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3,688 results for "G protein" — page 1 of 185
Z_2_17 — Prion Biology: Self-Propagating Protein Misfolding and Transmissible Encephalopathies
Prions — proteinaceous infectious particles lacking nucleic acid — represent a paradigm-shattering departure from the central dogma that biological information flows from DNA to RNA to protein. The protein-only hypothesi
Z_4_18 — Protein Misfolding and Prion Diseases
Prion diseases — transmissible spongiform encephalopathies (TSEs) — are fatal neurodegenerative disorders caused by the misfolding and self-propagating aggregation of a normal cellular protein (PrPᶜ) into a pathological
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_2_08 — Prion Genetics and Misfolded Proteins
Prions are infectious agents composed entirely of misfolded protein — the only known pathogen that contains no nucleic acid (no DNA, no RNA). The protein-only hypothesis (Stanley Prusiner, 1982 — Nobel Prize 1997) states
Z_4_09 — Protein Folding: From Anfinsen's Dogma to AlphaFold
Protein folding — the process by which a linear chain of amino acids spontaneously adopts its specific three-dimensional structure — is one of the most fundamental problems in molecular biology and has been called the "s
G_1_06 — Paleoproteomics — Ancient Proteins Beyond DNA
Paleoproteomics is the extraction, identification, and analysis of ancient proteins from archaeological and paleontological materials — an emerging molecular method that extends biological identification far beyond the t
Z_2_20 — Prion Molecular Biology
At the molecular level, prion diseases arise from the conversion of the normal cellular prion protein (PrPᶜ) into a misfolded, aggregation-prone conformer (PrPˢᶜ) through a process that remains one of the most extraordin
Z_4_16 — Phase Separation in Cell Biology: Membraneless Organelles and Biomolecular Condensates
Liquid-liquid phase separation (LLPS) is the biophysical process by which proteins and nucleic acids demix from the surrounding cytoplasm or nucleoplasm to form concentrated, membrane-free droplets called biomolecular co
Z_4_22 — Protein Chaperone Systems
Molecular chaperones are a diverse group of proteins that assist other proteins in achieving and maintaining their correct three-dimensional structures — preventing misfolding, aggregation, and toxic accumulation of non-
L_5_14 — Amino Acid Racemization Dating Method
Amino acid racemization (AAR) — a geochronological dating technique based on the chemical conversion of L-amino acids (the biologically predominant enantiomer in living organisms) to D-amino acids (the mirror-image confi
R_5_17 — Prion Biology and Ecology
Prions — infectious agents composed entirely of misfolded protein, devoid of nucleic acid — represent one of the most conceptually revolutionary discoveries in biology, fundamentally challenging the central dogma that ge
ZF_5_10 — Marine Biotechnology: Blue Pharmacy and Ocean Genetic Resources
The ocean harbors an estimated 2.2 million species (most undescribed) across environments spanning freezing polar waters to superheated hydrothermal vents, anoxic sediments to UV-drenched coral reefs — a staggering diver
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_04 — Structural Biology: Seeing Molecules at Atomic Resolution
Structural biology — the determination of the three-dimensional atomic structures of biological macromolecules (proteins, nucleic acids, and their complexes) — has been one of the most transformative disciplines in moder
Z_1_01 — ENCODE Project, Non-Coding DNA & Epigenetics
The human genome is ~3.2 billion base pairs long, but only ~1.5% encodes proteins. The remaining ~98.5% was once dismissed as "junk DNA." The ENCODE Project (2003–present) revealed that at least 80% of the genome has bio
Z_4_13 — Membrane Biology: Lipid Bilayers, Rafts, and Cellular Boundaries
Biological membranes — the lipid bilayer structures that define cells and compartmentalize their interiors — are fundamental to all life on Earth. Every cell is bounded by a plasma membrane that separates the interior (c
Z_4_12 — Autophagy: The Cell's Self-Eating Recycling System
Autophagy (from Greek auto "self" + phagein "to eat") — the process by which cells degrade and recycle their own components — is a fundamental cellular quality control and survival mechanism conserved from yeast to human
Z_4_10 — Signal Transduction: How Cells Communicate
Signal transduction — the molecular mechanisms by which cells detect, interpret, and respond to external signals (hormones, growth factors, neurotransmitters, cytokines, environmental cues) — is one of the central organi
K_2_16 — Optogenetics: Light-Controlled Neural Circuits
Optogenetics is a biological technique that uses genetically encoded light-sensitive proteins (opsins) to control the activity of specific neurons with millisecond precision using light. Developed primarily by Karl Deiss
Q_4_17 — Crystallography: Structure Determination and Symmetry
Crystallography — the science of determining the arrangement of atoms within crystalline solids — has been one of the most productive scientific disciplines in history, contributing to 29 Nobel Prizes across physics, che
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