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For the Na+- mediated active transport of a molecule of glutamic acid from a concentration of 0.1mM outside the cell to 20 mM inside the cell, the minimum number of Na+ ions required to supply the necessary free energy will be _________________ [Answer in integer]

ΔG released for the transport of one Na+ is 3.3 kcal/mol. Glutamic acid carries a net charge of -1 at pH 7.
    Correct answer is '2'. Can you explain this answer?
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    For the Na+- mediated active transport of a molecule of glutamic acid ...
    Energy required to transport glutamic acid inside the cell against the concentratin gradient = ΔG.

    ΔG released for the transport of one Na+ is 3.3 kcal/mole
    Since, it in an antiport, so transport of 1 molecule of glutamic acid requires few Na+ to be transported out o f the cell.
    No. of Na+ require to produce necessary free energy

    So. at least 2Na+ are needed to be a transported for 1 molecule of glutamic acid.
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    For the Na+- mediated active transport of a molecule of glutamic acid ...
    Energy required to transport glutamic acid inside the cell against the concentratin gradient = ΔG.

    ΔG released for the transport of one Na+ is 3.3 kcal/mole
    Since, it in an antiport, so transport of 1 molecule of glutamic acid requires few Na+ to be transported out o f the cell.
    No. of Na+ require to produce necessary free energy

    So. at least 2Na+ are needed to be a transported for 1 molecule of glutamic acid.
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    For the Na+- mediated active transport of a molecule of glutamic acid ...
    Energy required to transport glutamic acid inside the cell against the concentratin gradient = ΔG.

    ΔG released for the transport of one Na+ is 3.3 kcal/mole
    Since, it in an antiport, so transport of 1 molecule of glutamic acid requires few Na+ to be transported out o f the cell.
    No. of Na+ require to produce necessary free energy

    So. at least 2Na+ are needed to be a transported for 1 molecule of glutamic acid.
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    Explanation:The separation techniques of proteins are used to isolate and purify proteins from complex mixtures. These techniques are based on various properties of proteins such as solubility, charge, size, and others. However, the technique of protein separation based on viscosity is not commonly used. Protein solubility:Protein solubility refers to the ability of a protein to dissolve in a given solvent. Different proteins have different solubilities in different solvents. This property is often used in techniques like precipitation, where proteins are selectively precipitated out of solution based on their solubility.Protein charge:Protein charge refers to the net charge of a protein molecule, which is determined by the presence of charged amino acid residues such as lysine, arginine, aspartic acid, and glutamic acid. Techniques like electrophoresis and ion exchange chromatography utilize the charge differences between proteins to separate them.Protein size:Protein size refers to the molecular weight or size of a protein molecule. Techniques such as gel filtration chromatography and SDS-PAGE separate proteins based on their size. In gel filtration chromatography, proteins are separated based on their ability to enter and pass through a porous gel matrix, while in SDS-PAGE, proteins are separated based on their migration through a gel under the influence of an electric field.Protein viscosity:Protein viscosity refers to the resistance of a protein solution to flow. While protein viscosity can vary depending on factors such as protein concentration, temperature, and pH, it is not typically used as a property for protein separation. In conclusion, the separation techniques of proteins are based on properties such as solubility, charge, and size. Protein viscosity is not commonly used as a property for protein separation.

    For the Na+- mediated active transport of a molecule of glutamic acid from a concentration of 0.1mM outside the cell to 20 mM inside the cell, the minimum number of Na+ions required to supply the necessary free energy will be _________________ [Answer in integer]ΔG released for the transport of one Na+ is 3.3 kcal/mol. Glutamic acid carries a net charge of -1 at pH 7.Correct answer is '2'. Can you explain this answer?
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    For the Na+- mediated active transport of a molecule of glutamic acid from a concentration of 0.1mM outside the cell to 20 mM inside the cell, the minimum number of Na+ions required to supply the necessary free energy will be _________________ [Answer in integer]ΔG released for the transport of one Na+ is 3.3 kcal/mol. Glutamic acid carries a net charge of -1 at pH 7.Correct answer is '2'. Can you explain this answer? for IIT JAM 2024 is part of IIT JAM preparation. The Question and answers have been prepared according to the IIT JAM exam syllabus. Information about For the Na+- mediated active transport of a molecule of glutamic acid from a concentration of 0.1mM outside the cell to 20 mM inside the cell, the minimum number of Na+ions required to supply the necessary free energy will be _________________ [Answer in integer]ΔG released for the transport of one Na+ is 3.3 kcal/mol. Glutamic acid carries a net charge of -1 at pH 7.Correct answer is '2'. Can you explain this answer? covers all topics & solutions for IIT JAM 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for For the Na+- mediated active transport of a molecule of glutamic acid from a concentration of 0.1mM outside the cell to 20 mM inside the cell, the minimum number of Na+ions required to supply the necessary free energy will be _________________ [Answer in integer]ΔG released for the transport of one Na+ is 3.3 kcal/mol. Glutamic acid carries a net charge of -1 at pH 7.Correct answer is '2'. Can you explain this answer?.
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