Microvesicles are a type of extracellular vesicle, between 50 and 1,000 nanometers in diameter, found in many types of body fluids as well as the interstitial space between cells. Microvesicles are membrane-bound vesicles containing phospholipids, ranging from 100 nm to 1000 nm shed from almost all cell types.
Date: July 19, 2022 Time: 8:00am (PDT), 11:00am (EDT), 5:00pm (CEST) Cryo-EM is rapidly becoming the method of choice for structural biologists and biochemists around the world, helping thes...
Date: November 17, 2021 Time: 8:00am (PDT), 11:00am (EDT) From waste disposal to promising biomarkers and therapeutic agents, exosomes and other extracellular vesicles are valuable in resear...
Date: September 14, 2021 Time: 7am PDT, 10am EDT, 4pm CEST A conventional thermal cycler has long been a commodity product in the lab and end-point PCR techniques can be completed almost wit...
Date: July 27, 2021 Time: 8:00am (PDT), 11:00am (EDT) The Origin of Biopharmaceutics (Biopharma) derive from The Division of Clinical Research in the U.S. Bureau of Medicine. However, author...
DATE: February 24, 2021 TIME: 10am PST Automated lab instruments such as liquid handlers and cell sorters are increasingly common in all types of laboratories, driving fast results for labor...
Learning Objectives: 1. Understand methods of isolating and enriching exosomes along with their pros/cons of the different techniques 2. What do we mean when we talk about subtyping, and wha...
DATE: September 3, 2020 TIME: 09:00am PT, 12:00pm ET xxx Learning Objectives: xxx Webinars will be available for unlimited on-demand viewing after live event. LabRoots is approved as a provi...
DATE:April 30, 2020 TIME: 8AM PT, 11AM ET, 4PM BST, 5PM CEST Cytokinesis is the physical separation of two cells that occurs after the completion of mitosis. The mechanism underlying it is v...
PacBio Sequencing has been recognized as the gold standard in microbial sequencing due to simultaneously providing long sequence reads (genome contiguity), high consensus accuracy (genome acc...
The soil microbiome can produce, resist, or degrade antibiotics and even catabolize them. Resistance genes are widely distributed in the soil and may act as a reservoir for pathogen antibioti...
While rapid identification of pathogens, novel therapeutic interventions, and passive immunization have critical roles in disease control, none can substitute for pre-existing protective immu...
Sexually transmitted diseases remain a major global public health burden despite the availability of effective prevention strategies to diagnose and treat bacterial STDs. Concerning tre...
The greatest need in agriculture this century is to mitigate impacts of abiotic (drought, temperature, salinity) and biotic (pathogens, pests) stresses on crop plants. Efforts over the...
Horizontal gene transfer (HGT) – or the non-genealogical transmission of DNA between organisms – is the dominant mode responsible for the spread of antibiotic resistance genes. Co...
The bacterium Pantoea stewartii subsp. stewartii causes Stewart’s wilt disease in corn and serves as a model for other xylem-dwelling phytopathogens. P. stewartii is transmitted to plan...
Viruses outnumber bacteria in soil by as much as 1000:1. However, there are few studies which examine the ways viral communities impact the soil microbiome, chemical cycles, and plants. Recen...
This two-part webinar will focus on novel techniques for obtaining unbiased results in 16S rRNA gene sequencing of challenging microbiome samples. Part 1 will feature QIAGEN’s solutions...
In the US, the National Antimicrobial Resistance Monitoring System has been using WGS of Salmonella as a tool of routine surveillance since 2013. To date, NARMS has generated MIC and WGS data...
The Alkek Center for Metagenomics and Microbiome Research (CMMR) at Baylor College of Medicine is pursuing numerous research and development efforts in the study of how the microbiome impacts...
In the US, the National Antimicrobial Resistance Monitoring System has been using WGS of Salmonella as a tool of routine surveillance since 2013. To date, NARMS has generated MIC and WGS data...
Reducing the impact of infectious diseases is becoming increasingly vital as the prevalence of antimicrobial resistance (AMR) continues to rise, threatening the effective prevention and treat...
DiseaseLand is an integrated genomics database and visualization software that helps researchers explore 1000s of public and private datasets covering, but not limited to therapeutic areas su...
Every year, approximately 800,000 critically ill patients are hospitals in the USA with undiagnosed infections. The only option is to treat these patients with broad-spectrum antimicrobial th...
