Genomic Testing is designed to help identify DNA alterations and is done on cancerous tissue in order to provide information with it. It evaluates the genes in a sample of diseased tissue from a cancer patient.
In this webinar, we will present QIAGEN CLC Genomics Workbench and its utility for bacterial isolate identification, strain discrimination using core genome multi-locus typing (cgMLST) and d...
Learning Objectives: 1. Understand the challenges of extracting DNA from human samples for microbiome analysis, and learn about the best technologies for accomplishing this 2. Learn about pr...
Enigmatic and often vilified, viruses are now known to play important and possibly indispensable roles in the biology and ecology of cellular organisms. Evidence of viral impacts are everywh...
Lessons around leveraging high-complexity next-generation sequencing tests for precision infectious disease discovery to guide patient treatment and improve health outcomes. Learning Objecti...
The transfer of antimicrobial resistance genes (ARG) to pathogenic microbes is a major concern in modern medicine. Antibiotic therapies are often rendered ineffective by horizontal acquisiti...
Sepsis is a life-threatening condition that is caused by the immune system’s inability to respond appropriately to an infection. How sepsis can change the gut microbiome in ways that a...
Epidemics are occurring at an increasing pace and scale. Our laboratory group has developed platform technologies for discovery of broad and potent neutralizing antibodies for many emerging...
HIV currently infects almost 40 million people worldwide. The virus is responsible for ~2 million new infections per year and ~1 million deaths. Like all retroviruses, HIV integrates a viral...
My group is addressing fundamental questions in evolutionary biology, using both genome- and phenotype-first approaches. A few years ago, we discovered that Arabidopsis thaliana is a great m...
To establish productive infection, plant viruses need to be able to efficiently invade and spread within a plant. Most viruses are introduced into a plant via the epidermal or mesophyll cell...
Prokaryotic DNA contains three types of methylation: N6-methyladenine, N4-methylcytosine and 5-methylcytosine. The lack of tools to analyse the frequency and distribution of methylated resid...
Human chromosome 19q13.4 contains genes encoding killer-cell immunoglobulin-like receptors (KIR). The region has certain properties such as single nucleotide variation, structural variation,...
The regions of our genome responsible for encoding the genes that regulate our immune response are some of the most complex and polymorphic known. This complexity encompasses multiple types...
The recent outbreak of SARS-CoV-2 underscores the need for understanding the evolutionary processes that drive the emergence and adaptation of zoonotic viruses in humans. Here, we show that...
Background: Haemophilus influenzae is the causative agent of multiple human disease conditions among multiple sites in the human body. Underlying genetic mechanisms are elusive, particularly...
Seasonal and pandemic influenza virus infections can cause significant disease worldwide. Current vaccines only provide limited, short-lived protection, and antigenic drift/shift in the hema...
Unique physical, chemical, and optical phenomena arise when materials are confined to the nanoscale. We are accustomed to making observations for the behavior of living systems on a macrosco...
The need for high-throughput laboratory testing to identify SARS-CoV-2 infected individuals has reached nearly unprecedented levels. This demand has also led to supply chain issues that have...
Genomic imbalances or copy number variations (CNVs) are a major cause of pregnancy losses, fetal anomalies identified during prenatal period, congenital defects in newborn, dysmorphology and...
Theragen Bio. (TheragenEtex Subsidiary company) has been conducted the genome-wide research and the genome-based genetic testing services. From 2007, researchers of Theragen Bio. are collabo...
Genetic diseases are known occur due to various types of mutations in the human genome. The molecular assays to diagnose these diseases have been developed based on the type of mutation comm...
Molecular breeding can significantly reduce the cost and time required to deliver improved plant and animal species for agricultural use. Advancements in genomic technologies are acceleratin...
The study of human development and diseases relies on analysis of samples obtained and manipulated ex vivo. It is critical in such studies to know the provenance and confirm that the identit...
