The oxygen requirement for cell growth in glucose can be represented by the following equation (Mateles, 1971) ro2 32Nc+8(Nh2)+16(No2) Yx/sM +yo2 – 2.67yc + 1.714yN2 – 8y H2 In which ro2 is the oxygen required for each gram of cells produced, N stands for no. of atoms present in each molecule substrate, y stands for mass fractions and M is the MW of the substrate. The yeast cell may be considered to be CH1.800.5NO.2. Calculate rO2 if the yield factor (Yx/s) is 0.46g of cells produced for each gram of substrate consumed.
The oxygen requirement for cell growth in glucose can be represented by the following equation (Mateles, 1971) ro2 32Nc+8(Nh2)+16(No2) Yx/sM +yo2 – 2.67yc + 1.714yN2 – 8y H2 In which ro2 is the oxygen required for each gram of cells produced, N stands for no. of atoms present in each molecule substrate, y stands for mass fractions and M is the MW of the substrate. The yeast cell may be considered to be CH1.800.5NO.2. Calculate rO2 if the yield factor (Yx/s) is 0.46g of cells produced for each gram of substrate consumed.
Biochemistry
6th Edition
ISBN:9781305577206
Author:Reginald H. Garrett, Charles M. Grisham
Publisher:Reginald H. Garrett, Charles M. Grisham
Chapter18: Glycolysis
Section: Chapter Questions
Problem 25P: Using the ActiveModel for phosphofructokinase (Trypanosoma), describe the difference between the...
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![Example 14.6
The oxygen requirement for cell growth in glueose can be represented by the following
equation (Mateles, 1971)
32NC+8(Nh2)+16(No2)
Fx/sM
+yo2 – 2.67yc + 1.714YN2 – 8y H2
ro2 =
In which ro2 is the oxygen required for each gram of cells produced, N stands for no. of
atoms present in each molecule substrate, y stands for mass fractions and M is the MW of
the substrate. The yeast cell may be considered to be CH1.800.5NO.2. Calculate rO2 if the
yield factor (Yx/s) is 0.46g of cells produced for each gram of substrate consumed.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F39a57c8b-50f6-40a3-948d-512bdd1d25ec%2F71944a55-6130-4ed7-bca9-29c95bea15b2%2Fdmnmb4e_processed.png&w=3840&q=75)
Transcribed Image Text:Example 14.6
The oxygen requirement for cell growth in glueose can be represented by the following
equation (Mateles, 1971)
32NC+8(Nh2)+16(No2)
Fx/sM
+yo2 – 2.67yc + 1.714YN2 – 8y H2
ro2 =
In which ro2 is the oxygen required for each gram of cells produced, N stands for no. of
atoms present in each molecule substrate, y stands for mass fractions and M is the MW of
the substrate. The yeast cell may be considered to be CH1.800.5NO.2. Calculate rO2 if the
yield factor (Yx/s) is 0.46g of cells produced for each gram of substrate consumed.
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