SSC--geog3.jpeg" style="height:50vh;"/><br>
| + | |
| | | | |
| − | Fig 4. Photo taken at Yuk Kwai Shan, Hong Kong by one of our members
| + | <h4>Collecting opinions</h4> |
| | | | |
| − | <h3>Goals of project</h3>
| + | <p>We were also able to collect opinions from fish farm and oyster farm owners. From most of their responses, we understand that revenue is a major concern for fish and oyster farmers. Therefore, using biological means of removing toxins should not cause any harmful effects on fisheries, as it may decrease their value, and such methods should not be costly. </p> |
| − | <p>The goal of our project is to remove Microcystin production from cyanobacteria Microcystis, without lysing or changing other characteristics in the cell. This is because Microcystis has its benefits in heavy metal sorption, supplying us with oxygen and many other more. We aim to maintain these abilities in Microcystis, while silencing its toxin producing gene. </p> | + | |
| | | | |
| − | <h3>Usage of synthetic biology</h3> | + | <h4>Education</h4> |
| − | <p>We used synthetic biology as the in vivo expression system in our design will not affect other species in the aquatic environment. This will pose minimal effects on the environment, while successfully silencing the toxin producing gene. </p>
| + | |
| | | | |
| − | <h3> What is Cyanobacteria? </h3>
| + | <p> During the interviews, we also taught them how to distinguish between cyanobacteria and green algae depending on the appearance and explained how toxins produced by cyanobacteria could be harmful. For example, cyanobacteria can come in red, blue, green and brown. We also educated them on the ecological value of cyanobacteria. </p> |
| − | <p>Cyanobacteria (also known as blue-green algae) are photosynthetic bacteria. They grow in warm, eutrophic freshwaters with sunlight, and obtain their energy through photosynthesis, making them the only photosynthetic prokaryotes. These cells can produce large surface blooms through rapid cell division. They are capable of nitrogen fixation, oxygen synthesis e.t.c. They also act as a food source for animals and insects.</p> | + | |
| | | | |
| − | <h3>What is Microcystis Aeruginosa?</h3>
| |
| − | <p>Microcystis Aeruginosa is one of the most common cyanobacteria, well-known for producing harmful algal blooms by rapid cell division and producing toxins like Microcystin (see section below). However, it has its ecological value of heavy metal ion sorption (including Cadmium, Zinc, Antimony). It also acts as a food source for other species. Besides, it is capable of oxygen synthesis via photosynthesis. </p>
| |
| | | | |
| − | <h3> What is Microcystin? </h3>
| + | <p> Fig. 4 Interviewing and educating local fish farmers about the harms and benefits of algae </p> |
| − | <p>Microcystin are cyclic non-ribosomal peptides synthesized by most strains of Microcystis. With the cell division of Microcystis and sufficient sunlight, large amounts of Microcystin can be produced within a few weeks. It can pollute a whole water source, and eventually affect drinking water. Currently, over 50 different Microcystin peptides have been discovered. In this project, we will be targeting the most common Microcystin, Microcystin-LR. These peptides are a kind of hepatotoxin (toxin that damages the liver). | + | |
| − | They specifically and irreversibly inhibit protein phosphatase PP1 and PP2A in animals and human body, which are responsible controlling muscle contractions, glycogen metabolisms etc. Human illnesses caused by Microcystin ingestion has been recorded, with symptoms of stomach cramps, vomiting, diarrhoea, and pains in muscles and joints. In fact, there was a massive outbreak of acute liver failure in a dialysis centre in Caruaru, Brazil, which was later found to be due to Microcystin contamination. 100 patients developed acute liver failure and 52 died.
| + | |
| | | | |
| − | Microcystin toxin is hard to destroy. It cannot be destroyed by boiling. They are highly soluble in water, and can persist for 21 days to 2-3 months in solution and up to 6 months in dry scum in dark. Guidelines and regulations have been imposed by the United States Environmental Protection Agency and the World Health organization in controlling the concentrations of Microcystin in drinking water. <p>
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| | | | |
| − | <h3>Microcystin Biosynthesis Gene Cluster</h3>
| + | <p> In conclusion, our local fish farmers have informed us on their current methods of algal removal and their various limitations. This has inspired us to make a specific, efficient gene silencing platform in order to meet their needs. In return, we educated them on the ecological benefits of algae. Finally, we would like to wholeheartedly thank all interviewees on generously sharing their experiences with us. |
| − | <p>The Microcystin Biosynthesis Gene Cluster (mcy) is responsible for Microcystin production. The clusters contain enzymes like peptide synthetase and polyketide synthase modules encoded by 10 mcy genes. These enzymes catalyse the formation of the Microcystin peptide. From previous researches, it was found Microcystin could not be produced without the McyB gene. </p> | + | </p> |
| | | | |
| − | <h3> Killing Microcystis Aeruginosa? </h3>
| |
| − | <p> Theoretically, the lysis of Microcystis would lead to no production of Microcystin. However, Microcystis Aeruginosa has its ecological value of heavy metal ion sorption (including Cadmium, Zinc, Antimony) and nitrogen fixation. It also acts as a food source for other species. Besides, it is capable of oxygen synthesis via photosynthesis, supplying us with plenty of oxygen. Without these, the balance in nature could be disrupted and may lead to irreversible effects. </p>
