Summer Research

          Throughout the Summer I have been coming in to UAlbany cancer research lab for research almost every Mondays, Wednesdays and Thursdays. My summer project corresponds directly to the project I did during the school year. During the school year we successfully concluded the existence of a new isoform However there are still many grey areas pertaining to "what is real in our gene?" Many online data bases don't coincide with each other. So the project I have been given is to find the "unknown."  Or to find what are the correct isoforms of this gene?
          The method that I will be using is called RACE (rapid amplification of cDNA ends). Primers are adhered to each end of our sequence. They will read in opposite directions, and we will eventually end up with a sequence from end to end.

RNA → PCR (amplify) →poly acritamide gel→sequence 

From online data bases, I predicted the sizes of the isoforms. These predictions will act as a basis in comparison to the results i come up with during the experiments. 

Summer

Now that the school year is finished and I am a high school graduate! I am excited to start working in the same lab during the summer. My mentor Becky and I are arranging times to meet and I am ecstatic to countinue working on my project that I had started my senior year. I have decided to keep up with this blog to the best of my abilitiy and to share my experiences and challenges throughout the next couple of months.

-Iman Ahmed

Final Post!

This will be my final post for this year's STEAM internship program (2015). I have had an amazing experience working with such great people and learning new procedures every week. I never thought I would be able to accomplish the successes I have accomplished this year. I'm glad to say I am very proud of myself! And I am also very excited to continue working in the same lab during the summer.

Questions:

• What were some of your proud moments this year?

From the beginning, I had doubts about whether I would be able to accomplish much through my internship. But I did a lot more than I thought I would be able to. In the end I concluded the existence of a new gene and I found the presence of that gene in various types of cells. It may have took one whole year just to reach a small conclusion, however I also learned techniques and strategies involved in DNA and RNA lab work that I believe will aid me further in my educational career.

• What were some of your challenges this year?

It was very challenging to grasp all the background information about DNA and the process of replication, transformation, etc. I came in every week confused about the process and the different components that I should have known. But as time progressed, I started understanding and the information started coming easier to me. Once I got my routine down pat, I was able to excel in telling other people about it, especially during Reunion weekend.

• What words of the advice do you have for future Signature students?

If I were to give advice to future Signature students, I would say that they should make the most out of this experience because it will go by very quickly.  Don't take the spot of someone who would have worked harder and gotten more out of the internship. Appreciate the learning experience, because out of everyonce who applied, you were chosen to demonstrate what you are capable of. And lastly, ask your mentor questions! It may feel like you don't know much, but in reality you know a lot more than you think. Asking questions is going to further enhance what you already know. You learn from mistakes, so don't feel like you can't make any.

-Iman Ahmed '15

 

Gel Extraction and Transformation

Gel Extraction:

After we have cut and dissolve our DNA from the gel, we can then add ethonal so the DNA falls out and we also add special beads to bind to the DNA so it can separate and stay at the bottom of the test tube. After that we can dissolve the DNA in free water. And we have now successfully extracted our DNA!
                                                     
 DNA can be added to a plasmid or a topovector, which will allow us to insert our DNA into bacteria during the process of transformaiton. This procedure is also called ligation.

Transforamtion:

Transformation is used to "get more DNA." When the plasmid is added to the bacteria, the bacteria grows and the plasmid, containing our targeted DNA, will grow with it.

1) thaw the bacteria
2) add ligation to bacteria
3) incubate ligation and bacteria on ice for 30 min.
4) heat shock > at a higher temp. the bacteria will expand to release heat. And when it is expanded, the plasmid has the ability to travel inside the bacteria. Then the temp. decreases again and the bacteria closes, capturing the plasmid inside.
5) plate the bacteria > the bacteria is given time to grow, and the bacteria with antibiotic resistance will be the only ones left living for our use.

plating the bacteria

bacteria after growth

                                             




Next week we are looking forward to getting the sequencing results, which will give us the neucleotide base sequence of our gene of interest, answering the first part of my project...
Is gene 5 a real gene?
         

