See our BioMag ConA #magnetic beads (https://t.co/F2ksfwmzSD) in action: Automated in situ #chromatin profiling efficiently resolves #cell types and gene regulatory programs https://t.co/IvEpRO6F4e via @BioMedCentral #SLAS2020 #disease #automation https:
RT @CieraReports: Xiayong told us about work to automate CUT&RUN (an antibody-targeted nuclease cleavage method), which will provide a way…
RT @CieraReports: Xiayong told us about work to automate CUT&RUN (an antibody-targeted nuclease cleavage method), which will provide a way…
Xiayong told us about work to automate CUT&RUN (an antibody-targeted nuclease cleavage method), which will provide a way to quantitatively distinguish cell-types based on their unique gene regulatory programs. Paper: https://t.co/xkDwfn95Mt
Great news, @fredhutch @seattlechildren @UWMedicine and @BrotmanBaty 🔬👩🏽🔬👨🏼🔬 #chromatin #Seattle
.@FredHutch @UWMedicine @SeattleChildren researchers established an attractive automated in situ #chromatin profiling platform 'Cut and Run' for high throughput characterization of cell types and patient samples. https://t.co/KNZFGUQwc5 https://t.co/DE85Fj
RT @boris_ctcf: 'Automated in situ chromatin profiling efficiently resolves cell types and gene regulatory programs' as described in the re…
RT @boris_ctcf: 'Automated in situ chromatin profiling efficiently resolves cell types and gene regulatory programs' as described in the re…
'Automated in situ chromatin profiling efficiently resolves cell types and gene regulatory programs' as described in the recent Epigenetics & Chromatin paper from the Henikoff Lab https://t.co/YGaOVxSGsg