Gene Expression: the process by which information from a gene is used in the synthesis of a functional gene product. These products are often proteins, but in non-protein coding genes such as transfer RNA (tRNA) or small nuclear RNA (snRNA) genes, the product is a functional RNA. The process of gene expression is used by all known life-eukaryotes (including multicellular organisms), prokaryotes (bacteria and archaea), and utilized by viruses-to generate the macromolecular machinery for life.
Three-dimensional (3D) cell culture spheroids and aggregates are preferred over monolayer cell culture due to their architectural and functional similarity to solid tumors. To study expressi...
Immunohistochemistry (IHC) is used to determine spatial relationships where we can identify the localization of target proteins in specific regions and cells of a tissue. IHC has been the go...
DATE: November 10, 2020 TIME: 9:00am PT, 12am ET Gene Synthesis ensures fast access to nearly any DNA sequence, regardless its origin or complexity. Its reliability, flexibility and fast tur...
DATE: November 10, 2020 TIME: 7:00am PDT, 10:00am EDT Automation can provide tremendous benefits such as increased pipetting precision and accuracy, productivity, and throughput. Numerous wo...
DATE: Date needed, 2020 TIME: Time needed Exosomes are a population of naturally occurring mobile, membrane-limited, 30 – 100 nm in diameter, extracellular vesicles containing a large...
Date: October 29, 2020 Time: 8:00am (PDT), 11:00am (EDT) What cell types cause and perpetuate disease? For many diseases, scientists only have guesses to this critical question. Single cell...
DATE: October 27th, 2020 TIME: 8:00am PT Molecular diagnostic assay development and design is no simple task, and several factors affect the performance and usability of a test. Diagnostic c...
The continued rapid expansion of immunotherapies, including both in vivo and ex vivo therapeutics, has driven the development and adoption of novel tools to study, asses and understand these...
Antibodies have become one of the most important tools in life science research, allowing the detection, quantitation, and determination of changes in proteins and other molecules with respe...
Immunohistochemistry (IHC) is used to determine spatial relationships where we can identify the localization of target proteins in specific regions and cells of a tissue. IHC has been the go...
Individuals of under-represented minority ancestry are at disproportional risk for higher incidence and mortality rates for particular cancers. The unequal burden of cancer in certain racial...
DATE: October 8, 2020 TIME: 7:00am PDT, 10:00am EDT, 4:00pm CEST How often do you pipette in your cell culture lab every day? Usually, we do it so often that we tend stop thinking about ho...
Every patient is different and so is every tumor! The term “personalized oncology” today is largely associated with sequencing approaches. Current publications proof more and mor...
Changes in transcriptional regulation are thought to be one of the key drivers of carcinogenesis. Although next-generation sequencer revolutionized transcriptome analysis, there are limitati...
Tumor phenotypes are dictated not only by the neoplastic cell component, but also by the tumor microenvironment (TME), which is inherently immuno-suppressive, is equipped to hamper effector...
Immune therapy approaches are being used in many different solid cancers today including clear cell renal carcinoma (mccRCC) and metastatic prostate adenocarcinoma. Over the past few years i...
RNA plays important and diverse roles in biology, but molecular tools to manipulate and measure RNA are limited. We demonstrate that RNA-targeting CRISPR effector Cas13 can be engineered for...
The CRISPR/Cas genome editing system has revolutionized nearly every aspect of the life science industry. Until recently, the most used formats for this technology have been plasmids, mRNA,...
CRISPR-based genome editing has accelerated biological research and holds great potential for studying and treating human diseases. The CRISPR-Cas9 system requires a Cas9 nuclease and a guid...
While transformative, first-generation CRISPR technologies remain limited across multiple important dimensions including scalability, editing efficiency, types of modifications available, an...
Genome Engineering allows the easy manipulation of genomes down to the nucleotide level. Targeted deep sequencing enables the detection and quantification of low-frequency editing events. Ho...
Genome editing with an expanded CRISPR-Cas tool set increases the opportunity to make intentional, targeted changes in the genome. Furthermore, improved specificity of genome editing and abi...
Combinatorial inhibition of effector and feedback pathways is a promising treatment strategy for KRAS mutant cancers. However, the particular pathways that should be targeted to optimize the...
