The molecular clock runs more slowly in man than in apes and monkeys
about
Macroevolutionary dynamics and historical biogeography of primate diversification inferred from a species supermatrixcDNA sequence of a human skeletal muscle ADP/ATP translocator: lack of a leader peptide, divergence from a fibroblast translocator cDNA, and coevolution with mitochondrial DNA genesEstimating the age of the polydnavirus/braconid wasp symbiosis.Rapid evolution of the human gene for cytochrome c oxidase subunit IVAncient roots for polymorphism at the HLA-DQ alpha locus in primatesReconstructing phylogenies and phenotypes: a molecular view of human evolutionMolecular evidence for an African origin of the Hawaiian endemic Hesperomannia (Asteraceae)Evolutionary implications of the human aldolase-A, -B, -C, and -pseudogene chromosome locationsPhylogeny of the genus Pistacia as determined from analysis of the chloroplast genomeA phylogenetic study of cytochrome b561 proteinsComparative primate genomics: emerging patterns of genome content and dynamicsHuman endogenous retrovirus group E and its involvement in diseasesTo investigate protein evolution by detecting suppressed epitope structuresMolecular clocks: four decades of evolutionThe finished DNA sequence of human chromosome 12Human Germline Mutation and the Erratic Evolutionary ClockDiscovery of a new repeat family in the Callithrix jacchus genomeCalibrating the Human Mutation Rate via Ancestral Recombination Density in Diploid GenomesProperties and rates of germline mutations in humansEvolutionary Modeling of Genotype-Phenotype Associations, and Application to Primate Coding and Non-coding mtDNA Rate VariationAnalysis of complete nucleotide sequences of 12 Gossypium chloroplast genomes: origin and evolution of allotetraploidsEvidence for a convergent slowdown in primate molecular rates and its implications for the timing of early primate evolutionHistory can matter: non-Markovian behavior of ancestral lineagesAge at first reproduction explains rate variation in the strepsirrhine molecular clockExplaining human uniqueness: genome interactions with environment, behaviour and cultureNo severe bottleneck during human evolution: evidence from two apolipoprotein C-II deficiency allelesHigher rate of evolution of X chromosome alpha-repeat DNA in human than in the great apesGenomic data support the hominoid slowdown and an Early Oligocene estimate for the hominoid-cercopithecoid divergenceA master sequence related to a free left Alu monomer (FLAM) at the origin of the B1 family in rodent genomesGene sequences suggest inactivation of alpha-1,3-galactosyltransferase in catarrhines after the divergence of apes from monkeysSynonymous nucleotide substitution rates in mammalian genes: implications for the molecular clock and the relationship of mammalian ordersRecent development of the neutral theory viewed from the Wrightian tradition of theoretical population geneticsPhylogenetic resolution within the Elephantidae using fossil DNA sequence from the American mastodon (Mammut americanum) as an outgroupSubstitution rate comparisons between grasses and palms: synonymous rate differences at the nuclear gene Adh parallel rate differences at the plastid gene rbcLUbiquitous mammalian-wide interspersed repeats (MIRs) are molecular fossils from the mesozoic eraEvolution of the primate lineage leading to modern humans: phylogenetic and demographic inferences from DNA sequencesRates of nucleotide substitution vary greatly among plant mitochondrial, chloroplast, and nuclear DNAsAnomalous and selective DNA mutations of the Old World monkey alpha-globin genesRate constancy of globin gene evolution in placental mammalsMutation rates in mammalian genomes.
