Transcription Regulation Ayo Technology Bacteria Entropy…Yippee!! Gellin’ Viruses In Those Genes 200 200 200 200 200 200 200 400 400 400 400 400 400 400 600 600 600 600 600 600 600 800 800 800 800 800 800 800 1000 1000 1000 1000 1000 1000 1000
DAILY DOUBLE Back
DAILY DOUBLE Back
This is the primary carbohydrate that is used within the gel agarose Back
These are used in order to cut the DNA in the right area before it is inserted into the well plate Restriction enzymes Back
This liquid is used in order to assist in the conduction of electricity within the gel chamber buffer Back
This is the electrical cord that is closest to the wells where the DNA is inserted, while this is the electrical cord that is on the opposite side Cathode, anode Back
These are the restriction enzymes that were utilized within our lab Eco RI, Lamb III Back
This be what don’t stop, gets it, gets it, when it binds to mRNA in microarrays cDNA Back
This technique is new age, different from microarrays, and helps amplify DNA samples Polymerase Chain Reaction (PCR) Back
Insulin is what these can make and make if you can control the genes inside of bacteria Bacterial plasmids Back
Spotlights don’t do this justice, only fluorescence is used in order to use this technique Microarray assays Back
We’re not tired of using this technology which involves the use of radioactive probes to help identify proteins Southern blotting Back
Normal cell cycles are regulated by the presence of these Growth factors Back
In order to have an enhanceosome, these two components must come together Activators, enhancers Back
The transcription initiation complex assembles at this region of the eukaryotic gene promoter Back
Triggering the cell cycle to continue Genes that are transcribed as a result of the RAS cell cycle are responsible for this Triggering the cell cycle to continue Back
An inactive p53 gene would most likely result in this cancer Back
These are the two life cycles that viruses undergo Lytic, lysogenic Back
This is the protective capsule found on the outside of a virus capsid Back
This is the enzyme that assists HIV and allows it to replicate Reverse transcriptase Back
This is the process where a virus injects its DNA into a bacteria and hydrolyzes the host’s DNA Generalized transduction Back
Viruses trick to host into helping it to perform these three processes Replication, transcription, translation Back
Conjugation, transformation, transduction These are the three processes of DNA exchange that involve bacteria Conjugation, transformation, transduction Back
These are segments of DNA that move to a different location along the genome transposons Back
This is a form of DNA that can be transferred from one bacteria to another bacteria plasmid Back
Transposons can allow for this to take place Antibiotic resistance Back
The boundaries for transposons in bacteria are known as these Inverted repeats Back
A histone can be wound up into these structures within chromatin nucleosome Back
Histones fold DNA to form these areas nucleosomes Back
These can affect the structure and function of other proteins proteosome Back
Adding these two chemical groups can alter DNA Methyl groups, acetyl groups Back
Antibodies contain these two regions; one in which the genes remain the same, and the other where they are subject to change Constant region, variable region Back
This technology require specific primers in order for it to be successful Polymerase Chain Reaction (PCR) Back
This is the enzyme that helps to fill in the gaps within a sequence when utilizing bacterial plasmids DNA ligase Back
Transformation, ampicillin This is the process that was used in our lab to try to give resistance to this particular compound Transformation, ampicillin Back
This is the study of protein structure, while this is the process of working to create transgenic organisms Proteomics, genetic engineering Back
Altering your particular genome would be this process, while this field of study would also need to be done to figure out the sequence of your genome Gene therapy, bioinformatics Back