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Title: Vitamins, Minerals, Antioxidants, Phytonutrients, Functional Foods


1
Vitamins, Minerals, Antioxidants,
Phytonutrients,Functional Foods
By Melissa Bess, Nutrition and Health Education
Specialist
FNEP STAFF TRAINING ONLY, DO NOT USE WITH FNEP
PARTICIPANTS
05/2007
2
Overview
  • What are vitamins?
  • Categories of vitamins
  • Functions
  • Food sources
  • Deficiencies
  • What are minerals?
  • Categories of minerals
  • Antioxidants

3
Overview (continued)
  • Phytonutrients
  • Functional Foods
  • Food Labels
  • Activity

4
What are vitamins?
  • Complex substances that regulate body processes
  • Coenzymes (partners) with enzymes in reactions
  • No calories, thus no energy

5
Categories
Fat-soluble Dissolve in fat Can be stored Water-soluble Dissolve in water Carried in bloodstream, not stored
A, D, E, K C and B-complex vitamins
A and D excess can be harmful E and K usually not Excess amounts may cause extra work on kidneys
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Vitamin A (and carotenoids)
  • Functions
  • Normal vision
  • Protects from infections
  • Regulates immune system
  • Antioxidant (carotenoids)
  • Food sources
  • Liver
  • Fish oil
  • Eggs
  • Fortified milk or other foods
  • Red, yellow, orange, and dark green veggies
    (carotenoids)

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Recommended dietary allowance
  • The RDA of vitamin A for adults is around 1000
    retinol equivalents (3500 IU) for man and around
    800 retinol equivalents (2500) for woman.
  • One international unit (IU) equals to 0.3 mg of
    retinol.
  • The requirements increases in growing childern,
    pregnant woman and lactating mothers.

11
Vitamin A deficiency
  • The deficiency manifestations are related to the
    eyes, skin and growth.
  • Deficiency manifestation of the eyes night
    blindness (nyctalopia), is one of the earliest
    symptoms of vitamin A deficiency. Difficult to
    see in dim light- as dark adaptation time is
    increased. Prolonged deficiency irreversibly
    damages a number of visual cells.

12
  • Severe deficiency of vitamin A leads to
    xeropthalmia. This is characterized by dryness in
    conjuctiva and cornea, keratinization of
    epithelial cells.
  • If xeropthalmia persists for a long time,
    corneal ulceration and degeneration occur. This
    results in the destruction of cornea, a condition
    referred to as keratomalacia, causing total
    blindness.

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  • Effect on Growth
  • Vitamin A deficiency results in growth
    retardation due to imperiment in skeletal
    formation.
  • Effect on Reproduction
  • The reproductive system is adversely affected in
    Vitamin A deficiency. Degeneration of germinal
    epithelium leads to sterility in males.
  • Effect on Skin and epitelial cells
  • The skins becomes rough and dry. Keratiniza

15
  • Of epithelial cells of gastrointestinal tract,
    urinary tract and respiratory tract is noticed.
    This leads to increased bacterial infection.
    Vitamin A deficiency is associated with formation
    of urinary stones. The plasma level of retinol
    binding protein is decreased in Vitamin A
    deficiency .

16
Hypervitaminosis A
  • Excessive consumption of vitamin A leads to
    toxicity.
  • The symptoms of hypervitaminosis A include
    dermatitis (drying and redness of skin),
    enlargement of liver, skeletal decalcification,
    tenderness of long bones, loss of weight,
    irritability, loss of hair, joint pains etc.

17
Vitamin D (the sunshine vitamin)
  • Functions
  • Promotes absorption of calcium and phosphorus
  • Helps deposit those in bones/teeth
  • Regulates cell growth
  • Plays role in immunity
  • Sources
  • Sunlight (10 15 mins 2x a week)
  • Salmon with bones
  • Milk
  • Orange juice (fortified)
  • Fortified cereals

18
Chemistry
  • Ergocalciferol (vitamin D2) is formed from
    ergosterol and is present on plants.
  • Cholecalciferol (vitamin D3) is found in
    animals. Both the sterol are similar in structure
    except that ergocalciferol has an additional
    methyl group and a double bond.
  • Ergocalciferol and cholecalciferol are

