Bioinformatics: an interdisciplinary field that develops methods and software tools for understanding biological data. As an interdisciplinary field of science, bioinformatics combines computer science, statistics, mathematics, and engineering to analyze and interpret biological data.
The world–as microbes perceive it–is composed of physical and chemical stimuli. These stimuli create conditions that result in life or death for microbes, affecting their survival...
The Pharmaceutical Industry has a diverse set of products all with varying level of microbial risk to patients. On the low risk extreme there are topical pharmaceuticals on the other extreme...
DNASTAR offers an integrated suite of software for accurate assembly and analysis of sequence data for key NGS workflows, including microbial genome assembly. The DNASTAR assembly software is...
Polyamines are small, mostly linear organic molecules found in almost all living cells, and are positively charged at physiological pH. As a consequence of their positive charge, polyamines b...
Advances in sequencing technology and increasing recognition of the importance of our microbial world have led to unprecedented discoveries in recent years with respect to the human microbiom...
Rapid advances in sequencing technology and spectroscopy have led to new measurements of the microbiome. Labs make choices based on their environment of interest and the questions they wish t...
The human race, like all macrobiological life, evolved in a sea of microbes. There was no way to keep the bacterial and archaeal hoards at bay, so instead life evolved mechanisms to live with...
This presentation will discuss fundamental physical, chemical, and biological concepts important to understanding control of detrimental biofilms. Four phenomena that are important in the act...
Among many surprising insights, the genomic revolution has helped us to realize that we're never alone and, in fact, barely human. For most of our lives, we share our bodies with some ten ti...
Human microbiome projects have delivered our first glimpse into the microbial communities that reside in and on our bodies. Building on these efforts the research community has begun to corre...
Managing microbial contaminants is critical during the manufacturing of biologics, food and beverage to ensure that products meet the high quality product standard as well as staying complian...
Asthma is heritable, influenced by the environment, and is modified by in utero exposures and aging; all of these features are also common to epigenetic regulation. Furthermore, genetic varia...
Long noncoding RNAs (lncRNAs) are increasingly recognized as having key regulatory roles in development and disease. However, these regulatory molecules often have short half lives and are ex...
Biological datasets have become increasing large and complex. Knowledge databases and publicly available datasets are available for use in experimental planning and running results comparison...
Technological advances in high throughput, low cost DNA sequencing coupled with the availability of a high quality reference assembly allow us to interrogate the genome with greater precision...
Advanced sequencing technologies have made population scale whole genome sequencing a possibility. However, current strategies for analysis of this data rely upon parallelization approaches t...
Next-generation sequencing technology allows us to peer inside the cell in exquisite detail, revealing new insights into biology, evolution, and disease that would have been impossible to dis...
I will discuss recent statistical methods for identifying differentially expressed genes in static and time course bulk RNA-seq experiments. I will also provide an overview of the opportunit...
Every major scientific and technological revolution in history has been driven by one thing: access to data. Today, the availability of Big Data from a wide variety of sources is transforming...
Extracellular vesicles (EVs) include the exosomes (30-100 nm) that are produced through the endocytic pathway via the multivesicular bodies and the ectosomes (100-1000 nm) that are released t...
In recent years, sophisticated new methods for sedimentation data analysis have opened up new avenues for leveraging AUC technology in a wide range of technology sectors, including life scien...
Every cell in the body can release several types of extracellular vesicles (EVs), often called ”exosomes” or ”microvesicles”. These vesicles carry a wide array of mole...
Cancer research is being revolutionized by targeted gene panels, whole exome sequencing (WES), whole genome sequencing (WGS), and transcriptome sequencing (RNA-Seq).Many analyses, such as...
The world–as microbes perceive it–is composed of physical and chemical stimuli. These stimuli create conditions that result in life or death for microbes, affecting their survival...
The Pharmaceutical Industry has a diverse set of products all with varying level of microbial risk to patients. On the low risk extreme there are topical pharmaceuticals on the other extreme...
DNASTAR offers an integrated suite of software for accurate assembly and analysis of sequence data for key NGS workflows, including microbial genome assembly. The DNASTAR assembly software is...
Polyamines are small, mostly linear organic molecules found in almost all living cells, and are positively charged at physiological pH. As a consequence of their positive charge, polyamines b...
Advances in sequencing technology and increasing recognition of the importance of our microbial world have led to unprecedented discoveries in recent years with respect to the human microbiom...
Rapid advances in sequencing technology and spectroscopy have led to new measurements of the microbiome. Labs make choices based on their environment of interest and the questions they wish t...
The human race, like all macrobiological life, evolved in a sea of microbes. There was no way to keep the bacterial and archaeal hoards at bay, so instead life evolved mechanisms to live with...
This presentation will discuss fundamental physical, chemical, and biological concepts important to understanding control of detrimental biofilms. Four phenomena that are important in the act...
Among many surprising insights, the genomic revolution has helped us to realize that we're never alone and, in fact, barely human. For most of our lives, we share our bodies with some ten ti...
Human microbiome projects have delivered our first glimpse into the microbial communities that reside in and on our bodies. Building on these efforts the research community has begun to corre...
Managing microbial contaminants is critical during the manufacturing of biologics, food and beverage to ensure that products meet the high quality product standard as well as staying complian...
Asthma is heritable, influenced by the environment, and is modified by in utero exposures and aging; all of these features are also common to epigenetic regulation. Furthermore, genetic varia...
Long noncoding RNAs (lncRNAs) are increasingly recognized as having key regulatory roles in development and disease. However, these regulatory molecules often have short half lives and are ex...
Biological datasets have become increasing large and complex. Knowledge databases and publicly available datasets are available for use in experimental planning and running results comparison...
Technological advances in high throughput, low cost DNA sequencing coupled with the availability of a high quality reference assembly allow us to interrogate the genome with greater precision...
Advanced sequencing technologies have made population scale whole genome sequencing a possibility. However, current strategies for analysis of this data rely upon parallelization approaches t...
Next-generation sequencing technology allows us to peer inside the cell in exquisite detail, revealing new insights into biology, evolution, and disease that would have been impossible to dis...
I will discuss recent statistical methods for identifying differentially expressed genes in static and time course bulk RNA-seq experiments. I will also provide an overview of the opportunit...
Every major scientific and technological revolution in history has been driven by one thing: access to data. Today, the availability of Big Data from a wide variety of sources is transforming...
Extracellular vesicles (EVs) include the exosomes (30-100 nm) that are produced through the endocytic pathway via the multivesicular bodies and the ectosomes (100-1000 nm) that are released t...
In recent years, sophisticated new methods for sedimentation data analysis have opened up new avenues for leveraging AUC technology in a wide range of technology sectors, including life scien...
Every cell in the body can release several types of extracellular vesicles (EVs), often called ”exosomes” or ”microvesicles”. These vesicles carry a wide array of mole...
Cancer research is being revolutionized by targeted gene panels, whole exome sequencing (WES), whole genome sequencing (WGS), and transcriptome sequencing (RNA-Seq).Many analyses, such as...
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