Overview of Gene Transfer Methods in Molecular Biology
Explore various physical and chemical methods used for gene transfer, including electroporation, particle bombardment, microinjection, ultrasound, and bacterial transformation. Learn how DNA enters the nucleus and the role of retroviruses in gene transfer efficiency. Understand the process of RNA co
0 views • 17 slides
Gene Therapy and Genome Editing Technology
This article provides insights into the status, regulatory considerations, and delivery methods of gene therapy and genome editing technologies. It discusses approved gene therapies in the US, human genome editing in clinical applications, and the regulatory authority of the FDA over gene therapy. T
2 views • 27 slides
Understanding Viral Vectors in Gene Delivery: Safety and Considerations
Exploring the mechanisms of gene delivery via viral vectors, this content delves into the basics of viral structure, infection, and replication. It discusses common viral vector systems like Adenoviral and Lentiviral vectors, highlighting safety considerations and the production processes involved.
1 views • 19 slides
Understanding Gene Editing with CRISPR/Cas9 Technology
Explore the fascinating world of CRISPR/Cas9 gene editing technology through sessions led by experts like Roy Campbell and Howard Robinson. Delve into the working of gene editing, the CRISPR system, and the role of Cas9 enzyme. Learn about CRISPR's origin in prokaryotic organisms and its potential f
0 views • 33 slides
Prevalence of KIT D816V Mutation in Patients with Systemic Mast Cell Activation
This study presents findings from the PROSPECTOR clinical trial on the prevalence of the KIT D816V mutation in the peripheral blood of patients with systemic mast cell activation. The study involves multiple centers globally and sheds light on the significance of this mutation in systemic mastocytos
5 views • 14 slides
Understanding Gene Expression Regulation in Prokaryotes and Eukaryotes
Gene expression is a crucial process that leads to the production of functional gene products like RNA and proteins. This article explores the regulation of gene expression in both prokaryotes and eukaryotes, covering the importance of regulating gene expression, types of regulation elements, specif
5 views • 22 slides
Bioinformatics
Bioinformatics involves analyzing biological sequences through sequence alignment to uncover functional, structural, and evolutionary insights. This process helps in tasks like annotation of sequences, modeling protein structures, and analyzing gene expression experiments. Basic steps include compar
0 views • 6 slides
Understanding Artefacts and Biases in Gene Set Analysis
Gene set enrichment tests help identify functional gene sets enriched in hit lists compared to background sets. Various biases (technical, biological, statistical) can lead to incorrect conclusions in data analysis, emphasizing the importance of recognizing and addressing them. Technical biases like
0 views • 29 slides
Exploring Genetics and Genomics in Integrative Biology
Delve into the world of genetics and genomics through the lens of integrative biology, investigating the differences between cell types, the rationale for gene expression profiling, and the analysis of differential gene expression in various diseases. Uncover the significance of gene ontology, co-ex
0 views • 22 slides
Gene Expression Profiling in Statistical Genetics Summer Institute 2020
This content provides information on the Summer Institutes of Statistical Genetics module, focusing on gene expression profiling. It includes details on the schedule, experimental design, RNA sequencing workflow, modes of bulk RNA sequencing, and RNASeq software. The content discusses crucial steps
0 views • 11 slides
Understanding Mutation and Polyploidy in Genetics
Mutation is a sudden hereditary change in an organism's genetic makeup, leading to variations in offspring. This article delves into the history, types, and causes of mutations, featuring significant discoveries by scientists like De Vries and Morgan. It also explores the concept of spontaneous muta
0 views • 50 slides
Understanding Gene Mutations in Molecular Biology
Gene mutations play a significant role in molecular biology, leading to alterations in DNA sequences that can impact offspring. These mutations can arise spontaneously or be induced by various factors, such as mutagens. Understanding gene mutations is crucial for comprehending the genetic basis of c
