Difference between revisions of "Team:UMaryland/Practices"

Revision as of 16:37, 17 September 2015

Grand View Farms

As our project deals with alternatives to antibiotics as plasmid maintenance, we wanted to learn how and why others avoid using antibiotics in their industries. As the large majority of antibiotics used in the United States are used in farms INSERT SOURCE HERE, we decided to meet directly with farmers who choose to avoid antibiotics. In addition to learning about their rationale for using alternatives, these trips also helped inform us of the potential applications of our work with the Hok-Sok system.

Grand View Farms is a certified organic farm in Maryland that does not administer sub-therapeutic doses of antibiotics to their animals, uses no pesticides, and grows as few genetically modified crops as possible. Instead of using pesticides and antibiotics, the farm's owners employ classical crop and animal rotation methods in order to keep the soil healthy This explains why they don't use fertilizer, not why they don't use antibiotics or pesticides. As different animals consume different plants, they argued, rotating livestock through the land naturally maintains a healthy balance of growth and soil nutrients, while suppressing harmful weeds. Additionally avoiding repeatedly growing the same crop on one section of land prevents depletion of nutrients in the soil.<-- again, fertilizer, not pesticides or antibiotics

Interestingly, the owners of Grand View Farms did not express any particular ethical or health concerns with GMO crops. Instead, they informed us that, for a farm of their size, having an organic label made them more profitable and allows them to compete better with larger, more industrial farms.

*One a side note, some hungry members of our team sampled the farms ribs, eggs, and vegetables, and according to them, the farms practices have only improved the taste of the food.*

INSERT CAPTION HERE

Montgomery County Fair

In mid-August, we sent some members to the Montgomery County Agricultural Fair to canvas the site. The MoCo Fair witnesses the annual meeting and celebration of farmers, artist, craftsman, carnival rides, and pie cooking contests. We interviewed the fair-goers – farmers, high school students, county executives, and everyone in between – about their opinions and concerns about GMOs using a carefully crafted electronic survey. In keeping with our dedication to sustainable practices, and in response to our conversation with the owner of Grand View Farm, we gathered information from the general populace to better understand and navigate the misconceptions and ethical limitations our local community associates with bioengineered consumables.

*Put pictures here*

2015 East Coast Regional Meetup

Last July, we hosted a meetup of several iGEM teams from around the Mid-Atlantic region in order to meet other teams in our area. Our plans were to facilitate interlab connections and collaboration, learn from each others' successes and struggles, and gain valuable insights on synthetic biology.

We were grateful to have representatives from the College of William and Mary, the University of Virginia, Duke University, and Rock Ridge High School come and meet us!

Click here to read about the meetup

Survey

Over the summer, we sent out surveys in order to analyze the public's knowledge on GMOs and to inform us about how the expansion of community labs and DIY biology would be received by local communities.

Click here to read about our survey

Human Practices Related to Side Projects

Eye Opening Interviews

We visited the Wilmer Eye Institute, a part of Johns Hopkins University, in order to learn about the current conditions of age-related macular degeneration (AMD), its symptoms, and its treatments.

Baltimore, Maryland

We met with a researcher who studies the causes of AMD, Dr. Noriko Esumi. She currently studies retinal pigment epithelium (RPE) and how it relates to AMD. After giving her an explanation of what iGEM is and why we were choosing to study lutein production, she told us that, while her experience with lutein itself was limited, she was well informed about retinal health and some of the causes of macular degeneration. *Not necessary*RPE is a cell type that nourishes retinal visual cells. They provide the nutrients since photoreceptors are avascular, they have no blood vessels for direct nutrient uptake. RPE also collects waste from photoreceptor cells and excretes them into the circulatory system to be filtered out. The RPE acts as a mediator for nutrient and waste transfer. RPE is significant because there are two types of AMD, the wet-type and the dry type. The wet type involves the overgrowth of blood vessels, structurally impairing the eyes. This is easier to treat with medication and injections of antibody to help stop cell growth. Dry type, where RPE cells begin to die, is far more common and there is no treatment.*Not necessary* Macular Degeneration has been attributed to a few factors: smoking, immune responses based on bacterial infections, genetics, and, most commonly by far, aging. It has been dubbed an age-related disease, hence why it is known most commonly as AMD instead of simply macular degeneration. Dr. Esumi works on studying the RPE and its specialization. She studies the genes unique to the RPE and the transcription factors associated to help answer the question of why are these unique genes only expressed in the RPE and nowhere else in the body? She also focuses mainly on the aging process of cells. Without aging AMD will not develop, she argued. However, she also shared that she agrees that lutein is an effective vitamin supplement to help maintain and improve ocular health. She shared with us a study where a group of scientists tested a variety of cells in hope of finding a common gene that could be attributed to aging. While this gene was not found, the did find a common sequence in the promoter region of these cells, NFkappaB. A certain transcription factor related to inflammation loves this sequence as a binding site. Drawing from this study, Dr. Esumi experiments with mice. She allows transgenic mice, and naturally-aging mice to age for two years and studies AMD development in them. She also uses these mice to study inflammation patterns and whether exposure to oxidative stress (smoking) increases risk of AMD. All in all, we learned a lot about the potential to eradicate AMD as an affliction, the importance of RPE, and that lutein is a useful supplement for maintaining healthy eyes.

