Chromatin Dynamics refers to the movements and interactions in the nucleus which plays a crucial role in gene regulation. The dynamic structure of chromatin modulates other nuclear processes, including transcription and replication, by altering the accessibility of the DNA to regulatory factors.
Join Dr. Emily Hodges, assistant professor of biochemistry at Vanderbilt University, to learn more about how the Hodges Lab is utilizing the 6-base genome to investigate the dynamics of enha...
Dynamic changes in chromatin drive gene expression programs during cellular development and contribute to pathological changes underlying disease. To date, efforts to characterize chromatin...
Date: December 07, 2022 Time: 9:00am (PST), 12:00pm (EST), 6:00pm (CET) Join us for an exciting live panel webinar, as we celebrate the 60th anniversary of Gibco Cell Culture. The panelists...
Date: June 29, 2022 Time: 7:00am (PDT), 10:00am (EDT), 4:00pm (CEST) Imaging live cells is key to reveal their inner workings, dynamics, and function. Current technological advances in confo...
Date: May 19, 2022 Time: 8:00am (PDT), 11:00pm (EDT), 5:00pm (CEST) Mass spectrometry (MS)-based proteomic technologies are increasingly applied in a clinical context for disease classific...
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...
Histone post-translational modifications (PTMs) play pivotal roles in chromatin dynamics and function, with alterations in the healthy profile associated with diverse human pathologies. The...
Structural variation within plant genomes has fueled domestication and selection of traits critical for modern breeding of crop plants. Nevertheless, dissecting the diversity of structural v...
Genetic drivers of cancer can be dysregulated through epigenetic modifications of DNA. Although the critical role of DNA 5-methylcytosine (5mC) in the regulation of transcription is recognize...
Precision medicine and next-generation sequencing – Two terms characterized by a highly dynamic nature, strong innovations and a bright future. Both merged together will exert a decisiv...
The deposition and removal of DNA and histone modifications depends on the availability of specific metabolites, suggesting that cellular metabolic pathways may dynamically regulate chromatin...
We developed two computational methods, CARE and TIDE, to predict response and resistance to targeted therapies and immunotherapies. CARE infers gene signatures of targeted therapy response b...
DATE: September 19, 2017TIME: 10:30am PDT/ 1:30pm EDT/ 7:30pm CESTPart 1 – Cigall Kadoch, Ph.D. (30 min.)Exome- and genome-wide sequencing studies in human cancer have...
Healthcare is becoming more proactive and data-rich than anything before possible – and will increasingly focus on maintaining and enhancing wellness more than just reacting to disease....
Despite vast investment for decades in cancer research and development, cancer is still among the leading causes of death worldwide and its toll is expected to rise by about 70% over the next...
Launched in early 2015, the Precision Medicine Initiative (PMI) takes advantage of the progress made in genomic testing – progress largely driven by rapid advances in DNA sequencing tec...
DATE: November 23rd, 2016TIME: 8:00AM PT, 11:00AM ETThe structure of chromatin is critical for many aspects of cellular physiology and is considered to be the primary medium to store ep...
The Cas9 endonuclease from the microbial adaptive immune system CRISPR can be easily programmed to bind or cleave specific DNA sequence using a short RNA guide. Cas9 is enabling the generatio...
The next generation sequencing technologies are profoundly influencing our way to study biology. We have previously developed cap-analysis gene expression (CAGE) to simultaneously mRNA/noncod...
High throughput transcriptomic analyses have shown that most of the human genome is dynamically transcribed to produce an extraordinary range of overlapping and interlacing intronic, intergen...
Join Dr. Emily Hodges, assistant professor of biochemistry at Vanderbilt University, to learn more about how the Hodges Lab is utilizing the 6-base genome to investigate the dynamics of enha...
Dynamic changes in chromatin drive gene expression programs during cellular development and contribute to pathological changes underlying disease. To date, efforts to characterize chromatin...
Date: December 07, 2022 Time: 9:00am (PST), 12:00pm (EST), 6:00pm (CET) Join us for an exciting live panel webinar, as we celebrate the 60th anniversary of Gibco Cell Culture. The panelists...
Date: June 29, 2022 Time: 7:00am (PDT), 10:00am (EDT), 4:00pm (CEST) Imaging live cells is key to reveal their inner workings, dynamics, and function. Current technological advances in confo...
Date: May 19, 2022 Time: 8:00am (PDT), 11:00pm (EDT), 5:00pm (CEST) Mass spectrometry (MS)-based proteomic technologies are increasingly applied in a clinical context for disease classific...
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...
Histone post-translational modifications (PTMs) play pivotal roles in chromatin dynamics and function, with alterations in the healthy profile associated with diverse human pathologies. The...
Structural variation within plant genomes has fueled domestication and selection of traits critical for modern breeding of crop plants. Nevertheless, dissecting the diversity of structural v...
Genetic drivers of cancer can be dysregulated through epigenetic modifications of DNA. Although the critical role of DNA 5-methylcytosine (5mC) in the regulation of transcription is recognize...
Precision medicine and next-generation sequencing – Two terms characterized by a highly dynamic nature, strong innovations and a bright future. Both merged together will exert a decisiv...
The deposition and removal of DNA and histone modifications depends on the availability of specific metabolites, suggesting that cellular metabolic pathways may dynamically regulate chromatin...
We developed two computational methods, CARE and TIDE, to predict response and resistance to targeted therapies and immunotherapies. CARE infers gene signatures of targeted therapy response b...
DATE: September 19, 2017TIME: 10:30am PDT/ 1:30pm EDT/ 7:30pm CESTPart 1 – Cigall Kadoch, Ph.D. (30 min.)Exome- and genome-wide sequencing studies in human cancer have...
Healthcare is becoming more proactive and data-rich than anything before possible – and will increasingly focus on maintaining and enhancing wellness more than just reacting to disease....
Despite vast investment for decades in cancer research and development, cancer is still among the leading causes of death worldwide and its toll is expected to rise by about 70% over the next...
Launched in early 2015, the Precision Medicine Initiative (PMI) takes advantage of the progress made in genomic testing – progress largely driven by rapid advances in DNA sequencing tec...
DATE: November 23rd, 2016TIME: 8:00AM PT, 11:00AM ETThe structure of chromatin is critical for many aspects of cellular physiology and is considered to be the primary medium to store ep...
The Cas9 endonuclease from the microbial adaptive immune system CRISPR can be easily programmed to bind or cleave specific DNA sequence using a short RNA guide. Cas9 is enabling the generatio...
The next generation sequencing technologies are profoundly influencing our way to study biology. We have previously developed cap-analysis gene expression (CAGE) to simultaneously mRNA/noncod...
High throughput transcriptomic analyses have shown that most of the human genome is dynamically transcribed to produce an extraordinary range of overlapping and interlacing intronic, intergen...
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