Molecular Diagnos/cs I- DNA

Question 1

Open reading frame vs long stretches of genetic material

Answer 1

Only the coding region: w/ exons (introns spliced out). “Coding sequence of gene”

Question 2

Huntington’s Disease

Answer 2

1st to be mapped

Autosomal dominant

Giant repeats on chromosome 4

Question 3

SNPs

Answer 3

“typos” in replicated DNA strand

Can have no effect or can cause disease

Question 4

Restriction endonucleases

Answer 4

Isolated from bacteria- cut DNA at specific sites (bacteria can rearrange genome). Ideally we want overhangs

Question 5

Ligases

Answer 5

“gluing” DNA together

Much easier w/ compatible cohesive ends. Creates phosphodiester bond

Where? Inside nucleus on lagging strand

Question 6

Restriction sites

Answer 6

5-6 base pairs that are very specific. If DNA endonuclease doesn’t cut what you expect, then maybe it’s not there

Question 7

Parts of plasmid

Answer 7

(Usually) 2 restriction sites

Antibiotic resistance gene (AMP): stuff that doesn’t have our DNA won’t grow cause it needs AMP gene to survive in media

Origin of replication (where DNA polymerase binds)

Question 8

cDNA

Answer 8

DNA copy of mRNA

• no introns
• much smaller than original gene
• requires reverse transcriptase

Question 9

Steps of PCR

Answer 9

Heat, cool to anneal primers, replicate DNA

Question 10

PCR applications

Answer 10

HIV: get RNA–>cDNA, amplify it and run on gel. p21 is usually what you are looking for

CSI: compare blood samples on gel. Utilizes naturally occuring short tandem repeats (STR), non-coding regions of repeat sequences (useful for paternity tests etc)

Looking for disease: if restriction enzymes don’t cut what you were expecting, there were probably mutations from a disease that messed up cutting spots

Question 11

Microarrays

Answer 11

Can look at pathways and expression

Allows for thousands of genes to be identified at the same time

mRNA–>cDNA–>put onto microarray (both the normal cell and ‘cancerous’ cell will be hybridized and put onto microarray. The small DNA fragments will match up and bind to complimentary strands that are on the glass slide

Green=only normal cell
Red=only cancer cell
Yellow=both
Black=nothing

Question 12

qPCR

Answer 12

Do PCR in presence of fluorescent dye. Only activated when samples binds to complimentary base pairs. Camera is above test tubes and you get signal that is corresponding to how much DNA was there. How much dye=how much DNA we started with.

Sample that needs less cell cycles to get to same fluorescent point tells us that it is over-expressing a certain gene

Lower Ct number (cycle number)=tells us it took less round of PCR to get same amount of signal so the original product of mRNA was in greater concentration

Question 13

To measure the activity of every gene in a cell or tissue, use a DNA microarray chip

Answer 13

True

Question 14

Restriction endonucleases are for DNA

Answer 14

True

Question 15

Sickle cell= pt mutation causes loss of restriction site

Answer 15

True