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METABOLISM
AND FACTORS AFFECTING METABOLIC RATE
CONCEPT OF
METABOLISM- Metabolism is a term that is used to describe all chemical
reactions involved in maintaining the living state of the cells and organism.
It is
commonly used to specifically to the breakdown
of food and its transportation into energy. Metabolism can be conveniently be divided into categories,
which are;
(1)
Catabolism
– The breakdown of molecules to obtain
energy.
(2)
Anabolism
– The synthesis of all compound needed by the cells.
Metabolism is closely
linked to nutrition and the availability of nutrient.
NUTRITION , METABOLISM AND ENERGY
Nutrition is the key to metabolism.
The pathway of metabolism rely upon nutrients that they breakdown in order to produce energy. This energy in turn is
required by the body to synthesize new protein, nucleic acids ( DNA AND RNA )
e.t.c
Essential nutrient supply energy and supply the necessary
chemicals which the body itself cannot synthesize. The diet need essential
nutrient like carbon, hydrogen, oxygen, nitrogen, phosphorus, sulfur, and
around 20 other inorganic element. The major elements are supplied in
carbohydrates, lipids and protein. In addition, vitamins, minerals and water
are necessary.
CARBOHDRATES IN METABOLISM
Foods supply carbohydrates in three forms;
sugar, starch and cellulose ( fibres ). Starches and sugar form major and
essential source energy for humans. Fibres contribute to bulk in diet. Body
tissues depend on glucose for all activities, carbohydrate and sugar yield
glucose by digestion or metabolism.
PROTEIN METABOLISM
Protein are the main tissue builders
in the body. They are part of every cell the body. It help in cell structure,
fuctions, haemoglobin formation to carry oxygen, enzymes to carry out vital
reactions and a myriad of other functions in the body. Proteins are vital in
supplying nitrogen for dna and rna genetic material and energy production.
Proteins are necessary for nutrition
because they contain amino acid, the human body is unable to synthesize and
these are called essential amino acids. The essential amino acids include;
(i)
Lysine
(ii)
Tryptophan
(iii) Methionine
(iv) Leucine
(v)
Isoleucine
(vi) Isoleucine
(vii) Phenylalanine
(viii)
Valine
(ix) Threonine
FATS IN METABOLISM
Fats are concentrated sources of
energy. They produce twice as much energy as either carbohydrates of protein on
a weight basis. The function of fats include;
(i)
Providing
a reserve storage for energy.
(ii)
Helpd
to absorb fat soluble vitamins
(iii) Helping to form the cellular
structure
(iv) Forming a protective cushion and
insulation around vital organs.
Essential fatty acid include
unsaturated fatty acid like linole, linolinic
and arachidonic acids. These need to be taken in our diet. Saturated
fats along with cholesterol have been implicated in arteriosclerosis and heart
disease.
MINERALS AND VITAMINS IN METABOLISM
The minerals in foods do not
contribute directy to energy but are important as body regulators and play a
role in metabolic pathway of the body . important minerals includes calcium,
iron, sodium, potassium, copper, zinc, fluorine, magnesium e.t.c
Vitamins are essential organic
compounds that the human body cannot synthesize by itself and must therefore be
present in the diet.
Vitamins particularly important in
metabolism include; vitamin a, niacin or nicotinic acidl pantothenic acid etc
METABOLISM PATHWAYS
The chemical reactions of metabolism
are organized into metabolic pathways. These allow the basic chemicals from
nutrition to be transformed through a
series of steps into another chemical by a sequence of enzymes.
Enzymes are crucial to metabolism
because they allow organism to derive desirable reaction that require energy.
These reactions also ar coupled with those that release energy. As enzymes act
as catalysts they allow these reaction to proceed quickly and efficiently.
METABOLISM CONTROL
The metabolic pathways are complex
and interdependent with the changing enviroments , the reaction of metabolism
must be finely regulated to maintain a constand set of conditions with cells ,
a condition called homeostasis . control of metabolic pathways also allow
organism to respond to signal interact actively with their environment.
CONCEPT OF CONTROL AND REGULATION
Regulation of metabolic pathways
includes regulation of an enzyme in a pathway by increasing or decreasing its response
to signal. Control involves monitoring the effect that these changes in an
enzymes activity have on the overall rate of the pathway for example, an enzyme
may show large changes in activity being highly regulated but if these changes
have little effect on the flux of a metabolic pathway then this enzyme is not
involved in the control the pathway.
