This had the potential to significantly impact all flight experiments given that proposing teams were designing their experiments with refrigeration in mind. Colby and jaquan are growing batteria hp pavilion. If the development of the spiders in space is good, we hope that it will lead to more experiments using a variety of animals hatching from eggs. Co-Principal Investigators: Marianne Warwick and Nora Pehrson. These bacteria are capable of hydrolyzing polyethylene, a hydrocarbon polymer. If the astronauts were able to grow their own food on the space station, this cost would be almost eliminated.
Arthrobacter is a genus composed of bioremediators: microorganisms that remove pollutants from the environment. In addtion, we want to determine if water in romaine lettuce and the lack of oxygen affects the growth of bacteria. Eventually the species name was changed to reflect the man who discovered the bacteria, hence Escherichia coli. Solved by verified expert. This can help in many ways such as producing food chains or possibly having fresh food such as chicken eggs in space. Co-Principal Investigators: Elijah Graham, Shamar Martin, and Naseeb Mirza. Type 2 diabetes has very little insulin being formed. Colby and jaquan are growing bacteria called. 5% sucrose in distilled water) until orbit, when they will be mixed. Grade 9; La Plata High School. Fitchburg, Massachusetts.
Now that space travel is becoming more common, we must take more precaution to ensure the safety of our astronauts from the smallest of killers. Since there is a significant amount of radiation on the ISS; the experiment that will be conducted on earth will be at a radiation lab at MD Anderson hospital working with Dr. Pinsky from University of Houston; so that it can be infused with the same amount of radiation that is on the ISS. Colby and jaquan are growing bacteria robustly tune. Co-Investigators: Khalim Dyer, Ashley Singh, and Khalil Hamilton. A colony of bacteria is grown under ideal conditions in a laboratory so that the population increases exponentially with time. THE REST OF THE STORY (welcome to the world of REAL spaceflight): In the midst of formal selection of the Mission 1 to ISS flight experiments, NanoRacks informed NCESSE that NASA had to alter an important constraint on Aquarius, the Mission 1 experiments payload. This study examines the effects of microgravity on the rate of which cells heal, specifically the cell membrane. By analyzing the DNA fingerprints, we will determine if significant degradation has occurred, changing the DNA fingerprint of the bacteria. The experiment will only be conducted for 30 days so the insulin will last.
Cactuses are incredible organisms due to their diverse beneficial features such as: the growing of penicillin on the roots, excellent source of carbohydrates and minerals, great endurance to harsh conditions, great for human hydration, and the recently found feature of using cactus mucilage to purify water. Teacher Facilitator: Sara Timmer, B. We are also experimenting on the rusting of iron in space. We hope to answer these questions by studying microgravity's effect on the growth rate of Staphylococcus epidermidis.
This research could prove to be beneficial for everyone, from those who have already contracted the disease to those who at risk of contracting the disease, including astronauts on the ISS and medical practitioners in hospitals throughout the world. Teacher Facilitator: Rebecca Mitchell, 5th Grade Teacher. We will be testing the possible use of its mucilage to clean water contaminated with chromium, in space. Charles County, Maryland. When something is in microgravity it is in a constant free fall, so it will constantly be moving the solution of grape juice and yeast. Next, we will place one half in each FME. Once the nanotube arrives safely in space, we will be checking the growth of bacteria. On January 30, 2012, 12:30 am EST, NanoRacks informed NCESSE that Soyuz 30, the Aquarius launch vehicle, failed a critical pressurization test (see February 1, 2012, SSEP National Blog post). West Hills, California. We will observe and measure the size of the spider in millimeters, its color and the physical development of body parts (i. e. number of legs). Enjoy live Q&A or pic answer. Protein crystals grown in space are of higher quality than those grown on Earth.
