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http://www.jstor.org/stable/2803931 |
Cognitive Evolution in Primates: Evidence from Tactical Deception |
R. Byrne et al. |
Intentional Deception, Prevarication |
1992 |
2016-07-18 |
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|
A group of young chimpanzees in a one-acre field: Leadership and communication |
E. Menzel |
Intentional Deception |
1974 |
2016-07-18 |
|
|
Injury-Feigning in Nesting Birds |
H. Swarth |
Intentional Deception |
1935 |
2016-07-18 |
|
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Intentional Deception in Primates |
F. De Waal |
Intentional Deception |
1992 |
2016-07-18 |
|
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The primate semicircular canal system and locomotion. |
F. Spoor et al. |
Inner Ear Canal Morphology |
2007 |
2016-07-18 |
|
http://www.sciencedirect.com/science/article/pii/S0047248496900184 |
Evidence for a link between human semicircular canal size and bipedal behaviour |
F. Spoor et al. |
Inner Ear Canal Morphology |
1996 |
2016-07-18 |
|
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Restricted replication of a cold-adapted reassortant influenza A virus in the lower respiratory tract of chimpanzees. |
M. Snyder et al. |
Influenza A Infection |
1986 |
2016-07-18 |
|
|
Ontogeny of locomotion in mountain gorillas and chimpanzees. |
D. Doran |
Infant Locomotor Development |
1997 |
2016-07-18 |
|
|
Locomotor and postural development of wild chimpanzees. |
L. Sarringhaus et al. |
Infant Locomotor Development |
2014 |
2016-07-18 |
|
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Ontogeny of human locomotor control. I. Infant stepping, supported locomotion and transition to independent locomotion. |
H. Forssberg |
Infant Locomotor Development |
1985 |
2016-07-18 |
|
|
A 360-kb interchromosomal duplication of the human HYDIN locus. |
N. Doggett et al. |
HYDIN (Hydrocephalus inducing homolog) |
2006 |
2016-07-18 |
|
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2234243/ |
Mutations in Hydin impair ciliary motility in mice |
K. Lechtreck et al. |
HYDIN (Hydrocephalus inducing homolog) |
2008 |
2016-07-18 |
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Discrimination of complete hydatidiform mole from its mimics by immunohistochemistry of the paternally imprinted gene product p57KIP2. |
D. Castrillon et al. |
Hydatiform Moles |
2001 |
2016-07-18 |
|
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Complete hydatidiform mole with a coexisting embryo |
R. Baergen et al. |
Hydatiform Moles |
1996 |
2016-07-18 |
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The developmental brain gene NPAS3 contains the largest number of accelerated regulatory sequences in the human genome. |
G. Kamm et al. |
Human Accelerated Regions (HARs) and Changes in Conserved Sequences |
2013 |
2016-07-18 |
|
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Forces shaping the fastest evolving regions in the human genome. |
K. Pollard et al. |
Human Accelerated Regions (HARs) and Changes in Conserved Sequences |
2006 |
2016-07-18 |
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Detection of nonneutral substitution rates on mammalian phylogenies. |
K. Pollard et al. |
Human Accelerated Regions (HARs) and Changes in Conserved Sequences |
2010 |
2016-07-18 |
|
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2942038/ |
Noncoding Sequences Near Duplicated Genes Evolve Rapidly |
D. Kostka et al. |
Human Accelerated Regions (HARs) and Changes in Conserved Sequences |
2010 |
2016-07-18 |
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http://dx.doi.org/10.1007/BF02735477 |
Homosexual behavior in primates: A review of evidence and theory |
P. Vasey |
Homosexual Behavior |
1995 |
2016-07-18 |
|
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Homosexual behavior in wild Sumatran orangutans (Pongo pygmaeus abelii). |
E. Fox |
Homosexual Behavior |
2001 |
2016-07-18 |
|
http://dx.doi.org/10.1023/B:IJOP.0000019163.09540.17 |
Female Genito-genital Rubbing in a Group of Captive Chimpanzees |
S. Anestis |
Homosexual Behavior |
2004 |
2016-07-18 |
|
http://www.sciencedirect.com/science/article/pii/004724849290071G |