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Biochemical functions
  • Calcitriol (1, 25- DHCC) is the biologically
    active form of vitamin D.
  • It regulates the plasma level of calcium and
    phosphate.
  • Calcitriol acts at 3 different levels (intestine,
    kidney and bone) to amintain plasma calcium level
    ( normal 9-11 mg/dl)

21
  • Action of calcitriol on the intestine calcitriol
    increases the intestinal absorption of calcium
    and phosphate.
  • Action of calcitriol on the bone
  • Calcitriol stimulates the calcium uptake for
    deposition as calcium phosphate. Calcitriol is
    essential for bone formation.
  • Action of calcitriol on the kidney
  • Calcitriol is also involved in mininmizing the
    excretion of calcium and phosphate through the
    kidney by decreasing their excretion and
    enhancing reabsorption.

22
Vitamin D is a hormone not a vitamin- a
justification.
  • Calcitriol is now considered as an important
    calcitropic hormone, while cholecalciferol is the
    prphormone.
  • Cholecalciferol (vitamin D3) is synthesized in
    the skin by ultra violet rays of sunlight.
  • The biologically active form of vitamin D,
    calcitriol is produced in the kidney.
  • Calcitriol has target organs- intestine bone and
    kidney, where it specifically acts.

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  • Calcitrol action action is similar to steroid
    hormobnes.
  • Actinomycin D inhibits the action of calcitriol .
    This support the view that calcitriol excerts its
    effect on DNA leadind to the synthesis of RNA
    (transcription).
  • Cacitriol synthesis is self regulated by a
    feedback mechanism i.e., calcitriol decreases its
    own synthesis.

25
Recommended dietary Allowance
  • The daily requirements of vitamin D is 400
    international units or 10 mg of cholecalciferol.

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Deficiency symptoms
  • Insufficient exposure to sunlight and consumption
    of diet lacking vitamin D results in its
    deficiency.
  • Deficiency of vitamin D causes rickets in
    childern and osteomalacia in adults.
  • Vitamin d is often called as antirachitic
    vitamin.
  • In rickets plasma calcitriol level is decreased
    and alkaline phosphatase activity is elevated.

28
Renal rickets
  • This seen in patients with chronic renal failure.
  • Renal rickets is mainly due to decreased
    synthesis of calcitriol in kidney.
  • It can be treated by the administration of
    calcitriol.

29
Hypervitaminosis
  • Vitamin D is stored mostly in liver and slowly
    metabolized.
  • Vitamin D is the most toxic in overdoses.
  • Toxic effects- demineralization of bone
    (resorption) and increased calcium absorption
    from the intestine, hypercalcemia, loss of
    appetite, nausea, increased thirst, loss of
    weight.

30
Vitamin E
  • Functions
  • Antioxidant, may lower risk for heart disease and
    stroke, some types of cancers
  • Protects fatty acids and vitamin A
  • Sources
  • Vegetable oils
  • Foods made from oil (salad dressing, margarine)
  • Nuts
  • Seeds
  • Wheat germ
  • Green, leafy veggies

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  • Absorption , transport and storage
  • Vitamin E is absorbed along with fat in the small
    intestine. Bile salts are necessary for the
    absorption. In the liver, it is incorporated into
    lipoproteins (VLDL and LDL) and transported.
    Vitamin E is stored in adipose tissue, liver and
    muscle. The normal plasma level of tocopherol in
    less than 1 mg/dl.
  • Biochemical Functions
  • Most of the functions of vitamin E are related to
    its antioxidant property.

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  • It prevents the non-enzymatic oxidations of
    various cell components (e.g unsaturated fatty
    acids) by molecular oxygen and free radicals
    such as superoxide (O2) and hydrogen peroxide (H2
    O2). The element selenium helps in these
    function.
  • Vitamin E is lipohilic in character and is found
    in association with lipoproteins , fat deposits
    and cellular membranes. It protects the per
    oxidation reactions.