Columbia, Maryland

We also interviewed an ophthalmologist from a branch of the Wilmer Eye Institute. Our next interview was with Dr. Nosheen Ahmed. While Dr. Esumi had more experience with the tissue cells that cause AMD when dysfunctional, Dr. Ahmed had more experience with the disease itself, its symptoms, its common treatments, how it affects the lives of patients, etc. From the interview with Dr. Ahmed, we learned: AMD often results from waste products building up in the eyes with age. This correlates with RPE malfunction. A trend noticed in AMD patients, is that they tend to be more affected or more susceptible to the condition the lesser pigmentation they have in the eyes, it correlates with UV exposure. Dr. Ahmed discussed a series of two studies known as AREDS (age related eye disease study) I and II. The second set of studies actually discussed lutein and zeaxanthin as feasible vitamin supplements to apply to AMD especially in the case of dry type. In accordance with the information provided by Dr. Esumi, Dr. Ahmed also explained the dry type has no significant treatment. She also added that it develops more slowly than wet type. Wet type AMD can be treated with cancer drugs to reduce tissue cell proliferation. Originally these drugs were specific to colon cancer but drugs have been more recently developed to specialize in treatment for the RPE. However, this aforementioned treatment is stressful as it requires injections into the eye every 4-8 weeks. The average age of risk is 50-60 years. AMD had various stages, it can jump from Stage I (minor) dry directly to wet type in some severe cases. A good prevention for those who have risk factors for AMD is a change in lifestyle habits, ex. quitting smoking or less computer use (blue light does damage), and eating a healthier diet. Optometrists recommend a lot of leafy greens and dark vegetables, which do contain lutein. The AREDS study found a formulation of vitamins that prevent AMD progression from Stage III to wet type, this included lutein in the mix. Dr. Ahmed concluded that not many studies has been done with lutein but there is a consensus it has a positive effect on AMD. She also discussed that many patients will not recognize AMD as it develops. As the vision decreases or spotting occurs, they think they may only need glasses. More research is needed for the disease and potential treatments as well as vitamins like lutein which can help.

Bioprocess Scale-up Facility

*Put pictures heere*

@@ Line 197: / Line 197: @@
 <h3 style="font-size:24px;text-align:justify;"> Baltimore, Maryland </h3>
 <br>
-<p style="font-size:18px;text-align:justify;">We met with a researcher who studies the causes of AMD, Dr. Noriko Esumi. She currently studies retinal pigment epithelium (RPE) and how it relates to AMD. After giving her an explanation of what iGEM is and why we were choosing to study lutein production, she told us that, while her experience with lutein itself is limited, she would be more than willing to answer all of our questions. All we had to do was ask what her research involved and it sparked a long, information-rich conversation.
+<p style="font-size:18px;text-align:justify;">We met with a researcher who studies the causes of AMD, Dr. Noriko Esumi. She currently studies retinal pigment epithelium (RPE) and how it relates to AMD. After giving her an explanation of what iGEM is and why we were choosing to study lutein production, she told us that, while her experience with lutein itself was limited, she was well informed about retinal health and some of the causes of macular degeneration.
-From the meeting with Dr. Esumi, We learned the following:
+<b>*Not necessary*</b>RPE is a cell type that nourishes retinal visual cells. They provide the nutrients since photoreceptors are avascular, they have no blood vessels for direct nutrient uptake. RPE also collects waste from photoreceptor cells and excretes them into the circulatory system to be filtered out. The RPE acts as a mediator for nutrient and waste transfer.
+RPE is significant because there are two types of AMD, the wet-type and the dry type. The wet type involves the overgrowth of blood vessels, structurally impairing the eyes. This is easier to treat with medication and injections of antibody to help stop cell growth. Dry type, where RPE cells begin to die, is far more common and there is no treatment.<b>*Not necessary*</b>
-RPE is a cell type that nourishes retinal visual cells. They provide the nutrients since photoreceptors are avascular, they have no blood vessels for direct nutrient uptake. RPE also collects waste from photoreceptor cells and excretes them into the circulatory system to be filtered out. The RPE acts as a mediator for nutrient and waste transfer.
-RPE is significant because there are two types of AMD, the wet-type and the dry type. The wet type involves the overgrowth of blood vessels, structurally impairing the eyes. This is easier to treat with medication and injections of antibody to help stop cell growth. Dry type, where RPE cells begin to die, is far more common and there is no treatment.
 Macular Degeneration has been attributed to a few factors: smoking, immune responses based on bacterial infections, genetics, and, most commonly by far, aging. It has been dubbed an age-related disease, hence why it is known most commonly as AMD instead of simply macular degeneration.
 Dr. Esumi works on studying the RPE and its specialization. She studies the genes unique to the RPE and the transcription factors associated to help answer the question of why are these unique genes only expressed in the RPE and nowhere else in the body?