Luckily, for all three communities a second flight experiment was identified and NanoRacks agreed to fly two experiments for each of these communities. Also to be emphasized is the stability of genetic information, to ensure generations of the fungi can continue. We can say it is 30 Rs two. The experiment we propose is to study the growth of Balcer's Yeast or S. cerevisiae in a microgravity (OG) environment. Co-Investigators: Chiana Balcaitis, Chastity Ortiz, and Devin Rowe. Finally, one wish bone half will be flown in a chamber into space. This proposal focuses on the growth and uses of fungi in microgravity, specifically the Oyster Mushroom, Pleurotus ostreatus. This experiment will be focusing on the possible purification of the water found on the moon. Opuntia ficus-indica (Indian fig prickly pear) is a superb candidate for spaceflight given that it is edible, has known medicinal properties and is able to thrive in harsh environments. Principal Investigator: Emily H. Soice. The damage applied to the cell membrane must be sub-lethal, so no cell organs are damaged. Fibroblast Division in Microgravity. For example, 5i is an imaginary number, and its square is −25.
Mushrooms have been proven to destroy oil, pests, and toxins. Upon return to normal gravity, the cell growth and formation will be compared with the control group that has been developed in normal gravity, both with and without TGFB3 infusion into the growth medium. Cell division is an integral component of life; all organisms must go through the cell cycle in order to grow, develop, and reproduce. Suppose the culture is started with 20 bacteria cells. As a submitting project, we would like to send up dormant Killifish eggs. The results of this study could have major impacts on the safety of humans in space flight. We are interested in this amazing opportunity to work with the SSEP to determine if bacteria grow, whether it is in space without oxygen or on earth with oxygen present. We hope to learn if the microgravity environment has any affect on hatch rate, male female ratio, color and size, as well as, to see if there are any observable deformities associated with microgravity. The microgravity will constantly be moving the cells in the solution, which we think will either speed up of slow down the process of fermentation. This issue is more important than ever because we know that WHEN we go to Mars, it will take about 21 months (round trip). Teacher Facilitator: Cindy Larson-Miller, High School Science Teacher. To test this, we plan to place two samples of synthetically made blood components in a preservative under controlled conditions. That means that it doesn't represent an actual number but is imaginary.
The experiment will be prepared using an FME type-3. The chemical that damages the cell membrane we require are exotoxins. The Student Spaceflight Experiments Program is proud to report that there were a total of 779 proposals submitted from student teams across the 12 communities participating in Mission 1 to ISS—by far the greatest number of proposals received for a SSEP flight opportunity to date. Whichever solution gave off more Carbon Dioxide is the one that fermented faster than the other. Co-Investigators: Meghan Cholak, Sam Colston, Connor Pickering, and Morgan Sippel. Co-Principal Investigators: Austin Sadler and Justin Sadler. Staphylococcus epidermidis is a common cause for infection and disease in hospitals on Earth. The experiment could also be a base for the testing of Hay Bacillus as an antibiotic, as it was used for cures to colon diseases like dysentery and as an immune system stimulant. There are two types of diabetes: Type 1 diabetes, which has no insulin being produced by the pancreas.
The second strain will have a mutated daf-2 gene which has been observed to double the lifespan of C. elegans and increase the lifespan of other species, including humans. Crop a question and search for answer. This experiment will be testing the effect of microgravity on reproduction of curli producing E. coli O157:H7 438950R. A culture of bacteria doubles every 2 hours: If there are 100 bacteria at the beginning; how many bacteria will there be after 12 hours? We will be putting processed romaine lettuce and homemade white bread, without any preservatives, into the nanotubes. To test our experiment, the fibroblasts will be exposed to microgravity as they grow and proliferate; simultaneously, an identical experiment will be held to serve as a control. Co-Investigator: Jamila Spears. When the one from space returns, we will measure the affects of microgravity on the bone and compare it to the sample on earth in an effort to see if liquid Vitamin C did preserve bone density. We chose yeast because it is readily available, may be transported in a dormant state and activated easily.