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Cell Cycle, Mitosis And Meiosis

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes and eukaryotes. He begins with a description of the lac and trp operon and how they are ...

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes and eukaryotes. He begins with a description ...

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes ...

Cell Cycle, Mitosis And Meiosis

028 - Cell Cycle, Mitosis and Meiosis Paul Andersen explains how the cell cycle is used to create new cells. The creation of identical diploid daughter cells, through mitosis, is described. The creation of unique haploid daughter cells, through meiosis is also described. The importance of cyclin and cyclin dependent kinases to regulate the cell cycle is included. Do you speak another language? Help me translate my videos: www.bozemanscience.com/translations/ All of the images ...

028 - Cell Cycle, Mitosis and Meiosis Paul Andersen explains how the cell cycle is used to create new cells. The creation of identical diploid daughter cells, through mitosis, is described. The creation of unique haploid daughter cells, through meiosis is ...

028 - Cell Cycle, Mitosis and Meiosis Paul Andersen explains how the cell cycle is used to create new cells. The creation of identical diploid daughter ...

Mendelian Genetics

029 - Mendelian Genetics Paul Andersen explains simple Mendelian genetics. He begins with a brief introduction of Gregor Mendel and his laws of segregation and independent assortment. He then presents a number of simple genetics problems along with their answers. He also explains how advances in genetic knowledge may lead to ethical and privacy concerns. Do you speak another language? Help me translate my videos: www.bozemanscience.com/translations/ All of the images are licensed under ...

029 - Mendelian Genetics Paul Andersen explains simple Mendelian genetics. He begins with a brief introduction of Gregor Mendel and his laws of segregation and independent assortment. He then presents a number of simple genetics problems along with their answers. He ...

029 - Mendelian Genetics Paul Andersen explains simple Mendelian genetics. He begins with a brief introduction of Gregor Mendel and his laws of segregation and independent ...

Advanced Genetics

030 - Advanced Genetics Paul Andersen explains important concepts that can not be explained by simple Mendelian genetics. He begins with a discussion of polygenic inheritance and uses a simulation on height to show how a bell shape curve of phenotypes is produced. He then discusses the importance of linked genes and those that are found on the sex chromosome. A simple punnett square showing the inheritance of the color blind gene is included. Do you ...

030 - Advanced Genetics Paul Andersen explains important concepts that can not be explained by simple Mendelian genetics. He begins with a discussion of polygenic inheritance and uses a simulation on height to show how a bell shape curve of phenotypes ...

030 - Advanced Genetics Paul Andersen explains important concepts that can not be explained by simple Mendelian genetics. He begins with a discussion of polygenic inheritance ...

Gene Regulation

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes and eukaryotes. He begins with a description of the lac and trp operon and how they are used by bacteria in both positive and negative response. He also explains the importance of transcription factors in eukaryotic gene expression. Do you speak another language? Help me translate my videos: www.bozemanscience.com/translations/ All of the images are licensed under creative commons and ...

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes and eukaryotes. He begins with a description of the lac and trp operon and how they are used by bacteria in both positive and negative response. He ...

031 - Gene Regulation Paul Andersen explains how genes are regulated in both prokaryotes and eukaryotes. He begins with a description of the lac and trp ...

Signal Transmission And Gene Expression

032 - Signal Transmission and Gene Expression Paul Andersen explains how signal transmission is used to alter both cellular function and gene expression. He uses the example of epinephrine release in humans and how it is used in the fight or flight response. Epinephrine causes liver cells to release glucose that is normally stored as glycogen when they receive the signal of epinephrine. They are also able to create different enzymes when receiving this signal. The ...

032 - Signal Transmission and Gene Expression Paul Andersen explains how signal transmission is used to alter both cellular function and gene expression. He uses the example of epinephrine release in humans and how it is used in the fight or ...

032 - Signal Transmission and Gene Expression Paul Andersen explains how signal transmission is used to alter both cellular function and gene expression. He uses the ...

Genotypes And Phenotypes

033 - Genotypes and Phenotypes Paul Andersen explains how changes in the genotype of an individual can affect the phenotype. He begins with genotype:phenotype::letters:story analogy. He explains how mutations can be neutral, beneficial or harmful. He also explains how mistakes in the cell cycle can lead to disorder, sterility or new species. Do you speak another language? Help me translate my videos: www.bozemanscience.com/translations/ All of the images are licensed under ...

033 - Genotypes and Phenotypes Paul Andersen explains how changes in the genotype of an individual can affect the phenotype. He begins with genotype:phenotype::letters:story analogy. He explains how mutations can be neutral, beneficial or harmful. He also explains ...

033 - Genotypes and Phenotypes Paul Andersen explains how changes in the genotype of an individual can affect the phenotype. He begins with genotype:phenotype::letters:...

Mechanisms That Increase Genetic Variation

034 - Mechanisms that Increase Genetic Variation Paul Andersen describes mechanisms that increase the genetic variation within a population. He begins by discussing how horizontal transfer can move genetic material between bacteria. Transformation, transduction, and conjugation in bacteria are all included. He also explains how crossing over, random assortment, and random fertilization can maintain genetic variation i eukaryotes. He also explains how inbreeding can decrease the fitness of an individual. Do you speak another language? Help ...

034 - Mechanisms that Increase Genetic Variation Paul Andersen describes mechanisms that increase the genetic variation within a population. He begins by discussing how horizontal transfer can move genetic material between bacteria. Transformation, transduction, and conjugation in bacteria are all included. ...

034 - Mechanisms that Increase Genetic Variation Paul Andersen describes mechanisms that increase the genetic variation within a population. He begins by discussing how horizontal transfer ...

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