--- /dev/null
+[[!meta title="High-fidelity promoter profiling reveals widespread alternative promoter usage and transposon-driven developmental gene expression."]]
+[[!tag CAGE template_switching repeat]]
+
+Batut P, Dobin A, Plessy C, Carninci P, Gingeras TR.
+
+Genome Res. 2013 Jan;23(1):169-80. doi: 10.1101/gr.139618.112. Epub 2012 Aug 30.
+
+High-fidelity promoter profiling reveals widespread alternative promoter usage and transposon-driven developmental gene expression.
+
+[[!pmid 22936248 desc="Combines three methods for cap specificity."]]
--- /dev/null
+[[!meta title="Suppression of artifacts and barcode bias in high-throughput transcriptome analyses utilizing template switching."]]
+[[!tag CAGE template_switching barcode artefact OSC]]
+
+Tang DT, Plessy C, Salimullah M, Suzuki AM, Calligaris R, Gustincich S, Carninci P.
+
+Nucleic Acids Res. 2012 Nov 24. [Epub ahead of print]
+
+Suppression of artifacts and barcode bias in high-throughput transcriptome analyses utilizing template switching.
+
+[[!pmid 23180801 desc="Problem solved."]]
--- /dev/null
+[[!meta title="Population transcriptomics with single-cell resolution: A new field made possible by microfluidics."]]
+[[!tag microfluidics transcript_counting review OSC]]
+
+Plessy C, Desbois L, Fujii T, Carninci P.
+
+Bioessays. 2013 Feb;35(2):131-40. doi: 10.1002/bies.201200093. Epub 2012 Dec 27.
+
+Population transcriptomics with single-cell resolution: A new field made possible by microfluidics.
+
+[[!pmid 23281054 desc="A technology for high throughput transcript counting and data-driven definition of cell types."]]
projects / source / .git / commitdiff