Exploring Genetics Fundamentals To Disorders And Beyond

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Exploring Genetics: Fundamentals To Disorders And Beyond
Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.39 GB | Duration: 5h 27m​

Decode the Blueprint of Life: Master Genetics and Its Applications

What you'll learn
Understand fundamental genetic principles, including DNA, mutations, and gene expression.
Analyze the structure and function of the human genome.
Explore sequencing technologies and genetic data analysis methods.
Gain insights into the genetic basis of diseases and disorders.
Learn about modern genetic testing and its role in diagnosing genetic conditions.

Requirements
Basic knowledge of biology and chemistry is recommended but not required.

Description
Course Overview:This in-depth course covers the foundational principles of genetics, the intricacies of DNA, human genome analysis, and the mechanisms behind genetic disorders and diseases. Ideal for students and professionals in life sciences, this course provides a structured approach to understanding genetic mutations, DNA repair, sequencing techniques, and the genetic basis of diseases like Huntington's, Down Syndrome, and Parkinson's.Section 1: Introduction to GeneticsBegin your journey into the world of genetics with a comprehensive introduction. Learn about the fundamentals of genetics, exploring its core principles and foundational concepts over three engaging lectures.Section 2: Cells, Proteins, Chromosomes, and Gene MutationsDive into the structural and functional aspects of genetics by understanding the roles of cells, proteins, and chromosomes. This section highlights the causes and effects of gene mutations through a detailed, step-by-step analysis.Section 3: Human Genome and DNAExplore the structure and significance of the human genome. Gain insights into DNA's role as the genetic material, and understand its replication, coding, and regulation processes. This section establishes a solid foundation for studying advanced genetic concepts.Section 4: Important Concepts in GeneticsThis section breaks down critical genetic concepts into five detailed lectures. Topics include gene regulation, inheritance patterns, and the molecular basis of phenotypes, providing a comprehensive understanding of how genetics influences life.Section 5: Mutagenesis and DNA RepairDiscover the mechanisms of mutagenesis-the processes by which genetic mutations occur-and the body's natural DNA repair mechanisms. Learn about DNA-protein interactions and their critical role in maintaining genetic integrity.Section 6: Sequencing and AnalysisUncover the techniques used in genetic sequencing and data analysis. From Sanger sequencing to next-generation techniques, this section offers a step-by-step guide to interpreting genetic data and its applications in research and medicine.Section 7: Genetic DisordersLearn about the genetic basis of disorders, their inheritance patterns, and modern diagnostic techniques. This section explores genetic testing methods and dives into specific conditions, helping learners understand how and why these disorders arise.Section 8: Understanding DiseasesStudy a range of genetic diseases, including:Huntington's Disease: A neurodegenerative condition caused by genetic mutation.Sickle Cell Disease: A disorder affecting red blood cells.Down Syndrome: A chromosomal condition leading to developmental delays.Parkinson's Disease: A progressive nervous system disorder.Thalassemia, Cerebral Palsy, and Bipolar Disorder: Conditions with varied genetic underpinnings.Gaucher's Disease: A rare genetic disorder impacting metabolism.This section provides real-world examples of how genetics influences health and offers insights into diagnosis and management.

Overview
Section 1: Introduction

Lecture 1 Genetics Part 1

Lecture 2 Genetics Part 2

Lecture 3 Genetics Part 3

Section 2: Cells, Protein, Chromosome and Gene mutation

Lecture 4 Cells, Protein, Chromosome and Gene mutation Part 1

Lecture 5 Cells, Protein, Chromosome and Gene mutation Part 2

Lecture 6 Cells, Protein, Chromosome and Gene mutation Part 3

Lecture 7 Cells, Protein, Chromosome and Gene mutation Part 4

Section 3: Human Genome

Lecture 8 Human Genome Part 1

Lecture 9 Human Genome Part 2

Lecture 10 DNA Part 1

Lecture 11 DNA Part 2

Section 4: Important Concepts in Genetics

Lecture 12 Important Concepts in Genetics Part 1

Lecture 13 Important Concepts in Genetics Part 2

Lecture 14 Important Concepts in Genetics Part 3

Lecture 15 Important Concepts in Genetics Part 4

Lecture 16 Important Concepts in Genetics Part 5

Section 5: Mutagenesis and DNA repair

Lecture 17 Mutagenesis and DNA repair Part 1

Lecture 18 Mutagenesis and DNA repair Part 2

Lecture 19 Mutagenesis and DNA repair Part 3

Lecture 20 DNA Protein Binding

Section 6: Sequencing & Analysis

Lecture 21 SEQUENCING & Various types of ANALYSIS Part 1

Lecture 22 SEQUENCING & Various types of ANALYSIS Part 2

Lecture 23 SEQUENCING & Various types of ANALYSIS Part 3

Lecture 24 SEQUENCING & Various types of ANALYSIS Part 4

Section 7: Genetic Disorders

Lecture 25 How do we get Genetic Disorder Part 1

Lecture 26 How do we get Genetic Disorder Part 2

Lecture 27 Genetic Testing & types of Genetic Disorders Part 1

Lecture 28 Genetic Testing & types of Genetic Disorders Part 2

Section 8: Understanding Diseases

Lecture 29 Huntington's Disease Part 1

Lecture 30 Huntington's Disease Part 2

Lecture 31 Sickle Cell Diseases

Lecture 32 Down Syndrome Part 1

Lecture 33 Down Syndrome Part 2

Lecture 34 Parkinson's Disease

Lecture 35 Thalassemia, Cerebral Palsy & Bipolar Disorder Part 1

Lecture 36 Thalassemia, Cerebral Palsy & Bipolar Disorder Part 2

Lecture 37 Gaucher's Disease

Biology, genetics, and biotechnology students. Healthcare professionals and medical researchers. Enthusiasts interested in exploring genetics and its medical applications.
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