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  • Vitamin E acts as a scavenger and gets itself
    oxidized (to quinone form) by free radicals (r)
    and spares PUFA.
  • FUNCTIONS
  • Vitamin E is essential for the membrane structure
    and integrity of the cell, hence it is regarded
    as a membrane antioxidant.
  • It prevents the peroxidation of poly-unsaturated
    fatty acids in various tissues and membranes.It
    protects RBC from hemolysis by oxidizing agent
    (e.g H2O2).

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  1. It is closely associated with reproductive
    functions and prevents sterility. Vitamin E
    preserves and maintains germinal epithelium of
    gonads for proper reproductive function.
  2. It increases the synthesis of heme by enhancing
    the activity of enzymes aninolevulinic acid (ALA)
    synthase and ALA dehydratase.
  3. It is required for cellular respiration through
    electron transport chain (believed to stabilize
    coenzyme Q).

36
  1. Vitamin E prevents the oxidation of vitamin A and
    carotenes.
  2. It is required for proper storage of creatine in
    skeletal muscle.
  3. Vitamin E is needed for optimal absorption of
    amino acids from the intestine.
  4. It is involved in proper synthesis of nucleic
    acids.
  5. Vitamin E protects liver from being damaged by
    toxic compounds such as carbon tetrachloride.

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  • It works in association with vitamin A , C and B
    carotene, to delay the onset of cataract.
  • Vitamin E has been recommended for the prevention
    of chronic diseases such as cancer and heart
    diseases.

38
Vitamin K
  • Functions
  • Helps blood clot
  • Helps body make some other proteins
  • Sources
  • Body can produce on its own (from bacteria in
    intestines)
  • Green, leafy veggies
  • Some fruits, other veggies, and nuts

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  • VITAMIN K
  • Vitamin K is the only fat soluble vitamin with a
    specific coezyme function. It is required for the
    production of blood clotting factors, essential
    for coagulation (in German Koagulation hence
    the name k for this vitamin.
  • CHEMISTRY
  • Vitamin K exists in different forms vitamin K1
    (Phylloquinone) is present in plants. Vitamin K2
    (menaqquinone) is produced by the

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  • Intestinal bacteria and also found in animals.
    Vitamin K3 (menadione) is synthetic form.
  • All the three vitamin (k1,k2,k3) are
    naphthoquinone derivatives. Isoprenoid side chain
    is present in vitamins K1 and k2. The three
    vitamins are stable to heat. Their activity is,
    however, lost by oxidizing agents, irradiation,
    strong acids and alkalies.
  • Absorption , transport and storage
  • Vitamin k is taken in the diet or synthesized by
    the intestinal bacteria. Its absorption takes
    place along with fat (chylomicrons) and is
    dependent on bile

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  • Salt. Vitamin K is transported along with LDL and
    is stored mainly in liver and , to a lesser
    extent, in other tissues.
  • Biochemical functions
  • The functions of vitamin K are concerned with
    blood clotting process. It brings about the
    post-translational (after protein biosynthesis in
    the cell) modification of certain blood clotting
    factors. The clotting factors II (prothrombin)
    VII IX and X are synthesized as inactive
    precursors (zymogens) in the liver. Vitamin K act
    as a

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  • Coenzyme for the carboxylation of glutamic acid
    residues present in the proteins and this
    reaction is catalysed by a carboxylase
    (microsomal). It involves the conversion of
    glutamate (Glu) to carboxyglutamate is inhibited
    by dicumarol, an anticoagulant found in spoilt
    sweet clover. Warfarin is a synthetic analogue
    that can inhibit vitamin K action.

44
  • Recommended dietary allowance (RDA)
  • Strictly speaking there is no RDA for vitamin K,
    since it can be adequately synthesized in the
    gut. It is however , recommended that half of the
    body requirement is provided in the diet, while
    the other half is met from the bacterial
    synthesis. Accordingly , the suggested RDA for an
    adult is 70-140 µg/day.
  • Dietary Sources
  • Cabbage, cauliflower , tomatoes ,

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  • Spinach and other green vegetables are good
    sources. It also present in egg yolk, meat,
    liver, cheese and dairy products.
  • Deficiency symptoms
  • The deficiency of vitamin K is uncommon , since
    it is present in the diet in sufficient quantity
    and is adequately synthesized by the intestinal
    bacteria. However , vitamin K deficiency may
    occur due to its faulty absorption (lack of bile
    salts) loss of vitamin into feces (diarrheal
    diseases ) and

