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2,223 results for "om" — page 6 of 112
ZF_3_11 — The Sargasso Sea, Bermuda Triangle, and Western Atlantic Anomalies
The Sargasso Sea is the only "sea" in the world defined not by coastlines but by ocean currents — a roughly elliptical region (~3.1 million km²) in the western North Atlantic, bounded by the Gulf Stream (west), North Atl
Z_5_20 — Proteomics: The Complete Protein Landscape of Life
Proteomics — the large-scale study of the complete protein complement (proteome) of a cell, tissue, or organism — emerged in the 1990s as the necessary counterpart to genomics. While the human genome contains ~20,000 pro
Z_5_21 — Mobile Genetic Elements: Transposons, Retrotransposons, and Genomic Plasticity
Mobile genetic elements (MGEs) — DNA sequences capable of moving within and between genomes — constitute a staggering ~45% of the human genome, far exceeding the ~1.5% that encodes proteins. Discovered by Barbara McClint
Z_5_05 — Proteomics: The Global Study of Proteins
Proteomics — the large-scale study of the complete set of proteins (proteome) expressed by a cell, tissue, or organism at a given time — bridges the gap between the genome (static DNA sequence) and the phenotype (observa
Z_5_02 — Metagenomics and Environmental DNA
Metagenomics — the sequencing and analysis of genetic material recovered directly from environmental samples without culturing organisms — has revealed that the vast majority of Earth's microbial diversity was invisible
Z_5_16 — Synthetic Minimal Genomes: Designing Life from First Principles
The construction of synthetic minimal genomes — chemically synthesized chromosomes containing only the genes essential for autonomous cellular life — represents one of the most audacious achievements in modern biology, d
Z_5_19 — Fermentation Biology: Microbial Transformation from Ancient Craft to Modern Science
Fermentation — the metabolic process by which microorganisms (bacteria, yeasts, molds) convert organic substrates into acids, gases, and alcohols — is arguably humanity's oldest biotechnology and one of the most conseque
Z_5_18 — Gut-Brain Axis: The Microbiome-Nervous System Connection
The gut-brain axis — the bidirectional communication network between the gastrointestinal tract and the central nervous system — has emerged as one of the most transformative concepts in modern biology and medicine. The
Z_5_14 — Spatial Transcriptomics: Gene Expression in Tissue Context
Spatial transcriptomics — technologies that measure gene expression while preserving the spatial location of transcripts within intact tissue sections — resolves a fundamental limitation of conventional single-cell RNA s
Z_5_09 — Single-Cell Genomics: Profiling Biology One Cell at a Time
Single-cell genomics — the set of technologies that enable the measurement of DNA sequences, RNA expression, protein levels, or epigenetic states in individual cells rather than bulk populations — has revolutionized biol
Z_5_03 — Metabolomics: The Small-Molecule Landscape of Life
Metabolomics — the comprehensive study of all small-molecule metabolites (<~1,500 Da) present in a biological sample (cell, tissue, organ, biofluid, organism) — is the newest of the major "-omics" disciplines (after geno
Z_5_07 — Epigenome Mapping: Charting the Chemical Modifications of DNA and Chromatin
Epigenome mapping — the systematic, genome-wide identification and quantification of epigenetic modifications (chemical marks on DNA and histone proteins that regulate gene expression without changing the underlying DNA
Z_5_15 — Synthetic Genomes: Designing and Building Life from Scratch
Synthetic genomics — the design, construction, and transplantation of complete genomes assembled from chemically synthesized oligonucleotides — represents one of the most ambitious enterprises in modern biology, with the
Z_3_16 — Genomic Conflict and Selfish Genetic Elements
Selfish genetic elements (SGEs) — sequences of DNA that promote their own transmission at the expense of the host organism or other genes in the genome — reveal that the genome is not a cooperating community of genes but
Z_2_18 — Pharmacogenomics and Precision Medicine
Pharmacogenomics — the study of how genetic variation affects individual responses to drugs — aims to replace the "one-size-fits-all" prescribing model with genotype-guided therapy, selecting the right drug at the right
Z_2_22 — Telomere Molecular Biology
Telomeres are the protective nucleoprotein structures capping the ends of linear eukaryotic chromosomes, consisting of tandem repetitive DNA sequences (5'-TTAGGG-3' in vertebrates, repeating ~1,000–2,000 times for a tota
Z_2_16 — Cancer Genomics & Precision Oncology
Cancer genomics — the comprehensive analysis of the genetic alterations that drive cancer initiation, progression, and resistance to therapy — has transformed oncology from a tissue-of-origin classification system into a
Z_1_13 — DNA Repair Mechanisms and Genome Stability
Every human cell sustains an estimated 10,000–100,000 DNA lesions per day from endogenous sources alone — oxidative metabolism, spontaneous hydrolysis, replication errors, and reactive metabolites — while environmental m
Z_1_16 — Transposable Elements: Jumping Genes and Genome Evolution
Transposable elements (TEs) — sequences of DNA capable of moving ("jumping") from one genomic location to another — constitute approximately 45% of the human genome and up to 85% of the maize genome, making them the sing
Z_1_18 — Junk DNA & the ENCODE Controversy: Function, Noise, and the Human Genome
The term "junk DNA" — coined by Susumu Ohno (1972) to describe non-coding DNA sequences in eukaryotic genomes that appeared to have no functional role — ignited one of the most contentious debates in modern genomics: how
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