Pre-Med Biology Shortlisting PDF

Summary

This document is a chapter shortlisting document called "ACELLULAR LIFE", covering viruses, diseases, classification and structure. It also explains the role of viruses in common diseases. The document is focused on biology for pre-med preparation.

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PreMed.PK
Chapter Shortlisting

ACELLULAR LIFE
VIRUSES AND DISEASES CHARACTERISTICS

Cause Common Cold , influenza ,bird flu ,etc Not cells lack independent replication and
affecting plants and animals. independent activity.
Living traits : variety , genetic material ; Non
living ; lack cellular structures.
DISCOVERY AND
CLASSIFICATION
‘’virus’’ from Latin ‘’Venom’’ EXAMPLES
Classified based on morphology , nucleic
acid , replication, and hosts. Bacteriophage : Hexagonal head , tubular
Shapes and Sizes: Varied shapes ( spherical tail , tail pin.
rod-shaped , helical ) , sizes ( 17nm-100nm) Influenza virus : A,B,C forms ,
orthomyxovirus family , RNA , Capsid ,
Envelop.
STRUCTURE

Core : DNA or RNA
CONCLUSION
Capsid : Protective coat
Envelop : Additional lipoprotein layer Viruses bridge living and nonliving , causing
disease with distinct structure

CLASSIFICATION ON THE BASIS OF SHAPES

Classification Description Example

Helical Viruses Spiral or coil shaped structure Tobbaco Mosaic Virus, Influenza Virus

Symmetrical icosahedral ( 20 sided )
Icosahedral Viruses Adenovirus,Herpes Virus
shape

Complex shapes with additional
Complex Viruses Bacteriophages
structures

Have a lipid envelop surrounding protein
Enveloped Viruses HIV , Influenza
coat

Other Shapes Unique or irregular shapes Pox Virus, certain bacteriophages

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ACELLULAR LIFE
CLASSIFICATION ON THE BASIS OF VIRAL GENOME

Virus Viral Genome Type

Influenza Negative-sense single-stranded RNA

HIV Position-sense single-stranded RNA

Hepatitis B Partial double-stranded DNA

Herpes Simplex Double-Stranded DNA

Measles Negative-sense single-stranded RNA

Hepatitis C Positive-sense single-stranded RNA

Human Papillomavirus (HPV) Double-stranded DNA

Mumps Negative-stranded single-stranded RNA

Rubella Positive-sense single-stranded RNA

Polio virus Positive-sense single-stranded RNA

Hepatitis A virus Positive-sense single-stranded RNA

HUMAN IMMUNODEFFICIENCY
VIRUS
Retrovirus , spherical , RNA Core , envelop
from host.
Replication: reverse transcription, integration
into host DNA.
Parasitic Nature : Obligate parasites , host-
specific ( e.g., bacteriophage , tobacco mosaic
virus )

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ACELLULAR LIFE
VIRAL LIFE CYCLE VIRAL DISEASES

Reproduction in hosts : Adsorption , Hepatitis A :
Penetration , Uncoating , Transcription , HAV (RNA) Virus , fecal-oral route.
Translation , Replication , Assembly , symptoms : Fever, anorexia , jaundice.
Release. Prevention : vaccine , hygiene.

Hepatitis B:
HBV (DNA virus), blood, surface contact.
HIV CONTROL MEASURES Symptoms: Severe, cirrhosis.
Prevention: Vaccine, blood screening.
Antiviral treatments aim to reduce viral
load. Hepatitis C:
Therapy based on symptoms , CD4 count , HCV (RNA virus), blood.
viral load. Symptoms: Fever, jaundice.
Prevention through safe practices : Prevention: No vaccine, blood screening.
avoiding shared needles , blood
transfusions screening , sterilizing Herpes:
instruments , following Islamic teachings HSV-1 (saliva), HSV-2 (sexual contact).
Not transmitted through coughing , Treatment: Antiviral drugs.
sneezing , or swimming.
No transmission via inanimate objects , Poliomyelitis:
mosquitoes , or insects. Polio virus (RNA), fecal-oral.
Symptoms: Paralysis, meningitis.
Prevention: Killed (Salk) and live (Sabin)
vaccines.
VIRUSES EVOLUTION
Cotton Leaf Curl Disease:
Derive from host cells , nucleic acids from Whitefly transmission.
host genomes. Symptoms: Leaf curling, stunted growth.
Ongoing evolution with emerging new Prevention: Insecticide, removal of affected
viruses. plants.