| |
| − | <h3> How should we solve the toxin producing problem without lysing Microcystis? </h3>
| |
| − | <p> We decided to use utilize the in vivo CRISPRi system, involving the a dCas9 enzyme and a sgRNA. dCas9 or ‘dead’ Cas9 is a mutated version of Cas9 that has lost its endonuclease activity - it no longer cleaves double-stranded DNA, instead dCas9 simply binds to it. With the help of a guide RNA, it specifically binds to the target, usually 20 -30 bp , and blocks transcript elongation by RNA polymerase. This silences the gene without altering the cells chromosomes. In this project, we used dCas9-sgRNA to bind to McyB gene. dCas9 enzyme will then serve as a repressor to repress the expression McyB gene. </p>
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| | | | |
| − | <h3>Our Aims</h3> | + | <h4>Special thanks to all interviewees: </h4> |
| − | <center> | + | <p>Mr To Kai Ching |
| − | <img src="https://static.igem.org/mediawiki/2019/e/e1/T--HK_SSC--HomeAim.png" height="300">
| + | Ms Fung Hueng Lan |
| − | </center> | + | Ms Zhou Yin Di |
| | + | Ms So Sam Mui |
| | + | Mr Yeung Sui Leong |
| | + | Mr Chen Tian Cai |
| | + | Mr Chen Ru En |
| | + | Mr Chan Kam To |
| | + | Yeung’s Fisheries Ltd |
| | + | Members of HK Fishpond Conservation Scheme |
| | + | HK Fishpond Conservation Scheme |
| | + | Members of Greenpeace HK |
| | + | </p> |
| | | | |
| | </body> | | </body> |
| | </html> | | </html> |
Human practices
The main goals of our human practices are to know more about the different stakeholders regarding algal blooms, educate them about the ecological value of cyanobacteria and gather their opinions on our project. To achieve this, we conducted 11 interviews with local fish and oyster farmers, with some recorded below.
.
Lan is a fish farmer from Yuen Long, rearing Aconitum, Redbelly Tilapia and mud carp. Algal blooms often occur when her ponds become turbid, causing her some fish to lose their appetite. She suspected it to be caused by toxic substances from algae. However, she admitted that certain species, including Bighead carps, feed on algae. Lan confesses that it is hard to strike a balance between algae and the toxin concentration. With her current means, she can only clear out an entire pond just to disinfect it with sunlight and tea ash.
Fig. 1 Lan teaching us on how to use a fish net
Fig2. We were able to experience being a fish farmer in Lan’s fish farm
Mr To, another fish farmer, says fish are highly sensitive to their surroundings and will easily die off from slight and sudden environmental changes. Thus, toxic algal blooms are highly damaging to fisheries.
Fig. 3 Team members meeting with Mr To
Fig. 4 Algae infested pond at Mr To’s farm
Mr Yeung, owner of Yeung’s Fisheries Ltd, says algal blooms usually occur due to excessive fish excrement in ponds. He stated that there are both toxic and non-toxic algal blooms. He was able to distinguish the difference by the smell of the pond. He told us that the toxic substances produced in algal blooms can remain in the pond for a long period of time. He once experienced massive fish loss which was susceptible to the remains of toxins after an algal bloom. Currently, Mr Yeung uses filter feeder fish and ripe lime powder in addition to sunlight and tea ash when controlling algal blooms. However, he finds all the above methods highly inefficient and inconvenient due to the need to clear out the entire pond.
Fig. 5 Algal bloom in Mr Yeung’s farm
Integrating ideas
After conducting the interviews and learning about the limitations of current algal bloom control methods, we integrated these ideas into our project and decided to use dCas9 enzyme as it is an efficient platform for gene silencing. Instead of clearing out an entire pond, fish farmers could simply use the enzyme to silence detrimental genes with high efficiency.
Collecting opinions
We were also able to collect opinions from fish farm and oyster farm owners. From most of their responses, we understand that revenue is a major concern for fish and oyster farmers. Therefore, using biological means of removing toxins should not cause any harmful effects on fisheries, as it may decrease their value, and such methods should not be costly.
Education
During the interviews, we also taught them how to distinguish between cyanobacteria and green algae depending on the appearance and explained how toxins produced by cyanobacteria could be harmful. For example, cyanobacteria can come in red, blue, green and brown. We also educated them on the ecological value of cyanobacteria.
Fig. 4 Interviewing and educating local fish farmers about the harms and benefits of algae
In conclusion, our local fish farmers have informed us on their current methods of algal removal and their various limitations. This has inspired us to make a specific, efficient gene silencing platform in order to meet their needs. In return, we educated them on the ecological benefits of algae. Finally, we would like to wholeheartedly thank all interviewees on generously sharing their experiences with us.
Special thanks to all interviewees:
Mr To Kai Ching
Ms Fung Hueng Lan
Ms Zhou Yin Di
Ms So Sam Mui
Mr Yeung Sui Leong
Mr Chen Tian Cai
Mr Chen Ru En
Mr Chan Kam To
Yeung’s Fisheries Ltd
Members of HK Fishpond Conservation Scheme
HK Fishpond Conservation Scheme
Members of Greenpeace HK
