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c oleaginosus atcc 20509 dry cell weight dcw (ATCC)

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ATCC c oleaginosus atcc 20509 dry cell weight dcw
Lipid content in C. oleaginosus ATCC 20509 <t>dry</t> <t>cell</t> <t>weight</t> (DCW) at different C/N ratio. In vitro data were obtained from . Fitting line corresponds to y = − 0.002* x 2 + 0.59* x + 1.9

Lipid content in C. oleaginosus ATCC 20509 <t>dry</t> <t>cell</t> <t>weight</t> (DCW) at different C/N ratio. In vitro data were obtained from . Fitting line corresponds to y = − 0.002* x 2 + 0.59* x + 1.9

C Oleaginosus Atcc 20509 Dry Cell Weight Dcw, supplied by ATCC, used in various techniques. Bioz Stars score: 96/100, based on 334 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/c oleaginosus atcc 20509 dry cell weight dcw/product/ATCC
Average 96 stars, based on 334 article reviews

c oleaginosus atcc 20509 dry cell weight dcw - by Bioz Stars, 2026-06

96/100 stars

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1) Product Images from "Genome-scale metabolic modeling underscores the potential of Cutaneotrichosporon oleaginosus ATCC 20509 as a cell factory for biofuel production"

Article Title: Genome-scale metabolic modeling underscores the potential of Cutaneotrichosporon oleaginosus ATCC 20509 as a cell factory for biofuel production

Journal: Biotechnology for Biofuels

doi: 10.1186/s13068-020-01838-1

Lipid content in C. oleaginosus ATCC 20509 dry cell weight (DCW) at different C/N ratio. In vitro data were obtained from . Fitting line corresponds to y = − 0.002* x 2 + 0.59* x + 1.9

Figure Legend Snippet: Lipid content in C. oleaginosus ATCC 20509 dry cell weight (DCW) at different C/N ratio. In vitro data were obtained from . Fitting line corresponds to y = − 0.002* x 2 + 0.59* x + 1.9

Techniques Used: In Vitro

In silico lipid production rate when using different carbon sources. X and Y axis started from 0.1. The color bars indicate lipid production rate mmol. g DCW −1 h −1

Figure Legend Snippet: In silico lipid production rate when using different carbon sources. X and Y axis started from 0.1. The color bars indicate lipid production rate mmol. g DCW −1 h −1

Techniques Used: In Silico

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Image Search Results

Journal: Biotechnology for Biofuels

Article Title: Genome-scale metabolic modeling underscores the potential of Cutaneotrichosporon oleaginosus ATCC 20509 as a cell factory for biofuel production

doi: 10.1186/s13068-020-01838-1

Figure Lengend Snippet: Lipid content in C. oleaginosus ATCC 20509 dry cell weight (DCW) at different C/N ratio. In vitro data were obtained from . Fitting line corresponds to y = − 0.002* x 2 + 0.59* x + 1.9

Article Snippet: Fig. 3 Lipid content in C. oleaginosus ATCC 20509 dry cell weight (DCW) at different C/N ratio.

Techniques: In Vitro

Journal: Biotechnology for Biofuels

Article Title: Genome-scale metabolic modeling underscores the potential of Cutaneotrichosporon oleaginosus ATCC 20509 as a cell factory for biofuel production

doi: 10.1186/s13068-020-01838-1

Figure Lengend Snippet: In silico lipid production rate when using different carbon sources. X and Y axis started from 0.1. The color bars indicate lipid production rate mmol. g DCW −1 h −1

Article Snippet: Fig. 3 Lipid content in C. oleaginosus ATCC 20509 dry cell weight (DCW) at different C/N ratio.

Techniques: In Silico

Journal: 3 Biotech

Article Title: Integrated strategy of temperature shift and mannitol feeding for enhanced production of echinocandin B by Aspergillus nidulans CCTCC M2012300

doi: 10.1007/s13205-019-1668-x

Figure Lengend Snippet: Comparison of different fermentation parameters at different temperature control conditions

Article Snippet: As shown in Fig. a, the dry cell weight (DCW) of A. nidulans CCTCC M2012300 increased quickly in the initial stage of fermentation and reached the maximum at the stationary phase for all operating temperatures.

Techniques: Comparison, Control

Effects of culture temperature on DCW (a), residual mannitol concentration (b), and ECB production (c) of A. nidulans CCTCC M2012300 in batch fermentation. The symbols used were 23 °C (unfilled diamond), 25 °C (filled triangle), 27 °C (unfilled circle) and 30 °C (filled inverted triangle)

Journal: 3 Biotech

Article Title: Integrated strategy of temperature shift and mannitol feeding for enhanced production of echinocandin B by Aspergillus nidulans CCTCC M2012300

doi: 10.1007/s13205-019-1668-x

Figure Lengend Snippet: Effects of culture temperature on DCW (a), residual mannitol concentration (b), and ECB production (c) of A. nidulans CCTCC M2012300 in batch fermentation. The symbols used were 23 °C (unfilled diamond), 25 °C (filled triangle), 27 °C (unfilled circle) and 30 °C (filled inverted triangle)

Techniques: Concentration Assay