about
Mitochondrial enzyme rhodanese is essential for 5 S ribosomal RNA import into human mitochondriaImmunological cross-reactivity between human tripeptidyl peptidase II and fibronectinSialidase enhances recovery from spinal cord contusion injuryVIRUS-CELL INTERACTION WITH A TUMOR-PRODUCING VIRUSAmino acids in the cultivation of mammalian cellsSpecific biomarkers for stochastic division patterns and starvation-induced quiescence under limited glucose levels in fission yeast.An electron microscope study of the development of SV40 virusMagic angle spinning NMR of the protonated retinylidene Schiff base nitrogen in rhodopsin: expression of 15N-lysine- and 13C-glycine-labeled opsin in a stable cell line.Requirement for the integrity of the viral genome for the induction of host DNA synthesis by polyoma virusRelative target sizes for the inactivation of the transforming and reproductive abilities of polyoma virus.Radiation target size of the lytic and the transforming ability of polyoma virus.Correcting a Fundamental Flaw in the Paradigm for Antimicrobial Susceptibility TestingFree zinc ions outside a narrow concentration range are toxic to a variety of cells in vitroFrom the molecular biology of oncogenic DNA viruses to cancer.Malignant transformation of BHK21 clone 13 cells by BK virus--a human papovavirus.Functional interactions between the LRP6 WNT co-receptor and folate supplementationRestricted motion of the conserved immunoglobulin G1 N-glycan is essential for efficient FcγRIIIa binding.The Physical State of Viral Nucleic Acid and the Sensitivity of Viruses to Ultraviolet LightSteps in the neoplastic transformation of hamster embryo cells by polyoma virus.Location of the retinal chromophore in the activated state of rhodopsin*.Biological consequences of incorporation of 5-fluorocytidine in the RNA of 5-fluorouracil-treated eukaryotic cellsOrganization and energy-dependent growth of microtubules in cells.Inhibition of cytokinesis in Friend leukemia cells by membrane mobility agents.Periodate and concanavalin A induce blast transformation of rat lymphocytes by an indirect mechanismCharacterization of the end groups of RNA of Rous sarcoma virusEffect of near-ultraviolet and visible light on mammalian cells in culture II. Formation of toxic photoproducts in tissue culture medium by blacklight.Application of cell fractionation techniques in the study of cells infected with polyoma virus and Newcastle disease virusSubgenomic viral DNA species synthesized in simian cells by human and simian adenoviruses.The viral etiology of neoplasms--a review.Immunolocalization of entactin, a sulfated basement membrane component, in rodent tissues, and comparison with GP-2 (laminin)Coupling of retinal isomerization to the activation of rhodopsin.TRANSFORMATION INDUCED BY PR 8 INFLUENZA VIRUS IN PRIMARY CULTURES OF MOUSE KIDNEY AND BRONCHUS, AND PRODUCTION OF MALIGNANT KIDNEY TUMORS IN MICE BY SUBCULTURESChemical modification and immunogenicity of membrane fractions from mouse tumour cells.Cytotoxicity and ADP-ribosylating activity of the mosquitocidal toxin from Bacillus sphaericus SSII-1: possible roles of the 27- and 70-kilodalton peptidesMitochondrial growth and division during the cell cycle in HeLa cells.Signal peptides and signal peptidase in Drosophila melanogasterLysosomes in rat thoracic duct lymphocytes fractionated by zonal centrifugation.Biochemical investigations of retinotectal adhesive specificity.Quantitative analysis of intercellular adhesive specificity in freshly explanted and cultured cells.Interferon gamma blocks the growth of Toxoplasma gondii in human fibroblasts by inducing the host cells to degrade tryptophan.
