Frameshift mutation - PowerPoint PPT Presentation


Wiedemann-Steiner Syndrome Data Analysis and Progress Report - November 2023

This report provides insights into the enrollment, survey completion, KMT2A mutation types, reported issues, completion rates of relevant surveys, and symptoms in individuals diagnosed with Wiedemann-Steiner Syndrome. With a global perspective, the data highlights various domains of concern, offerin

1 views • 36 slides


Understanding Wolfram Syndrome: Symptoms and Implications

Wolfram Syndrome, also known as DIDMOAD, is a rare genetic disorder affecting about 1 in 160,000-770,000 people worldwide. It is characterized by the presence of Diabetes Insipidus, Diabetes Mellitus, Optic Atrophy, and Deafness. The primary genetic mutation in the WFS1 gene leads to various symptom

0 views • 22 slides



Understanding DNA Mutations and Their Types

DNA mutations are changes in the DNA molecule that can lead to permanent alterations in the base sequence of daughter DNA. Causes include uncorrected errors, as well as damage from oxidative deamination, radiation, and chemicals. The types of mutations include point mutations, insertion mutations, d

4 views • 7 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 Inheritance of Traits Through Blue Skin Case Study

Assessing genetic inheritance and mutations using a case study of a boy with blue skin. The scenario highlights how genes control traits, the random assortment of chromosomes in offspring, and the impact of mutations on protein function. Students analyze karyotypes to infer genetic differences betwe

0 views • 6 slides


Understanding Evolution by Natural Selection

Explore the concepts of species, mutation, Darwin's theory of evolution, and the role of genetic variation through mutations. Learn how mutations can lead to rapid changes in species and why a wider variety of genes in a gene pool benefits a population. Delve into the effects of mutations on individ

0 views • 15 slides


Understanding Mutations in DNA and Their Effects

Mutations in DNA are changes that can occur in body cells or gametes, leading to alterations in the genetic code. Not all mutations are harmful, but they can impact protein structure and function. Different types of mutations, such as substitutions, insertions, and deletions, can result from various

0 views • 11 slides


Understanding Mutations in Biology

A mutation in biology refers to changes in the nucleotide sequence of an organism's genome. These alterations can either be harmful, leading to conditions like cancer, or beneficial, such as providing antibiotic resistance. Mutations can occur in somatic cells or gametes, affecting both the individu

1 views • 18 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


Improving Microbial Productivity and Characteristics for Industrial Applications

Efforts to enhance the productivity of natural isolates for commercial products involve genetic modifications through mutation, genetic recombination, and genetic engineering techniques. Desired characteristics include genetic stability, efficient production, versatility in carbon sources, and ease

1 views • 25 slides


Understanding Atypical Patterns of Inheritance in Genetics

Explore atypical modes of inheritance such as codominant traits, pseudodominant inheritance, mitochondrial inheritance, anticipation, pleiotropy, variable expressivity, heterogeneity, new mutation, and complex traits in genetics. Learn about codominance, pseudodominance, and atypical presentation of

0 views • 26 slides


Insights into Biotechnology: Concepts and Applications

Biotechnology involves the application of scientific and engineering principles to utilize biological agents for producing goods and services. The field encompasses processes like upstream processing, fermentation, and downstream processing to create valuable compounds. Initially, efforts focused on

0 views • 22 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


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


Yelamos Family and Colon Cancer Research Overview

The Yelamos Family, immigrants from Guatemala, unknowingly carry a genetic mutation putting them at high risk for colon cancer. This research delves into the impact of genetic predisposition and lifestyle changes on their health. The proposed family visit to a medical school aims to educate and rais

0 views • 13 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


Familial Colorectal Cancer Syndromes: Genetic Profiles and Clinical Presentations

These pedigrees depict familial colorectal cancer syndromes in Ashkenazi and Iraqi Jews, showcasing early-onset MMR-proficient CRC cases linked to mutations in POLD1 and POLE genes. The pedigrees detail various cancer diagnoses, mutation carrier statuses, and ages of onset across multiple generation

0 views • 5 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


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


Understanding Chromosomes: Key Components, Functions, and Significance

Chromosomes, essential in mitosis and meiosis, are condensed forms of DNA vital for heredity, mutation, and evolution. Learn about their structure, role in inheritance, and impact on species development through historical discoveries. Discover the importance of chromosome sets and genomes in gametic

