LAB PRACTICAL #1 REVIEW
MOLECULAR PHYLOGENY
Learn the process and utility of DNA barcoding
- Barcodes distinguish between different species with one group because they show the
variation and difference in each DNA sequence
- During the process of DNA barcoding, discrete gene loci are chosen as barcode regions,
then unique DNA primer sets are determined that used to amplify these same regions
across a range of species by the polymerase chain reaction (PCR), the result will be
sequenced and compared
- Several barcoding primers:
o GMOs: The primers amplify a 190 base pair fragment of the EPSPS gene
o Fungi: The primers amplify a 560 base pair fragment that is an
internal transcribed spacer that surrounds the 5.8S ribosomal RNA gene
o Plants: The primers amplify a 600 base pair fragment of the chloroplast gene rbcL
o Animals: The primers amplify a 700 base pair fragment of the mitochondrial
cytochrome c oxidase subunit 1 gene
o Prokaryotes: The primers amplify a 1500 base pair fragment that is within the 16S
rDNA, that encodes for the 16S ribosomal RNA
Steps to PCR
- Denaturation - 94-98°C, separates the template DNA into single strands
- Annealing - 55-70°C, allows primers to bind to the template with their specific
complementary sequences
- Extension - 65-72°C, allows the DNA polymerase to build complementary
DNA extending from each primer 3'OH
Analysis of barcoding PCR products
- The size of the fragments produced from the PCR reaction will be determined
by comparing their migration to the migration of a marker, which is also run on the gel
and has fragments of a known size
- When plotting the log graph for analysis, treat it like a normal graph
o Include graph title, x-axis, and y-axis with units and a legend for
when there are multiple lines/bars
- X-axis should be the distance traveled (cm) and y-axis should be the
size of the DNA fragment/marker (bp)
- The distance of a fragment of DNA moves into the gel is inversely
proportional to the size of the fragment in bp
o Which means a smaller sized fragment would more likely to
travel further
Learn pros and cons of how to detect genetically modified foods
- Arguments in favor GMOs:
o Agricultural: Increased yield, and the ability to feed an ever-growing population
, o Environmental: Reduced use of pesticides, herbicides, and fuel
o Nutritional: Improved quality of food
o Disease prevention: Foods that work like edible vaccines
- Arguments against GMOs:
o Exposure to possible allergens and toxins
o Harm to the environment if not contained
o Antibiotic resistance
o The spread of introduced genes to non-target plants by outcrossing and pollen
drift
How many primers does it take to amplify a single PCR product?
- It takes 2 different primers to amplify a single PCR product because one primer for
each end of the sequences is needed (3' and 5')
Learn the types of DNA modification
- Deletion: Occurs if the detached fragment of DNA does not reattach to the original DNA
sequence
o Becomes obvious when then the lengths of the two DNA sequences are different
(one is shorter than the other)
o Example: Species A has a DNA sequence of ATGCGTTCGA and species B has a
DNA sequence of ATGCCGA. Here, the sequence “GTT" is being deleted
- Duplication: Occurs if the detached fragment of DNA is duplicated and both copies end
up in the DNA sequence
o Becomes obvious when the lengths of the DNA sequences are different
o May produces more bases
o Example: Species A has a DNA sequence of CTGGATATG and species B has a
DNA sequence of CTGGATGATATG. Here the sequence of “GAT" is being
duplicated and repeats twice in the DNA sequence
- Inversion: Occurs if the detached fragment of DNA reverses its orientation and attaches
back to the DNA sequence
o No obvious length difference detected
o Example: Species A has a DNA sequence of AGGCATTCA and species B has a
DNA sequence of AGGTACTCA. Here, the sequence "CAT" (starting from the
4th base) is reversed and attaches back to the original sequence
MOLECULAR PHYLOGENY
Learn the process and utility of DNA barcoding
- Barcodes distinguish between different species with one group because they show the
variation and difference in each DNA sequence
- During the process of DNA barcoding, discrete gene loci are chosen as barcode regions,
then unique DNA primer sets are determined that used to amplify these same regions
across a range of species by the polymerase chain reaction (PCR), the result will be
sequenced and compared
- Several barcoding primers:
o GMOs: The primers amplify a 190 base pair fragment of the EPSPS gene
o Fungi: The primers amplify a 560 base pair fragment that is an
internal transcribed spacer that surrounds the 5.8S ribosomal RNA gene
o Plants: The primers amplify a 600 base pair fragment of the chloroplast gene rbcL
o Animals: The primers amplify a 700 base pair fragment of the mitochondrial
cytochrome c oxidase subunit 1 gene
o Prokaryotes: The primers amplify a 1500 base pair fragment that is within the 16S
rDNA, that encodes for the 16S ribosomal RNA
Steps to PCR
- Denaturation - 94-98°C, separates the template DNA into single strands
- Annealing - 55-70°C, allows primers to bind to the template with their specific
complementary sequences
- Extension - 65-72°C, allows the DNA polymerase to build complementary
DNA extending from each primer 3'OH
Analysis of barcoding PCR products
- The size of the fragments produced from the PCR reaction will be determined
by comparing their migration to the migration of a marker, which is also run on the gel
and has fragments of a known size
- When plotting the log graph for analysis, treat it like a normal graph
o Include graph title, x-axis, and y-axis with units and a legend for
when there are multiple lines/bars
- X-axis should be the distance traveled (cm) and y-axis should be the
size of the DNA fragment/marker (bp)
- The distance of a fragment of DNA moves into the gel is inversely
proportional to the size of the fragment in bp
o Which means a smaller sized fragment would more likely to
travel further
Learn pros and cons of how to detect genetically modified foods
- Arguments in favor GMOs:
o Agricultural: Increased yield, and the ability to feed an ever-growing population
, o Environmental: Reduced use of pesticides, herbicides, and fuel
o Nutritional: Improved quality of food
o Disease prevention: Foods that work like edible vaccines
- Arguments against GMOs:
o Exposure to possible allergens and toxins
o Harm to the environment if not contained
o Antibiotic resistance
o The spread of introduced genes to non-target plants by outcrossing and pollen
drift
How many primers does it take to amplify a single PCR product?
- It takes 2 different primers to amplify a single PCR product because one primer for
each end of the sequences is needed (3' and 5')
Learn the types of DNA modification
- Deletion: Occurs if the detached fragment of DNA does not reattach to the original DNA
sequence
o Becomes obvious when then the lengths of the two DNA sequences are different
(one is shorter than the other)
o Example: Species A has a DNA sequence of ATGCGTTCGA and species B has a
DNA sequence of ATGCCGA. Here, the sequence “GTT" is being deleted
- Duplication: Occurs if the detached fragment of DNA is duplicated and both copies end
up in the DNA sequence
o Becomes obvious when the lengths of the DNA sequences are different
o May produces more bases
o Example: Species A has a DNA sequence of CTGGATATG and species B has a
DNA sequence of CTGGATGATATG. Here the sequence of “GAT" is being
duplicated and repeats twice in the DNA sequence
- Inversion: Occurs if the detached fragment of DNA reverses its orientation and attaches
back to the DNA sequence
o No obvious length difference detected
o Example: Species A has a DNA sequence of AGGCATTCA and species B has a
DNA sequence of AGGTACTCA. Here, the sequence "CAT" (starting from the
4th base) is reversed and attaches back to the original sequence
