Document (7).pdf - Biochemistry Lab Manual PDF

Summary

This document provides a detailed explanation of different compounds found in urine, details about protein denaturation processes and their related factors like pH changes, temperature, and mechanical agitation, and how to test for the presence of reducing sugars and other substances within urine. The document is intended as a laboratory guide or study material for understanding various biochemical processes, urine analysis procedures, and basic chemical reactions related to biological processes in the context of identifying and measuring the presence of various substances in urine.

Full Transcript

BAPNA (N-Benzoyl-DL-arginine-p-nitroanilide) is a synthetic substrate used to measure
proteolytic enzyme activity. Proteases like trypsin cleave BAPNA, releasing a yellow color
(p-nitroaniline), which indicates enzyme activity. The intensity of the color reflects the level
of proteolysis.

Factors that Denature Proteins (according to the file):

1. Heat: High temperatures disrupt protein structures.

2. pH Changes: Extreme acid or alkaline conditions cause proteins to lose their
natural structure.

3. Alcohol: Can alter protein folding by breaking hydrogen bonds.

4. Heavy Metals: Ions like mercury or lead bind to proteins and disrupt their
structure.

5. Mechanical Agitation: Stirring or shaking can cause proteins to denature.

Whipped Cream After Lipase Hydrolysis (according to the file):

Texture Change: After hydrolysis by lipase, whipped cream becomes watery
due to the breakdown of fats into glycerol and fatty acids.

Release of Fatty Acids (Rancid Taste) (according to the file):

Rancid Taste: The breakdown of triglycerides by lipase releases fatty acids,
which gives the rancid taste observed in the cream due to the incomplete oxidation of fats


Identifications of Compounds Based on Structures:
1. TNP (Tri-nitrophenol):
 Structure: A highly acidic phenol with three nitro groups attached to the
benzene ring.

Identification: TNP is used to test for certain compounds, especially in the
presence of reducing agents.

Positive Result: Often identified in chemical reactions involving reducing
sugars or other phenolic compounds.

2. Uric Acid:

Structure: A purine derivative (C5H4N4O3) that crystallizes in the form of
yellowish-brown crystals.

Identification: High levels of uric acid in urine are associated with gout.

Test: Murexide Test results in a bluish-violet color, indicating uric acid or its
derivatives.

3. Creatinine:

Structure: A nitrogenous waste product (C4H7N3O) resulting from muscle
metabolism.

Identification: Creatinine levels in urine can indicate kidney function.

Test: Excreted in a consistent amount by healthy individuals, typically 1.2-1.7
g/h.

4. Indican:

Structure: A product of the breakdown of tryptophan in the intestine, related
to intestinal putrefaction.

Identification: Obermeyer’s Test gives a greenish-blue result indicating
indican’s presence.

1. Abnormal Constituents in Urine:

Abnormal Constituents refer to substances that are not typically present in
healthy urine or are present in abnormal amounts. These include:
Proteins (e.g., albumin, globulin)

Glucose

Ketone bodies
 Blood cells (red or white)

Bacteria

Crystals (e.g., urates, phosphates)

2. Pathological Constituents (to memorize):

Proteins: Presence of proteins (proteinuria) suggests kidney damage, such as
in nephritis or kidney failure.

Glucose: Presence of glucose (glycosuria) is often linked to diabetes mellitus
or excessive carbohydrate intake.

Ketone Bodies: These are produced during fat metabolism, typically seen in
diabetes, starvation, or increased fat oxidation.

Bence-Jones Proteins: Indicative of multiple myeloma or other blood plasma
disorders. These proteins precipitate at low temperatures and dissolve at higher
temperatures.

3. Indicators of Liver Problems:

Bilirubin: A breakdown product of hemoglobin, elevated levels in urine may
indicate liver disease (e.g., jaundice).

Urobilinogen: A decrease or increase in urobilinogen in urine can indicate
liver dysfunction or hemolytic disease.

4. Key Indicators for Diabetes:

Bence-Jones Proteins: May be present in urine, signaling possible multiple
myeloma.

Ketone Bodies: These indicate ketoacidosis, a severe condition of
uncontrolled diabetes mellitus.
 Urea: Urea is a nitrogenous waste produced from protein metabolism and is
excreted in urine. Its structure is:

Formula: CO(NH₂)₂

Structure: A carbonyl group (C=O) attached to two amine groups (NH₂).

5. Interpretation of Test Results:

Dipstick Test: Commonly used to test for:

pH (range: 4.5 to 8.2)

Glucose (positive result: indicates diabetes or high sugar intake)

Proteins (positive result: suggests kidney damage)

Ketones (positive result: indicates diabetes, starvation, or other metabolic
disturbances)

Microscopic Examination: Used to identify cells, bacteria, and crystals in
urine, which can help diagnose conditions like urinary tract infections (UTIs) or kidney
stones.

6. Situational Problems:

In situational problems, interpret abnormal test results based on known
conditions:

Example: If a patient shows high glucose and high ketones in their urine, this
could suggest diabetic ketoacidosis.

Example: Proteinuria in a patient with high blood pressure could suggest
kidney damage or nephropathy.

Biuret Test: For proteins, indicating kidney issues.

Benedict’s Test: For glucose, indicating diabetes.
 Acetone Test (Legal’s Test): For ketone bodies, indicating fat breakdown in
diabetes or starvation.

Fehling’s Test: For reducing sugars (like maltose).

Nitric Acid Test: For protein, used to detect kidney issues or albuminuria.