Single-cell barcoding and sequencing using droplet microfluidics

Abstract: Single-cell RNA sequencing has recently emerged as a powerful tool for mapping cellular heterogeneity in diseased and healthy tissues, yet high-throughput methods are needed for capturing the unbiased diversity of cells. Droplet microfluidics is among the most promising candidates for capturing and processing thousands of individual cells for whole-transcriptome or genomic analysis in a massively parallel manner with minimal reagent use. We recently established a method called inDrops, which has the capability… Show more

“…Transcriptome barcoding and preparation of libraries for single-cell mRNA-sequencing was performed using the most up-to-date inDrops protocol 34 . For our experiment, the Lin-Sca1+cKit+ BM fraction from a single BL6 mouse was labelled and FACS sorted to purify the entire LT-HSC, MPP1, MPP2, MPP3 and MPP4 fractions.…”

Clonal analysis of lineage fate in native haematopoiesis

“…Transcriptome barcoding and preparation of libraries for single-cell mRNA-sequencing was performed using the most up-to-date inDrops protocol 34 . For our experiment, the Lin-Sca1+cKit+ BM fraction from a single BL6 mouse was labelled and FACS sorted to purify the entire LT-HSC, MPP1, MPP2, MPP3 and MPP4 fractions.…”

Clonal analysis of lineage fate in native haematopoiesis

“…This droplet strategy greatly elevates the reaction throughput and dramatically reduces cost. Currently, there are three prevalent droplet-base systems for high-throughput scRNA-seq, namely inDrop Klein et al, 2015;Wagner et al, 2018;Zilionis et al, 2017), Drop-seq 4 (Farrell et al, 2018;Macosko et al, 2015) and 10X Genomics Chromium (10X) . All of them have been demonstrated to be robust and practical in generating cDNA libraries for thousands of cells in a single run with acceptable cost.…”

Comparative analysis of droplet-based ultra-high-throughput single-cell RNA-seq systems

“…Они рассматривают-ся в качестве перспективных кандидатов для создания таргетных средств доставки лекарственных препара-тов [1,2], кодирования фрагментов ДНК при секвениро-вании генома отдельных клеток [3], специфических мар-керов для обнаружения и выделения онкомаркеров [4,5], микрореакторов для проведения генетических иссле-дований методом цифровой капельной полимеразной цепной реакции (ПЦР) [6], упаковки отдельных клеток для регенерации поврежденных тканей [7].…”

Формирование Гидрогелевых Частиц Из Полиакриламида И PEGDA В Микрофлюидном Генераторе Эмульсий С Фокусировкой Потока