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  • Administration of antibiotics (killing of
    intestinal flora).
  • Deficiency of vitamin k leads to the lack of
    active prothrombin in the circulation. The result
    is that blood coagulation is adversely affected.
    The individual bleeds profusely even for minor
    injuries .The blood clotting time is increased.
  • Hypervitaminsis K
  • Administration of large doses of vitamin K
    produces hemolytic anaemia and jaundice,

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  • Particularly in infants. The toxic effect is due
    to increased breakdown of RBC.
  • Antagonists of vitamin k
  • The compounds namely heparin, bishydroxycoumarin
    act as anticoagulants and are anatagonists to
    vitamin k. The salicylates and dicumarol are also
    anatagonists to vitamin K.
  • Dicumarol is structurally related to vitamin k
    and acts as a competitive inhibitor in the
    synthesis of active prothrombin.

48
Thiamin (B1)
  • Functions
  • Helps produce energy from carbs
  • Sources
  • Whole-grain and enriched grain products
  • Pork
  • Liver

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Role in Pathways
Glycogenolysis
PP a vit B6
Glycolysis
PPP
TK vit B1
ALT vit B6
PDH vit B1,B2,B3
AST vit B6
vit B6
aKGDH vit B1,B2,B3
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  • Recommended diatary allowance (RDA)
  • The daily requirement of thiamine depends on the
    intake of carbohydrate. A dietary supply of 1-1.5
    mg/day is recommended for adults (about 0.5
    mg/1000 cals of energy). For children RDA is
    0.7-1.2 mg/day. The requirement marginally
    increases in pregnancy an location (2 mg/day) old
    range and alcoholism.
  • Dietary Sources
  • Cereals, pulses, oil seed, nuts and yeast are
    good sources. Thiamine is mostly concentrated in
    the outer layer (bran) of

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  • Cereals. Polishing of rice removes about 80 of
    thiamine. Vitamin B1 is also present in animal
    food like pork, liver, heart, kidney, milk etc.
    In the parboiled (boiling of paddy with husk) and
    milled rice, thiamine is not lost in polishing ,
    since thiamine is a water soluble vitamin, It is
    extracted into the water during cooking process.
    Such water should not be discarded.

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  • Deficiency symptoms
  • The deficiency of vitamin B1 results in a
    condition called beri-beri sinhalese1 cannot
    said twice. Beri beri is mostly seen in
    populations consuming exclusively polished rice
    as staple food. The early symptoms of thiamine
    deficiency are loss of appetite (anorexia)
    weekness, constipation , nausea, mental
    depression, Peripheral neuropathy irritability
    etc. Numbness in the legs complaints of pins and
    needles sensation are reported.

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Riboflavin (B2)
  • Functions
  • Produce energy
  • Changes tryptophan (amino acid) into niacin
  • Sources
  • Liver
  • Yogurt and milk
  • Enriched grains
  • Eggs
  • Green, leafy veggies

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  • Recommended dietary allowance (RDA)
  • The daily requirement of riboflavin for an adult
    is 1.2-1.7 mg. Higher intakes (by 0.2-0.5 mg/day)
    are advised for pregnant and lactating women.
  • Dietary sources
  • Milk and milk products, meat, eggs, liver ,
    kidney are rich sources. Cereals , fruit,
    vegetables and fish are moderate sources.

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  • Deficiency symptoms
  • Riboflavin deficiency symptoms include cheilosis
    (fissures at the corners of the mouth), glossitis
    (tongue smooth and purplish) and
    dermatitis.Riboflavin deficiency as such is
    uncommon. It is mostly seen along with other
    vitamin deficiences. Chronic alcoholics are
    suscepitible to B2 deficiency. Assay of the
    enzymes glutathione reductase in erythrocytes
    will be useful in assessing
  • Riboflavin deficiency.

