This is a Video Course on Concepts relating to Gene Regulation.
Topics include: Developing Autism Spectrum Disorder Therapeutics,Cell Cycle Regulation, RNA Editing and RNA-DNA Differences, Genetics of Aging, Telomeres and Telomerase etc.
Disclaimer : The content in this course is educational in nature and intended solely as general health information. It is not a recommendation for treatment or medical advice. It is not a substitute for advice from a health care provider. If you as a patient are experiencing a medical emergency, contact your health care provider or an emergency room.
Course Curriculum
Course Contents | |||
Canine Genetics: Studying Disease Susceptibility and Cancer Risk | 01:30:00 | ||
Developing Autism Spectrum Disorder Therapeutics | 01:00:00 | ||
Engineering bacteria with CRISPR | 01:00:00 | ||
Hardy-Weinberg Equilibrium: Combining Darwinian Evolution and Mendelian Genetics to Study Population Genetics | 01:30:00 | ||
Types of Reproduction: Sexual versus Asexual Reproduction | 01:30:00 | ||
Cell Cycle Regulation | 01:30:00 | ||
Vertebrate Organ Development: The Zebrafish Heart | 01:30:00 | ||
RNA Editing and RNA-DNA Differences | 01:30:00 | ||
Biogenesis and Regulation of microRNA | 01:30:00 | ||
Mechanisms of Chromosomal DNA Replication | 01:30:00 | ||
The SOS Response in Bacteria | 01:30:00 | ||
Telomeres and Human Disease | 01:30:00 | ||
The Kinetochore and Chromosome Segregation | 01:30:00 | ||
Genetics of Aging | 01:30:00 | ||
The Discovery of a Gene Editing Technology | 01:30:00 | ||
Epigenetics: Why Your DNA Isn’t Enough | 01:30:00 | ||
Understanding Circadian Rhythms | 01:30:00 | ||
CRISPR: A Word Processor for Editing the Genome | 01:30:00 | ||
POT1: A Gene Behind Skin Cancer | 01:30:00 | ||
Genome Engineering with CRISPR-Cas9 | 01:30:00 | ||
Age of Genomics: The Genome as the Modern Rosetta Stone | 01:30:00 | ||
Genetic Code: What Can We Learn From Sequencing Our Genomes? | 01:30:00 | ||
Developing One of the First Methods for Sequencing DNA | 01:30:00 | ||
RNA Splicing: What is a Gene? | 01:30:00 | ||
The Discovery of Telomerase: The Key to Chromosome Immortality | 01:30:00 | ||
The Discovery of Polynucleotide Hybridization | 01:30:00 | ||
RNA Structure, Function, and Recognition | 01:30:00 | ||
The Small RNA Revolution: A Perfect Storm and Small Non-coding RNAs | 01:30:00 | ||
In Situ Hybridization | 01:30:00 | ||
Genetics of Human Circadian Rhythms and Sleep | 01:30:00 | ||
The Semi-Conservative Replication of DNA | 01:30:00 | ||
Introduction to microRNAs | 01:30:00 | ||
Circadian Clocks: Clock Genes Clock Cells and Clock Circuits | 01:00:00 | ||
African Genomics: Human Evolution | 01:30:00 | ||
The Pathway to DNA: The Double Helix Model | 01:30:00 | ||
Discovery of Telomeric DNA and Telomerase | 01:30:00 | ||
Making the First Recombinant DNA Molecule | 01:30:00 | ||
Finding Genes that Control Development | 01:30:00 | ||
DNA Replication: Understand How DNA is Replicated | 01:30:00 | ||
The Semi-Conservative Replication of DNA | 01:30:00 | ||
The Birth of Gene Targeting | 01:30:00 | ||
A Genetic Control Circuit for Aging | 01:30:00 | ||
Discovering Ribozymes | 01:30:00 | ||
SNURPs and Serendipity | 01:30:00 | ||
Molecular Biology of Gene Regulation: Transcription Factors | 01:30:00 | ||
The Dynamic Genome and Transposable Elements | 01:30:00 | ||
The Life of Eukaryotic mRNA: Localization, Translation and Degradation | 01:30:00 | ||
RNA Processing, Alternative Splicing, and the Spliceosome | 01:30:00 | ||
Mechanisms of DNA Repair | 01:30:00 | ||
Fruits of the Genome Sequences | 01:30:00 | ||
Patterning Development in the Early Embryo: The Role of Bicoid | 01:30:00 | ||
Control of Embryonic Axis Formation in Drosophila involving Gurken | 01:30:00 | ||
Transcriptional Precision in Drosophila Embryos: Enhancers and Repressors | 01:30:00 | ||
Aging Genes: Genes and Cells that Determine the Lifespan of the Nematode C. elegans | 01:30:00 | ||
Telomeres and Telomerase | 01:30:00 | ||
Oncogenes: A Genetic Paradigm for Cancer | 01:30:00 |
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