2 views • 27 slides
Co-Developing Risk Assessments in Gene Drive
Gene drive technology is a cutting-edge approach aimed at combating malaria by spreading genetically modified genes in mosquito populations. This technology has the potential to protect endangered species and conserve nature. However, successful implementation requires complex collaborations, risk a
2 views • 16 slides
Understanding Gene Duplication, Mutation, and Read Mapping in Molecular Evolution
This presentation delves into the intricate concepts of gene duplication, DNA mutation, and read mapping in the context of molecular evolution. It explains the various types of mutations, the significance of gene duplication in generating new genetic material, and the process of read mapping to alig
0 views • 19 slides
Understanding Gene Therapy: Types, Techniques, and Applications
Gene therapy involves introducing DNA into a patient to treat genetic diseases by correcting disease-causing mutations. There are two types of gene therapy: somatic gene therapy and germline gene therapy, each with different implications. Techniques such as gene augmentation therapy and gene inhibit
0 views • 15 slides
Introduction to Differential Evolution Metaheuristic Algorithm
Differential Evolution (DE) is a vector-based metaheuristic algorithm known for its good convergence properties. Developed by Storn and Price in the late 1990s, DE operates on real numbers as solution strings, making encoding and decoding unnecessary. This algorithm utilizes vectors for mutation and
8 views • 18 slides
Comprehensive Analysis of Gene Expression and Regulatory Potential Through eCLIP Profiles
Explore a thorough examination of gene expression and regulatory potential using eCLIP profiles, shRNA, RNA-Seq, secondary structure conservation, and prioritized genes. Uncover insights on users' variants, regulator scores, nucleotide scores, RBP rank lists, mutation burden, and more. Dive deep int
3 views • 10 slides
Understanding Gene Regulation and Control of Gene Expression
This comprehensive content delves into the intricate mechanisms of gene regulation and control of gene expression. It covers topics such as transcriptional regulation, bacterial genes classification, and the role of regulatory proteins. Explore how genes are regulated at transcription, translation,
0 views • 17 slides
Monogenetic Disorders in Noriker Horses: Implications for Conservation Breeding Programs
This study explores monogenetic disorders, specifically PSSM Type1, in Noriker horses, highlighting the impact of GYS1 gene mutation on breeding practices. The research delves into carrier frequencies across diverse horse breeds and emphasizes the importance of genetic screening in conservation bree
1 views • 18 slides
Understanding Gene Expression in Biological Sciences Course
Explore the dynamic world of gene expression with the Chunky and Chips Gene Expression Group at the University of Notre Dame. Dive into topics like transcription, translation, and cellular events influencing gene expression. Delve into real-world scenarios and gain insights into the cellular level b
0 views • 20 slides
NCI-MATCH Trial Interim Analysis Results and Status Update
NCI-MATCH is a groundbreaking clinical trial aiming to match tumor gene alterations with targeted therapies. The interim analysis results revealed impressive patient enrollment and site participation exceeding expectations. Despite challenges with pausing new patient registrations for the analysis,
0 views • 26 slides
Understanding Differential Evolution: An Overview of the DE Algorithm
Differential Evolution (DE) is an Evolutionary Algorithm (EA) proposed for continuous function optimization. It uses vector differences to perturb the population, deviating from traditional crossover and mutation methods. DE involves mutation, perturbation, and various mutation schemes like DE/rand/
0 views • 20 slides
Exploring Evolutionary Mechanisms: Genetic Drift, Gene Flow, Mutation, and Recombination
Delve into the effects of evolutionary mechanisms such as genetic drift, gene flow, mutation, and recombination in populations. Understand how changes in allele frequencies occur due to various factors like natural disasters and the bottleneck effect, impacting the gene pool and future generations.