Prions:
Protein particles, no nucleic acid.
INFLUENZA Diseases: Transmissible spongiform
encephalopathies.
RNA genome , helical nucleoprotein ,
lipoprotein envelop. Viroids:
Circular RNA, no protein coat.
Cause plant diseases, not humans.

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BIOENERGETICS
BIOENERGETICS
Bioenergetics delves into the quantitative examination of energy relationships and conversions within
biological systems
Energy stands as a fundamental necessity for the sustenance and functionality of all living organisms,
serving as the driving force behind essential cellular activities and metabolic pathways.
Light energy, a form of electromagnetic radiation, serves as the primary driving force behind
photosynthesis, initiating the conversion of light energy into chemical energy.
Action Spectrum:The action spectrum of photosynthesis mirrors the absorption spectrum of chlorophyll,
elucidating the varying effectiveness of different wavelengths of light in driving photosynthetic processes)

PHOTOSYNTHESIS CHLOROPLASTS AND
PHOTOSYNTHETIC PIGMENTS:
1). Photosynthesis emerges as a pivotal biological Chloroplasts, intricate organelles primarily
process wherein solar energy is harnessed and localized within the mesophyll cells of plant
converted into chemical energy, which is leaves, represent the primary sites of
subsequently utilized by living organisms. photosynthesis.
2). It entails the absorption of light energy by These organelles exhibit a complex
specialized pigments, primarily chlorophyll, initiating a architecture comprising thylakoids arranged
series of biochemical reactions. in stacks known as grana, alongside the
3). Carbon dioxide, water, glucose, and oxygen serve stroma, housing an array of enzymes crucial
as key components in the photosynthesis for carbohydrate synthesis.
4). Photosynthesis predominantly occurs during Chlorophylls, predominant among
daylight hours while respiration remains a continuous photosynthetic pigments, exhibit a
process supporting cellular functions. remarkable ability to absorb light energy
6). Water plays a critical role in photosynthesis, across specific wavelengths, particularly in the
serving as a primary source of oxygen during the blue and red regions of the electromagnetic
light-dependent reactions of the process. spectrum.
Additional pigments, such as carotenoids,
Van Niel's proposition, speculated on water's broaden the spectrum of light absorption,
involvement in oxygen production, a theory later augmenting the efficiency of light capture and
validated through experimental techniques energy transfer to chlorophyll molecules.
employing isotopic tracers.

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BIOENERGETICS
ROLE OF CARBON DIOXIDE:
1)CO2 is essential for the synthesis of sugar during photosynthesis.
2)Sugar formation occurs through the reduction of CO2 using ATP and NADH from light-dependent
reactions.
3)While terrestrial plants primarily utilize atmospheric CO2, aquatic organisms use dissolved CO2,
bicarbonates, and soluble carbonates for Terrestrial and Aquatic Photosynthesis.
4)CO2 enters leaves through stomata, which regulate gas exchange.CO2 gets dissolved in water absorbed
by mesophyll cell walls.

REACTIONS OF PHOTOSYNTHESIS: RESPIRATION

LIGHT-DEPENDENT REACTIONS (LIGHT REACTIONS): 1). Respiration is the process through
which organisms break down complex
1). Sunlight absorbed by photosynthetic pigments drives ATP
carbon-containing compounds to
and NADPH synthesis.
harvest energy.
2). Photosystems I and II organize pigments for efficient energy
absorption.
2). Respiration refers to both external
3). Electrons move through photosystems, generating ATP and
respiration (gas exchange) and cellular
NADPH.
respiration (energy production).
Non-cyclic Phosphorylation: ATP synthesis via chemiosmosis
occurs during non-cyclic electron flow.
3). Cellular respiration can occur
LIGHT-INDEPENDENT REACTIONS (DARK REACTIONS): aerobically (with oxygen) or
1). Dark reactions take place in the stroma of anaerobically (without oxygen), leading
chloroplasts. to different metabolic
2). Calvin Cycle: Series of enzymatic reactions pathways.Anaerobic pathways yield
that fix and reduce carbon dioxide, leading to minimal energy compared to aerobic
sugar synthesis. respiration.
3). Three Phases: Carbon Fixation, Reduction, and
Regeneration of CO2 Acceptor (RuBP). Anaerobic Respiration:
1-Alcoholic Fermentation: Pyruvic acid is
converted to alcohol and CO2, often
seen in yeast.
ADENOSINE TRIPHOSPHATE (ATP) 2-Lactic Acid Fermentation: Pyruvic acid
is converted to lactic acid, common in
1). ATP is crucial for most biological energy
muscle cells during intense activity.
transformations.ATP contains high-energy phosphate bonds,
releasing energy when broken.
2). ATP is used for various cellular functions, including
synthesis, transport, and muscle contraction.
3). Mitochondria act as "powerhouses" by converting energy
from organic molecules into ATP.Mitochondria have inner
membranes with folds called cristae, facilitating energy
production.
ATP