0 views • 38 slides


Genetic Algorithm for Attribute Selection in Data Mining

Genetic algorithm (GA) is a powerful method for attribute selection in data mining as it efficiently explores numerous attribute combinations. By choosing the most important features and ignoring the rest, GA can enhance the data analysis process through methods like feature extraction and artificia

0 views • 41 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 Transition Bias and Substitution Models in Genetics

Transition bias and substitution models, explored by Xuhua Xia, delve into the concepts of transitions and transversions in genetic mutations, the causes of transition bias, the ubiquitous nature of transition bias in invertebrate and vertebrate genes, the mitochondrial genetic code, and RNA seconda

0 views • 25 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


Understanding Evolutionary Algorithms in Computer Science

Evolutionary algorithms, particularly genetic algorithms, simulate natural evolution to optimize parameters and discover new solutions. By creating genomes representing potential solutions and using genetic operators like mutation and crossover, these algorithms populate a search space, conduct loca

0 views • 33 slides


Understanding Evolution: Natural Selection and Genetic Variation

Change in genetic makeup over time is evolution. Natural selection, driven by competition for resources, leads to differential survival and reproductive success. Genetic variation, mutation, and adaptation play roles in this process. Environmental changes influence evolutionary rate and direction. H

0 views • 20 slides


Understanding Evolutionary Mechanisms in Pepper Populations

Explore the evolutionary mechanisms of natural selection and genetic drift through a fun activity involving a wild chili pepper population. Witness how chemical defense affects the survival and reproduction of pepper plants against herbivores and pathogens. Learn about the concepts of mutation, gene

0 views • 23 slides


Detection of Mutations in EGFR in Circulating Lung Cancer Cells: Study on SARMS Assay and CTC-Chip

This study by Shyamala Maherswaran, Ph.D., and team focuses on characterizing mutations in EGFR in circulating tumor cells using SARMS assay and CTC-chip. The research investigates the effectiveness of these non-invasive methods in analyzing tumors and explores the role of the T790M mutation in resp

0 views • 12 slides


Treatment Strategies for Recurrent Venous Thromboembolism in Factor V Leiden Patients

This presentation discusses the treatment options for recurrent venous thromboembolism in patients with Factor V Leiden mutation. It explores the pathophysiology, epidemiology, and diagnosis criteria for Factor V Leiden, reviews failed anticoagulation history, and suggests outpatient anticoagulation

0 views • 31 slides


Understanding Computational Biology: Proteins, DNA, RNA, Genetics, and Evolution

Computational Biology combines computational methods with molecular biology to solve biological problems. Explore topics like proteins, DNA, RNA, and genetics, learning about amino acids, nucleotides, and the genetic code. Understand the evolutionary processes of mutation and natural selection.

0 views • 21 slides


Evolutionary Dynamics of Cooperation by Martin Nowak at Harvard University

Explore the evolution of cooperation from the origins of life to human behavior with a focus on mechanisms such as natural selection, direct reciprocity, and the Prisoner's Dilemma. Learn how populations evolve through mutation, selection, and the interplay between cooperation and defection in vario

0 views • 50 slides


Understanding Sickle Cell Anemia: Causes, Symptoms, and Pathophysiology

Sickle cell anemia is an inherited disorder affecting red blood cells' shape, leading to decreased oxygen delivery and various symptoms like fatigue, pain episodes, and more. The condition arises from a genetic mutation affecting hemoglobin production. Individuals with sickle cell trait may not disp

0 views • 7 slides


Understanding Mutations: Types, Causes, and Significance

Explore the world of gene mutations and chromosome mutations, including point mutations, frameshift mutations, and changes in chromosome structure. Learn about the significance of mutations, how they can be inherited or acquired, and their impact on genetic information. Uncover examples of neutral,

0 views • 9 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 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


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


Understanding Genetic Mutation and Its Impact on Evolution

Genetic mutations are a natural process that introduces variations in DNA sequences, creating new alleles and genetic diversity within populations. These mutations can have both positive and negative effects on individuals, influencing survival and reproduction. By examining different types of mutat

0 views • 28 slides


Understanding Bacterial Genetics: Phenotypic and Genotypic Variability

Phenotypic and genotypic variations in bacteria are crucial for their adaptation and survival. Phenotype reflects the physical expression influenced by both the genome and the environment, while genotype represents the hereditary constitution passed to offspring. Mutations are a primary source of ge

0 views • 23 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