1 views • 32 slides
Understanding Epistasis: Genetic Interactions and Their Implications
Epistasis is a phenomenon where the phenotypic expression of one gene is influenced by interactions with another gene. This concept, first introduced in 1909, plays a crucial role in genetics, affecting various traits and evolutionary processes. The difference between dominance and epistasis lies in
0 views • 41 slides
Understanding Mutation Testing in Software Testing
Mutation testing involves creating mutant programs by modifying the original program under test to find effective test cases. The process aims to identify weaknesses in test suites by evaluating how well they can detect changes in the program's behavior. Different types of mutants exist, such as dea
0 views • 22 slides
Gene Wiki Jamboree FaceBase Spring Meeting Summary
The Gene Wiki Jamboree FaceBase Spring Meeting in 2010 aimed to create collaboratively-written and community-reviewed review articles for every gene in the human genome and every concept relevant to FaceBase. It highlighted the value of such articles, providing quick summaries and compilations of re
0 views • 13 slides
Raw Data of Agarose Gel for Human Gene Expression Analysis
This supplementary data includes raw data from agarose gel electrophoresis showing gene expression levels for human SOX17, FOXA2, AFP, ALB, and ACTB in various cellular samples. The gel images depict the expected sizes of amplicons for each gene in different conditions and time points of cell cultur
0 views • 5 slides
Understanding Splice Sites and Splicing Elements in the Inhibitory Dopamine Receptor Gene (D2)
In this project, the focus is on identifying splice sites relevant to the inhibitory dopamine receptor gene (D2). The problem involves finding splicing elements within a specific range of known splice sites in the gene. The data provided includes the D2 gene entry in FASTA format, a database of spli
0 views • 13 slides
Understanding Population Genetics: Mutations, Variability, and Evolution
Explore the fascinating world of population genetics, covering key concepts like the history of population genetics, mutation types, measurement of variability, and mutation rates. Delve into the diverse mutations such as substitutions, insertions, deletions, and duplications, along with how these v
0 views • 47 slides
Understanding Reverse Genetic Approaches in Gene Manipulation
Reverse genetic approaches involve mutating a target gene to observe its phenotypic effects, providing insights into the gene's normal function. Techniques like gene knockout, knockdown, and homologous recombination are used to manipulate genes and study genetic pathways, leading to discoveries in v
0 views • 6 slides
Basics of Hypothesis Testing in Gene Expression Profiling
The lecture covers the essential aspects of hypothesis testing in gene expression profiling, emphasizing experimental design, confounding factors, normalization of samples, linear modeling, gene-level contrasts, t-tests, ANOVA, and significance assessment techniques. Practical insights are shared on
0 views • 9 slides
Introduction to Gene Expression: Basic Concepts in Transcription and Translation
Explore the foundational concepts of gene expression including transcription and translation processes, genetic mutations, and their impact on protein structure and function. Learn to define genes, outline central dogma steps, and understand the relationships among DNA, genes, RNA, and proteins. Pra
0 views • 39 slides
Understanding Mutation Breeding in Crop Plants
Mutation breeding involves inducing heritable changes in crop plants through mutations, leading to genetic improvements for economic traits. This method is valuable when desired variability is lacking, for correcting genetic defects, overcoming linkage issues between desirable and undesirable traits
0 views • 22 slides
Basics of Genetics Engineering: Introduction to DNA and Gene Expression
Exploring the fundamentals of genetics engineering, this lecture covers topics such as DNA structure, gene expression, gene function, genome, mutation, recombination, and genetic modification. Understand the significance of DNA, genes, and the processes involved in gene expression. Dive into the wor
0 views • 20 slides
Understanding Expression Vectors for Efficient Gene Expression
Expression vectors are designed to facilitate gene expression by carrying essential elements such as promoters, terminators, and fusion tags. They allow precise control over gene regulation for transcription and translation in host cells, enabling efficient protein production. Different promoters li
0 views • 15 slides
Cloning the Cstps-1 Gene from Citrus sinensis for Valencene Production
In this project, the Cstps-1 gene from Citrus sinensis is being cloned to produce the enzyme Citrus Valencene Synthase (CVS) responsible for generating the fragrant valencene compound. The process involves DNA isolation from a Valencia orange, gene amplification, vector transformation, and testing f
0 views • 8 slides
Understanding the Role of Multiple Enhancers in Gene Regulation
Multiple enhancers play a crucial role in regulating gene expression in a cell, with approximately 3-5 enhancers associated per human gene. These enhancers are essential for tissue-specific expressions and are active within the same cell line. The use of multiple enhancers can impact gene expression
0 views • 30 slides
Investigating the Role of Amino Acid 381 in BK Channel Clustering
The study explores the significance of amino acid 381 in the function of dystrophin to localize SLO-1 in C. elegans. By utilizing the T381I mutation, the research aims to determine whether a SLO-1 BK channel with this mutation exhibits a clustered or non-clustered phenotype. Proposed methods involve
0 views • 17 slides
Insights into Evolution, Natural Selection, and Cancer Mutation
Explore the concepts of evolution, natural selection, and cancer mutation through detailed descriptions and illustrations. Learn about the evolutionary processes that drive diversity in biological populations, the role of natural selection in shaping traits, and the mechanisms behind cancer developm
0 views • 20 slides
Advances in Gene Therapy Programs and Best Practices Workshop Insights
Workshop outcomes and discussions from the MDA-NINDS Workshop on Best Practices for Gene Therapy Programs, highlighting key challenges, possible solutions, and the impact on translational funding programs. The workshop format included orienting talks and panels focusing on scientific premise, regula
0 views • 17 slides