at the end of a biochemical reaction, the enzyme

Sugar and proteins a. What is the biochemical role of hyaluronan? b. The enzyme hyaluronidase is...

Sugar and proteins a. What is the biochemical role of hyaluronan? b. The enzyme hyaluronidase is found as a component of some snake and insect toxins. How does it increase a toxin’s effectiveness?

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if...

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if it were carried out in a 0.1 M buffer initially at pH 6.63, and 0.003 M of acid was produced during the reaction? (The buffer used was a polyprotic acid of the general form: H3A; the three pKas of this polyprotic acid are 2.06, 6.63, and 11.30.)

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if...

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if it were carried out in a 0.1 M buffer initially at pH 6.66, and 0.004 M of acid (H+) was produced during the reaction? (The buffer used was a polyprotic acid of the general form: H3A; the three pKas of this polyprotic acid are 2.16, 6.66, and 11.23.)

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if...

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if it were carried out in a 0.1 M buffer initially at pH 2.07, and 0.005 M of acid (H+) was produced during the reaction? (The buffer used was a polyprotic acid of the general form: H3A; the three pKas of this polyprotic acid are 2.07, 6.56, and 11.22.) (The enzyme's normal environment is the stomach.)

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if...

To the nearest hundredths, what is the pH at the end of an enzyme-catalyzed reaction if it were carried out in a 0.1 M buffer initially at pH 2.07, and 0.004 M of acid (H+) was produced during the reaction? (The buffer used was a polyprotic acid of the general form: H3A; the three pKas of this polyprotic acid are 2.07, 6.7, and 11.37.) (The enzyme's normal environment is the stomach.)

Enzymes that make a biochemical reaction exergonic will also always increase the enzyme’s reaction rate. a)...

Enzymes that make a biochemical reaction exergonic will also always increase the enzyme’s reaction rate. a) True b) False

Enzymes that make a biochemical reaction exergonic will also always increase the enzyme’s reaction rate. a)...

Enzymes that make a biochemical reaction exergonic will also always increase the enzyme’s reaction rate. a) True b) False Please explain this. Thank you!

Enzymes that make a biochemical reaction exergonic will always increase the enzymes rate of reaction. True...

Enzymes that make a biochemical reaction exergonic will always increase the enzymes rate of reaction. True or False? van der Waals force is a kind of electromagnetic force. T/F?

An enzyme catalyzes the reaction A -> B +H2O. If km for this reaction is 100uM...

An enzyme catalyzes the reaction A -> B +H2O. If km for this reaction is 100uM and vmax is 4umol/min/mg enzyme, calculate the amount of B formed in 2.0 min by 1.0 mg enzyme with 50uM A in solution.

An enzyme catalyzes the reaction A --> B. The enzyme is present at a concentration of...

An enzyme catalyzes the reaction A --> B. The enzyme is present at a concentration of 2 nM, and the Vmax is 1.2 mm/s. The Km for substrate A is 10 mM. Calculate the initial velocity of the reaction, Vo, when the substrate concentration is a) 4 mM, b) 15 mM, c) 45 mM.