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418 results for "molecular evolution" — page 3 of 21
T_1_20 — Evolutionary Psychology Debate
Evolutionary psychology (EP) is the theoretical approach that applies principles of natural selection and adaptation to understand human psychological traits — arguing that the human mind, like the human body, is the pro
T_1_02 — Evolutionary Psychology — The Adapted Mind
Evolutionary psychology applies Darwinian natural and sexual selection to the human mind, proposing that cognitive mechanisms evolved as functional adaptations to recurrent problems faced by ancestral hunter-gatherers in
ZD_3_16 — DNA Computing and Molecular Computation
DNA computing — the use of DNA molecules and biochemical reactions to perform computation — was inaugurated by Leonard Adleman (University of Southern California), who in 1994 demonstrated the first molecular-scale compu
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
ZD_4_15 — DNA Computing & Molecular Computation
DNA computing and molecular computation use biological molecules — primarily DNA and RNA — as substrates for information processing, storage, and logic operations. Pioneered by Leonard Adleman's 1994 demonstration of sol
L_1_05 — Human Skin Color — Evolution, Latitude, and Cultural Significance
Human skin color is one of the most visible and most misunderstood traits in our species. The variation is primarily a product of natural selection balancing two competing needs: protection of folate (vitamin B9) from UV
L_4_05 — Paleogenomics Methods and Ancient DNA
Paleogenomics — the study of ancient genomes — has transformed archaeology, anthropology, and evolutionary biology over the past two decades, recognized by the 2022 Nobel Prize in Physiology or Medicine awarded to Svante
L_2_10 — Human–Dog Co-Evolution: 40,000 Years Together
The domestication of the dog (Canis lupus familiaris) from gray wolves (Canis lupus) represents the oldest known domestication event and one of the most consequential interspecies relationships in human history — predati
L_3_16 — Genomic Imprinting & Evolutionary Conflict
Genomic imprinting — the epigenetic phenomenon in which a subset of genes (~100–200 in mammals) are expressed from only one parental allele, with the other allele silenced by DNA methylation and histone modification esta
L_3_12 — Genetics of Pigmentation: Skin, Hair, and Eye Color Evolution
Human pigmentation — the variation in skin, hair, and eye color across populations — is one of the most visible and best-understood examples of natural selection in our species. Pigmentation is determined primarily by th
L_3_03 — Lactase Persistence and Gene-Culture Coevolution
Lactase persistence — the ability of adults to digest the milk sugar lactose — is the most thoroughly documented case of gene-culture coevolution in the human species. The ancestral mammalian condition is lactase non-per
L_5_01 — Human Microbiome and Co-Evolution
The human microbiome — the aggregate community of microorganisms (bacteria, archaea, fungi, viruses, protists) living on and within the human body — comprises roughly 38 trillion microbial cells (Sender et al., 2016, Cel
L_5_09 — Human Microbiome Co-Evolution: Ancient Gut Companions
The human microbiome — the trillions of bacteria, archaea, fungi, and viruses that inhabit our bodies, particularly the gastrointestinal tract — is not merely a passive inhabitant but a co-evolved partner that has shaped
N_2_08 — Carbonari and Revolutionary Secret Societies
The Carbonari ("charcoal burners") were the most influential of a network of revolutionary secret societies that operated across Europe — particularly in Italy, France, and Spain — during the early 19th century (c. 1800–
R_4_01 — The Evolution of Flight: Birds, Bats, Insects, and Pterosaurs
Powered flight has evolved independently at least four times in the history of life — in insects (~350–400 Ma), pterosaurs (~230 Ma), birds (~160 Ma), and bats (~55 Ma) — making it one of evolution's most spectacular exa
R_4_10 — Cetacean Evolution: Whales, Dolphins, and the Return to the Sea
The evolution of cetaceans — whales, dolphins, and porpoises — from small, four-legged terrestrial mammals to the largest animals ever to live on Earth is one of the best-documented major evolutionary transitions, suppor
R_4_02 — Eye Evolution and the Origin of Vision
Eyes have evolved independently at least 40–65 times across the animal kingdom, producing a stunning diversity of optical designs — from simple eyespots in jellyfish to camera eyes in vertebrates and cephalopods, compoun
R_4_14 — Evolution of Hearing: From Vibration Sensing to Complex Auditory Systems
The evolution of hearing — the ability to detect pressure waves propagating through air, water, or solid substrates — represents one of the most remarkable transformations in vertebrate history. The story begins with anc
R_4_06 — Skeleton Evolution and Biomechanics
Skeletal systems — structures providing support, protection, and movement — have evolved independently multiple times across the tree of life, representing one of the great themes in the history of life. Three fundamenta
R_4_15 — Insect Evolution: Flight, Metamorphosis, and Mega-Diversity
Insects (class Insecta) are the most species-rich group of organisms on Earth — with over 1 million described species and an estimated 5–10 million total, they account for approximately 80% of all known animal species. T
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