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BIOENERGETICS
CELLULAR RESPIRATION

1. GLYCOLYSIS 2. PYRUVIC ACID OXIDATION
Glucose + 2NAD+ + 2ADP + 2Pi → 2Pyruvate + Pyruvate + NAD+ + CoA → Acetyl-CoA + CO2 +
2NADH + 2ATP + 2H+ NADH + H+
Breakdown of glucose to pyruvic acid Conversion of pyruvic acid to acetyl CoA
,occurs in the cytosol ,Can occur aerobically ,takes place in the mitochondria,Hydrogen
or anaerobically. atoms transferred to NAD+.
Divided into preparatory and oxidative
phases ,Preparatory phase: Phosphate
groups added to glucose ,Oxidative phase:
4. RESPIRATORY CHAIN
Energy-rich phosphate bonds formed,
yielding ATP and NADH.
ADP + Pi + H+ + 3NADH + FADH2 + 1/2O2 → ATP
+ NAD+ + FAD + H2O
NADH produced in Krebs cycle ,NADH
transfers hydrogen atoms to the respiratory
3. KREBS CYCLE (CITRIC ACID CYCLE) chain.
Electrons transported in a series of
Acetyl-CoA + 3NAD+ + FAD + GDP + Pi + 2H2O → oxidation-reduction steps ,Involves
2CO2 + 3NADH + 3H+ + FADH2 + GTP + CoA coenzyme Q, cytochrome enzymes, and
Series of reactions in mitochondria,Acetyl molecular oxygen ,Oxygen acts as the final
CoA combines with oxaloacetate to form electron acceptor, producing water.
citrate. Energy released drives ATP synthesis via
Multiple oxidation steps generate NADH and oxidative phosphorylation.
FADH2 ,ATP synthesized during certain
steps. Oxidative Phosphorylation:ATP Synthesis: ATP
Cycle regenerates oxaloacetate for is produced through oxidative phosphorylation,
continued operation. coupled with the respiratory chain.
Proton Movement: Protons are pumped
across the inner mitochondrial membrane,
driving ATP synthesis via chemiosmosis.

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BIOLOGICAL MOLECULES
BIOMOLECULES IMPORTANCE OF WATER
Biochemistry studies chemical
1. Medium of Life
components and processes in living
2. Solvent Properties
organisms.
3. Heat Regulation
Essential for understanding anatomy,
4. lonization and Protection
physiology, and biochemical organization
of organisms.

LIPIDS
IMPORTANCE OF CARBON Heterogeneous group of compounds insoluble
in water but soluble in organic solvents.
1. Carbon's unique properties make it central Include fats, oils, waxes, cholesterol, and
in organic compounds. related compounds.
2. Forms stable structures due to Serve as components of cellular
tetravalency, enabling the synthesis of membranes
complex cellular structures.Ability to form and energy storage.
various bonds contributes to the vast Classified into acylglycerols, waxes,
diversity of organic compounds. phospholipids, sphingolipids, glycolipids,
3. Carbon-hydrogen bonds provide a and terpenoid lipids.
potential source of chemical energy.
4. Forms stable bonds with other elements Acylglycerols
like oxygen, nitrogen, and sulfur, crucial for Composed of glycerol and fatty acids, forming
the structure and function of triglycerides or neutral lipids.
biomolecules.Large organic molecules Important for energy storage, with fatty
serve as structural components and acids varying in chain length and
energy storage in cells. saturation.
Waxes and Phospholipids
Widespread protective coatings in plants
and animals, composed of long-chain
METABOLISM alkanes and other compounds.
Phospholipids derived from phosphatidic
Cells constantly undergo chemical acid, containing glycerol, fatty acids, and
reactions to build new materials and phosphoric acid, crucial for membrane
obtain energy. structure.
Metabolism involves anabolism (building
complex substances) and catabolism
(breaking down complex molecules).

