about
Science through the Internet: Researching, Evaluating and Citing Websites.Induction of 7-ethoxyresorufin-O-deethylase activity by planar chlorinated hydrocarbons and polycyclic aromatic hydrocarbons in cell lines from the rainbow trout pituitary.Ecotoxicology and innate immunity in fish.Animal cell cultures in microsporidial research: their general roles and their specific use for fish microsporidia.Development of a zebrafish spleen cell line, ZSSJ, and its growth arrest by gamma irradiation and capacity to act as feeder cells.Development of a cell line from the American eel brain expressing endothelial cell properties.Development of a walleye cell line and use to study the effects of temperature on infection by viral haemorrhagic septicaemia virus group IVb.Development and characterization of an endothelial cell line from the bulbus arteriosus of walleye, Sander vitreus.Senescence-associated β-galactosidase staining in fish cell lines and primary cultures from several tissues and species, including rainbow trout coelomic fluid and milt.Derivation of a continuous myogenic cell culture from an embryo of common killifish, Fundulus heteroclitus.Cytotoxicity evaluation of silica nanoparticles using fish cell lines.The use of fish-derived cell lines for investigation of environmental contaminants: an update following OECD's fish toxicity testing framework No. 171.Rapid assessment of the toxicity of oil sands process-affected waters using fish cell lines.Long-term storage and impedance-based water toxicity testing capabilities of fluidic biochips seeded with RTgill-W1 cells.Misidentification of OLGA-PH-J/92, believed to be the only crustacean cell line.In vitro growth of microsporidia Anncaliia algerae in cell lines from warm water fish.Microfluidic system with integrated electroosmotic pumps, concentration gradient generator and fish cell line (RTgill-W1)--towards water toxicity testing.Developing a list of reference chemicals for testing alternatives to whole fish toxicity tests.Comparative oxygen radical formation and toxicity of BDE 47 in rainbow trout cell lines.High yield and rapid growth of Neoparamoeba pemaquidensis in co-culture with a rainbow trout gill-derived cell line RTgill-W1.Cell adhesion characteristics of a monocytic cell line derived from rainbow trout, Oncorhynchus mykiss.A proteomics approach to identifying fish cell lines.The use of fish-derived cell lines for investigation of environmental contaminants.Technology and uses of cell cultures from the tissues and organs of bony fish.Effects of aflatoxin B(1) in a liver cell line from rainbow trout (Oncorhynchus mykiss).Proteomic responses in the gills of fathead minnows (Pimephales promelas, Rafinesque, 1820) after 6 months and 2 years of continuous exposure to environmentally relevant dietary 226Ra.Butyltin species in benthic and pelagic organisms of the Saguenay Fjord (Canada) and Imposex occurrence in common whelk (Buccinum undatum).Development of a continuous cell line from larval Atlantic cod (Gadus morhua ) and its use in the study of the microsporidian, Loma morhuaThe corticosteroid receptor and the action of various steroids in rainbow trout fibroblastsEffect of corticosteroids on the morphology and proliferation of two salmonid cell lines
P50
Q24795824-2F18523B-AB5D-4D43-8561-EA446C6C6418Q32062876-044A95EA-221E-4D5B-9E5B-60FDEA47828BQ34401957-52F7CC7F-56A4-47A2-825C-478DFA1786F2Q36598456-2C3841E0-E967-48E1-9B79-B33AF9094D6AQ37310821-DB92D596-3531-48DF-B84D-8463A6457570Q38808180-4FD78A22-C975-4F6B-840C-D61EF3ADA35CQ38919937-CC3BD275-11BD-4B7C-89DD-36B8BE1F7613Q38933532-23C865E3-04DC-4512-9A3D-E0B294A1F285Q38937773-E2F5A14B-1F7A-488F-B2E6-50F32FA54276Q38994249-4295788E-C7BC-42EA-BA31-13D47067C8D8Q39041616-AAD5A481-A0C0-4825-B052-C01CF42AD5AEQ39152447-68D869DD-B60D-4A59-91B7-6DF4AD6E77FCQ39221499-8A95FC92-16E3-45F7-BB7C-1843BE81AE21Q39370473-55474C4A-97A4-4E37-AA56-4A9E8CC8EC0AQ39469951-93E63250-D48C-46F5-83F1-7FE62701D6D9Q39630325-7AA0CCEE-94BC-4916-9A7A-64D58C8F9A14Q39782182-59C4B36B-5392-490F-9718-E5E37292BD52Q39933696-20A96525-426E-4CB2-9B89-B38C0AF4A60BQ39993600-EBAC7FD8-629C-44AB-8DEE-BEDCD749080BQ40243460-C9EC45D3-CCE1-4B27-935F-30BE79408733Q40276824-638DF702-6B16-4D8F-9401-587F173A0F08Q40367069-F11DFD1D-3563-491E-AC86-50D0B1DA1932Q40651420-2407C53F-B88E-4E0D-B9D6-5A4B85F87560Q41147390-308370F3-CE62-43C2-826F-37DF63E885A1Q41462106-6366CBC1-2309-4043-AB75-E843E0D8896DQ46810148-5A110D22-F20F-4307-9482-6A63875F6961Q53133663-4AE3FA4A-1D35-4C7D-9DF7-9FC50AE3DF46Q58771585-38FA97AB-8F26-4FA5-A8AE-044F5F6465DCQ58772181-80E648B2-4537-4F50-9950-B6628316A340Q58772192-65B8BA2E-41ED-4B8C-BAD7-92B6E6EB606B
P50
description
researcher ORCID ID = 0000-0003-1796-0588
@en
wetenschapper
@nl
name
Lucy EJ Lee
@ast
Lucy EJ Lee
@en
Lucy EJ Lee
@es
Lucy EJ Lee
@nl
type
label
Lucy EJ Lee
@ast
Lucy EJ Lee
@en
Lucy EJ Lee
@es
Lucy EJ Lee
@nl
prefLabel
Lucy EJ Lee
@ast
Lucy EJ Lee
@en
Lucy EJ Lee
@es
Lucy EJ Lee
@nl
P1053
B-8849-2016
P106
P31
P3829
P496
0000-0003-1796-0588