Cell Nutrients Nutrients required by cells can be classified in two categories: - are needed in concentrations larger than 10 -4 M. C, N, O, H, S, P, Mg.

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Presentation transcript:

Cell Nutrients Nutrients required by cells can be classified in two categories: - are needed in concentrations larger than M. C, N, O, H, S, P, Mg 2+, and K +. - are needed in concentrations less than M. Mo, Zn, Cu, Mn, Ca, Na, vitamins, growth hormones and metabolic precursors.

Cell Nutrients- Macronutrients compounds are the major sources of cellular carbon and energy. Heterotrophs use organic carbon sources such as carbohydrates, lipid, hydrocarbon as a carbon source. Autotrophs can use carbon dioxide as a carbon source. They can form carbohydrate through light or chemical oxidation. In aerobic fermentations, about 50% of substrate carbon is incorporated into cell mass and about 50% of it is used as energy sources. In anaerobic fermentation, a large fraction of substrate carbon is converted to products and a smaller fraction is converted to cell mass (less than 30%).

Cell Nutrients- Macronutrients Carbon sources: - In industrial fermentation, the most common carbon sources are molasses (sucrose), starch (glucose, dextrin), corn syrup, and waste sulfite liquor (glucose). - In laboratory fermentations, glucose, sucrose and fructose are the most common carbon sources. Ethanol, methanol and methane also constitute cheap carbon sources.

Cell Nutrients- Macronutrients compounds are important sources for synthesizing protein, nucleic acid. Nitrogen constitutes 10% to 14% of cell dry weight. The most commonly used nitrogen sources are ammonia or ammonium salts such as ammonium chloride, sulfate and nitrate, protein, peptides, and amino acids. Urea can be cheap source. In industrial fermentation, nitrogen sources commonly used are soya meal, yeast extract, distillers solubles, dry blood and corn steep liquor.

Cell Nutrients- Macronutrients constitutes about 20% of the cell dry weight. - Molecular oxygen is required as terminal electron acceptor in the aerobic metabolism of carbon compounds. - Gaseous oxygen is introduced into growth media by sparging air or by surface aeration. - Improving the mass transfer of oxygen in a bioreactor is a challenge in reactor control.

Cell Nutrients- Macronutrients : 8% of dry cell weight major source: carbohydrates. : 3% of cell dry weight - present in nucleic acids and in the cell wall of some gram-positive bacteria. - a key element in the regulation of cell metabolism. - sources: Inorganic phosphates. The phosphate level should be less than 1 mM for the formation of many secondary metabolites such as antibiotics.

Cell Nutrients- Macronutrients : 1% of cell dry weight - present in protein and some coenzymes. - source: Ammonium sulfate, Sulfur containing amino acids, cysteine some autotrophs can use S 0 and S 2+ as energy sources. : a cofactor for some enzyme and is required in carbohydrate metabolism. cofactor: any of various organic or inorganic substances necessary to the function of an enzyme. - source: potassium phosphates. : a cofactor for some enzyme and is present in cell walls and membranes. Ribosomes specifically requires Mg sources: Magnesium sulfate or chloride

Cell Nutrients- Micronutrients Micronutrients could be classified into the following categories (required less than M): -most widely needed elements. -trace elements needed under specific growth conditions. -Trace elements rarely require. -Growth factor.

Cell Nutrients- Micronutrients Micronutrients could be classified into the following categories: -most widely needed elements are Fe, Zn and Mn. Such elements are cofactors for some enzyme and regulate the metabolism. -trace elements needed under specific growth conditions are Cu, Co, Mo, Ca, Na, Cl, Ni, and Se. For example, copper is present in certain respiratory-chain components and enzymes.

Cell Nutrients- Micronutrients -Trace elements rarely required are B, Al, Si, Cr, V, Sn, Be, F, Ti, Ga, Ge, Br, Zr, W, Li and I. These elements are required in concentrations of less than and are toxic at high concentration. -Growth factor is also micronutrient. Growth factor stimulates the growth and synthesis of some metabolites. e.g. vitamin, hormones and amino acids. They are required less than.

Growth Media There are two types of growth medium: defined medium and complex medium. contains specific amounts of pure chemical compounds with known chemical compositions. Glucose (30g/L), (NH 4 ) 2 HPO 4 (6g/L), NH 4 Cl (1.32 g/L), MgS0 4.7H 2 O (0.6 g/L), CaCl 2 (0.05 g/L), KH 2 PO 4 (10.0 g/L).

Defined Media - Results are more reproducible and the operator has better control of the fermentation. - Recovery and purification processes are easier.

Growth Media contains natural compounds whose chemical composition is not exactly known. - yeast extract, peptone, molasses or corn steep. - high yields: providing necessary growth factor. - cheaper than defined medium - more complex separation Glucose (30g/L), yeast extract, NH 4 Cl (1.32 g/L), MgS0 4.7H 2 O (0.11 g/L), CaCl 2.2H 2 O (0.08 g/L), K 2 HPO 4 (2.0 g/L) for ethanol production by S. cerevisiae.

Summary of Cell Nutrients Nutrients required by cell living can be categorized into macronutrient that are required higher than M, micronutrients that less than M. Macronutrients include N, C, O, H, S, P, K and Mg. They are major components in cell dry weight. Micronutrients are classified into most widely needed elements, needed under specific conditions and rarely needed ones. Growth medium can be either defined or complex.