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Bioengineering
Bioengineering: is a discipline that applies engineering principles of design and analysis to biological systems and biomedical technologies. Bioengineering examples include bacteria engineered to produce chemicals, new medical imaging technology, portable disease diagnostic devices, and tissue engineered organs.
OCT 15, 2015 | 7:30 AM
DATE: October 15, 2015
TIME: 7:30AM PDT, 10:30AM EDT
Most cell biologists culture cells in dishes and shake flasks to produce proteins and biological molecules; however the production of ...
SEP 22, 2015 | 8:00 AM
Surface plasmon resonance (SPR) is a sensitive, label-free technique that detects mass changes due to biomolecular interactions on a surface. This versatile method has been used to evaluate t...
MAY 14, 2015 | 10:30 AM
Deep mutational scanning is a method that marries selection for protein function amongst a large library of protein variants with high-throughput DNA sequencing to measure the activity of hun...
JAN 09, 2015 | 5:30 AM
In this webinar, the presenter will discuss:
An Introduction to EPFL’s Core Facility and its role in furthering flow cytometry research
&nb...
OCT 30, 2014 | 3:00 PM
Oncogenic mutations in isocitrate dehydrogenase 1 (IDH1) or 2 (IDH2) compromise their normal activity and induce NADPH-dependent (D)2-hydroxyglutarate (2HG) production within the cytosol or m...
SEP 24, 2014 | 2:00 PM
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...
AUG 21, 2014 | 9:45 AM
Accurate and timely diagnosis of rejection and infection is essential for long-term survival of solid-organ transplant recipients. We evaluated the performance a novel test to monitor rejecti...
AUG 21, 2014 | 6:45 AM
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...
AUG 20, 2014 | 2:15 PM
Understanding how genes coordinate their expression across cells in a growing embryo can provide insights into the transcriptional programs that control development. Intercellular variability...
OCT 17, 2013 | 7:00 AM
Whenever there is cell death, apoptotic cell free DNA fragments appear in the circulation of the host. These fragments, typically 145-160 base pairs in size, represent a minute fraction of to...
OCT 16, 2013 | 1:00 PM
C.E. CREDITS
The remarkable diversity we see between different cell types in the human body is governed by the specificity attained through transcriptional and epigenetic regulatory programs. Cancer is a...
AUG 22, 2013 | 11:00 AM
C.E. CREDITS
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-st...
AUG 22, 2013 | 8:00 AM
Synthesis and assembly of DNA powerfully enables reverse genetics-based approaches to scientific discovery. I'll present recent and unpublished work on genome refactoring and redesign, focusi...
AUG 21, 2013 | 3:00 PM
C.E. CREDITS
The remarkable diversity we see between different cell types in the human body is governed by the specificity attained through transcriptional and epigenetic regulatory programs. Cancer is a...
AUG 21, 2013 | 12:00 PM
Whenever there is cell death, apoptotic cell free DNA fragments appear in the circulation of the host. These fragments, typically 145-160 base pairs in size, represent a minute fraction of to...
MAY 14, 2015 | 10:30 AM
Deep mutational scanning is a method that marries selection for protein function amongst a large library of protein variants with high-throughput DNA sequencing to measure the activity of hun...
JAN 09, 2015 | 5:30 AM
In this webinar, the presenter will discuss:
An Introduction to EPFL’s Core Facility and its role in furthering flow cytometry research
&nb...