The thermoregulatory advantages of large body size for hominids foraging in savannah environments |
P. Wheeler |
Home Range Size |
1992 |
2016-07-18 |
|
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The influence of bipedalism on the energy and water budgets of early hominids |
P. Wheeler |
Home Range Size |
1991 |
2016-07-18 |
|
http://www.cambridge.org/us/academic/subjects/life-sciences/biological-anthropology-and-primatology/neanderthals-and-modern-humans-ecological-and-evolutionary-perspective |
Neanderthals and Modern Humans: An Ecological and Evolutionary Perspective |
C. Finlayson |
Home Range Size |
2009 |
2016-07-18 |
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Settling the Earth: The Archaeology of Deep Human History |
C. Gamble |
Home Range Size |
2013 |
2016-07-18 |
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An ecomorphological model of the initial hominid dispersal from Africa. |
S. Antón et al. |
Home Range Size |
2002 |
2016-07-18 |
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Social behavior of baboons and early man |
S. Washburn et al. |
Home Base |
1961 |
2016-07-18 |
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Almost Human: A Journey into the World of Baboons |
S. Strum |
Home Base |
1987 |
2016-07-18 |
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Long-term patterns of sleeping site use in wild saddleback (Saguinus fuscicollis) and mustached tamarins (S. mystax): effects of foraging, thermoregulation, predation, and resource defense constraints. |
A. Smith et al. |
Home Base |
2007 |
2016-07-18 |
|
http://www.jstor.org/stable/2744352 |
Meat Eating, Hominid Sociality, and Home Bases Revisited |
L. Rose et al. |
Home Base |
1996 |
2016-07-18 |
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Sleeping sites, sleeping places, and presleep behavior of gibbons (Hylobates lar). |
U. Reichard |
Home Base |
1998 |
2016-07-18 |
|
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On the theory of central place foraging |
G. Orion et al. |
Home Base |
1979 |
2016-07-18 |
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Central Place Provisioning: The Hadza as an example |
F. Marlowe |
Home Base |
2006 |
2016-07-18 |
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The origin of man. |
C. Lovejoy |
Home Base, Pair-bonding , Paternal Care |
1981 |
2016-07-18 |
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In Quest of the Sacred Baboon |
H. Kummer |
Home Base |
1995 |
2016-07-18 |
|
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The food-sharing behavior of protohuman hominids. |
G. Isaac |
Home Base |
1978 |
2016-07-18 |
|
http://dx.doi.org/10.1007/BF00378668 |
Multiple central place foraging by spider monkeys: travel consequences of using many sleeping sites |
C. Chapman et al. |
Home Base |
1989 |
2016-07-18 |
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A critical evaluation of the influence of predators on primates: effects on group travel |
S. Boinski et al. |
Home Base |
2000 |
2016-07-18 |
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Behavioral Ecology and the Archaeological Consequences of Central Place Foraging among the Meriam |
D. Bird |
Home Base |
2008 |
2016-07-18 |
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HLA-DRB1* allele-associated genetic susceptibility and protection against multiple sclerosis in Brazilian patients. |
D. Kaimen-Maciel et al. |
HLA-DRB1*11 (major histocompatibility complex, class II, DR beta 1 allele 11 ) |
2009 |
2016-07-18 |
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Human leukocyte antigen type and progression from onset of symptoms to development of asthma. |
M. Martyn et al. |
HLA-DRB1*11 (major histocompatibility complex, class II, DR beta 1 allele 11 ) |
2010 |
2016-07-18 |
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Association of HLA DRB1 alleles with juvenile idiopathic arthritis in Mexicans. |
B. Silva-Ramirez et al. |
HLA-DRB1*11 (major histocompatibility complex, class II, DR beta 1 allele 11 ) |
2010 |
2016-07-18 |