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Niacin
  • Functions
  • Helps body use sugars/fatty acids
  • Helps enzymes function normally
  • Produces energy
  • Sources
  • Foods high in protein typically (poultry, fish,
    beef, peanut butter, legumes)
  • Enriched and fortified grains

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  • Recommended dietary allowance (RDA)
  • The daily requirement of niacin for an adult is
    15-20 mg and for children around 10-15 mg . Very
    often the term niacin equivalents (NE) is used
    while expressing its RDA. One NE 1 mg niacin or
    60 mg of tryptophan. Pregnancy an lacatation in
    women impose an additional metabolic burden and
    increase the niacin requirement.
  • Dietary Sources
  • The rich natural sources of niacin include

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  • Liver, yeast, whole grains, cereals, pulses like
    beans and peanuts. Milk, fish, egg and vegetables
    are moderate sources. The essential amino acid
    typtophan can serve as a precursor for the
    synthesis of nicotinamide coenzymes. Tryptophan
    has many other essential and important function
    in the body , hence dietary tryptophan cannot
    totally replace niacin.
  • Deficiency symptoms
  • Niacin deficiency results in a condition

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  • Called pellagra (Italian rough skin). This
    disease involves skin , gastrointestinal tract
    and central nervous system. The symtoms of
    pellagra are commonly referred to a three Ds. The
    disease also progresses in that order dermatitis,
    diarrhea, dementia, and if not treated may rarely
    lead to death .
  • Dermatitis (inflammation of skin) is usually
    found in the areas of the skin exposed to
    sunlight (neck , dorsal part of feet, ankle

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Pyridoxine (B6)
  • Functions
  • Helps body make non-essential amino acids
  • Helps turn tryptophan into niacin and serotonin
  • Help produce body chemicals (insulin, hemoglobin,
    etc)
  • Sources
  • Chicken
  • Fish
  • Pork
  • Liver
  • Whole grains
  • Nuts
  • Legumes

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Neurotransmitter Overview
Glutamate
g-Aminobutyrate
Tyrosine
Tryptophan
Serotonin
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Neurotransmitter Pathway
Catecholamines
Dopamine
Tyrosine
DOPA
Norepinephrine
Serotonin (5-HT)
Tryptophan
5HTP
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Recommended dietary allowance
  • The requirement of pyridoxine for an adult is 2-
    2.2mg/day.
  • During lactation, pregnancy and old age, an
    intake of 2.5mg/dl is recommended.

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Deficiency symptoms
  • Pyridoxine deficiency is associated with
    neurological symtoms such as depression,
    irritability, nervousness and mental confusion.
    Convulsions and peripheral neuropathy are
    observed in severe deficiency. These symptoms are
    related to the decreased synthesis of biogenic
    amines (serotonin, GABA, norepinephrine and
    epinephrine). In children B6 deficiency with

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  • A drastically reduced GABA production results in
    convulsions (epilepsy).
  • Decrease in hemoglobin levels, associated with
    hypochromic microcytic anamia, is seen in B6
    deficiency. This is due to a reduction in hemo
    production.

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Folate (folic acid)
  • Functions
  • Produces DNA and RNA, making new body cells
  • Works with vitamin B12 to form hemoglobin
  • May protect against heart disease
  • Lowers risk of neural tube defects in babies
  • Controls plasma homocystine levels (related to
    heart disease)
  • Sources
  • Fortified and enriched grains and breakfast
    cereals
  • Orange juice
  • Legumes
  • Green, leafy veggies
  • Peanuts
  • Avacados

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Tetrahydrofolate Conversions
Folate
DHF
THF
Most oxidized
Most reduced
68
Tetrahydrofolate examples
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  • Recommended dietary allowance (RDA)
  • The daily requirement of folic acid is around 200
    µg. In the women, higher intakes are recommended
    during pregnancy (400 µg / day) and loctation
    (300 µg/day).
  • Dietary sources
  • Folic acid is widely distributed in nature. The
    rich sources are green leafy vegetables, whole
    grains, cereals, liver , kidney, yeast and eggs.
    Milk is rather a poor source of folic acid.

