| P50 | author | Tatsuya Yamamoto | Q43054051 |
| | Yumi Murata | Q43054053 |
| | Ichiro Takashima | Q46603870 |
| P2093 | author name string | Akira Sato | |
| | Shigeo Murayama | |
| | Noriyuki Higo | |
| | Toshio Kojima | |
| | Tadashi Isa | |
| | Yukio Nishimura | |
| | Kimika Yoshino-Saito | |
| | Takao Oishi | |
| | Yoko Sugiyama | |
| P2860 | cites work | Genome sequence of the Brown Norway rat yields insights into mammalian evolution | Q22122498 |
| | Identification of the major multiphosphorylation site in mammalian neurofilaments | Q24653092 |
| | Localization in somatic sensory and motor areas of human cerebral cortex as determined by direct recording of evoked potentials and electrical stimulation | Q28245686 |
| | Osteopontin: role in cell signaling and cancer progression | Q28291041 |
| | Capuchin stone tool use in Caatinga dry forest | Q28297780 |
| | Cloning and sequence analysis of rat bone sialoprotein (osteopontin) cDNA reveals an Arg-Gly-Asp cell-binding sequence | Q28566370 |
| | A composite estimate of primate phylogeny | Q29618248 |
| | The primate reticulospinal tract, hand function and functional recovery | Q30471249 |
| | Is digital dexterity really related to corticospinal projections?: a re-analysis of the Heffner and Masterton data set using modern comparative statistics | Q30578304 |
| | The neuroethology of primate vocal communication: substrates for the evolution of speech | Q33739331 |
| | Variation in Form of the Pyramidal Tract and Its Relationship to Digital Dexterity; pp. 161–174 | Q34139757 |
| | Corticospinal terminations in two new-world primates: further evidence that corticomotoneuronal connections provide part of the neural substrate for manual dexterity. | Q34290683 |
| | A subcortical oscillatory network contributes to recovery of hand dexterity after spinal cord injury | Q34925670 |
| | Adeno-associated virus vectors for gene transfer to the brain. | Q34987198 |
| | Can experiments in nonhuman primates expedite the translation of treatments for spinal cord injury in humans? | Q35633750 |
| | Comparing the function of the corticospinal system in different species: organizational differences for motor specialization? | Q36087201 |
| | Towards the classification of subpopulations of layer V pyramidal projection neurons | Q36423401 |
| | The multifaceted roles of osteopontin in cell signaling, tumor progression and angiogenesis | Q36683524 |
| | Direct and indirect cortico-motoneuronal pathways and control of hand/arm movements | Q36786264 |
| | Descending pathways in motor control | Q37193033 |
| | Expression and distribution of osteopontin in human tissues: widespread association with luminal epithelial surfaces. | Q37374564 |
| | Paraneoplastic antigen-like 5 gene (PNMA5) is preferentially expressed in the association areas in a primate specific manner | Q37414407 |
| | Monoclonal antibodies distinguish phosphorylated and nonphosphorylated forms of neurofilaments in situ | Q37690582 |
| | The role of the corticospinal tract in the evolution of human digital dexterity | Q39350445 |
| | Projections of precentral and premotor cortex to the red nucleus and other midbrain areas in macaca fascicularis | Q39523692 |
| | The functional organization of the motor system in the monkey. II. The effects of lesions of the descending brain-stem pathways. | Q51190110 |
| | Expression of GAP-43 and SCG10 mRNAs in lateral geniculate nucleus of normal and monocularly deprived macaque monkeys. | Q51387093 |
| | A stereotaxic atlas of the squirrel monkey's brain (Saimiri sciureus) | Q51390385 |
| | Isolation, characterization, and biosynthesis of a phosphorylated glycoprotein from rat bone. | Q52603339 |
| | Biomechanical study of grasping according to the volume of the object: human versus non-human primates. | Q52839560 |
| | Dexterous Finger Movements in Primate Without Monosynaptic Corticomotoneuronal Excitation | Q57371694 |
| | SPP1 expression in spinal motor neurons of the macaque monkey | Q61787877 |
| | Corticospinal projections originate from the arcuate premotor area | Q70173929 |
| | Postnatal maturation of the direct corticospinal projections in the macaque monkey | Q70975717 |
| | Postnatal development of the human primary motor cortex: a quantitative cytoarchitectonic analysis | Q71378357 |
| | Variation and evolution of mammalian corticospinal somata with special reference to primates | Q71744910 |
