Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells. - Wikidata - awgldk - TriplyDB

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

http://www.wikidata.org/entity/Q37442381

about

Cytoplasmic transfer of chloramphenicol resistance in human tissue culture cells Cytoplasmic hybrid (cybrid) cell lines as a practical model for mitochondriopathies A mitochondrial paradigm of metabolic and degenerative diseases, aging, and cancer: a dawn for evolutionary medicine The egg. The inside story of a cell.Structure and evolution of organelle genomes.Cell fusion and some subcellular properties of heterokaryons and hybrids.Cytoplasmic inheritance of rutamycin resistance in mouse fibroblasts.Cytoplasmic inheritance of erythromycin resistance in human cells A mitochondrial etiology of Alzheimer and Parkinson disease Xenomitochondrial mice: investigation into mitochondrial compensatory mechanisms Cell and animal models of mtDNA biology: progress and prospects.Transfer of chloramphenicol-resistant mitochondrial DNA into the chimeric mouse Different nucleotide changes in the large rRNA gene of the mitochondrial DNA confer chloramphenicol resistance on two human cell lines.Chromosome-mediated gene transfer between closely realted strains of cultured mouse cells.Extinction of hemoglobin inducibility in Friend erythroleukemia cells by fusion with cytoplasm of enucleated mouse neuroblastoma or fibroblast cells Overexpression of an unstably inherited gene in cultured mouse cells.Selection of reconstituted cells from karyoplasts fused to chloramphenicol-resistant cytoplasts.Mitochondrial DNA of chloramphenicol-resistant mouse cells contains a single nucleotide change in the region encoding the 3' end of the large ribosomal RNA.1994 William Allan Award Address. Mitochondrial DNA variation in human evolution, degenerative disease, and aging Animal models of human mitochondrial DNA mutations.Cytoplasmic transfer of the mtDNA nt 8993 T-->G (ATP6) point mutation associated with Leigh syndrome into mtDNA-less cells demonstrates cosegregation with a decrease in state III respiration and ADP/O ratio.The Potential Application of Mitochondrial Medicine in Toxicologic Poisoning.mtDNA lineage analysis of mouse L-cell lines reveals the accumulation of multiple mtDNA mutants and intermolecular recombination.Maternal germ-line transmission of mutant mtDNAs from embryonic stem cell-derived chimeric mice.Mitochondria and cell bioenergetics: increasingly recognized components and a possible etiologic cause of Alzheimer's disease.Role and treatment of mitochondrial DNA-related mitochondrial dysfunction in sporadic neurodegenerative diseases.Teratocarcinoma cells as vehicles for introducing specific mutant mitochondrial genes into mice Cytoplasmic inheritance of oligomycin resistance in Chinese hamster ovary cells Cell fusion and plasticity.Transferring isolated mitochondria into tissue culture cells.Alternative method for identifying reconstituted cells.A general high-efficiency procedure for production of microcell hybrids.Does mitochondrial DNA play a role in Parkinson's disease? A review of cybrid and other supportive evidence.Assignment of the chloramphenicol resistance gene to mitochondrial deoxyribonucleic acid and analysis of its expression in cultured human cells.Effects of mycoplasma contamination on phenotypic expression of mitochondrial mutants in human cells Assignment of two mitochondrially synthesized polypeptides to human mitochondrial DNA and their use in the study of intracellular mitochondrial interaction.Genetics of the mammalian oxidative phosphorylation system: characterization of a new oligomycin-resistant Chinese hamster ovary cell line.Sequence analysis of mitochondrial DNA in a mouse cell line resistant to chloramphenicol and oligomycin The functional development of mammalian mitochondria.A novel NDUFA1 mutation leads to a progressive mitochondrial complex I-specific neurodegenerative disease

P2860

Q24682169-D460D55F-AC02-4547-8D81-5645CEAA0312 Q26859496-4AD86EFD-0F2C-434B-AFFE-D72F727F109B Q29547303-22CAC8CA-40A1-4D1A-A374-5FC2C3DE510E Q30431119-D31BEDEB-E938-4E3B-9DE9-207414A3BF98 Q33626527-6D273BBB-02FA-4AE1-AD28-452808995D49 Q33922685-938ED13C-3A70-4959-A81C-A940BC53835B Q33956243-782CC512-A493-425D-B2C0-E0AFB24ACC5D Q33975150-74708756-5103-4B79-8E5C-469F6E329D79 Q34211127-32D02C08-A2F3-4F8D-88CA-DD1D51EFA2E8 Q34422404-732B8041-13C4-4115-99D5-35DAFA18DA6A Q34569830-6B74D0C1-2ADE-4AD0-A703-8549DF4CBF31 Q34628957-D8FEDBCE-1F30-4D18-B6C0-F1F49BBF54B8 Q34708201-C7B1CB17-7053-4DFF-BA8F-0A7724C82F98 Q35017793-C0D4599F-75A1-4FFD-85DF-7E85F4070D7F Q35019758-E765F484-DD8D-4951-9F17-73E9D93F040F Q35052122-A1F346BA-A3DF-44B1-896C-8E343B90ED7D Q35064506-C80101C3-8D51-46FD-9850-D94C694651AA Q35384700-F572D1B1-1A5C-4581-8606-0C265BCC5F21 Q35644545-2F83A920-29D3-486D-897F-B210E653BEC3 Q35645375-D5C472BE-C4FD-40B0-BDF8-E25BEC104E78 Q35696491-F7D9D50B-CC0B-4C1A-9C71-561691C61E10 Q35749100-730DB84B-37F0-4306-9424-64DE60FDAEDE Q35788948-34B95E7F-6779-4FCC-A60F-A828D59B23FF Q35845825-8C9621EC-B860-47C5-AA0E-2FC8AAFF4BA0 Q35898628-0CB0E7FF-C612-4403-9D74-C33E3732F146 Q35958359-3434B7E1-0EA9-4A2C-86AF-B249C8AE3657 Q35996280-131E0AFD-9526-4A25-B1A5-B026D206BD83 Q36201738-B5E045E9-310A-4355-B916-C2E0E9D2C3D5 Q36304585-5F5813AF-3207-42A8-9C12-13261A45A4DD Q36341456-18AE9DDA-788E-49E6-84F7-75E8D03E3EB1 Q36352184-081D9342-B165-4128-81B8-C6D0FD4BAAE8 Q36375264-6F589714-47BB-4167-8464-3C3DBEC6E9E7 Q36813613-F3DB3929-9D8C-4CC4-92E0-193D6B1688A3 Q36956970-A825003B-4DA9-415C-AA69-9C95B5B02F39 Q36967788-FD555071-EDB6-4AE6-95FA-5EE9431CCCB4 Q36970433-0303DF37-84F9-4968-8574-44CBC32D0589 Q36973820-F5B2FF93-0D0E-45DD-A25A-175BC4664165 Q36978902-0E18781E-D501-49A4-9DDC-A5DACDB0401A Q36982372-BB6B7EC1-0A04-4DF3-AAE8-E66C626276AC Q37219568-E759F8A8-FD6F-46BD-9DDF-C07508667C87