NGS technology has grown leaps and bounds in reproductive genetics field. Infertility is on the rise and with the mushrooming of so many IVF clinics in our country and increasing number of I...
In this webinar, we will present QIAGEN CLC Genomics Workbench and its utility for bacterial isolate identification, strain discrimination using core genome multi-locus typing (cgMLST) and d...
Learning Objectives: 1. Understand the challenges of extracting DNA from human samples for microbiome analysis, and learn about the best technologies for accomplishing this 2. Learn about pr...
Enigmatic and often vilified, viruses are now known to play important and possibly indispensable roles in the biology and ecology of cellular organisms. Evidence of viral impacts are everywh...
Lessons around leveraging high-complexity next-generation sequencing tests for precision infectious disease discovery to guide patient treatment and improve health outcomes. Learning Objecti...
The transfer of antimicrobial resistance genes (ARG) to pathogenic microbes is a major concern in modern medicine. Antibiotic therapies are often rendered ineffective by horizontal acquisiti...
Sepsis is a life-threatening condition that is caused by the immune system’s inability to respond appropriately to an infection. How sepsis can change the gut microbiome in ways that a...
Epidemics are occurring at an increasing pace and scale. Our laboratory group has developed platform technologies for discovery of broad and potent neutralizing antibodies for many emerging...
HIV currently infects almost 40 million people worldwide. The virus is responsible for ~2 million new infections per year and ~1 million deaths. Like all retroviruses, HIV integrates a viral...
My group is addressing fundamental questions in evolutionary biology, using both genome- and phenotype-first approaches. A few years ago, we discovered that Arabidopsis thaliana is a great m...
To establish productive infection, plant viruses need to be able to efficiently invade and spread within a plant. Most viruses are introduced into a plant via the epidermal or mesophyll cell...
Prokaryotic DNA contains three types of methylation: N6-methyladenine, N4-methylcytosine and 5-methylcytosine. The lack of tools to analyse the frequency and distribution of methylated resid...
Human chromosome 19q13.4 contains genes encoding killer-cell immunoglobulin-like receptors (KIR). The region has certain properties such as single nucleotide variation, structural variation,...
The regions of our genome responsible for encoding the genes that regulate our immune response are some of the most complex and polymorphic known. This complexity encompasses multiple types...
The recent outbreak of SARS-CoV-2 underscores the need for understanding the evolutionary processes that drive the emergence and adaptation of zoonotic viruses in humans. Here, we show that...
Background: Haemophilus influenzae is the causative agent of multiple human disease conditions among multiple sites in the human body. Underlying genetic mechanisms are elusive, particularly...
Seasonal and pandemic influenza virus infections can cause significant disease worldwide. Current vaccines only provide limited, short-lived protection, and antigenic drift/shift in the hema...
Unique physical, chemical, and optical phenomena arise when materials are confined to the nanoscale. We are accustomed to making observations for the behavior of living systems on a macrosco...
The need for high-throughput laboratory testing to identify SARS-CoV-2 infected individuals has reached nearly unprecedented levels. This demand has also led to supply chain issues that have...
Genomic imbalances or copy number variations (CNVs) are a major cause of pregnancy losses, fetal anomalies identified during prenatal period, congenital defects in newborn, dysmorphology and...
Theragen Bio. (TheragenEtex Subsidiary company) has been conducted the genome-wide research and the genome-based genetic testing services. From 2007, researchers of Theragen Bio. are collabo...
Genetic diseases are known occur due to various types of mutations in the human genome. The molecular assays to diagnose these diseases have been developed based on the type of mutation comm...
Molecular breeding can significantly reduce the cost and time required to deliver improved plant and animal species for agricultural use. Advancements in genomic technologies are acceleratin...
The study of human development and diseases relies on analysis of samples obtained and manipulated ex vivo. It is critical in such studies to know the provenance and confirm that the identit...
NGS technology has grown leaps and bounds in reproductive genetics field. Infertility is on the rise and with the mushrooming of so many IVF clinics in our country and increasing number of I...
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