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BIOLOGICAL MOLECULES
PROTEINS PEPTIDE BOND FORMATION

Over 50% of a cell's total dry weight Amino acids link together by peptide bonds,
comprises proteins. formed between the amino group of one
Present in all cell types and locations, amino acid and the carboxyl group of
performing diverse functions. another.
Serve as structural components, enzymes, Sequential peptide bond formation leads to
hormones, carriers, antibodies, and clotting the creation of dipeptides, tripeptides, and
factors. longer polypeptide chains.
Regulate metabolism, defend against 1.Primary Structure: Sequence of amino acids
pathogens, and facilitate movement within in a protein molecule
cells 2.Secondary Structure: Folding of polypeptide
Proteins are polymers of amino acids, chains into helices or sheets, stabilized by
containing carbon, nitrogen, oxygen, and hydrogen bonds.
hydrogen. 3.Tertiary Structure: Overall 3D shape of a
Approximately 170 types of amino acids are protein, influenced by ionic, hydrogen, and
found in cells, but most proteins are made disulfide bonds.
from 20 amino acids. 4.Quaternary Structure: Arrangement of
Amino acids differ mainly due to variations in multiple polypeptide chains in complex proteins,
the R group attached to the alpha carbon. stabilized by various bonds.

Fibrous Proteins
Form fibrous structures, insoluble in aqueous NUCLEIC ACID
media, and perform structural roles (e.g.,
keratin, myosin).
Globular ProteinsSpherical or ellipsoidal DNA and RNA are polymers of nucleotides,
proteins with diverse functions, soluble in comprising a pentose sugar, nitrogenous
aqueous media (e.g., enzymes, base, and phosphoric acid.
antibodies).
DNA Structure:
Composed of two polynucleotide chains forming a
double helix, held together by hydrogen bonds
between complementary bases.Adenine pairs with
thymine, and guanine pairs with cytosine,
maintaining the double helical structure

RNA Types and Functions:
A-Messenger RNA (mRNA): Carries genetic
information from DNA to ribosomes for protein
synthesis.
B-Transfer RNA (tRNA): Transfers amino acids
to ribosomes during protein synthesis.C-
Ribosomal RNA (rRNA):
Major component of ribosomes, involved in
protein synthesis.

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BIOLOGICAL MOLECULES
CARBOHYDRATES CONJUGATED MOLECULES

Abundant in living organisms, found in Formed by the combination of two different
various cellular structures. molecules, such as carbohydrates with
Classified into monosaccharides, proteins or lipids. Examples include
oligosaccharides, and polysaccharides. glycoproteins, glycolipids, and nucleoprotein

Monosaccharides Disaccharides Polysaccharides

Single sugar molecules act as Number of monosaccharides
building blocks for disaccharides Consists of two sugar molecules unit linked together by glycosidic
and polyseccharides bond

Water soluble Water soluble Insoluble in water

Taste sweet Taste sweet Do not taste sweet

Reducing sugars Some are reducing sugars Non reducing carbohydrates

Composed of large number of
Have a single monomor Composed of two monomers
monomers

Have a simple, linear, Have a single, linear, branched Have complex,branched
unbranched structure or unbranched structure structure

Have a single ring structure Have two rings structure Have a number of ring structures

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CELL STRUCTURE AND FUNCTION
DEFINITION CELL THEORY:
All organisms are composed of cells
Smallest unit
New cells arise from pre existing cells
Building block
Cell is basic structural and functional unit
Discovered by Robert hooke~1665
Robert Brown discovered
nucleus~1831
FLUID MOSAIC MODEL:
Cell theory~Presented by Schawnn Description of structure of cell membrane as fluid layer
and Schleiden of lipids with embedded proteins that move around
freely.

TYPES OF CELLS THREE BASIC PARTS OF CELL:
1.Prokaryotic cell 1.Nucleus 2.Cytoplasm 3.Plasma membrane(60 to 80% proteins+20
2.Eukaryotic cell to 40% lipids+small quantity of carbohydrates )
(Plant cell have cell wall while it is absent in animal cell)

DIFFERENCES EUKARYOTES PRKARYOTES

SIZE Larger than 10 micrometer Smaller than 10 micrometer

Has a nucleus, mitochondria, Has a nucleus mitochondria
COMPOSITION
chloroplast and cytoskeleton chloroplast and cytoskeleton

