Explain the Enzyme-Based sensors for the assay of glucose.
Discuss the reaction mechanism too. Explain in...
Explain the Enzyme-Based sensors for the assay of glucose.
Discuss the reaction mechanism too. Explain in detail working
principle with the chemical reactions involved in this
measurement.
Which of the following statements about enzyme mechanism
reaction steps are true (select all that apply)?
On a reaction coordinate diagram, a reversible step is indicated
by reactant and product at similar energy
Irreversible steps are important in enzyme mechanisms to help
ensure enzymes catalyze reactions in the desired direction
Substrate binding is usually an irreversible step
Irreversible steps of a reaction mechanism are always very
slow
To determine if a step is reversible or irreversible, it is
necessary to...
Describe the reaction of gluconeogenesis and for each step
explain the type of reaction, enzyme involved, substrate and
product, if the reaction is reversible or irreversible, any
coenzyme or prosthetic group involved, and location.
Choose one type of glucose sensor (it could be enzyme based,
simple chemical base, or spectrochemical base) and briefly explain
the chemical principles behind the glucose sensor. The description
should be one page (300 words) in length.
Explain the difference between an
experiment for the specificity of
the recombinant-based assay for HCV (Hepatitis C Virus) and an
experiment for the sensitivity of
the recombinant-based assay for HCV.
In addition, what is the significance of having these
two experiments as opposed to only one experiment.
Explain what type of mechanism will be used to transport glucose
from your intestine to your muscles. The relative levels of glucose
are provided below.
a. Intestinal epithelium cell: high glucose to Interstitial
fluid between intestinal cell and blood vessel: very low (blood
vessels have “clefs” that glucose fits through to enter blood by
bulk flow.)
b. Na+ is required for the transport into the intestinal
epithelium cell. Why? How is the level of Na+ kept low in the
intestinal...
A)Draw the mechanism of bromination of cis-2-butene.
B)Explain the stepwise mechanism of the reaction between mercury
(II) acetate to ethylene
C)Explain with suitable examples the concept of E-and
Z- alkenes. Is there any difference between
Cis/Trans with
E/Z ? Justify your answer.
D)Cis-2-Butene has a higher boiling point (4 0C) than
trans-2-butene (1 0C) — Explain.
E)How can you correlate the melting points of oleic acid,
linoleic acid and linolenic acids with their double bonds?