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From pixels to comp...
From pixels to comprehensive cellular atlases : Applications of in situ sequencing to understand tissue biology
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- Marco Salas, Sergio, 1996- (författare)
- Stockholms universitet,Institutionen för biokemi och biofysik
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- Nilsson, Mats, 1969- (preses)
- Stockholms universitet,Institutionen för biokemi och biofysik,Science for Life Laboratory (SciLifeLab)
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- Arenas, Ernest, Professor (preses)
- Karolinska Institutet
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- Crevenna Escobar, Alvaro, Dr (opponent)
- EMBL Rome, Italy
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(creator_code:org_t)
- ISBN 9789180146913
- Stockholm : Department of Biochemistry and Biophysics, Stockholm University, 2024
- Engelska 63 s.
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Abstract
Ämnesord
Stäng
- The development of single-cell RNA sequencing enabled the high throughput characterization of cell populations with unprecedented detail. Yet, it failed in capturing the spatial localization of individual cells. Overcoming this, different spatial profiling methods have been developed in recent years, with in situ sequencing (ISS) being among the most powerful solutionsISS is a targeted spatially-resolved transcriptomics method designed to detect the expression of hundreds of genes in situ in a single experiment. For this, ISS employs padlock probes, a type of oligonucleotide designed to specifically hybridize on the targeted regions, with rolling circle amplification and a combinatorial detection of the transcripts imaged. Due to its throughput and resolution, ISS is seen as a useful tool to create high content molecular maps of tissues, being of special use for building spatial atlases. However, due to its recent development, it’s still unclear how this should be done. The work presented in this thesis explores ISS as a tool for building large spatially-resolved atlases of cell types. In paper I, we compare the performance of cDNA-based ISS with the High Sensitivity Library Preparation Kit, developed by CARTANA AB. We identify this product to be fivefold more sensitive than cDNA-based ISS due to its improved chemistry. In addition, we show that this increased sensitivity enhances the analytical capabilities of the resulting data. In paper II, we build a topographic atlas of the developmental human lung. We identify 83 different cell types and states, including a novel type of GHRL-positive neuroendocrine cell. We further elucidate the developmental origin multiple populations, defining their location in situ and predicting potential interactions. In paper III, we create a topographic atlas of the adult human lung. We combine multiple spatial transcriptomic technologies to generate spatial maps of the populations found in the adult lung. We decipher regional differences in terms of cell type composition and cell type-specific expression. Finally, we also characterize the spatial context of rare cell types.In paper IV, we employ large-scale data integration to construct a scRNA-seq-based cellular map of glioblastoma, an aggressive brain malignancy. In addition, we use ISS to generate single-cell resolution cell type maps of 13 glioblastoma patients, identifying consistent niches across patients and uncovering the cellular organization of these tumors. In paper V, we explore the quality of the data generated by the Xenium In Situ Platform, a product based on ISS and commercialized by 10X Genomics. We explore the main characteristics of the data and benchmark it against other technologies. Finally, we also define best practices for the most common analysis done using these datasets. Collectively, the studies presented in this thesis serve as evidence of the efficacy of ISS in constructing comprehensive cellular atlases with a single-cell resolution.
Ämnesord
- NATURVETENSKAP -- Biologi -- Bioinformatik och systembiologi (hsv//swe)
- NATURAL SCIENCES -- Biological Sciences -- Bioinformatics and Systems Biology (hsv//eng)
Nyckelord
- in situ sequencing
- molecular atlas
- lung
- glioblastoma
- spatial transcriptomics
- biokemi med inriktning mot bioinformatik
- Biochemistry towards Bioinformatics
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