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Pharmacogenetic Phenotypes: Alterations in Pharmacokinetics, Drug Targets and Biologic Milieu01:29

Pharmacogenetic Phenotypes: Alterations in Pharmacokinetics, Drug Targets and Biologic Milieu

Genetic variations significantly influence drug response through pharmacokinetics, receptor interactions, and biologic milieu modifications. Pharmacokinetic alterations impact drug metabolism and clearance, affecting efficacy and toxicity. Variants in drug-metabolizing enzymes, such as CYP2C9 and CYP2C19, alter drug activation and elimination. For example, CYP2C9 loss-of-function variants require lower warfarin doses to prevent excessive bleeding, while CYP2C19 variants reduce clopidogrel...
Principles of Pharmacogenetics: Types of Genetic Variants01:27

Principles of Pharmacogenetics: Types of Genetic Variants

The human genome is over 99.9% identical between individuals, yet genetic differences exist at millions of bases. The human genome contains approximately 3 million variant positions per individual, many of which are heterozygous, contributing to genetic diversity and individual traits. Genetic variations include single-nucleotide polymorphisms (SNPs), insertions, deletions, and copy number variations (CNVs).SNPs, the most common variation, involve single-base changes in DNA. These can be...
Pharmacogenetics of Drug Targets: β₂-Adrenergic Receptors, Apo E, Thymidylate Synthase01:11

Pharmacogenetics of Drug Targets: β₂-Adrenergic Receptors, Apo E, Thymidylate Synthase

Genetic polymorphisms in drug targets have emerged as critical determinants of interindividual variability in drug response and toxicity. Pharmacogenomic investigations increasingly focus on identifying these variations to personalize and optimize therapeutic interventions. A drug target may be a receptor, enzyme, or signaling protein involved in pharmacologic responses or disease-related pathways. While early pharmacogenetic studies focused primarily on drug metabolism, current research...
Single Nucleotide Polymorphisms-SNPs01:05

Single Nucleotide Polymorphisms-SNPs

A single nucleotide polymorphism or SNP is a single nucleotide variation at a specific genomic position in a large population. It is the most prevalent type of sequence variation found in the human genome. Point mutations that occur in more than 1% of the population qualify as SNPs. These are present once every 1000 nucleotides on an average in the human genome. Replacement of a purine with another purine (A/G) or a pyrimidine with another pyrimidine (C/T) is known as a transition. In contrast,...
Pharmacogenetics of Drug Metabolism: Overview01:27

Pharmacogenetics of Drug Metabolism: Overview

Genetic polymorphism in drug metabolism is crucial to the inter-individual variability observed in drug responses. Drug metabolism primarily involves the chemical modification of drugs and other xenobiotics to enhance their elimination by increasing their polarity. Two main classes of enzymes mediate this biotransformation process: Phase I enzymes, primarily cytochrome P450s, catalyze oxidation and reduction reactions, while other enzymes, such as esterases, mediate hydrolysis, and Phase II...
Non-LTR Retrotransposons03:18

Non-LTR Retrotransposons

As the name suggests, non-LTR retrotransposons lack the long terminal repeats characteristic of the LTR retrotransposons. Additionally, both LTR and non-LTR retrotransposons use distinct mechanisms of mobilization. Non-LTR retrotransposons are further divided into two classes - Long interspersed nuclear elements (LINEs) and short interspersed nuclear elements (SINEs), both of which occur abundantly in most mammals, including humans. Some of the active non-LTR retrotransposons in humans are L1...

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Related Experiment Video

Updated: May 26, 2026

DNA Fingerprinting of Mycobacterium leprae Strains Using Variable Number Tandem Repeat (VNTR) - Fragment Length Analysis (FLA)
09:39

DNA Fingerprinting of Mycobacterium leprae Strains Using Variable Number Tandem Repeat (VNTR) - Fragment Length Analysis (FLA)

Published on: July 15, 2011

Human polymorphisms as clinical predictors in leprosy.

Ernesto Prado Montes de Oca1

  • 1Pharmaceutical and Medical Biotechnology Unit, Research Center in Technology and Design Assistance of Jalisco State, National Council of Science and Technology, 44270 Guadalajara, JAL, Mexico.

Journal of Tropical Medicine
|January 6, 2012
PubMed
Summary
This summary is machine-generated.

Host genetic and serum markers can predict leprosy susceptibility and clinical outcomes. Assessing these 38 leprosy genes may reduce disease burden and improve patient quality of life.

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Last Updated: May 26, 2026

DNA Fingerprinting of Mycobacterium leprae Strains Using Variable Number Tandem Repeat (VNTR) - Fragment Length Analysis (FLA)
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Published on: July 18, 2017

Area of Science:

  • Genetics
  • Immunology
  • Infectious Diseases

Background:

  • Leprosy remains a significant global health challenge.
  • Understanding host factors is crucial for managing leprosy.
  • Genetic and serum markers offer potential insights into disease progression.

Purpose of the Study:

  • To explore the role of genetic and serum markers in leprosy.
  • To identify markers for predicting susceptibility and clinical variants.
  • To assess the potential of these markers in managing leprosy.

Main Methods:

  • Analysis of genetic markers in human hosts.
  • Evaluation of serum markers.
  • Correlation of markers with leprosy susceptibility and clinical presentation.

Main Results:

  • Identified specific genetic and serum markers associated with leprosy.
  • Demonstrated the utility of these markers in predicting disease susceptibility.
  • Showed potential for classification of clinical variants and immune responses.

Conclusions:

  • Genetic and serum markers are valuable tools in leprosy research.
  • Assessing these markers can aid in risk prediction and patient management.
  • Further evaluation of these 38 host leprosy genes may reduce the epidemiological burden of this mycobacterial disease.