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Search 3,717 documents across 34 fields — every claim tier-rated by evidence
72 results for "whole genome sequencing" — page 1 of 4
X_4_01 — Personalized and Genomic Medicine
Personalized medicine (also called precision medicine) represents the shift from one-size-fits-all treatment to therapies tailored to an individual's genetic profile, biomarkers, and molecular disease characteristics. Th
Z_3_04 — Comparative Genomics and Cross-Species Analysis
Comparative genomics — the systematic comparison of genome sequences across species — has become the primary tool for understanding genome evolution, identifying functionally important sequences, and reconstructing the T
Z_2_15 — Future of Genomics and Personalized Medicine
Genomics is undergoing a transition from research tool to clinical infrastructure. The cost of whole-genome sequencing (WGS) has plummeted from $2.7 billion (Human Genome Project, 1990–2003) to ~$200 per genome (Illumina
Z_1_09 — Copy Number Variation and Structural Genomics
Copy number variations (CNVs) — segments of DNA ranging from ~1 kilobase to several megabases that are present in variable numbers across individuals — represent the most impactful form of genetic variation in the human
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_1_03 — Human Genome Project and Its Legacy
The Human Genome Project (HGP), launched in 1990 and completed in 2003, was the largest coordinated biological research effort in history — a $3 billion, 13-year international collaboration to sequence all ~3.2 billion b
Z_1_11 — Polyploidy and Genome Duplication
Polyploidy — the possession of more than two complete sets of chromosomes — is a major force in genome evolution, particularly in plants and some animal lineages. Susumu Ohno (1970) proposed that whole genome duplication
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_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_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
ZD_4_08 — Bioinformatics and Computational Biology
Bioinformatics — the application of computational methods to biological data, especially molecular sequences — has become indispensable to modern biology. The field emerged from the convergence of molecular biology's dat
S_2_11 — Bioinformatics: Computational Genomics and Drug Discovery
Bioinformatics — the application of computational methods to biological data — has become indispensable to modern biology and medicine, driven by the exponential growth of genomic, transcriptomic, proteomic, and metabolo
Z_5_10 — Genome Editing Beyond CRISPR: TALENs, Base Editors, Prime Editors, and Next-Generation Tools
While CRISPR-Cas9 (covered in Z_1_02) dominates the genome editing landscape, it is neither the first nor the only precision genome editing technology. The field began with zinc finger nucleases (ZFNs) in the early 2000s
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_1_12 — Genome Architecture and 3D Organization
The human genome — approximately 6.4 billion base pairs of DNA — is packed into a nucleus only ~6 μm in diameter. If stretched end-to-end, the DNA of a single human cell would extend about 2 meters, yet it is packaged an
Z_4_05 — Synthetic Biology and Minimal Genomes
Synthetic biology aims to design, construct, and engineer biological systems and organisms with novel functions not found in nature — or to redesign existing biological systems for useful purposes. The field's landmark a
L_1_10 — Neanderthal Genome and Legacy in Modern Humans
The sequencing of the Neanderthal genome ranks among the most significant achievements in modern biology. Beginning with the draft genome of Green et al. (2010) and refined by later high-coverage genomes from the Altai,
R_5_18 — Synthetic Biology & Artificial Genomes
Synthetic biology is an interdisciplinary field that applies engineering principles — standardization, modular design, abstraction hierarchies — to biological systems, with the ultimate goal of designing and constructing
L_4_13 — Ancient DNA: Methods, Revelations, and Ethical Debates
Ancient DNA (aDNA) — genetic material recovered from biological remains thousands to hundreds of thousands of years old — has revolutionized our understanding of human evolution, migration, and population history. The fi
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