| | An electrophysiological study of the postnatal development of the corticospinal system in the macaque monkey | Q71954932 |
| | Expression of osteopontin in the inner ear | Q72324958 |
| | Plasticity in the distribution of the red nucleus output to forearm muscles after unilateral lesions of the pyramidal tract | Q73776418 |
| | Estimation of nuclear population from microtome sections | Q82126847 |
| | Electrophysiological actions of the rubrospinal tract in the anaesthetised rat. | Q40088502 |
| | Osteopontin overview | Q40401778 |
| | Intrinsic synaptic organization of the motor cortex. | Q40790244 |
| | Size, laminar and columnar distribution of efferent cells in the sensory-motor cortex of monkeys | Q41330815 |
| | Isolation and characterization of two sialoproteins present only in bone calcified matrix | Q41978530 |
| | SPP1 is expressed in corticospinal neurons of the macaque sensorimotor cortex | Q43054032 |
| | Increased expression of the growth-associated protein 43 gene in the sensorimotor cortex of the macaque monkey after lesioning the lateral corticospinal tract | Q43293480 |
| | Morphology and cytoarchitecture of the red nucleus of the domestic pig (Sus scrofa). | Q44185415 |
| | Relationship of intrinsic connections to forelimb movement representations in monkey motor cortex: a correlative anatomic and physiological study | Q44703852 |
| | Selective neurofilament (SMI-32, FNP-7 and N200) expression in subpopulations of layer V pyramidal neurons in vivo and in vitro | Q44912822 |
| | Frontal lobe inputs to the digit representations of the motor areas on the lateral surface of the hemisphere. | Q45259388 |
| | Monoclonal antibody to neurofilament protein (SMI-32) labels a subpopulation of pyramidal neurons in the human and monkey neocortex. | Q45971824 |
| | Anatomical and physiological definition of the motor cortex of the marmoset monkey | Q46853433 |
| | Time-dependent central compensatory mechanisms of finger dexterity after spinal cord injury | Q46897619 |
| | Properties of propriospinal neurons in the C3-C4 segments mediating disynaptic pyramidal excitation to forelimb motoneurons in the macaque monkey | Q46958276 |
| | Osteopontin is upregulated during in vivo demyelination and remyelination and enhances myelin formation in vitro | Q47775908 |
| | Expression of osteopontin mRNA in the adult rat brain | Q48101534 |
| | Somatotopic organization of corticospinal and corticotrigeminal neurons in the rat. | Q48112175 |
| | Stereotaxic atlas of the pig brain | Q48124937 |
| | 44-kDal bone phosphoprotein (osteopontin) antigenicity at ectopic sites in newborn rats: kidney and nervous tissues | Q48137524 |
| | Projections of the hand field of the macaque ventral premotor area F5 to the brainstem and spinal cord. | Q48185462 |
| | Topographic organization of corticospinal projections from the frontal lobe: motor areas on the lateral surface of the hemisphere | Q48329829 |
| | The organization of the rat motor cortex: a microstimulation mapping study | Q48370686 |
| | Neurophysiological correlates of hand preference in primary motor cortex of adult squirrel monkeys | Q48449237 |
| | Osteopontin-deficient mice exhibit less inflammation, greater tissue damage, and impaired locomotor recovery from spinal cord injury compared with wild-type controls | Q48610698 |
| | Expression of osteopontin mRNA in developing rat brainstem and cerebellum | Q48715995 |
| | Activity-dependent expression of occ1 in excitatory neurons is a characteristic feature of the primate visual cortex | Q48777459 |
| | Connections of the caudal cerebellar interpositus complex in a new world monkey (Cebus apella). | Q48840428 |
| | Exact cortical extent of the origin of the corticospinal tract (CST) and the quantitative contribution to the CST in different cytoarchitectonic areas. A study with horseradish peroxidase in the monkey. | Q49039543 |
| | Osteopontin is an alpha motor neuron marker in the mouse spinal cord. | Q50250010 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | e65701 | |
| P577 | publication date | 2013-05-31 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Differential expression of secreted phosphoprotein 1 in the motor cortex among primate species and during postnatal development and functional recovery | |
| P478 | volume | 8 | |