P2860
Q21090842-01AF52A7-F59E-4E4F-8F34-739575A7FF7AQ24339629-8F613EC9-8E08-4A05-9055-738A55268315Q24530577-4F52C576-3629-47D4-8475-06BE06C0E52CQ24561419-B9E3B2E2-C5ED-4020-8BB2-3C2B16791238Q24601097-662B0711-CB90-4125-99AA-6858A976D7E8Q24646554-17868E17-D20F-4413-81FE-59D826C54EDEQ24646979-AD005398-A3CE-4273-9190-3A6630AE21E5Q24675822-6E99C1F1-65C2-44B8-BB19-4CF5345F03EFQ24683912-9BE3F675-68F7-41CF-897A-11A36AE6DE23Q24796219-9ED7BC00-2088-4BE6-97E0-1CF86A2E1907Q27006713-43C14147-2B38-44C0-AF56-B36A03AF23E1Q28082853-5086C9F3-04A9-4D3D-9194-41483313A494Q28241204-AD0E0168-9512-4431-A637-574BAA7E78BCQ28270154-7E7C96DA-A51D-4CE6-9C90-3D4DBE621039Q28302359-82A290F4-5A21-4EEE-A705-C01590DF723AQ28597156-082CD940-4673-4858-9FE8-BF52CF1B913CQ28602929-F0233BF1-5F53-490C-879A-D31C3279B334Q28607530-8E69C7E2-71B3-46E5-8919-8C37C1A0EF04Q28678675-45544F0C-1D1B-4060-B242-C238BC7A8BABQ28687406-F561DD63-9B1C-4144-871E-AEABCE140824Q28728594-9D382943-365F-4279-A4E8-AA6808E9337DQ28730192-C0B0AE36-AE4C-457A-8868-67F67E9F6CFDQ28740968-7C4E8DFC-107A-4211-93E5-5A2B5B456192Q28750229-B4FFA2DC-C127-4318-B5EA-04AAA2BDE290Q28750822-F5E7D696-AC42-4B7C-9549-7B14533EE51BQ28766214-6E71CC39-13AE-4F35-8063-0D6AC21545BBQ28769981-8E7D2625-C449-4CC8-AD79-E8F45BE9C214Q28770068-4299FE22-A19D-4DA5-995E-85FFD56524A2Q28770116-1035E9B2-D465-4A73-81B0-BF026AC89329Q28775804-74FF8957-0915-4FA0-8001-E9A4ABFA2B44Q28775809-F33ED7F6-2A52-4A01-A96A-3A29BC19E6E6Q28775811-E368F9DD-F113-405A-92AE-B07072119155Q28776068-5E200A69-BCE5-4A5A-A834-88620C708A81Q28776126-345685A7-B2D7-4DBD-8267-854634674AE3Q28776504-ACE684B4-CB39-4BE2-897B-993FA670B881Q28776538-AB0D7DEF-F639-4A1A-9F66-9D91AF35AA5EQ28776549-8C495E38-B8EB-4C76-811A-44D55DD02BD1Q28776626-49886492-6F85-49D7-9203-37DAE24E0081Q28776646-4A0F0E06-AE88-4A1D-88E7-B9FBF8B2FC5DQ29618251-A4D5D074-2818-4850-A0D5-C2C740A569CA
P2860
The molecular clock runs more slowly in man than in apes and monkeys
description
1987 nî lūn-bûn
@nan
1987 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1987 թվականի մարտին հրատարակված գիտական հոդված
@hy
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
name
The molecular clock runs more slowly in man than in apes and monkeys
@ast
The molecular clock runs more slowly in man than in apes and monkeys
@en
The molecular clock runs more slowly in man than in apes and monkeys
@nl
ساعت مولکولی کندتر از انسان در میمون ها و میمون ها می کند
@fa
type
label
The molecular clock runs more slowly in man than in apes and monkeys
@ast
The molecular clock runs more slowly in man than in apes and monkeys
@en
The molecular clock runs more slowly in man than in apes and monkeys
@nl
ساعت مولکولی کندتر از انسان در میمون ها و میمون ها می کند
@fa
prefLabel
The molecular clock runs more slowly in man than in apes and monkeys
@ast
The molecular clock runs more slowly in man than in apes and monkeys
@en
The molecular clock runs more slowly in man than in apes and monkeys
@nl
ساعت مولکولی کندتر از انسان در میمون ها و میمون ها می کند
@fa
P3181
P356
P1433
P1476
The molecular clock runs more slowly in man than in apes and monkeys
@en
P2093
P2888
P3181
P356
10.1038/326093A0
P407
P577
1987-03-01T00:00:00Z
P6179
1023648045