Unisexual and multicellular
NUMBER OF CELLS Only unisexual organisms
organisms

REPRODUCTION Sexual and asexual reproduction Only asexual reproduction

SHAPE Various forms Rod shaped or spiro-spherical

CELL DIVISION By mitosis and meiosis By binary fision

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CELL STRUCTURE AND FUNCTION
CELL WALL CELL MEMBRANE:
1.Present plant cell
1) Made of lipids (20-40%), proteins (60-80%), and
2.Outermost boundary
some carbohydrates.
3.Provide rigidity,protection and shape to cell.
2) Proteins embedded in a mosaic pattern within
4.Secreted by protoplasm
lipid layers.
5.Thickness varies
3) Acts as a barrier between cell contents and the
THREE LAYERS
environment ,regulating the passage of
primary/true cell wall (cellulose, pectin,
substances ,maintaining concentration gradients,
hemicelluloses)
facilitating the movement of materials and ions
secondary(inorganic
and Facilitates transmission of nerve impulses for
salts,silica,waxes,cutin,lignin)
coordination
middle lamella
4) Endocytosis is a process where the membrane
folds to engulf materials, forming vacuoles.
RIBOSOMES:
Tiny granular structures CYTOPLASM:
discovered by plade(1955)
Composed~equal amount of RNA and protein Consist of aqueous ground substance,cell
Exist in two forms; 1.freely dispersed organelles and insoluble waste/storage products.
2.attached with RER
Eukaryotic ribosome contain 2 subunits; large Functions: Store house of vital chemicals
subunit-60/smaller subunit-40s Site for metabolic processes

GOLGI APPARATUS Rough endoplasmic Smooth endoplasmic
Golgi apparatus/Golgi body/Golgi complex: reticulum (RER) reticulum (SER)
Discovered by Golgi (1898)
Consist of flattened membrane bound Has ribosomes attached Do not have ribosomes
sacks(cisternae) to its surface attached to its surface
Cisternae+associated vehicles=Golgi complex.
TWO FACES: Help in the synthesis of Help in the synthesis of
protiens and enzymes glycogen, lipids
1.Outer convex surface~forming face
2.Inner concave surface~maturing face.
It is formed by vesicles
FUNCTIONS: It is mainly formed by
and tubules
1.concerned with cell secretion cisterne and few tubules
2.formation of granules
3.Transportation of protein and enzymes RER is internal SER is peripheral
4.modify protein and lipids
it is cnnected with It is cnnected by
neuclear envelope plasmalemma
ENDOPLASMIC RETICULUM:
~System of channels extending throughout
cytoplasm

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CELL STRUCTURE AND FUNCTION
PEROXISOMES: LYSOSOMES:
Single membraned lyso=splitting
contain large amounts of oxidative enzymes. Soma=body ~cytoplasmic organelles
De-Duve and co-workers isolated~ 1965 found in eukaryotic cells
Also found in protozoa, yeast and cells of Engulf foreign particles known as phagocytosis.
higher plants. single membrane
cytoplasmic organelles rich in acid phosphate and other enzymes
Found in animal/plant cells. Processed enzymes buried of as Golgi vesicles
0.5 um in diameter are called primary lysosomes
Number varies between 70-100 per cell. Involved in autophagy
FUNCTION: Release enzyme for extracellular digestion
(1)Formation and decomposition of (H2O2) Storage diseases~due to accumulation within
(ii) Catabolic and Anabolic Pathways the cell of substances
(iii) Producing Oxidase and catalase
(iv) Contain ẞ oxidation.
GLYOXYSOME:
VACUOLES: Plant cell organelle
Single membranous Abundant in Plant Seedling.
Non Living cell Rely upon stored fatty acids to provide them with the
FUNCTION:
energy and materials to begin the formation of a new
STORAGE,RIGIDITY AND SUPPORT.
Present in animal/ plant cells plant.
Serve to expand the plant cell without diluting Primary Activities:
its cytoplasm (1)Conversion of stored fatty acids to carbohydrates.
Function as sites of storage of water and cell (2)In Seed:
products or metabolic intermediates. a.Breakdown of fatty acid to succinate.
Turgor pressure provides support for the b.Present only during a short period in the
individual plant cell.
germination. Glyoxysomes are absent in lipid poor
Contributes the rigidity to leaves and younger
parts of the plants. seeds such as pea.