P2860
Q24293228-4F8CE843-3DD7-46F1-8EA9-5D0DDE9633D6Q24527356-1DEF4841-A530-452C-81BF-E14605FE6212Q24623448-2D57D740-E712-4125-8412-C6FA317B67B3Q24655200-C52CF493-30FE-48F3-AE82-1D010A2F3FC3Q26772884-07467C55-B4A5-4B8C-9BD7-79633B1B0ABAQ30501631-6B243544-9AA3-487A-B0A8-D18A4FD28AEAQ30815875-EE18066B-F19E-4EDB-A833-7B64DF71EE69Q31932089-778578B5-C437-4889-8F23-FAE0B0FC0F43Q33799509-797F1136-EEF3-45B9-B6A7-A3A19BB857ADQ33804173-BC66BCCE-344D-4B73-B8D1-4E961048B2C6Q33804204-477A1238-4B96-4C6F-9E0A-7E5947A0CD85Q33817871-04742028-78FB-4586-BA89-272B81CE78FEQ33960988-311C8FCF-81D4-4B15-9301-0BA41264BFE7Q34176315-D1D2E562-99DC-4997-8AC1-3DFFB4CD8C97Q34207730-E05AF268-D203-4B51-ADD9-893E1F4DACE4Q34275656-7F5DB437-BE7C-4E73-B461-080E029A7166Q34315442-6AECD391-E1EE-4DEC-A189-35E93C1BAC33Q34355707-C9DC1429-453E-4044-B197-81EF8628AD06Q34383690-889EBA43-6CA4-4539-817B-40DCB0B10CF4Q34931902-D0852F36-0765-4CE5-A312-79A7A2BB5C3BQ35001107-7A03B0EB-B8A3-41ED-857B-D1A5B9BA8D17Q35017242-5E84BA10-CB73-4E75-8640-F4274BB027D4Q35036272-1D4A6B4E-89F8-4CEB-B900-BF890F7A2EFCQ35089124-6EFDBECE-3BC2-4F6C-A844-9D327AB25A2BQ35115494-983F2546-7CFF-47CD-8172-ECC063FD9836Q35128663-C0C64DF9-CB54-4169-965C-669ED5BE651BQ35178938-B6698E7C-D5A4-47A7-9845-D04A8810DC5AQ35235807-8422D0B1-4B57-4F4D-88A2-7EAF0E21C200Q35324622-58CD00EC-7EEC-47F8-930E-38252C3CCD78Q35864170-3BAAC20B-4F35-4310-8E8C-06E9A686E44CQ35970893-55C5631F-8D85-4DDA-BB6D-D664E0B3914FQ36016015-CFA8C3D7-263F-41CB-AF54-4A529FA5B449Q36042611-E3561B5A-4986-4564-A2C6-2A176D91557AQ36098374-7E0495E2-90C5-4708-959F-02465A8B9CC2Q36199284-92BA3DF2-6CD3-4C5A-BBE0-3B51F6FD30BCQ36201935-3E97D20D-977C-4A3B-A18B-74B226105333Q36202343-17662A0F-7615-483E-87FE-BFB249222F80Q36203990-247799C8-1F3B-49CA-8B5D-8D6D57838A8FQ36204946-C73EF3FB-1EEC-4C80-86EF-95212835653EQ36254619-5674D07E-B71F-49B9-A260-A0A5286F6B32
P2860
description
1959 nî lūn-bûn
@nan
1959年の論文
@ja
1959年学术文章
@wuu
1959年学术文章
@zh
1959年学术文章
@zh-cn
1959年学术文章
@zh-hans
1959年学术文章
@zh-my
1959年学术文章
@zh-sg
1959年學術文章
@yue
1959年學術文章
@zh-hant
name
Plaque production by the polyoma virus.
@en
Plaque production by the polyoma virus.
@nl
type
label
Plaque production by the polyoma virus.
@en
Plaque production by the polyoma virus.
@nl
prefLabel
Plaque production by the polyoma virus.
@en
Plaque production by the polyoma virus.
@nl
P1433
P1476
Plaque production by the polyoma virus.
@en
P2093
P304
P356
10.1016/0042-6822(59)90043-1
P407
P577
1959-07-01T00:00:00Z