A practical guide to single-cell RNA-sequencing for biomedical research and clinical applications

Haque, Ashraful; Engel, Jessica A.; Teichmann, Sarah A.; Lönnberg, Tapio

doi:10.1186/s13073-017-0467-4

Cited by 752 publications

(625 citation statements)

References 100 publications

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“…Next, we compared the transcription levels per gene across single cells with those from the same time points from a population-level RNA-seq experiment 16 . The comparison demonstrated that overall expression levels per gene are significantly, though weakly, correlated between single-cell DGE and population-level RNA-seq (F-test, p<2.2×10 -16 ) Notably, the weak correlation we observe between the two transcriptional datasets highlights the known gene “drop-out” effect of single-cell sequencing 20, 21 . Altogether, these experiments demonstrate that the DGE platform presented here is able to capture mRNA profiles of single P. falciparum parasites at sufficient depth to i) detect transcriptional differences between 4-hour time points in the cell cycle and ii) recapitulate overall transcriptional profiles from population-level RNA-seq experiments.…”

Section: Resultsmentioning

confidence: 80%

Probing Plasmodium falciparum sexual commitment at the single-cell level

Brancucci¹,

Niz²,

Straub³

et al. 2018

Wellcome Open Res

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Background: Malaria parasites go through major transitions during their complex life cycle, yet the underlying differentiation pathways remain obscure. Here we apply single cell transcriptomics to unravel the program inducing sexual differentiation in Plasmodium falciparum. Parasites have to make this essential life-cycle decision in preparation for human-to-mosquito transmission. Methods: By combining transcriptional profiling with quantitative imaging and genetics, we defined a transcriptional signature in sexually committed cells. Results: We found this transcriptional signature to be distinct from general changes in parasite metabolism that can be observed in response to commitment-inducing conditions. Conclusions: This proof-of-concept study provides a template to capture transcriptional diversity in parasite populations containing complex mixtures of different life-cycle stages and developmental programs, with important implications for our understanding of parasite biology and the ongoing malaria elimination campaign.

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Section: Resultsmentioning

confidence: 80%

Probing Plasmodium falciparum sexual commitment at the single-cell level

Brancucci¹,

Niz²,

Straub³

et al. 2018

Wellcome Open Res

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“…In contrast, single-particle analysis techniques, such as PTA, or single-particle inductively coupled plasma mass spectrometry or quantitative-TEM accurately measure individual particle. These single particle, or analyte, techniques are becoming increasingly utilised in a number of other analytical areas, with techniques such as single-cell mRNA sequencing operating under a similar principle, compared to the ensemble measurements via bulk RNA sequencing [26,27], since they allow for the analysis of the true variability within a sample or population.…”

Section: Advanced Characterisation Of Polydispersed Samplesmentioning

confidence: 99%

Characterisation of particles in solution – a perspective on light scattering and comparative technologies

Maguire

Rösslein

Wick

et al. 2018

Science and Technology of Advanced Materials

201

133

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We present here a perspective detailing the current state-of-the-art technologies for the characterisation of nanoparticles (NPs) in liquid suspension. We detail the technologies involved and assess their applications in the determination of NP size and concentration. We also investigate the parameters that can influence the results and put forward a cause and effect analysis of the principle factors influencing the measurement of NP size and concentration by NP tracking analysis and dynamic light scattering, to identify areas where uncertainties in the measurement can arise. Also included are technologies capable of characterising NPs in solution, whose measurements are not based on light scattering. It is hoped that the manuscript, with its detailed description of the methodologies involved, will assist scientists in selecting the appropriate technology for characterising their materials and enabling them to comply with regulatory agencies’ demands for accurate and reliable NP size and concentration data.

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“…Hence, we see value in future studies where cell populations are further parsed by surface marker presentation, adherence qualities, and/or colony size ahead of transcriptomics. By combining FACS from a subset of markers with current single cell RNA‐sequencing technology, instead of considering pooled regional progenitor differences, much more precise comparisons could be made, perhaps even down to the combined cell type and cell state level for any one progenitor . Additionally, analyses of protein levels of these markers were not performed as this study represented an analysis of transcript abundance.…”

Section: Discussionmentioning

confidence: 99%