MICROFILAMENTS: CYTOSKELETON
Made of contractile actin proteins.
Slender cylinders linked to the plasma Cytosol: Contains cytoskeletal fabric with
membrane. microtubules, microfilaments, and intermediate
Involved in internal cell motion. filaments. Proteins include tubulin (microtubules),
Play a role in cyclosis and amoeboid actin, myosin, tropomyosin, etc. Gives rise to
movements. organelles like cilia, flagella, basal bodies, and
centrioles.
INTERMEDIATE FILAMENTS
Have a diameter between microtubules and
MICROTUBULES:
microfilaments. Composed of tubulin proteins.
Integrate cellular compartments ,Maintain cell Long, unbranched structures.
shape. Essential for spindle structure
assembly/disassembly in mitosis.
Contribute to cilia, flagella, basal bodies, and
centrioles.

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CELL STRUCTURE AND FUNCTION
CENTRIOLE: MITOCHONDRIA/CHONDROSOMES:
Two centrioles located near the nucleus's Double membranous,with inner membrane
exterior surface ,Each centriole consists of a forming cristae.Involved in energy production for
cylindrical array of nine eukaryotic cells ,"powerhouses of the cell."
microtubules.Important in cell division, Contains DNA and ribosomes, capable of self-
furrowing location, and cilia formation. replication.Involved in metabolic processes like
Krebs cycle and aerobic respiration

PLASTIDS NUCLEUS:
Membrane-bound bodies present in plant cells
Three main types:. 1)In animal cells, usually central; in plant cells,
Chloroplasts:self-replicating organelles pushed to the periphery.
,Found in photosynthetic plant cells ,Contain 2)Shapes: irregular or spherical ,Cells may be
green pigment (chlorophyll) for light energy
mononucleate, binucleate, or multinucleate.
absorption.
3)Visible during cell division; contains chromatin
Double-memberane envelope, stroma, and
thylakoids.Involved in fixing CO₂ to network and nucleoplasm ,Chromosomes replace
manufacture sugars. chromatin during cell division.Contains DNA, RNA,
Chromoplasts:Impart colors to flower petals, proteins , and hereditary material..
ripened fruit and Play a role in pollination.
Leucoplasts:>Colorless plastids found in
underground plant parts that Store food.
NUCLEAR MEMBRANE:
Surrounds the nucleus, separating it from
cytoplasm.
CHROMOSOMES:
chromatin material deeply stained with basic dyes
,Converted into chromosomes during cell division
NUCLEOLUS:
,Chromosomes have arms and centromeres. Darkly stained body within the nucleus ,No
membranous boundary ,One or more nucleoli per
nucleus.Synthesizes and stores ribosomal RNA
(rRNA).

CHART TO REMEMBER DISCOVERY OF ORGANELLES
Organelle Discoverer Discovery Year

Nucleus Robert Brown 1831

Mitochondria Richard Altmann 1890

Centriole Edouard Van Beneden 1883

Nuclear Membrane James D. Jamieson 1971

Nucleolus Franz Bauer 1804

Chromosomes Walther Flemming 1882

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CHEMICAL COORDINATION
CONCENTRATION TERMS CHEMICAL NATURE OF HORMONES
1. Continuous regulation of cellular functions is Hormones belong to various categories:
essential. a-Steroid hormones (e.g., testosterone, estrogen).
2. Nervous system aids in coordination. b-Proteinaceous hormones (e.g., growth hormone,
3. Endocrine system plays a crucial role in insulin).
coordinating various body functions. c-Catecholamines, amino acid derivatives, and
4. Hormonal system regulates chemical peptide hormones.
reactions and substance transport.
5. Chemical coordination involves hormones,
membranes, and growth. MODE OF HORMONE ACTION
A)PROTEIN HORMONES:
HORMONES AS A CHEMICAL
1-Water-soluble, acts on plasma membrane
MESSENGER receptors. 2-Initiate a series of events inside the
Hormone as a Chemical Messenger cell, including gene activation.
Hormones are small organic molecules that act B)STEROID HORMONES:
as chemical messengers. 1-Lipid-soluble, can pass through cell membranes. 2-
They transmit signals from messenger cells to Bind to receptors inside target cells, activating gene
target cells. transcription and protein synthesis.

ENDOCRINE SYSTEM OF MAN
Consists of around 20 ductless glands located throughout the body.
Key glands include the hypothalamus, pituitary, thyroid, parathyroid, pancreas, adrenal glands, and gonads.