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Protective effect of HLA-DRB1 11 and predisposition of HLA-C 04 in the development of severe liver damage in Brazilian patients with chronic hepatitis C virus infection. |
A. Marangon et al. |
HLA-DRB1*11 (major histocompatibility complex, class II, DR beta 1 allele 11 ) |
2012 |
2016-07-18 |
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Full-length sequence analysis of the HLA-DRB1 locus suggests a recent origin of alleles. |
J. von Salomé et al. |
HLA-DRB1 family, HLA-DRB1*11 (major histocompatibility complex, class II, DR beta 1 allele 11 ) |
2007 |
2016-07-18 |
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http://www.jstor.org/stable/4535837 |
Estimating the Complexity of Animal Behaviour: How Mountain Gorillas Eat Thistles |
R. Byrne et al. |
Hierarchical Linguistic Structure |
2001 |
2016-07-18 |
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Ritual, mantras & the origin of language |
F. Staal |
Hierarchical Linguistic Structure |
1984 |
2016-07-18 |
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The Bengalese finch: a window on the behavioral neurobiology of birdsong syntax. |
K. Okanoya |
Hierarchical Linguistic Structure |
2004 |
2016-07-18 |
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Acoustical and Syntactical Comparisons Between Songs of the White-Backed Munia (Lonchura Striata) and Its Domesticated Strain, the Bengalese Finch (Lonchura Striata Var. Domestica) |
E. Honda et al. |
Hierarchical Linguistic Structure |
1999 |
2016-07-18 |
|
http://www.jstor.org/stable/4534358 |
Syntactic Structures in the Vocalizations of Wedge-Capped Capuchin Monkeys, Cebus olivaceus |
J. Robinson |
Hierarchical Linguistic Structure |
1984 |
2016-07-18 |
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The evolution of African great ape subtelomeric heterochromatin and the fusion of human chromosome 2. |
M. Ventura et al. |
Heterochromatin Content |
2012 |
2016-07-18 |
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Comparative mapping of human alphoid sequences in great apes using fluorescence in situ hybridization. |
N. Archidiacono et al. |
Heterochromatin Content |
1995 |
2016-07-18 |
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Molecular structure and evolution of an alpha satellite/non-alpha satellite junction at 16p11. |
J. Horvath et al. |
Heterochromatin Content |
2000 |
2016-07-18 |
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Pitch (F0) and formant profiles of human vowels and vowel-like baboon grunts: the role of vocalizer body size and voice-acoustic allometry. |
D. Rendall et al. |
Hearing Sensitivity |
2005 |
2016-07-18 |
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Primate auditory diversity and its influence on hearing performance. |
M. Coleman et al. |
Hearing Sensitivity |
2004 |
2016-07-18 |
|
http://www.jstor.org/stable/2461564 |
The Role of Body Size, Phylogeny, and Ambient Noise in the Evolution of Bird Song |
M. Ryan et al. |
Hearing Sensitivity |
1985 |
2016-07-18 |
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Primates of Western Uganda |
N. Newton-Fisher et al. |
Healing the Sick |
2006 |
2016-07-18 |
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Evolution of Sickness and Healing |
H. Fabrega |
Healing the Sick |
1997 |
2016-07-18 |
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An RNA gene expressed during cortical development evolved rapidly in humans. |
K. Pollard et al. |
HAR1 (human accelerated region 1), Human Accelerated Regions (HARs) and Changes in Conserved Sequences |
2006 |
2016-07-18 |
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Distinctive structures between chimpanzee and human in a brain noncoding RNA. |
A. Beniaminov et al. |
HAR1 (human accelerated region 1) |
2008 |
2016-07-18 |
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Human accelerated region 1 noncoding RNA is repressed by REST in Huntington's disease. |
R. Johnson et al. |
HAR1 (human accelerated region 1) |
2010 |
2016-07-18 |
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Isolation and characterisation of GTF2IRD2, a novel fusion gene and member of the TFII-I family of transcription factors, deleted in Williams-Beuren syndrome. |
