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Transcriptome Profiling
Progress and Prospects
Assesses the use of computational tools to effectively process sequence data in transcriptomics
Mohammad Ajmal Ali (Edited by), Joongku Lee (Edited by)
9780323918107, Elsevier Science
Paperback, published 10 October 2022
528 pages
23.5 x 19 x 3.3 cm, 0.45 kg
Transcriptome Profiling: Progress and Prospects assists readers in assessing and interpreting a large number of genes, up to and including an entire genome. It provides key insights into the latest tools and techniques used in transcriptomics and its relevant topics which can reveal a global snapshot of the complete RNA component of a cell at a given time. This snapshot, in turn, enables the distinction between different cell types, different disease states, and different time points during development. Transcriptome analysis has been a key area of biological inquiry for decades. The next-generation sequencing technologies have revolutionized transcriptomics by providing opportunities for multidimensional examinations of cellular transcriptomes in which high-throughput expression data are obtained at a single-base resolution. Transcriptome analysis has evolved from the detection of single RNA molecules to large-scale gene expression profiling and genome annotation initiatives. Written by a team of global experts, key topics in Transcriptome Profiling include transcriptome characterization, expression analysis of transcripts, transcriptome and gene regulation, transcriptome profiling and human health, medicinal plants transcriptomics, transcriptomics and genetic engineering, transcriptomics in agriculture, and phylotranscriptomics.
1. Transcriptomic Analysis of Gene Expression and Regulation 2. Transcriptomics and genetic engineering 3. Single cell transcriptomics 4. Time course gene expression experiments 5. Measurement and Meaning in Gene Expression Evolution 6. G-quadruplexes as key motifs in Transcriptomics 7. Spatial Transcriptomics 8. Desert plant transcriptomics and adaptation to abiotic stress 9. Transcriptomics in agricultural sciences: Capturing changes in gene regulation during abiotic or biotic stress 10. Transcriptomics in context to biotic stress 11. Functional genomics of biotic and abiotic stress responses in Capsicum 12. Transcriptomic and epigenomic insights of chicken under heat stress 13. Transcriptome Wide Identification of Immune Related Genes After Bacterial Infection in Fish 14. Human transcriptome profiling: applications in health and disease 15. Transcriptomics to devise human health and disease 16. Transcriptomics and muscle pathologies 17. Transcriptomics of Intracranial Aneurysms 18. Recent advances in transcriptomic biomarker detection for cancer 19. Future prospects of transcriptomics
Subject Areas: Horticulture [TVS], Plant reproduction & propagation [PSTL], Plant physiology [PSTD], Botany & plant sciences [PST], Cellular biology [cytology PSF], Molecular biology [PSD], Biochemistry [PSB], Genetics [non-medical PSAK], Taxonomy & systematics [PSAB]