Skip to Main Content Area
Biology Curriculum
Browse Learning Outcomes
Daedalus Help:
Currently there is no help available for this page.
Tags to narrow search
(tags which would result in an empty result are excluded from display)
:
#adaptation
(2)
#animal
(1)
#animal behaviour
(2)
#anthropogenic impact
(1)
#biochemistry
(2)
#biodiversity
(2)
#bioinformatics
(1)
#biological interactions
(1)
#chromosomes
(1)
#conservation
(1)
#data
(1)
#diversity
(1)
#ecology
(2)
#ethics
(1)
#evolution
(3)
#field methods
(1)
#forensics
(3)
#form & function
(1)
#gene
(1)
#gene flow
(1)
#gene regulation
(2)
#genetic drift
(1)
#genetically modified organisms
(1)
#genetics
(4)
#genomics
(4)
#heredity
(1)
#homology
(1)
#life history
(1)
#macroevolution
(1)
#marine mammals
(1)
#microevolution
(1)
#model(s)
(1)
#molecular biology
(5)
#molecular evolution
(2)
#morphology
(1)
#mutation
(2)
#observations
(1)
#phylogenetics
(3)
#phylogeography
(1)
#physiology
(1)
#population genetics
(3)
#populations
(1)
#protein
(2)
#proteomics
(1)
#recombination
(1)
#replication
(1)
#reproduction
(2)
#RNA
(1)
#sampling
(1)
#sexual selection
(1)
#society
(1)
#speciation
(1)
#surveys
(1)
#systematics
(1)
#systems biology
(1)
#taxonomy
(2)
#transcription
(2)
#translation
(2)
Selected tags:
#DNA
#biotechnology
deselect all
Explain and illustrate the fundamental biochemistry required in the application of modern techniques of molecular biology: (i) screen complementary (cDNA) and genomic libraries to identify and clone specific DNA (gene) sequences; (ii) DNA sequencing
[
BIOL 2030
]
Understand the basic principles of DNA technology/Biotechnology, its applications and the ethical and societal implications of this technological revolution
[
multiple courses
]
Understand the concepts and role genetics plays in conservation of marine mammals
[
BIOL 3090
]
Describe how to cut/modify DNA
[
BIOL 3036
]
Design DNA primers that could be used for targeted amplification of specific DNA segments via PCR.
[
BIOL 3042
]
Explain how DNA sequence data are used to identify species, and how this methodology has developed into a new subdiscipline of taxonomic science known as ‘DNA barcoding’
[
BIOL 3042
]
Know the history of molecular biology and recombinant DNA
[
BIOL 3036
]
Outline basic features of newer methods of DNA sequencing and how they have initiated an important shift from ‘population genetics’ to ‘population genomics’
[
BIOL 3042
]
Outline newer variations of PCR, quantitative PCR (qPCR) and reverse transcription PCR (RT-PCR), and their applications in molecular ecology
[
BIOL 3042
]
Describe DNA microsatellites, the models of how they mutate, and their uses in population genetics, pedigree analyses, behavioural ecology and forensic analyses
[
BIOL 3042
]
Understand the importance of molecular evolution in the post-genomic era, and be able to explain this to non-specialists.
[
BIOL 3046
]
Daedalus Menu
Browse
Courses
Learning Outcomes
User login
Username:
*
Password:
*
Create new account
Request new password
