AI Article Synopsis
- * SC-RNA-seq faces computational challenges like low sample availability, data normalization, and differential gene expression analysis, especially with large datasets generated by methods such as 10× Chromium.
- * The paper reviews various single-cell sequencing methods and highlights the need for new bioinformatics tools and algorithms to effectively handle and analyze the large volumes of data produced in this field.
Article Abstract
Rapid cost drops and advancements in next-generation sequencing have made profiling of cells at individual level a conventional practice in scientific laboratories worldwide. Single-cell transcriptomics [single-cell RNA sequencing (SC-RNA-seq)] has an immense potential of uncovering the novel basis of human life. The well-known heterogeneity of cells at the individual level can be better studied by single-cell transcriptomics. Proper downstream analysis of this data will provide new insights into the scientific communities. However, due to low starting materials, the SC-RNA-seq data face various computational challenges: normalization, differential gene expression analysis, dimensionality reduction, etc. Additionally, new methods like 10× Chromium can profile millions of cells in parallel, which creates a considerable amount of data. Thus, single-cell data handling is another big challenge. This paper reviews the single-cell sequencing methods, library preparation, and data generation. We highlight some of the main computational challenges that require to be addressed by introducing new bioinformatics algorithms and tools for analysis. We also show single-cell transcriptomics data as a big data problem.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8100238 | PMC |
| http://dx.doi.org/10.3389/fnins.2021.591122 | DOI Listing |
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