H. Tipney et al. |
GTF2IRD2 (GTF2I repeat domain containing 2) |
2004 |
2016-07-18 |
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TFII-I gene family during tooth development: candidate genes for tooth anomalies in Williams syndrome. |
A. Ohazama et al. |
GTF2IRD2 (GTF2I repeat domain containing 2) |
2007 |
2016-07-18 |
|
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Transcription of eukaryotic protein-coding genes. |
T. Lee et al. |
GTF2H2 (General transcription factor IIH, polypeptide 2, 44kDa) |
2000 |
2016-07-18 |
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Teeth |
S. Hillson |
Growth of Enamel and Dentine |
2005 |
2016-07-15 |
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Genetic variation in N-methyl-D-aspartate receptor subunit NR3A but not NR3B influences susceptibility to Alzheimer's disease. |
H. Liu et al. |
GRIN3A (Glutamate receptor, ionotropic, N-methyl-D-aspartate 3A) |
2009 |
2016-07-15 |
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The identification and functional implications of human-specific "fixed" amino acid substitutions in the glutamate receptor family. |
H. Goto et al. |
GRIN3A (Glutamate receptor, ionotropic, N-methyl-D-aspartate 3A), GRIN3B (Glutamate receptor, ionotropic, N-methyl-D-aspartate 3B) |
2009 |
2016-07-15 |
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Molecular structure and function of the glycine receptor chloride channel. |
J. Lynch |
GLRA4 (Glycine receptor, alpha 4) |
2004 |
2016-07-15 |
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Novel expression of a functional glycine receptor chloride channel that attenuates contraction in airway smooth muscle. |
P. Yim et al. |
GLRA4 (Glycine receptor, alpha 4) |
2011 |
2016-07-15 |
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Kula; the Circulating Exchange of Valuables in the Archipelagoes of Eastern New Guinea |
M. Malinowski |
Gift Giving |
1920 |
2016-07-15 |
|
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The Gift: The form and reason for exchange in archaic societies |
M. Mauss |
Gift Giving |
1990 |
2016-07-15 |
|
|
Hand and Mind |
D. McNeill |
Gesture |
1992 |
2016-07-15 |
|
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC419985/ |
Human-Specific Duplication and Mosaic Transcripts: The Recent Paralogous Structure of Chromosome 22 |
J. Bailey et al. |
Genomic Segmental Duplications/Low Copy Repeats |
2002 |
2016-07-15 |
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Identification of large-scale human-specific copy number differences by inter-species array comparative genomic hybridization. |
V. Goidts et al. |
Genomic Segmental Duplications/Low Copy Repeats |
2006 |
2016-07-15 |
|
http://dx.doi.org/10.1038/ng.2007.9 |
Ancestral reconstruction of segmental duplications reveals punctuated cores of human genome evolution |
Z. Jiang et al. |
Genomic Segmental Duplications/Low Copy Repeats |
2007 |
2016-07-15 |
|
|
Analysis of primate genomic variation reveals a repeat-driven expansion of the human genome. |
G. Liu et al. |
Genomic Insertions and Deletions (Indels) |
2003 |
2016-07-15 |
|
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Human-specific insertions and deletions inferred from mammalian genome sequences. |
F. Chen et al. |
Genomic Insertions and Deletions (Indels) |
2007 |
2016-07-15 |
|
http://dx.doi.org/10.1038/nrg2193 |
Gene conversion: mechanisms, evolution and human disease |
J. Chen et al. |
Gene Conversion |
2007 |
2016-07-15 |
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Chromosomal evolution of the PKD1 gene family in primates. |
S. Kirsch et al. |
Gene Conversion |
2008 |
2016-07-15 |
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Gadd45b knockout mice exhibit selective deficits in hippocampus-dependent long-term memory. |
P. Leach et al. |
GADD45G (Growth arrest and DNA-damage-inducible protein 45 gamma) |
2012 |
2016-07-15 |
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Distinct but redundant expression of the Frizzled Wnt receptor genes at signaling centers of the developing mouse brain. |
T. Fischer et al. |
FZD8 (frizzled 8) |
2007 |
2016-07-15 |
