His main research concerns Genetics, Pyrosequencing, Computational biology, DNA sequencing and Genotyping. His work in the fields of Genetics, such as SNP, Genome and Balancing selection, overlaps with other areas such as Throughput and Natural killer cell. His biological study spans a wide range of topics, including Genetic variation and Haplotype.
His Computational biology research is multidisciplinary, incorporating elements of Transcriptome, Sequence analysis and Gene expression profiling. His DNA sequencing research incorporates elements of Nucleic acid and Human genome. His study looks at the relationship between Multiplex and fields such as Expressed sequence tag, as well as how they intersect with chemical problems.
His primary areas of study are Genetics, Molecular biology, Pyrosequencing, DNA sequencing and Computational biology. His research integrates issues of Complementary DNA, Gene, DNA, DNA polymerase and Primer in his study of Molecular biology. While the research belongs to areas of DNA, Mostafa Ronaghi spends his time largely on the problem of Nucleotide, intersecting his research to questions surrounding Polymerase, Nucleic acid, Combinatorial chemistry and Single-base extension.
His study in Pyrosequencing is interdisciplinary in nature, drawing from both Nucleic acid sequence, Chromatography, Typing, Sequence analysis and Polymerase chain reaction. His Computational biology study combines topics from a wide range of disciplines, such as Hybrid genome assembly, Genomics, Illumina dye sequencing and Bioinformatics. His work carried out in the field of Genotyping brings together such families of science as Multiplex and Genetic variation.
Mostafa Ronaghi spends much of his time researching Genetics, Nucleic acid, Haplotype, Human genome and Genome. His DNA sequencing, Deep sequencing, Gene, Massive parallel sequencing and Exome sequencing investigations are all subjects of Genetics research. His research integrates issues of Transposase and Genomics in his study of DNA sequencing.
Nucleic acid is a primary field of his research addressed under Biochemistry. His research investigates the connection between Human genome and topics such as Computational biology that intersect with issues in Gene expression profiling. His Genome research is multidisciplinary, incorporating perspectives in Sanger sequencing, Phylogenetic tree and Sequence assembly.
Mostafa Ronaghi mainly focuses on Genetics, Molecular biology, DNA sequencing, Human genome and Computational biology. Genomic library and Deep sequencing are subfields of Genetics in which his conducts study. In his work, Gene is strongly intertwined with Hepatitis B, which is a subfield of Molecular biology.
His DNA sequencing research incorporates themes from Genome, Genomics and Transposase. In Human genome, Mostafa Ronaghi works on issues like Haplotype, which are connected to HLA-B Antigens, 1000 Genomes Project, Genotyping, Transplantation and Exome sequencing. His Computational biology research is multidisciplinary, relying on both Transcriptome, Cytoarchitecture and Gene expression profiling.
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A Sequencing Method Based on Real-Time Pyrophosphate
Mostafa Ronaghi;Mathias Uhlén;Pål Nyrén.
Real-Time DNA Sequencing Using Detection of Pyrophosphate Release
Mostafa Ronaghi;Samer Karamohamed;Bertil Pettersson;Mathias Uhlén.
Analytical Biochemistry (1996)
Pyrosequencing sheds light on DNA sequencing.
Genome Research (2001)
Method of sequencing dna
Pal Nyren;Mostafa Ronaghi;Annika Tallsjo.
Multiplexed genotyping with sequence-tagged molecular inversion probes
Paul Hardenbol;Johan Banér;Maneesh Jain;Mats Nilsson.
Nature Biotechnology (2003)
Neuronal subtypes and diversity revealed by single-nucleus RNA sequencing of the human brain.
Blue B. Lake;Rizi Ai;Gwendolyn E. Kaeser;Gwendolyn E. Kaeser;Neeraj S. Salathia.
Characterization of mutation spectra with ultra-deep pyrosequencing: Application to HIV-1 drug resistance
Chunlin Wang;Yumi Mitsuya;Baback Gharizadeh;Mostafa Ronaghi.
Genome Research (2007)
High-definition spatial transcriptomics for in situ tissue profiling.
Sanja Vickovic;Sanja Vickovic;Gökcen Eraslan;Fredrik Salmén;Johanna Klughammer.
Nature Methods (2019)
A pyrosequencing-tailored nucleotide barcode design unveils opportunities for large-scale sample multiplexing
Poornima Parameswaran;Roxana Jalili;Li Tao;Shadi Shokralla.
Nucleic Acids Research (2007)
Ontology-based meta-analysis of global collections of high-throughput public data.
Ilya Kupershmidt;Qiaojuan Jane Su;Anoop Grewal;Suman Sundaresh.
PLOS ONE (2010)
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