P2860

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

http://www.wikidata.org/entity/Q37442381

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on May 1974

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@en

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@nl

type

label

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@en

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@nl

prefLabel

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@en

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@nl

P1433

Q37442381-544159A9-CB18-46F7-9188-43A1C6804482

P1476

Q37442381-0489026C-87A2-4940-8158-8081391DA063

P2093

Q37442381-53720AFC-E875-4526-B3F5-533FEA16EE71

Q37442381-8F55B448-2271-464D-A4BB-174C9C5C62F6

Q37442381-9B56EF25-770E-49AE-8962-EFCC65F7F069

P2860

Q37442381-1965C5BE-615A-4686-A8D5-ABAEF8CF575E

Q37442381-28B1A574-B55C-4EE5-B9E1-D4C913249F5F

Q37442381-60C3866B-7A47-4BD0-9C0E-69B516283188

Q37442381-6EDB7EF2-000A-46B9-B4D8-9034C1F0884E

Q37442381-718AC874-E66B-4043-9494-6C32AA696392

Q37442381-796753C9-9459-40EB-9DB0-6B126D9AF264

Q37442381-8A8CD0D0-1A43-4619-977C-6E174CC52D54

Q37442381-A33CD4F7-6F68-480C-9E39-ADBCCAE72BCE

Q37442381-B08FC46B-8D82-4328-8F70-1BE57AA659F0

Q37442381-B75D6AF1-FEEB-4202-99CC-DCEF2C0B948A

P304

Q37442381-B45B813C-385B-4C02-951C-CBA4FB692D2D

P31

Q37442381-34D9E373-5C69-4DD0-94E0-C9F766498DB7

P356

Q37442381-625E77B0-5D84-4FB2-97C8-B1AEF6491382

P407

Q37442381-E277CDFD-31C9-425E-8125-E4D06BFE6DA7

P433

Q37442381-6DC1E2D1-F356-40D1-BBAA-1271CB37171D

P478

Q37442381-48D324B0-8A9E-4077-9AE6-B81D3B74CD9D

P577

Q37442381-71365788-04D6-42A8-8AE7-4186B85EDF1B

P5875

Q37442381-D161A9B8-51CB-4A3B-A10B-B67EF50CD3CE

P698

Q37442381-09815C8A-B5DA-4D05-BB53-362B483BF0B7

P932

Q37442381-C598FF6E-40A0-4B1C-9EEB-7B645A13215B

P356

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Cytoplasmic inheritance of chloramphenicol resistance in mouse tissue culture cells.

@en

P2093

Bunn CL

http://www.w3.org/2001/XMLSchema#string

Eisenstadt JM

http://www.w3.org/2001/XMLSchema#string

Wallace DC

http://www.w3.org/2001/XMLSchema#string

P2860

Fate of mitochondrial DNA in human-mouse somatic cell hybrids (density gradient centrifugation-ethidium bromide-karyotype)

THE INOSINIC ACID PYROPHOSPHORYLASE ACTIVITY OF MOUSE FIBROBLASTS PARTIALLY RESISTANT TO 8-AZAGUANINE.

The biogenesis of mitochondria in microorganisms.

Mitochondrial nucleic acids.

Effect of chloramphenicol on the ultrastructure of mitochondria in sensitive and resistant strains of HeLa.

Mammalian cell fusion. 3. A HeLa cell inducer of premature chromosome condensation active in cells from a variety of animal species.

Differential effects of chloramphenicol on the growth and respiration of mammalian cells.

Premature chromosome condensation: a mechanism for the elimination of chromosomes in virus-fused cells.

DELETION OF THYMIDINE KINASE ACTIVITY FROM L CELLS RESISTANT TO BROMODEOXYURIDINE.

Correction of a genetic defect in a mammalian cell.

P304

1681-1685

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.71.5.1681

http://www.w3.org/2001/XMLSchema#string

P407

P433

5

http://www.w3.org/2001/XMLSchema#string

P478

71

http://www.w3.org/2001/XMLSchema#string

P577

1974-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

18641362

http://www.w3.org/2001/XMLSchema#string

P698

4525288

http://www.w3.org/2001/XMLSchema#string

P932

388302

http://www.w3.org/2001/XMLSchema#string