ENDCRINE SYSTEM

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CHEMICAL COORDINATION
(1)NEUROSECRETORY ROLE OF (2)PITUITARY GLAND
HYPOTHALAMUS
LOCATION AND STRUCTURE:
a)Hypothalamus regulates various physiological Situated below the hypothalamus, connected by the
functions, including hunger, sleep, and infundibulum.
temperature. Three Lobes: Anterior, posterior, and median.
b)Acts as the master controller of the endocrine ANTERIOR PITUITARY:
system. Known as the "master gland," secretes six hormones
c)Produces releasing and inhibiting factors that regulating other endocrine glands.
regulate pituitary hormone secretion Gonadotropic hormones (FSH and LH)
Prolactin (PRL)
Growth hormone (GH)
GH FUNCTION:
Regulates growth, cell division, protein synthesis;
controlled by hypothalamic factors.
DISORDERS:
Deficiency leads to dwarfism, excess in childhood causes
gigantism, and in adults, acromegaly.

(3)THYROID GLAND
LOCATION:
Two lobes on either side of the trachea.
HORMONES:
Produces T3, T4 (thyroxin), and calcitonin.
(4)PARATHYROID GLANDS: FUNCTIONS:
LOCATION: Thyroxine regulates metabolic rate, while calcitonin aids
Four glands on the posterior thyroid surface. calcium deposition in bones.
HORMONE: DISORDERS:
Parathormone (PTH)regulates blood calcium Hyperthyroidism, hypothyroidism, and congenital
balance. cretinism.
FUNCTIONS:
Releases calcium from bones, maintains blood
calcium levels.
(5)PANCREAS:
DISORDERS:
COMPOSITION:
Oversecretion leads to hypercalcemia,
Exocrine tissue for digestion; endocrine tissue in Islets of
undersecretion to hypocalcemia.
Langerhans.
HORMONES:
Insulin (from beta cells) and glucagon (from alpha cells)
regulate blood sugar.
FUNCTIONS:
Insulin lowers blood sugar, while glucagon raises it.
DISORDERS:
Diabetes mellitus due to insulin deficiency or excess.

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CHEMICAL COORDINATION
(6)ADRENAL GLANDS: (7)GONADS: (8)OTHER ENDOCRINE
LOCATION AND STRUCTURE: OVARIES: TISSUES/CELLS:
Rest on kidneys, composed of cortex Produce estrogen and VARIOUS ORGANS;
and medulla. progesterone, regulate the female Produce hormones despite non-
HORMONES: reproductive system. endocrine primary function.
Cortex produces glucocorticoids and TESTES: EXAMPLES:
mineralocorticoids; medulla produces Produce testosterone, regulate Stomach (gastrin), duodenal wall
adrenaline and noradrenaline. male reproductive system. (secretin, cholecystokinin),
FUNCTION: FUNCTION: Control secondary placenta (progesterone), brain
Respond to stress, regulate sex characteristics, gamete
(endorphins).
metabolism and blood pressure. production.
FUNCTIONS:
DISORDER: DISORDER:
Localized effects or systemic
Oversecretion leads to hypertension, Hormonal imbalances affect
regulation.
undersecretion to Addison's disease. reproductive health and fertility.

FEEDBACK MECHANISMS
POSITIVE FEEDBACK NEGATIVE FEEDBACK
Definition: DEFINITION:
End product speeds up its production. End product inhibits its own production.
RARE: Homeostatic: Maintains stability,
Not homeostatic, uncommon in common in physiological processes.
healthy individuals. EXAMPLE:
EXAMPLE: Blood glucose regulation.
Childbirth. Process:
PROCESS: 1-High blood glucose detected by
Early contractions of labor force pancreas.
baby's head against cervix. 2-Pancreas secretes insulin.
Stretch-receptor neurons signal 3-insulin allows cells to take up glucose.
hypothalamus. 4-Glucose stored as glycogen, reducing
Hypothalamus releases oxytocin. blood glucose.
Oxytocin stimulates more uterine 5-Low blood glucose detected by
contractions. pancreas.
Stronger contractions prompt 6-Pancreas secretes glucagon.
more hormone release. 7-Glucagon converts glycogen to
Cycle ends with the baby's glucose, raising blood glucose.
expulsion. 8-Cycle maintains blood glucose
homeostasis.

