Worksheet Week 7
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University of Guelph *
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309
Subject
Biology
Date
Jan 9, 2024
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4
Uploaded by BarristerHummingbirdMaster241
Worksheet Week 7
Submit this worksheet to the Dropbox by Oct 20 at 11:00 AM
1.
Indicate the amount of each of the components needed to make a 40 ml 0.5% (w/v) agarose gel.
Amount needed (include units)
5X Tris-acetate buffer
8 mL
Agarose
0.0125 mL
dH
2
0
31.9875 mL
2.
You have isolated genomic DNA in a 50
l final volume. You add 5
l of the DNA solution
to 1 ml final volume and measure the OD
260
of the to be 0.01. How much DNA is in the
cuvette and how much do you have in total?
5 ul -> 0.005 ml
DF = 0.005 + 1 /0.005
50 x 0.01 x 201
100.5
3.
Indicate with an “yes” or “no” whether the technique is able to provide the indicated
information.
Electrophoresis
Spectroscopy
Distinguish supercoil versus linear plasmid
DNA
Yes
No
Estimate protein contamination
Yes
Yes
Estimate the number of fragments of DNA in a
plasmid digest
No
Yes
Determine whether your DNA sample has
degraded
Yes
Yes
Quantification of the amount of DNA present
in a sample
No
Yes
How does a nanodrop spectrophotometer differ from a conventional spectrophotometer?
NanoDrop is able to scan samples through the 220-750nm range while other spectrophotometer
do not. Less prep and clean up time. They use small samples 2 ul drops and can measure several samples
in a minute.
4.
Review the sequences that can be obtained from each type of library using this chart by placing
an X in the column if the library contains the indicated element. To help you, consider whether
the source could be used as a template for a PCR to recover the indicated element.
Genomic
library
cDNA
library
Genetic element
Yes
Yes
Exons
Yes
Yes
5’ UTR
Yes
Yes
ORF (open reading frame)
Yes
No
Introns
Yes
Yes
A collection of all sequences in an organism (ideally)
Yes
No
Centromeric repeat sequences
Yes
No
Promoter elements
No
Yes
Coding sequences
Yes
No
Intergenic sequences
Yes
Yes
3’ UTR
Yes
No
A collection of all transcribed sequences in a specific group of cells of
an organism
5.
This is a challenging question that requires you to think about several past concepts. You
should watch the short video I made before starting this question.
You want to add two different restriction sites to the 5’ and 3’ ends of the sequence
below. (5’ end:
Bam
HI
3’ end:
Xba
I)
a)
Design the two 8 nucleotide primers needed to add these sites to the fragment below
by PCR. You will have to look up the recognition site for each enzyme and recall the
issues mentioned in the video for adding these sites to primers.
Use X’s for any non
-
specific additional nucleotides that are needed.
5’
ATGAGAGTCTCGCCTATGCTCGACGCTGACTGCTCGATC
GTCG 3’
TACTCTCAGAGCGGATACGAGCTGCGACTGACGAGCTAGCAGC
BamHI GGATCC
Xbal
TCTAGA
Forward Primer (written 5’ to 3’): 5’
XXXXXX GGATCC ATG
AGAGTCTCGCCTATGCTCGACGCTGACTGCTCG
3’
Need lead sequence(6-10)
Restriction enzyme
ATG start (forward)
GoI sequence
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