As sources of natural products with potential human therapeutic value, marine sponges are important subjects for cell culture studies. A critical component of any cell culture system is its growth medium. Proceeding from the hypotheses that the thawed, cryopreserved, primary cells would display detectable differential responses and that those responses could be comparatively quantified, this study has established that multiwell screening assays are useful tools for improving medium formulations in cell cultures of the marine sponge, Teichaxinella morchella. Fluorescent probe signals were correlated with known cell densities and viabilities in a 96-well format. Analysis of variance and post-test methods were applied to judge the significance of signal differences seen in a variety of medium formulations. Results from a series of experiments suggested that reducing glutamine and selenium concentrations in the standard medium would result in greater DNA, protein, and esterase activity signals.
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Publisher
Society for In Vitro Biology
Date Issued
2000
Note
Language
Type
Genre
Extent
8 p.
Subject (Topical)
Identifier
2795606
Additional Information
As sources of natural products with potential human therapeutic value, marine sponges are important subjects for cell culture studies. A critical component of any cell culture system is its growth medium. Proceeding from the hypotheses that the thawed, cryopreserved, primary cells would display detectable differential responses and that those responses could be comparatively quantified, this study has established that multiwell screening assays are useful tools for improving medium formulations in cell cultures of the marine sponge, Teichaxinella morchella. Fluorescent probe signals were correlated with known cell densities and viabilities in a 96-well format. Analysis of variance and post-test methods were applied to judge the significance of signal differences seen in a variety of medium formulations. Results from a series of experiments suggested that reducing glutamine and selenium concentrations in the standard medium would result in greater DNA, protein, and esterase activity signals.
This manuscript is a version of an article with the final publication found online at http://www.springerlink.com and may be cited as: Willoughby, Robin and Shirley A. Pomponi (2000) Quantitative assessment of marine sponge cells in vitro: Development of improved growth medium, In Vitro Cellular & Developmental Biology -Animal 36:194-200 doi: 10.1290/1071-2690(2000)036<0194:QAOMSC>2.0.CO;2
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution #1317.
Date Backup
2000
Date Text
2000
DOI
10.1290/1071-2690(2000)036<0194:QAOMSC>2.0.CO;2
Date Issued (EDTF)
2000
Extension
FAU
FAU
admin_unit="FAU01", ingest_id="ing7948", creator="creator:SPATEL", creation_date="2010-11-04 14:00:27", modified_by="super:FAUDIG", modification_date="2014-02-10 12:13:36"
IID
FADT2795606
Issuance
single unit
Person Preferred Name
Willoughby, Robin
creator
Physical Description
8 p.
Title Plain
Quantitative assessment of marine sponge cells in vitro: Development of improved growth medium
Origin Information
Society for In Vitro Biology
2000
single unit
Title
Quantitative assessment of marine sponge cells in vitro: Development of improved growth medium
Other Title Info
Quantitative assessment of marine sponge cells in vitro: Development of improved growth medium