1st Edition
BIOL 3451: Genetics
School: University of North Texas (UNT )
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Pages: 20A Study of Gene Expression in Prokaryotes and Eukaryotes, Cancer, Recombinant DNA technology, and Genomics.
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Pages: 4Finished up sequencing techniques and began discussing genomics, bioinformatics, and proteomics.
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Pages: 5Looking at genomic libraries, PCR, and other recombinant DNA techniques.
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Pages: 4A look at the different techniques used in DNA recombination like genomic libraries and how it is useful.
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Pages: 6Finishing up cancer and the different ways in which it can be produced.
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Pages: 5Finish up gene regulation in eukaryotes and begin discussing cancer and cell cycle regulation. Begin discussing cancer and how it is regulated.
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Pages: 6Further discussion of how genes are expressed in eukaryotes.
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Pages: 4Continued discussing how gene expression is regulated in prokaryotes and then began discussing how gene expression is regulated in eukaryotes.
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Pages: 6Discussed the different methods of how genes are regulated in prokaryotes.
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Pages: 4A look at different types of mutations, including those that arise from mutagens like chemical and radiation.
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Pages: 43Comprehensive summary of all of the sections covered in class. Structure of DNA and an in-depth view of the two main processes of DNA: Transcription, Translation
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Pages: 7Finished the varying functions of proteins based on their structure and looked at the complexity of translation in eukaryotes.
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Pages: 5Finished up the variations in genetic code between eukaryotic and prokaryotic cells, then we began discussing the process of translation in respect to the functions of proteins.
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Pages: 4Looked at the studies conducted by Nirenberg and Matthaei that led to many discoveries on how to determine the encoding of amino acids from nucleotide sequences.
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Pages: 4Looked at how the DNA is organized in respect to different kinds of chromatin, how DNA can be repeated differently throughout chromosomes, and different banding patterns on the chromosome.
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Pages: 5Discussed the process of DNA replication in relation to enzymatic function and the differences and similarities between eukaryotic and prokaryotic. We also looked at the specifics of DNA recombination, and how the DNA is organized in eukaryotic and prokaryotic organisms.
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Pages: 4Began discussing the different methods of DNA replication, the enzymes important for separating DNA strands, and how the function of primers.
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Pages: 6Finished up looking at how mitochondria, chloroplasts, and other organelles affect our genetic makeup. Then, began looking at how our DNA is structured and the significance in this.
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Pages: 4Finished up looking at chromosome mutations by discussing fragile X, and other related mutations. Then, we began discussing the different organelles of a cell and how they can alter our DNA as well.
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Pages: 4Finished up discussing sex determination about reptiles and the effects of temperature. Then, we began discussing polyploidy, aneuploidy, and the different types of chromosome mutations.
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Pages: 24An introduction into genetics, a look at Mendelian genetics, chromosome mapping in eukaryotes and bacteria, exceptions to Mendelian genetics, and sex determination of chromosomes.
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Pages: 8Finishing up genetic mapping and analysis in bacteria and bacteriophages. Then, continuing to look at sex determination in humans and other organisms.
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Pages: 4Finished discussing how to map genes on chromosomes in eukaryotes, and then began discussing how genetic mapping works in bacteria.
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Pages: 6A look at gene linkage, different types of crossovers, and genetic mapping in eukaryotes.
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Pages: 4Continued look at the exceptions of Mendelian Genetics including pleiotropy, X-linked genes, and how multiple genes can interact to cause the manifestation of different phenotypes.