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Biology, Genetics, Gene Expression, Cancer and Gene Regulation
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By the end of this section, you will be able to:Describe how changes to gene expression can cause cancerExplain how changes to gene expression at different levels can disrupt the cell cycleDiscuss how understanding regulation of gene expression can lead to better drug design

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Gene Expression, Eukaryotic Post-transcriptional Gene Regulation
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By the end of this section, you will be able to:Understand RNA splicing and explain its role in regulating gene expressionDescribe the importance of RNA stability in gene regulation

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Gene Expression, Eukaryotic Translational and Post-translational Gene Regulation
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By the end of this section, you will be able to:Understand the process of translation and discuss its key factorsDescribe how the initiation complex controls translationExplain the different ways in which the post-translational control of gene expression takes place

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Gene Expression, Regulation of Gene Expression
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By the end of this section, you will be able to:Discuss why every cell does not express all of its genesDescribe how prokaryotic gene regulation occurs at the transcriptional levelDiscuss how eukaryotic gene regulation occurs at the epigenetic, transcriptional, post-transcriptional, translational, and post-translational levels

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Genes and Proteins, Eukaryotic Transcription
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By the end of this section, you will be able to:List the steps in eukaryotic transcriptionDiscuss the role of RNA polymerases in transcriptionCompare and contrast the three RNA polymerasesExplain the significance of transcription factors

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Genes and Proteins, Prokaryotic Transcription
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By the end of this section, you will be able to:List the different steps in prokaryotic transcriptionDiscuss the role of promoters in prokaryotic transcriptionDescribe how and when transcription is terminated

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Genes and Proteins, The Genetic Code
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By the end of this section, you will be able to:Explain the “central dogma” of protein synthesisDescribe the genetic code and how the nucleotide sequence prescribes the amino acid and the protein sequence

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Meiosis and Sexual Reproduction, Sexual Reproduction
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By the end of this section, you will be able to:Explain that meiosis and sexual reproduction are evolved traitsIdentify variation among offspring as a potential evolutionary advantage to sexual reproductionDescribe the three different life-cycle types among sexual multicellular organisms and their commonalities

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Meiosis and Sexual Reproduction, The Process of Meiosis
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By the end of this section, you will be able to:Describe the behavior of chromosomes during meiosisDescribe cellular events during meiosisExplain the differences between meiosis and mitosisExplain the mechanisms within meiosis that generate genetic variation among the products of meiosis

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Mendel's Experiments and Heredity, Characteristics and Traits
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By the end of this section, you will be able to:Explain the relationship between genotypes and phenotypes in dominant and recessive gene systemsDevelop a Punnett square to calculate the expected proportions of genotypes and phenotypes in a monohybrid crossExplain the purpose and methods of a test crossIdentify non-Mendelian inheritance patterns such as incomplete dominance, codominance, recessive lethals, multiple alleles, and sex linkage

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020
Biology, Genetics, Mendel's Experiments and Heredity, Laws of Inheritance
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By the end of this section, you will be able to:Explain Mendel’s law of segregation and independent assortment in terms of genetics and the events of meiosisUse the forked-line method and the probability rules to calculate the probability of genotypes and phenotypes from multiple gene crossesExplain the effect of linkage and recombination on gamete genotypesExplain the phenotypic outcomes of epistatic effects between genes

Subject:
Applied Science
Biology
Life Science
Material Type:
Module
Author:
Mindy Boland
Date Added:
02/21/2020