Today I observed Matt plating
two different strains of bacteria. Each of his plates was separated into three
sections (the cover of his plate was divided, not the actual gel) and is used
to test a chemical, positive control, and negative control. He uses the
Kirby-Bauer disc diffusion method to treat each area of the plate. After the
plates are left at room temperature for 24 hours and he observes bacteria
growth, he measures the zone of inhibition. He uses this data to observe the effects
of each different chemical, control, or concentration. From what I understand,
he does this same thing pretty much every day in order to practice his
technique and collect data.
He mentioned a couple of things
that could potentially be problems with his project. The first being that the
discs for the antibiotics come pre-soaked with the antibiotic and the other
discs must have the liquid placed on them. He controls for this by making sure
that the rest of his method stays the same. Another thing that he mentioned was
measuring the zone of inhibition. Because the standard method for measuring the
zone of inhibition is done with a ruler and is subject to one’s own opinion,
there is room for bias. He gave the example of rounding down for a control and
rounding up for an experimental zone, if he knew that the control was supposed
to be smaller than the experimental. To control for this, he said that one
could have someone else who does not know which zone is which do the measuring.
This would allow for one to be unbiased in his or her measuring.
His project seems very different
than the one I’m working on. One of the biggest differences that I observed is
the fact that he wants to repeat his experiment many times in order to gather
data which will then be used to draw conclusions, whereas in my project I don’t
necessarily want to repeat my experiments. There are some parts that I would
want to repeat in order to confirm findings, but for the most part I want to be
successful in my different experiments so that I can move forward to other
experiments.
Although our projects are very different, there are a few similiarities. One of the biggest similarities that I found was that both projects are extremely tedious, but in different ways. For Matt’s project he has to do things such as sterilize the tweezers, put a small amount of liquid on a disk, and then place that disk onto his plate. In my project I am often working with small amounts of liquid, placing liquid into very small wells, and observing things under microscopes. We also both work with some of the same equipment such as pipettes and we’ve both plated bacteria as part of our projects.
I’m the kind of person that gets
bored easily, which is why I’m thinking about doing research as a career. Depending
on what one is working on, research can be ever-changing which would help keep
my interest and turn into a career that I love. In the research that I’m
working on, I do something different or new pretty much every day. I may have
to go back and repeat a trial or a technique, but I usually have a couple of
other steps to do in between which means that I’m not doing the exact same
thing every day. In other words, I found it interesting to be able to shadow
another student and learn what their research was about, but I think I’ll stick
with my own project for now.
Thanks for pointing out the extreme tediousness of all research, Jackie! It is an important lesson to learn in all, really. It takes hard work and a lot of patience to be able to do research and that is one of the main things that we can learn from this introductory training. I'm glad that I was able to show you a bit of my research and I hope that it gave you some insight and will help you answer any questions you may come across! If you ever have any further questions or if you want someone to give you some honest questions and opinions you know who to ask.
ReplyDeleteI have seen Jackie at work and have not seen Matt but it does seem apparant that every project has little tedious things to do. Matt's project seems that it is a lot of work collecting all those sets for data but I would like to shadow it sometime and see if it is something that I would ever be interested in doing research on.
ReplyDeleteI shadowed Megan Kittleson who is working with the Kerby-Bauer disk diffusion method as well and I can relate to what you are saying Jackie. I only saw one set of plates that Megan was working on but it is my understanding as well that they both work hard to get as many samples as possible. This is also similar to my work with the fruit flies in that I am running the same test over and over to see trends and eliminate variables.
ReplyDeleteI can understand what it means to have a lot time to do research. For mine, I have to wait at least fourteen hours for my reaction to be completed... and THEN I have to start rotovaporing which could take anywhere from at least an hour or two! If you can handle with all the time in the world to be dedicated to research with the possibility sitting around for hours, then this is the type of work for you.
ReplyDeleteI would agree research takes time, and one of my favorite sayings for J-term has definitely become, "lets hurry up and wait." It has become so true I think for everyone's research. For me, my first week I really didn't do a whole lot because I had to wait for the cells to grow. So coming in I'm all excited to do research, but then like the first five days I didn't really do anything other than count cell through a microscope. I mean it didn't even feel like research. However, by next week I had enough data to be able to propose a model for the the growth rate of our dicty cells. This is one thing that I really enjoy about research, and that is how even something as small as a growth rate seems like gold because you have spent so much time on it.
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