Human development describes the stages of human life. Human development consists of 5 stages. Infancy (up to one year), toddler (age 1 - 5), childhood (age 3 - 11), adolescence (age 12 - 18), and adulthood. The study of human development aims to understand how people grow, develop, and change throughout their life.
To date the anatomic extent of tumor (TNM-classification) has been by far the most important factors to predict the prognosis of cancer patients. However, this classification provides limited...
RNA sequencing unlocks the mysteries hidden in the transcriptome. Whether your goal is gene expression analysis, gene fusion analysis, SNP analysis or miRNA expression analysis, achieving hig...
The microbiome signatures in the context of gynecologic cancers (endometrial and ovarian) and the potential for their clinical use will be discussed. The use of microfluidic technologies to i...
High-throughput screening is widely useful in identifying genes and pathways that drive changes in cell behavior such as cell cycle regulation, metastasis, and drug resistance. Millipor...
In prior work, we have pursued how tumor reactive monoclonal antibody (mAb), together with activators of innate immune cells, like NK cells, can augment antibody dependent cell-mediated cytot...
Molecular analyses of cancer biology have tended to segregate between a focus on nucleic acids – DNA, RNA and their modifications – and a focus on proteins and protein function. P...
Understanding the immune repertoire is an important aspect of immuno-oncology research, which can be used to gather insights into the function and overall status of the immune system. We have...
DATE: October 9, 2018TIME: 08:00am PDT, 11:00pm EDT Have you ever wondered what to consider when you are selecting ancillary materials for your cell therapy clinical research...
Decoding human genetic disease allows us to develop models of the pathology that can be directly tested with gene correction or targeted drug therapy. Dominant negative mutations are pa...
There have been an increasing number of successful human gene therapy clinical trials, and in particular gene delivery vehicles or vectors based on the adeno-associated virus (AAV) have enabl...
The CRISPR-Cas9 system has proven to be a powerful tool for genome editing allowing for the precise modification of specific DNA sequences within a cell. Many efforts are currently underway t...
Pancreatic β cell replacement therapy is considered as a potential strategy to treat diabetes. To date, transplantation of pancreatic islets from cadavers is the most effective approach...
Cellular processes are orchestrated by a large number of biomolecules in a spatially and temporally coordinated manner within a tiny volume. To uncover the underlying organizational principle...
Early adverse exposures, such as maternal stress during pregnancy and child abuse, are thought to result in long-lasting consequences on neural circuit function and stress hormone regulation...
Early detection of protein biomarkers is critical to the study of human diseases, yet current tools available for low-level protein quantitation do not address all the needs for protein and m...
DATE: September 18,2018TIME: 08:00am PDT, 11:00am EDT CRISPR-Cas9 gene editing strategies have revolutionized our ability to engineer the genomes of diverse cell types and sp...
Affinity purification, immunoprecipitation, and mass spectrometry analysis are essential tools used in proteomic studies. A successful outcome is facilitated by high-capacity supports, effici...
To ensure the immune system’s balance between the recognition of non-self and the prevention of autoimmunity, the activity of immune cells needs to be strictly controlled. During the pr...
Current methods for in vitro diagnosis of autoimmune diseases (ADs) are mainly based on the detection of circulating autoantibodies using specific AD autoantigens. A high-quality recombinant...
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...
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...
To date the anatomic extent of tumor (TNM-classification) has been by far the most important factors to predict the prognosis of cancer patients. However, this classification provides limited...
RNA sequencing unlocks the mysteries hidden in the transcriptome. Whether your goal is gene expression analysis, gene fusion analysis, SNP analysis or miRNA expression analysis, achieving hig...
The microbiome signatures in the context of gynecologic cancers (endometrial and ovarian) and the potential for their clinical use will be discussed. The use of microfluidic technologies to i...
High-throughput screening is widely useful in identifying genes and pathways that drive changes in cell behavior such as cell cycle regulation, metastasis, and drug resistance. Millipor...
In prior work, we have pursued how tumor reactive monoclonal antibody (mAb), together with activators of innate immune cells, like NK cells, can augment antibody dependent cell-mediated cytot...
Molecular analyses of cancer biology have tended to segregate between a focus on nucleic acids – DNA, RNA and their modifications – and a focus on proteins and protein function. P...
Understanding the immune repertoire is an important aspect of immuno-oncology research, which can be used to gather insights into the function and overall status of the immune system. We have...
DATE: October 9, 2018TIME: 08:00am PDT, 11:00pm EDT Have you ever wondered what to consider when you are selecting ancillary materials for your cell therapy clinical research...
Decoding human genetic disease allows us to develop models of the pathology that can be directly tested with gene correction or targeted drug therapy. Dominant negative mutations are pa...
There have been an increasing number of successful human gene therapy clinical trials, and in particular gene delivery vehicles or vectors based on the adeno-associated virus (AAV) have enabl...
The CRISPR-Cas9 system has proven to be a powerful tool for genome editing allowing for the precise modification of specific DNA sequences within a cell. Many efforts are currently underway t...
Pancreatic β cell replacement therapy is considered as a potential strategy to treat diabetes. To date, transplantation of pancreatic islets from cadavers is the most effective approach...
Cellular processes are orchestrated by a large number of biomolecules in a spatially and temporally coordinated manner within a tiny volume. To uncover the underlying organizational principle...
Early adverse exposures, such as maternal stress during pregnancy and child abuse, are thought to result in long-lasting consequences on neural circuit function and stress hormone regulation...
Early detection of protein biomarkers is critical to the study of human diseases, yet current tools available for low-level protein quantitation do not address all the needs for protein and m...
DATE: September 18,2018TIME: 08:00am PDT, 11:00am EDT CRISPR-Cas9 gene editing strategies have revolutionized our ability to engineer the genomes of diverse cell types and sp...
Affinity purification, immunoprecipitation, and mass spectrometry analysis are essential tools used in proteomic studies. A successful outcome is facilitated by high-capacity supports, effici...
To ensure the immune system’s balance between the recognition of non-self and the prevention of autoimmunity, the activity of immune cells needs to be strictly controlled. During the pr...
Current methods for in vitro diagnosis of autoimmune diseases (ADs) are mainly based on the detection of circulating autoantibodies using specific AD autoantigens. A high-quality recombinant...
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...
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...
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