February 6, 2015

     Since last week's electrophoresis gel was not very successful, we re-did the procedure and hoped for better results. My mentor crated the solutions again that way I had time to re-imbed the gel with our DNA, and take it down to examine under the UV light.
     Thankfully, our gel worked this time and we were able to see the DNA bands under the UV light. We cut out the bands of DNA and saved them in test tubes, and later I will use them in gel extraction and sequencing further down my project.

     Then after that we went to work on isoform 3. Since these cells were already ready to be put into the cell all we had to do was add lipids to the membrane of the DNA to ensure that the plasmid would be engulfed ny the cell. If the DNA did not have a lipid membran the cell would not take in the DNA that we want it to. With the plasmid we are also going to add an antibiotic resistance and then when we need to we can add antibiotic to our cells and the ones that live are the ones that obsorbed the plasmid with DNA. and those are the cells that will benefit us in our experiment.

Milestone 4

Annotated Bibliography:

• "Roles of RNA in Cells." Umassmed.edu. Accessed December 9, 2014. http://www.umassmed.edu/rti/biology/role-of-rna-in-cells/.

-provides a background to my project

• "Long Noncoding RNA MALAT1 Regulates Endothelial Cell Function and Vessel Growth." Ncbi.nlm.nih.gov. April 25, 2014. Accessed December 9, 2014. http://www.ncbi.nlm.nih.gov/pubmed/24602777.

-also provides a background to my project

• Garbiyan, L., & Acashia, N. (2013). Polymerase Chain Reaction. Journal of Investigative Dermatology. http://www.nature.com/jid/journal/v133/n3/full/jid20131a.html

                -Polymerase Chain Reaction article 

• "DNA Sequencing." Biotechnology Learnign Hub. Newzeland.govt.nz 2007 http://biotechlearn.org.nz/themes/dna_lab/dna_sequencing
  
  

              - DNA sequencing article 

Reflection:

This whole internship experience has been very challenging, but at the same time also very rewarding. Working in a traditional based lab taught me a lot of the basics required, for example, how to pipette or always wear gloves when working with ethidium bromide. But apart from that, the project that i am working on, especially since i am quite new to this whole experience, has required a lot of patience and persistance, not only from me but form my mentor as well. In the beginning it took a little time to absorb and understand the cell's inner chemistry, or why this solution was being added to this tube etc. However once tha information was processed I began working my own portion of the experiment. At this point my mentor trusted me enough to let me carry out my own lab experiments each day I came in. Of course she was there to answer any question that I had. I think that my project is progressing at a steady rate nd hopefully I will be able to keep that pace up with my mentor's help. 

January 16, 2015

Today I sat down with my mentor to speak about my indivisual project that I will be working on. First my project will consist of the question,
     what is the difference between cancerous and non-cancerous cells?
1) to design better treatments.
2) stop pre-cancerous cells before they become harmful.
3) stop treating non invasive breats cancer cells, so we have time to spend on cancerous patience.

Our lab has found a new gene! (gene #5, changed the name for security purposes). We can test this gene by first copying the new gene using RNA extraction, and turning it into DNA to put the DNA with gene #5 into the cell and then observe what happens. But first we need to make sure this wasn't just a fluke. So my job in the lab is to check if this new cell line is an actually exsisting new gene or just an experimental fluke by using the methods of RNA extraction and qPCR.

1. RNA extraction:

• we will have a test tube containing everything from the cell including gene #5. 
• we add primer to attach to only gene #5 
• now we have the gene that we need and to replicate we use polymerase, but we can use RNA poymerase because it dose not work at the temperature of PCR. 
• so first we have to transoform RNA to DNA so we can use DNA polymerase at a lower temperature.  

2. PCR- Polymerase Chain Reaction 

• this process is used to amplify gene #5 at a temperature at 95℃

a) denature 

          b) add primer (short sequence that complements DNA)

          c)  DNA polymerase adds nucleotide bases