Whole genome sequencing of bacterial isolates via next-generation sequencing is becoming a standard approach for clinical microbiology and bio-surveillance labs seeking to conduct outbreak in...
Date: July 19, 2022 Time: 8:00am (PDT), 11:00am (EDT), 5:00pm (CEST) Cryo-EM is rapidly becoming the method of choice for structural biologists and biochemists around the world, helping thes...
Date: November 17, 2021 Time: 8:00am (PDT), 11:00am (EDT) From waste disposal to promising biomarkers and therapeutic agents, exosomes and other extracellular vesicles are valuable in resear...
Date: September 14, 2021 Time: 7am PDT, 10am EDT, 4pm CEST A conventional thermal cycler has long been a commodity product in the lab and end-point PCR techniques can be completed almost wit...
Date: July 27, 2021 Time: 8:00am (PDT), 11:00am (EDT) The Origin of Biopharmaceutics (Biopharma) derive from The Division of Clinical Research in the U.S. Bureau of Medicine. However, author...
DATE: February 24, 2021 TIME: 10am PST Automated lab instruments such as liquid handlers and cell sorters are increasingly common in all types of laboratories, driving fast results for labor...
Learning Objectives: 1. Understand methods of isolating and enriching exosomes along with their pros/cons of the different techniques 2. What do we mean when we talk about subtyping, and wha...
DATE: September 3, 2020 TIME: 09:00am PT, 12:00pm ET xxx Learning Objectives: xxx Webinars will be available for unlimited on-demand viewing after live event. LabRoots is approved as a provi...
DATE:April 30, 2020 TIME: 8AM PT, 11AM ET, 4PM BST, 5PM CEST Cytokinesis is the physical separation of two cells that occurs after the completion of mitosis. The mechanism underlying it is v...
PacBio Sequencing has been recognized as the gold standard in microbial sequencing due to simultaneously providing long sequence reads (genome contiguity), high consensus accuracy (genome acc...
The soil microbiome can produce, resist, or degrade antibiotics and even catabolize them. Resistance genes are widely distributed in the soil and may act as a reservoir for pathogen antibioti...
While rapid identification of pathogens, novel therapeutic interventions, and passive immunization have critical roles in disease control, none can substitute for pre-existing protective immu...
Sexually transmitted diseases remain a major global public health burden despite the availability of effective prevention strategies to diagnose and treat bacterial STDs. Concerning tre...
The greatest need in agriculture this century is to mitigate impacts of abiotic (drought, temperature, salinity) and biotic (pathogens, pests) stresses on crop plants. Efforts over the...
Horizontal gene transfer (HGT) – or the non-genealogical transmission of DNA between organisms – is the dominant mode responsible for the spread of antibiotic resistance genes. Co...
The bacterium Pantoea stewartii subsp. stewartii causes Stewart’s wilt disease in corn and serves as a model for other xylem-dwelling phytopathogens. P. stewartii is transmitted to plan...
Viruses outnumber bacteria in soil by as much as 1000:1. However, there are few studies which examine the ways viral communities impact the soil microbiome, chemical cycles, and plants. Recen...
This two-part webinar will focus on novel techniques for obtaining unbiased results in 16S rRNA gene sequencing of challenging microbiome samples. Part 1 will feature QIAGEN’s solutions...
In the US, the National Antimicrobial Resistance Monitoring System has been using WGS of Salmonella as a tool of routine surveillance since 2013. To date, NARMS has generated MIC and WGS data...
The Alkek Center for Metagenomics and Microbiome Research (CMMR) at Baylor College of Medicine is pursuing numerous research and development efforts in the study of how the microbiome impacts...
In the US, the National Antimicrobial Resistance Monitoring System has been using WGS of Salmonella as a tool of routine surveillance since 2013. To date, NARMS has generated MIC and WGS data...
Reducing the impact of infectious diseases is becoming increasingly vital as the prevalence of antimicrobial resistance (AMR) continues to rise, threatening the effective prevention and treat...
DiseaseLand is an integrated genomics database and visualization software that helps researchers explore 1000s of public and private datasets covering, but not limited to therapeutic areas su...
Every year, approximately 800,000 critically ill patients are hospitals in the USA with undiagnosed infections. The only option is to treat these patients with broad-spectrum antimicrobial th...
Whole genome sequencing of bacterial isolates via next-generation sequencing is becoming a standard approach for clinical microbiology and bio-surveillance labs seeking to conduct outbreak in...
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