Lecture 2: PharmacoGnosy I PHCG 111 PDF

Summary

This document provides lecture notes on PharmacoGnosy I PHCG 111, focusing on factors affecting plant growth, such as environmental elements (water, light, temperature, altitude), soil composition, and growth regulators like hormones and genetics. It also discusses the collection of crude drugs and the influence of different factors like time of year, time of day and the maturity/age of plant on the drug collection from the plants.

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For First year Pharmacy Students

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 CHAPTER V
Factors affecting plant growth and
production of drugs
A.Environmental factors e.g. water,
light, temperature, altitude---etc.
B. Soil and its contents.
C. Growth regulators: Hormones.
D. Genetics and plant tissue culture
A- ENVIRONMENTAL FACTORS
1- WATER
❑Rain is the only source of sweet water.
❑Water is an important component of the cell, it
constitutes about 90% of the cytoplasm.
❑Water is a vital factor in photosynthesis, all
biological reactions and transformations as a
medium, a catalyst or as end products.
❑It helps absorption of minerals and nutrients
from soil and translocate them from roots and
leaves to other organs.
❑Regulates plant temperature through
transpiration
2- TEMPERATURE:
As the temperature increases the rate of
growth increases until the optimum temperature
is reached, a further increase leads to a
decrease in growth rate. Every plant has three
temperatures: the minimum, optimum and
maximum temperatures.
The minimum temperature is the temperature
below which the plant growth rate is very low or
zero.
The optimum temperature is the temperature at
which the plant growth rate is the highest.
The maximum temperature is the temperature
above which the plant growth rate is very low or
zero.
Growth rate
Optimum
temp.

Minimum Maximum
temp. temp.