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The follicle-stimulating hormone receptor: biochemistry, molecular biology, physiology, and pathophysiology. |
M. Simoni et al. |
FSHR (Follicle-stimulating hormone receptor) |
1997 |
2016-07-15 |
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An evolutionary genomic approach to identify genes involved in human birth timing. |
J. Plunkett et al. |
FSHR (Follicle-stimulating hormone receptor) |
2011 |
2016-07-15 |
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The frontal lobe of primates; cytoarchitectural studies. |
G. VON BONIN |
Frontal Lobe Size |
1948 |
2016-07-15 |
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Inhibitory interneurons of the human prefrontal cortex display conserved evolution of the phenotype and related genes. |
C. Sherwood et al. |
Frontal Lobe Size |
2010 |
2016-07-15 |
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Spatial organization of neurons in the frontal pole sets humans apart from great apes. |
K. Semendeferi et al. |
Frontal Lobe Size |
2011 |
2016-07-15 |
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The evolution of the frontal lobes: a volumetric analysis based on three-dimensional reconstructions of magnetic resonance scans of human and ape brains. |
K. Semendeferi et al. |
Frontal Lobe Size |
1997 |
2016-07-15 |
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The brain and its main anatomical subdivisions in living hominoids using magnetic resonance imaging. |
K. Semendeferi et al. |
Frontal Lobe Size |
2000 |
2016-07-15 |
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Broca's area homologue in chimpanzees (Pan troglodytes): probabilistic mapping, asymmetry, and comparison to humans. |
N. Schenker et al. |
Frontal Lobe Size |
2010 |
2016-07-15 |
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Differences in cortical serotonergic innervation among humans, chimpanzees, and macaque monkeys: a comparative study. |
M. Raghanti et al. |
Frontal Lobe Size |
2008 |
2016-07-15 |
|
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Bigger is better: primate brain size in relationship to cognition. |
K. Gibson et al. |
Frontal Lobe Size |
2001 |
2016-07-15 |
|
|
Broadmann's Localisation in the Cerebral Cortex |
K. Brodmann |
Frontal Lobe Size |
1909 |
2016-07-15 |
|
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Insensitivity to future consequences following damage to human prefrontal cortex. |
A. Bechara et al. |
Frontal cortex Area 10 cytoarchitecture |
1994 |
2016-07-15 |
|
http://www.pnas.org/content/107/Supplement_2/9007.abstract |
Adaptive specializations, social exchange, and the evolution of human intelligence |
L. Cosmides et al. |
Frontal cortex Area 10 cytoarchitecture |
2010 |
2016-07-15 |
|
|
Human frontal lobes are not relatively large. |
R. Barton et al. |
Frontal cortex Area 10 cytoarchitecture |
2013 |
2016-07-15 |
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PDZ-domain-directed basolateral targeting of the peripheral membrane protein FRMPD2 in epithelial cells. |
N. Stenzel et al. |
FRMPD2 (FERM and PDZ domain containing 2) |
2009 |
2016-07-15 |
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A humanized version of Foxp2 affects cortico-basal ganglia circuits in mice. |
W. Enard et al. |
FOXP2 (forkhead box P2) |
2009 |
2016-07-15 |
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The derived FOXP2 variant of modern humans was shared with Neandertals. |
J. Krause et al. |
FOXP2 (forkhead box P2) |
2007 |
2016-07-15 |
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Accelerated protein evolution and origins of human-specific features: Foxp2 as an example. |
J. Zhang et al. |
FOXP2 (forkhead box P2) |
2002 |
2016-07-15 |
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Brief communication: foramen magnum-carotid foramina relationship: is it useful for species designation? |
M. Schaefer |
Foramen Magnum Placement |
1999 |
2016-07-15 |
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https://elifesciences.org/content/5/e12469 |
Viruses are a dominant driver of protein adaptation in mammals |
D. Enard et al. |
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2016 |
2016-07-15 |