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  • Deficiency symptoms
  • Folic acid deficiency is probably the most common
    vitamin deficiency, observed primarily in the
    pregnant women, in both developed (including USA)
    and developing countries (including india). The
    pregnant women, lactating women, women on oral
    contraceptives, and alcoholics are also
    susceptible to folate deficiency. The folic acid
    deficiency may be due to (one or more causes)
    inadequate dietary intake, defective

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  • Use of anticonvulsant drugs (phenobarbitone,
    dilantin , phenyltoin), and increased demand.
  • The microcytic anemia (abnormally large RBC)
    associated with megaloblastic changes in bone
    marrow is a characteristic feature of folate
    deficiency.
  • Folic acid and hyperhomocysteinemia
  • Elevated plasma levels of homocysteine are
    associated with increased risk of
    atherosclerosis, thrombosis and hypertension.
    Hyperhomocysteinemia is mostly due to functional
    folate deficiency caused by impairment to form

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  • Methyl-tetrahydrofolate reductase. This results
    in a failure to convert homocysteine to
    methionine. Folic acid supplementation reduces
    hyperhomocysteinemia, and thereby the risk for
    various health complications.
  • Folic Acid antagonists
  • Aminopterin and amethopterin (also called as
    methotrexate) are structural analogues of folic
    acid. They competitively inhibit dihydrofolate
    reductase and block the

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Vitamin B12 (cobalamin)
  • Functions
  • Works with folate to make RBCs
  • In many body chemicals and cells
  • Helps body use fatty acids/amino acids
  • Sources
  • Animal products
  • Meat
  • Fish
  • Poultry
  • Eggs
  • Milk, other dairy

74
B12 Pathways
L-MMCoA
SCoA
Methyl transfers (1C metabolism)
Met
S-AdMet
ATP
S-AdHC
HC
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Biotin
  • Functions
  • Produces energy
  • Helps body use proteins, carbs, and fats from
    foods
  • Sources
  • Wide variety of foods
  • Eggs
  • Liver
  • Wheat germ
  • Peanuts
  • Cottage cheese
  • Whole grain bread

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  • Recommended dietary allowance (RDA)
  • A daily intake of about 100-300 mg is recommended
    for adults. In fact, biotin is normally
    synthesized by the intestinal bacteria. However ,
    to what extent the synthesized biotin contributes
    to the body requirements is not clearly known.
  • Dietary Sources
  • Biotin is widely distributed in both animal and
    plant foods. The rich sources are liver , kidney
    , egg yolk, milk, tomatoes grain etc.

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  • Deficiency symptoms
  • The symptoms of biotin deficiency include anemia
    , loss of appetite, nausea, dermatitis, glossitis
    etc. Biotin deficiency may also result in
    depression , hallucinations, muscle pain and
    dermatitis.

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Pantothenic Acid
  • Helps produce energy
  • Helps the body use proteins, fat, and carbs from
    food
  • Sources
  • Found in almost all foods
  • Meat, poultry, fish
  • Whole grain cereals
  • Legumes
  • Milk
  • Fruits, veggies

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  • Recommended dietary allowance (RDA)
  • The requirement of pantothenic acid for humans is
    not clearly known. A daily intake of about 5-10
    mg is advised for adults.
  • Dietary sources
  • Pantothenic acid is one of the most widely
    distributed vitamins found in plant and animals.
    The rich sources are egg, liver , meat , yeast ,
    milk etc.

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Vitamin C
  • Functions
  • Helps produce collagen (connective tissue in
    bones, muscles, etc)
  • Keeps capillary walls, blood vessels firm
  • Helps body absorb iron and folate
  • Healthy gums
  • Heals cuts and wounds
  • Protects from infection, boosts immunity
  • Antioxidant
  • Sources
  • Citrus fruits
  • Other fruits, veggies

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Biochemical functions
  • Most of the function of vitamin C are related to
    its property to undergoes reversible oxidation
    reduction.
  • Collagen formation vitamin C plays the role of a
    coenzyme in hydroxylation of proline and lysine
    while protocollagen is converted to collagen. In
    this way, Vitamin C is necessary for maintenance
    of normal connective tissue and wound healing
    process.

