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

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

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

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

This comprehensive guide explores the structures and characteristics of prokaryotic and eukaryotic cells. Learn about the differences and similarities between these cell types, including features like cell wall composition, membrane-bound organelles, nucleus presence, DNA structure, ribosomes, and m

7 views • 20 slides

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

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 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

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

Epigenetics refers to changes in gene expression without altering the DNA sequence. This involves processes like DNA methylation, histone modification, and microRNAs. DNA methylation is controlled by DNA methyltransferase enzymes and plays crucial roles in gene activation and silencing. Histone modi

0 views • 13 slides

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

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

Explore the significance of self-regulation in formative assessment, understand key concepts like self-control, emotional competence, and perseverance. Discover actionable strategies to implement self-regulation interventions with students and train other adults effectively. Future orientation and s

0 views • 25 slides

Incentive regulation in utility management involves various approaches such as Rate of Return Regulation (RORR), Price Cap Regulation, and Performance-based Regulation. Each method has its pros and cons, requiring careful consideration based on the specific setting. Rate hearings are essential quasi

0 views • 18 slides

This instructional material focuses on teaching gene dosage compensation in the context of addressing the inactivation of one copy of Chromosome 21 in trisomy 21. The activity is designed for courses in Molecular Gene Regulation and Genetics, aiming to enhance students' understanding through hands-o

0 views • 19 slides

Understanding and fostering self-regulation in children is crucial for their development. Self-regulation involves controlling impulses, focusing, and shifting between tasks. This article delves into the internal mechanisms of self-regulation, such as executive function, and provides practical tips

0 views • 22 slides

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

Gene expression involves two crucial phases - transcription and translation. Transcription, the first step, is the process where RNA is synthesized from DNA with the help of RNA polymerase. It begins with initiation, where the enzyme recognizes the promoter region and forms a complex with the DNA, m

0 views • 33 slides

This detailed guide explores the orientation of transposon insertions relative to their inherent asymmetry, like the P-element’s 5’ and 3’ ends, and how it influences constructs for driving ectopic gene expression. Using FlyBase resources, it explains the significance of orientation in constru

0 views • 5 slides

Dive into the intricate world of gene regulation with Lecture 9 of CS273A at Stanford University. Explore the mechanisms and complexities of how genes are controlled, with a focus on transcriptional regulation. The lecture covers topics such as genetic switches, transcription factors, and regulatory

0 views • 60 slides

Molecular biology delves into the study of biology at the molecular level, focusing on gene structure and functions to comprehend hereditary traits, genetic variation, and gene expression patterns. Cells, the fundamental units of life, vary in shape and function but share basic structures. The Three

0 views • 31 slides

Cells are the fundamental units of life, but viruses are an exception as they lack cells. Eukaryotic cells have a defined nucleus with a nuclear membrane housing chromosomes, while prokaryotic cells lack a membrane-bound nucleus and other organelles. Eukaryotic cells are larger, containing membrane-

0 views • 9 slides

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

Prokaryotic cells divide through binary fission, while eukaryotic cells undergo mitosis with nuclear division and cytokinesis. Prokaryotic cells lack a nucleus and divide by replicating DNA and forming two identical daughter cells. Eukaryotic chromosomes, associated with histone proteins, undergo co

0 views • 56 slides

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

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

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

Explore the differences between prokaryotic and eukaryotic cells through a hands-on lab. Observe, sketch, and label organelles in bacteria (yogurt), protists (pond water), fungi (yeast), and plant cells (onion and anacharis). Learn to differentiate cellular structures and understand the characterist

0 views • 17 slides

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

Complementary nitrogenous bases in DNA, pyrimidines (thymine, cytosine) and purines (adenine, guanine), store biological information through antiparallel strands. DNA, with non-coding regions, undergoes replication and transcription to RNA for protein synthesis. Nucleic acids, DNA, and RNA are cruci

0 views • 7 slides

Prokaryotic cells are simpler and lack membrane-bound organelles, reproducing through binary fission. Eukaryotic cells are more complex, larger, with a nucleus enclosed in a nuclear envelope. They have various organelles and a cell wall. The plasma membrane defines cell boundaries, regulating the pa

0 views • 13 slides

Smad7 knockout leads to increased Collagen 1 gene levels in kidney cells, potentially contributing to renal fibrosis. Lack of Smad7 protein may result in overproduction of Collagen 1. This protein is found in the extracellular matrix and plays a crucial role in kidney fibrosis pathways, such as TGF-

0 views • 12 slides

The European Commission is proposing a regulation to prevent the entry and export of commodities linked to deforestation and forest degradation. This aligns with political commitments such as the European Green Deal and the Farm to Fork Strategy. Existing legislation like the FLEGT Regulation and th

0 views • 32 slides

Chromosomes are vital structures in cells, holding genetic material. Prokaryotic cells have a nucleoid containing DNA while eukaryotic cells have DNA enclosed in a nucleus. Proteins like H-NS, HU, FIS, and IHF play crucial roles in maintaining chromosome structure and gene expression. Unlike eukaryo

0 views • 20 slides

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

Dive into the world of prokaryotic gene regulation with a focus on the lac operon. This educational unit aims to help students comprehend the mechanisms behind gene regulation, specifically through the example of the lac operon. Explore key terms, models, and outcomes to enhance understanding in an

0 views • 30 slides

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

Explore the structures of genes, the degeneracy of the genetic code, and the process of protein synthesis through transcription, RNA processing, and translation. Delve into the role of exons, introns, promoters, and operators in gene expression in eukaryotic cells. Learn why the genetic code is dege

0 views • 13 slides

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

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