An extensively debated concern about CRISPR-Cas9 genome editing is that unspecific guide RNA (gRNA) binding may induce off-target mutations. However, accurate prediction of CRISPR-Cas9 off-t...
Three-dimensional (3D) cell culture spheroids and aggregates are preferred over monolayer cell culture due to their architectural and functional similarity to solid tumors. To study expressi...
Immunohistochemistry (IHC) is used to determine spatial relationships where we can identify the localization of target proteins in specific regions and cells of a tissue. IHC has been the go...
DATE: November 10, 2020 TIME: 9:00am PT, 12am ET Gene Synthesis ensures fast access to nearly any DNA sequence, regardless its origin or complexity. Its reliability, flexibility and fast tur...
DATE: November 10, 2020 TIME: 7:00am PDT, 10:00am EDT Automation can provide tremendous benefits such as increased pipetting precision and accuracy, productivity, and throughput. Numerous wo...
DATE: Date needed, 2020 TIME: Time needed Exosomes are a population of naturally occurring mobile, membrane-limited, 30 – 100 nm in diameter, extracellular vesicles containing a large...
Date: October 29, 2020 Time: 8:00am (PDT), 11:00am (EDT) What cell types cause and perpetuate disease? For many diseases, scientists only have guesses to this critical question. Single cell...
DATE: October 27th, 2020 TIME: 8:00am PT Molecular diagnostic assay development and design is no simple task, and several factors affect the performance and usability of a test. Diagnostic c...
The continued rapid expansion of immunotherapies, including both in vivo and ex vivo therapeutics, has driven the development and adoption of novel tools to study, asses and understand these...
Antibodies have become one of the most important tools in life science research, allowing the detection, quantitation, and determination of changes in proteins and other molecules with respe...
Immunohistochemistry (IHC) is used to determine spatial relationships where we can identify the localization of target proteins in specific regions and cells of a tissue. IHC has been the go...
Individuals of under-represented minority ancestry are at disproportional risk for higher incidence and mortality rates for particular cancers. The unequal burden of cancer in certain racial...
DATE: October 8, 2020 TIME: 7:00am PDT, 10:00am EDT, 4:00pm CEST How often do you pipette in your cell culture lab every day? Usually, we do it so often that we tend stop thinking about ho...
Every patient is different and so is every tumor! The term “personalized oncology” today is largely associated with sequencing approaches. Current publications proof more and mor...
Changes in transcriptional regulation are thought to be one of the key drivers of carcinogenesis. Although next-generation sequencer revolutionized transcriptome analysis, there are limitati...
Tumor phenotypes are dictated not only by the neoplastic cell component, but also by the tumor microenvironment (TME), which is inherently immuno-suppressive, is equipped to hamper effector...
Immune therapy approaches are being used in many different solid cancers today including clear cell renal carcinoma (mccRCC) and metastatic prostate adenocarcinoma. Over the past few years i...
RNA plays important and diverse roles in biology, but molecular tools to manipulate and measure RNA are limited. We demonstrate that RNA-targeting CRISPR effector Cas13 can be engineered for...
The CRISPR/Cas genome editing system has revolutionized nearly every aspect of the life science industry. Until recently, the most used formats for this technology have been plasmids, mRNA,...
CRISPR-based genome editing has accelerated biological research and holds great potential for studying and treating human diseases. The CRISPR-Cas9 system requires a Cas9 nuclease and a guid...
While transformative, first-generation CRISPR technologies remain limited across multiple important dimensions including scalability, editing efficiency, types of modifications available, an...
Genome Engineering allows the easy manipulation of genomes down to the nucleotide level. Targeted deep sequencing enables the detection and quantification of low-frequency editing events. Ho...
Genome editing with an expanded CRISPR-Cas tool set increases the opportunity to make intentional, targeted changes in the genome. Furthermore, improved specificity of genome editing and abi...
Combinatorial inhibition of effector and feedback pathways is a promising treatment strategy for KRAS mutant cancers. However, the particular pathways that should be targeted to optimize the...
An extensively debated concern about CRISPR-Cas9 genome editing is that unspecific guide RNA (gRNA) binding may induce off-target mutations. However, accurate prediction of CRISPR-Cas9 off-t...