Wk 10- Introduction to Biochemistry and Clinical Biochemistry

Amino acids

Polysaccharides

monosaccharides

glucose

nucleotides

glucose

Fatty acids and glycerol

Fatty acids and omega 3

20

6

Side (R) groups

Proteins

R group differentiates amino group. L and D stereoisomers determine chiralty

R group differentiates lipid group. L and R stereoisomers determine chiralty

The property of having a 'left' and 'right' form of a molecule/compound. They cannot be superimposed on each other as they are not 'identical'

The property of having completely identical forms of a molecule/compound. They can be superimposed on each other as they are 'identical'

The L in front of an amino acid is a shortened scientific notation for “levorotatory', the D means 'dextrorotatory'. The terms dextrorotatory and levorotatory refer to an optical property that can be observed and measured in a laboratory, by shining a beam of polarized light through a medium containing the substance.

The L in front of an amino acid is a shortened scientific notation for “levorous', the D means 'dextrous'. The terms dextrous and levorous refer to an optical property that can be observed and measured in a laboratory, by shining a beam of polarized light through a medium containing the substance.

less than 50 amino acids in the linear sequence

more than 50 amino acids in the linear sequence

Amino acids are a source of energy, they contribute about 10-15% of metabolic energy and are precursors to other important biomolecules

Although Amino acids are not a source of energy, they contribute about 5-10% of cattabolic energy and occasionally are precursors to other important biomolecules

Blood glucose test

Glycosuria test

D-Glucose, D-Fructose, D-Ribose

D-Glucose, D-Fructose, D-Lactose

a more concentrated solution absorbs more light than a more dilute solution does.

a more diluted solution absorbs more light than a more concentrated solution does.

states that absorbance of a material sample is directly proportional to its thickness

states that absorbance of a material sample is irregardless of its thickness

As the light passes through a solution, the intensity of light transmitted decrease, exponentially with increasing path length (lamberts law) and with increasing concentration of the absorbing substance (Beers law)

As the light passes through a solution, the intensity of light transmitted decrease, exponentially with increasing path length (lamberts law) and with decreasing concentration of the absorbing substance (Beers law)

Because individual monomers (fatty acids) are not covalently bound to each other in a macromolecular structure

individual monomers (fatty acids) are not ionic compounds to each other in a macromolecular structure

Yes - because of stereoisomers

No - because there is no such thing

Transmittance - The difference between the intensity of the incident light beam Io and the intensity of the light transmitted by the solution It

Absorbance - The difference between the intensity of the incident light beam Io and the intensity of the light transmitted by the solution It

alpha (α) carbon, carboxyl group, amino group, ‘R’ group

alpha (α) hydrogen, carboxyl group, amino group, ‘R’ group

high blood sugar levels over a prolonged period.

low blood sugar levels over a prolonged period.

The amount of light absorbed by the material used depending on thickness

The amount of light unabsorbed by the material used depending on thickness

Because different compounds absorb light at different wavelengths, a spectrophotometer can be used to distinguish compounds by analyzing the pattern of wavelengths absorbed by a given sample.

Because some compounds do not absorb light at different wavelengths, therefore a spectrophotometer can not be used to distinguish compounds by analyzing the pattern of wavelengths absorbed by a given sample.

Final folded form of the protein.

α-helix, β-sheet and Turns

Linear sequence of amino acids.

Folds, Helices and Strands

Secondary protein structure is the general 3-dimensional form of local segments of a protein. The most common secondary structures are alpha helices and beta-pleated sheets.

This process happens in the nucleus. In the cytoplasm, ribosomes will interact with the transcript and create a protein (polypeptide) from individual amino acids.

The general 3-dimensional form of local segments of a protein. The most common structures are alpha helices and beta-pleated sheets.

Tertiary structures involve packaging and folding the secondary structures into compact globular regions called protein domains.

Protein quaternary structure is the number and arrangement of multiple folded protein subunits in a multi-subunit complex.

Amino acids form structures such as alpha helices, beta sheets, and random coils, which in turn fold on themselves