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  • Bone formation vitamin C is required for bone
    formation.
  • Iron and hemoglobin metabolism Ascorbic acid
    enhances iron absorption by keeping it in the
    ferrous form. This is due to reducing property of
    Vitamin C. it help in the formation of ferritin
    (storage form of iron) and metaboilzation of iron
    from ferritin. Vitamin C is useful in the
    reconversion of methemoglobin to hemoglogin. The
    degradation of hemoglobin to bile pigments
    requires ascorbic acid.

84
  • Tryptophan metabolism vitamin C is essential for
    the the hydroxylation of tryptophan to
    hydroxytryptophan in the the synthesis of
    serotonin.
  • Tyrosine metabolism ascorbic acid is required
    for the oxidation of p-hydroxyphenylpyruvate to
    homogentisic acid in tyrosine metabolism.
  • Folic acid metabolism Ascorbic acid is involve
    in the formation of the active form of folic
    acids. Also involved in maturation of
    erythrocytes.

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  • Peptide hormone synthesis many peptide hormone
    synthesis require vitamin C.
  • Synthesis of corticosteroid hormones vitamin C
    is necessay for the hydroxylation reactions in
    the synthesis of corticosteroid hormones.
  • Sparing action of other vitamins asorbic acid is
    a strong antioxidant. It spares vitamin A,
    vitamin E and some B-complex vitamins from
    oxidation.

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  • Immunological function vitamin C enhances the
    synthesis of immunoglobulins (antibodies) and
    increses the phagocytic action of leucocytes.
  • Prevention action on cataract vitamin C reduces
    the risk of cataract formation.
  • Preventive action on chronic diseases as an
    antioxidant, vitamin C reduces the risk of
    cancer, cataract, and coronary heart diseases.

87
Recommended dietary allowance.
  • About 60 to 70 mg vitamin C intake per day will
    meet the adult requirement. Additional intakes
    (20-40) are recommended for women during
    pregnancy and lactation.

88
Dietary sources
  • Citrus fruits, gooseberry, guava, green
    vegetables (cabbage, spinach) tomatoes, potatoes
    (particularly skin) are rich in ascorbic acid.
  • Milk is poor source of vitamin C.

89
Deficiency symptoms
  • The deficiency of ascorbic acid result in the
    Scurvy. This disease is characterized by spongy
    and sore gums, loose teeth, anemia, swollen
    joints, fragile blood vessels, decreased
    immunocompetence, delayed wound healing, sluggish
    hormonal function of adrenal cortex and gonads,
    haemorrage, osteoporosis etc.

90
What are minerals?
  • Regulate body processes
  • Give structure to things in the body
  • No calories (energy)
  • Cannot be destroyed by heat

91
Categories of minerals
  • Major minerals
  • Calcium
  • Phosphorus
  • Magnesium
  • Electrolytes (sodium, chloride, potassium)
  • Trace minerals
  • Chromium
  • Copper
  • Flouride
  • Iodine
  • Iron
  • Manganese
  • Selenium
  • Zinc

92
Calcium
  • Bone building
  • Muscle contraction
  • Heart rate
  • Nerve function
  • Helps blood clot

93
Phosphorus
  • Generates energy
  • Regulate energy metabolism
  • Component of bones, teeth
  • Part of DNA, RNA (cell growth, repair)
  • Almost all foods, especially protein-rich foods,
    contain phosphorus

94
Magnesium
  • Part of 300 enzymes (regulates body functions)
  • Maintains cells in nerves, muscles
  • Component of bones
  • Best sources are legumes, nuts, and whole grains

95
Electrolytes
  • Chloride
  • Fluid balance
  • Digestion of food, transmits nerve impulses
  • Potassium
  • Maintains blood pressure
  • Nerve impulses and muscle contraction
  • Sodium
  • Fluid balance
  • Muscles relax, transmit nerve impulses
  • Regulates blood pressure

96
Electrolytes
  • Sources
  • Salt (sodium chloride)
  • Fruits, veggies, milk, beans, fish, chicken, nuts
    (potassium)

97
Iron
  • Part of hemoglobin, carries oxygen
  • Brain development
  • Healthy immune system
  • Sources
  • Animals (heme) vs. plants (non-heme)
  • Better absorbed from heme
  • Consume vitamin C with non-heme
  • Fortified cereals, beans, eggs, etc.
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