REGULATION OF CARBOHYDRATE METABOLISM
Glucose homeostasis is a complicated
interaction of metabolic pathway. It is vital for living organism. These process
either increase or derease the blood glucose concentration but the work
together in order to maintain an optimal
level. Glucose is derived from carbohydrate taken in the diet. Rising level of
glucose is the blood stimulate the releaseof insulin from the cells of the
islets of Langerhans in the pancreas.
Insulin is the only hormone that
reduces blood glucose levels and it dose
this by activating the glucose transport mechanism and glucose utilizing
metabolic pathway in different tissues of the body. Thus insulin down regulate
glucose forming pathways.
Insulin stimulates;
(i)
Uptake
of glucose by muscle and adipose tissue
(ii)
Glycogenesis
(formation of glycogen from free glucose )
(iii) Protein
Disturbed glucose homostasis is vital
in causation of diseases like diabetes.
LIBERATIONN OF ENERGY THROUGH
INTERNAL RESPIRATION
Liberation of energy through cellular
or internal respiration occurs in two main stages involving series of chemical
reaction and respiratory enzymes.
The first stage of internal
respiration – glycolysis- takes place anaerobically. Glucose molecule is first
phosphorylated by the adition of a phosphate group to become glucose phosphate.
Through series oxidative enzymes, the glucose phosphate is converted to two
molecules of triose sugar, this triose sugar is then converted to pyrvic acid
by the removal of four atoms of hydrogen the co-enzyme called nicotinamide
adenine dinucleotide ( NAD) with the formation of two ATP.
The second stage of internal
respiration takes place aerobically aerobically in the mitochondria, if
sufficient oxygen is available each molecule of pyruvic acid is oxidized to
remove one molecule of carbon dioxide ( decarboxylation ) and two atoms of
hydrogen (dehydrogenation) forming cne molecule of acetic acid, a two carbon
sugar. Carbon dioxide is released.
KREPS’ CIRCLE OR CITRIC ACID CIRCLE
The acetic acid enters into a krebs
(krebs circle) where it is joined to a four carbon acid ( oxaloacetic acid)
present in the mitochondria to form citric acid ( a six carbon acid )
One molecule of carbon atom in the
form of carbon dioxide and one atom of hydrogen is removed by oxidative
decarboxylation and nicotinamide adenine dinucleotide to one molecule of
ketoglutaric acid ( a 5 carbon sugar ). Another molecule of carbon dioxide and
one atom of hydrogen is removed from ketoglutaric acid to per a 4-carbon
succinic acid .One atom of hydrogen is removed from succinic acid to form a
four malic acid. Again another hydrogen atom is removed from malic acid to form
a 4-carbon oxaloactic acid. The oxaloactic acid then combines with the acetic
acid again with the circle is repeated. The hydrogen atom is removed in
successive stages combine with molecular oxygen to form water. The overall
reaction of glycolysis and krebs' cycle gives 38 ATP.
FACTORS AFFECTING
METABOLISM
1. Muscle mass:
the amount of muscle tissue on
one’s body greatly affects the rate of metabolism, the more the muscle tissue a
body possesses the more the energy to
sustain it, resulting in higher metabolic rate and vise versa.
2. Age: as ones ages the body looses muscle and
several hormonal changes in the system leading to low metabolism, during the
early stage of life, there are higher rate of metabolism to ensure growth and
developmet.
3. Gender : the gender of an individual
also determines the rate of metabolism,
males tend to have higher metabolic rate than female individuals.
4. Genetics : genetics of an individual
also determines also determines the rate of metabolic, tabnormal genetic make
up of an individual can make the metabolic of an individual to be too slow or
too fast.
5. Physical activity: physical activity
of an individual affect his/her
metabolic rate. Physical activity increases the rate of metabolism and vise
versa.
6. Health: the health of an individual
determines the metabolic rate of an individual, generally ill health slows down
metabolic rate while good health ensures optimum metabolic rate.
7. Drugs : use of certain drugs affect
the rate of metabolism. The use of caffine and nicotine can increase metabolic
rate, so also do anti-depressant drug decrease metabolic rate.
8. Diet: the type of diet which an
individual takes also affects his/her metabolic rate to a great a extent. Diet
rich in carbohydrate and fat provide material for higher metabolism and vise-
versa.
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