Genome science refers to the study of the genome, and organism's complete set of DNA which includes all of its genes. Genome constrasts with genetics, the latter of which refers to the study of one specific gene and their role in inheritance.
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...
Perhaps the greatest surprise of genetic studies of human disease is that 90% of top-scoring disease-associated loci lie outside protein-coding regions. This has increased the urgency of mapp...
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...
The continued growth of DNA sequencing as a fundamental data output has driven the need for the ability to generate high quality data from an increasing breadth of diminishing primary sample...
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...
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...
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...
Cancers exhibit abnormal molecular signatures associated with disease initiation and progression. Molecular signatures could improve cancer screening, detection, drug development and selectio...
Please click here to watch this webinar On DemandsiRNA-mediated silencing of gene expression has revolutionized the study of biology by enabling rapid and unbiased loss-of-function studies to...
Soiled-bedding sentinels are not always efficient in detecting pathogens in rodent colonies. In this context, PCR-based testing can be more sensitive and is being advocated as adjunct to trad...
Uncovering the genetic lesions underpinning cancer through genomic profiling in a clinical setting could provide insights into possible treatment options for oncologists and their patients. N...
The era of omics has ushered in the hope for personalized medicine. Proteomic and genomic strategies that allow unbiased identification of genes and proteins and their post-transcriptional a...
Both cell free DNA (cfDNA) and circulating tumor cells (CTC) represent important possible templates for mutation analysis of clinical samples. Each template has different theoretical advantag...
When the BCR/ABL1 fusion protein was identified in chronic myelogenous leukemia and the JAK2 V617F mutation was identified in patients with other myeloproliferative neoplasms (MPNs) such as p...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The comprehensive, multidimensional molecular characterization of tumors and the individuals in which they have developed is transforming cancer definition, diagnosis, treatment, and preventi...
Although robust and clinically meaningful biomarkers are key to achieving the current vision for precision (molecularly based), cancer medicine (patient stratification, early diagnosis, drug...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
The TLA Technology constitutes a paradigm shift in targeted next generation sequencing (NGS). The TLA technology uses the physical proximity of nucleotides within a locus of interest as the b...
Opportunities for plant science to contribute to global food security include increasing the yield and quality of crops, making plants less susceptible to pests and and more resistant to her...
I will describe recent advances in computational protein design which allow the generation of new protein structures and functions. I will describe the use of these methods to design ultra-s...
The RNA-guided nuclease Cas9 from the microbial CRISPR adaptive immune system has emerged as an exciting tool for precise genome editing in eukaryotic cells. This presentation will discuss th...
This presentation will focus on NuMediis general approach towards the discovery of new therapeutic uses for existing drugs. While the business models for repurposing marketed drugs versus rep...
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...
Perhaps the greatest surprise of genetic studies of human disease is that 90% of top-scoring disease-associated loci lie outside protein-coding regions. This has increased the urgency of mapp...
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...
The continued growth of DNA sequencing as a fundamental data output has driven the need for the ability to generate high quality data from an increasing breadth of diminishing primary sample...
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...
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...
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...
Cancers exhibit abnormal molecular signatures associated with disease initiation and progression. Molecular signatures could improve cancer screening, detection, drug development and selectio...
Please click here to watch this webinar On DemandsiRNA-mediated silencing of gene expression has revolutionized the study of biology by enabling rapid and unbiased loss-of-function studies to...
Soiled-bedding sentinels are not always efficient in detecting pathogens in rodent colonies. In this context, PCR-based testing can be more sensitive and is being advocated as adjunct to trad...
Uncovering the genetic lesions underpinning cancer through genomic profiling in a clinical setting could provide insights into possible treatment options for oncologists and their patients. N...
The era of omics has ushered in the hope for personalized medicine. Proteomic and genomic strategies that allow unbiased identification of genes and proteins and their post-transcriptional a...
Both cell free DNA (cfDNA) and circulating tumor cells (CTC) represent important possible templates for mutation analysis of clinical samples. Each template has different theoretical advantag...
When the BCR/ABL1 fusion protein was identified in chronic myelogenous leukemia and the JAK2 V617F mutation was identified in patients with other myeloproliferative neoplasms (MPNs) such as p...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The comprehensive, multidimensional molecular characterization of tumors and the individuals in which they have developed is transforming cancer definition, diagnosis, treatment, and preventi...
Although robust and clinically meaningful biomarkers are key to achieving the current vision for precision (molecularly based), cancer medicine (patient stratification, early diagnosis, drug...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
The TLA Technology constitutes a paradigm shift in targeted next generation sequencing (NGS). The TLA technology uses the physical proximity of nucleotides within a locus of interest as the b...
Opportunities for plant science to contribute to global food security include increasing the yield and quality of crops, making plants less susceptible to pests and and more resistant to her...
I will describe recent advances in computational protein design which allow the generation of new protein structures and functions. I will describe the use of these methods to design ultra-s...
The RNA-guided nuclease Cas9 from the microbial CRISPR adaptive immune system has emerged as an exciting tool for precise genome editing in eukaryotic cells. This presentation will discuss th...
This presentation will focus on NuMediis general approach towards the discovery of new therapeutic uses for existing drugs. While the business models for repurposing marketed drugs versus rep...
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