temperature
❑In most climates, the day temperature is
higher than the night temperature so
that there is a regular diurnal
temperature cycle.
❑Plant growth is greater in a fluctuating
temperature than in constant one this
fact is called “Thermoperiodicity”. The
plants of temperate regions show typical
thermoperiodic response.
3- ALTITUDE:
❑Temperature falls about 1oC for every 343 feet
of elevation.
❑Coconut palm needs a maritime climate.
❑Sugar cane is a low land plant
❑Tea and coffee require elevation (300-500 ft)
❑Rhubarb and cinchona require elevation
❑In the case of Cinchona succirubra the plants
grow well at low levels but produce practically no
alkaloids.
4. LIGHT
❑Plants vary much in both the amount and
intensity of the light which they require.
❑Light can affect formation of active ingredients.
❑Light is essential for photosynthesis and
formation of chlorophyll.
❑Lack of light may cause morphological
abnormalities.
❑The response of plants to length of day is known
as photoperiodism (the relative length of day
and night)
❑During the summer season, the duration of daily period
of solar illumination is greater than 12 hours, whereas
during the winter, it is shorter than 12 hours.
❑We recognize three broad photoperiodic classes
of plants with respect to their flowering behavior:
Short day plants (winter plants) which flower in short
daily period of illumination.
Long day plants (summer plants) which flower in long
daily period of illumination.
Day neutral plants which flower in short and long
photo-days. (Unaffected by the length of the day)
 B. SOIL AND SOIL CONTENTS
[PLANT NUTRIENTS (MANURES)]
❑Soil is a mosaic of rock particles, plant roots,
microorganisms, decaying organic mater
(humus), water and air.
❑Absolute water capacity (A.W.C) : It is the
amount of water remains in the soil after any
excess water has drained away.
❑Air capacity of a soil is inversely proportional
with the absolute water capacity. Sandy soils are
very permeable (low AWC). On the other hand,
clay soils possess a high power of absorbing water
by capillary conduction, as do fine soils rich in
humus.
❑ According to humus content, the soil is described as
poor (if containing less than 0.5% humus)
intermediate (if containing 0.5 to 1.5 % humus)
rich (if containing 1.5 to 5 % humus).
❑ Humus increases the moisture absorbing power of the
soil.
❑ Soil containing much humus and little lime is acidic,
while those with much lime are alkaline.
(Organic Manures) Humus (Plant nutrient)
❑ Manure is a mixture of organic matter (plant remains
put under animals in the stable, and ultimately mixed
with animal urine and excretions and some of the
stable soil).
❑Humus (Organic Manures) USES:
1. Manures are used as fertilizers
2. It blocks the soil particles together and
improves conditions of growth.
3. Reduces the loss of water capacity of root
zone.
4. Manure is of value as a source of nutrient
elements, especially nitrogen.
❑ The essential elements commonly supplied
by the soil are divided into 4 groups:
1. Main nutrients or Macro-elements:
involving nitrogen (N) phosphorus (P) and
potassium (K).
Commercial fertilizer containing one of these
elements is called a simple fertilizer and if
containing all of them, a complete fertilizer
Nitrogen (N):
▪ Important for chlorophyll and amino acids
formation.
▪ N deficiency leads to “Chlorosis” deficiency of
chlorophyll (yellow colored plant).
Phosphorus (P):
▪ for anabolism and catabolism and formation of
ATP (the store of energy). Its deficiency leads to
reduction of plant size and deep green colour.
Potassium (K):
▪ for plant growth and carbohydrate formation: its
deficiency leads to reduction of carbohydrate
synthesis.
2. Micro-elements:
Involving iron, boron, copper, manganese, zinc,
cobalt, lead and molybdenum. These are needed
within very minute amounts for plant growth. Any
rise in this amount has poisonous effect on plants.
3. Active elements:
involving calcium (Ca), magnesium (Mg) and Sulphur
(S). The little amount of which increases plant
growth, but more than the adequate amount has no
influence on plant growth.
Calcium:
▪ For growth of apical meristems and formation of
flowers.
▪ Deficiency of calcium leads to fail of
development of terminal buds or partial
development with irregular leaf margin.
Magnesium:
▪ formation of chlorophyll (Essential for
photosynthesis) and activation of some enzymes.
▪ Its deficiency causes Chlorosis [deficiency of
chlorophyll (yellow plant)].
Sulphur: essential for cell division (Garlic, some oils)
4. Inactive elements:
Involving sodium, aluminum, silicon, and iodine. They
have negligible effect on plant growth although
some of these elements have special effect on
certain plants.
 C. PLANT GROWTH REGULATORS
Five groups of plant hormones:
▪ Growth stimulators:
1. Auxins
2. Gibberellins
3. Cytokinines.
▪ Growth inhibitors:
4. Abscisic acid
5. Ethylene oxide
They are active in very low concentrations and
regulate:
✓Cell division- Cell differentiation- Cell growth-
Dormancy.
I. Growth stimulators
Auxins:
Natural: β-indole acetic acid (IAA)
Synthetic:
Indole-3-butyric acid (IBA)
Naphthalene-1-acetic acid (NAA)
2,4-dichlorophenoxy acetic acid (2,4-D)
The main practical use of auxins:
▪ In low concentration to accelerate rooting
▪ In higher concentration to act as selective
herbicides
The main effects of auxins on plant growth
are:
1. Stimulate the growth (Cell elongation)
2. Ovary growth
3. Cambial activity
4. Apical dominance
5. Affect formation of secondary metabolites:
❑Gibberillins:
▪ There are about 40 known Gibberillins like GA1,
GA2, GA3…etc.
▪ Gibberillins are synthesized in leaves and stored
in seeds and fruits.
Typical effects of Gibberillins are:
1. They induce flowering at earlier stages
2.They increase the length of dwarf varieties.
3.Initiate synthesis of hydrolytic and proteolytic
enzymes.
4.Stimulate the formation of secondary
metabolites e.g.: volatile oils, glycosides,
alkaloids
❑Cytokinines:
▪ Mainly they are cell division hormones.
Typical effects of Cytokinines are:
1. Cell division.
2. Cell Differentiation and morphogenesis.
3. Also regulate production and shape of organs.
II. Growth inhibitor hormones
Abscisic acid
▪ It acts by antagonising GA
▪ Blocking synthesis of DNA and RNA
▪ Induces seed dormancy
▪ Inhibit shoot growth
▪ Helps to withstand drought conditions, by
regulating opening of stomata.
Ethylene
▪ Discovered in stored apples and help in Inhibition
of potato shoots growth.
 CHAPTER VI
PREPARATION OF DRUGS FROM PLANTS TO
PHARMACEUTICALS
A- COLLECTION OF CRUDE DRUGS
❑Drugs may be collected from wild or cultivated
medicinal plants.
❑The qualitative and quantitative composition may
change during growing season
❑To ensure maximum quality plant should be
collected in appropriate season and at the
proper phase (proper time and proper part and
proper stage of development)
FACTORS AFFECTING COLLECTION:
1.Time of the year:
❑The plant in winter may contain substances which
are not present in the same plant in summer;
Examples:
❑Rhubarb contains no anthraquinones in winter,
but contains anthranoles so collected in summer.
❑Colchicum corm is almost free its active
constituent colchicine in autumn and is full of
starch. So, used as food instead of potatoes. But
it is bitter and more active in spring and early
summer
❑Hyoscyamus contains less alkaloids in winter than
in summer.
2-Time of the day:
Time of the day is an important factor in
determining the concentration of active principles in
drug plants. Examples:
1. The concentration of the desired glycosides is
higher in digitalis leaves collected in the
afternoon than collected in the morning. The
active glycosides undergo hydrolysis to
physiologically less active aglycones during the
night and recombine with sugars during day time.
2. Roots and rhizomes rich in mucilage and starch
are usually collected in the morning.
3. The alkaloidal content of the Solanaceous leaves
are higher in the morning than in the afternoon.
3. Stage of maturity and age: Examples:
1.Conium fruits contain the alkaloid coniine, when
the fruits are mature but unripe.
2.Santonica flowers are most rich in santonin when
they are unexpanded and when they start to open,
the santonin content starts to decrease.
3.Clove is collected in the bud stage, as the volatile
oil decreases greatly when the flowers open.
4.All Solanaceous leaves contain the maximum
amount of alkaloids when the plant is in the
flowering stage.
5.Lobelia herb must be collected towards the end
of the flowering stage and beginning of the
fruiting stage.
GENERAL RULES FOR COLLECTING DRUGS:
▪ Leaves: the usual time for collection is when the
flowers are just beginning to expand. Except:
Tea leaves are collected when still unfolded in
the bud.
Coca leaves are collected when nearly ready to
fall from the stem.
Uva Ursi leaves are collected at any time of the
year.
✓NB: Leaves should not be collected when covered
with dew or rain.
✓Any leaves which are discolored or attacked by
insects should be rejected.
▪ Flowers: must be collected in fine, dry weather. They
are collected before the full expansion
Clove, Red Rose and Worm Seed are collected in bud.
Chamomile and insect flower (pyrethrum) are collected
when just fully expanded.
▪ Storage tissues organs such as roots, rhizomes, bulbs,
etc. should be collected in autumn or winter
▪ Stem barks are collected in spring when the bark can
be stripped more easily
▪ Fruits: fully mature but unripe.
▪ Seeds: being storage organs are collected when
mature.
▪ Unorganized drugs must be collected in dry weather
and taken care to exclude vegetable parts.