THIRST SENSATION:
FEEDBACK MECHANISM:
NEGATIVE. EXPLANATION:
Thirst sensation occurs when blood volume decreases, stimulating the hypothalamus to release antidiuretic
hormone (ADH). ADH acts on kidneys to conserve water, restoring blood volume and reducing thirst
sensation. This process maintains fluid balance and blood volume homeostasis

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NERVOUS COORDINATION
INTRODUCTION TO NERVOUS NERVE IMPULSE
COORDINATION Resting membrane potential & active membrane
The body of an animal responds to stimuli potential (action potential).
through coordinated activities of body parts. Distribution and movement of ions, negative
Coordination involves the nervous and endocrine organic ions, and leakage of K+ ions influence
systems. membrane potential.
Two types:
1. Continuous impulse
STEPS INVOLVED IN NERVOUS 2. Saltatory impulse.
COORDINATION Speed of nerve impulse depends on fiber
1. Reception of stimulus morphology.
2. Processing/analysis of information
3. Response to stimulus SYNAPSE
4. Reception of Stimulus Electrical and chemical synapses transmit
information between neurons.
PROCESSING/ANALYSIS OF Transmission of nerve impulse across synapse
involves release of neurotransmitters, binding to
INFORMATION receptors, and generation of excitatory or
Receptors detect stimuli from internal or
inhibitory postsynaptic potentials.
external environments.
Clearance mechanisms of neurotransmitters from
Classification of receptors based on stimuli type:
synaptic cleft.
photoreceptors, chemoreceptors,
mechanoreceptors, thermoreceptors, and
nociceptors.
MAJOR CLASSES OF
Sensory inputs are received by the central NEUROTRANSMITTERS:
nervous system (CNS) for coordination. Acetylcholine, biogenic amines, amino acids,
Effectors (muscles and glands) produce neuropeptides, and gases.Excitatory and inhibitory
appropriate responses upon receiving signals neurotransmitters affect postsynaptic neuron activity
from the CNS. differently.

NEURONS DIVISIONS OF THE HUMAN NERVOUS
Neurons are the chief structural and functional units SYSTEM
of the nervous system.
CENTRAL NERVOUS SYSTEM (CNS):
Brain and spinal cord.
STRUCTURE OF A TYPICAL NEURON: Coordinates actions; the brain is more involved
Cell Body (Soma), Dendrites, and Axon. in coordination.
Spinal Cord Acts as a link between PNS and
CLASSIFICATION OF NEURONS BASED brain.

ON STRUCTURE AND FUNCTION:
Sensory neurons/Afferent
Associative/Intermediate neurons
Motor neurons/Efferent

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NERVOUS COORDINATION
PROTECTION OF BRAIN AND SPINAL Spinal Cord
Description
Function
CORD:
Acts as a pathway for sensory and
1. Cranium (skull) and vertebral column protect
Transmission motor information between the brain
brain and spinal cord.
and the rest of the body.
2. Three layers (dura mater, arachnoid mater, pia
mater) provide cushion-like protection. Coordinates reflex actions, allowing
3. Cerebrospinal Fluid (CSF) acts as a cushion Reflexes rapid responses to stimuli without
against mechanical shocks and maintains conscious involvement.
homeostasis.
Receives sensory input from the
Sensory Processing body, transmitting it to the brain for
STRUCTURE AND FUNCTION OF interpretation and response.
BRAIN:
Sends motor commands from the
1. Forebrain: Telencephalon (olfactory bulbs,
brain to muscles and glands
cerebrum) and diencephalon (thalamus, Motor Control
throughout the body, enabling
hypothalamus).
voluntary movements and actions.
2. Midbrain: Coordinates and relays visual and
auditory information.
3. Hindbrain:Includes pons, cerebellum, and
SOMATIC NERVOUS SYSTEM:
medulla oblongata; involved in various functions 1. Responsible for carrying sensory and motor
like coordination, muscle activity, and reflexes information between CNS and voluntary parts of
the body.
SPINAL CORD: 2. Controls skeletal muscles and external sensory
organs; voluntary with exceptions for reflex
1. Gray matter (cell bodies) and white matter
reactions.
(nerve fibers).
2. Conducts sensory and motor impulses,
coordinates reflex actions, and receives
AUTONOMIC NERVOUS SYSTEM
commands from the brain. (ANS):
1. Involuntary system controlling internal organs.
PERIPHERAL NERVOUS SYSTEM 2. Divided into parasympathetic and sympathetic
(PNS): divisions.
3. Regulates smooth and cardiac muscle
1. Sensory and motor neurons distributed
contraction and glandular activity
throughout the body.
2. Ganglia: Collections of neuron cell bodies serving
as relay points. EFFECTS OF DRUGS ON NERVOUS
3. Bundles of neuron fibers carry impulses.
4. Types of Nerves: Sensory motor, and mixed
COORDINATION
nerves; classified based on function and origin.
CANNABIS (MARIJUANA, HASHISH)
Treatment for nausea, appetite stimulation,
glaucoma, and pain relief.
Anxiety, depression, psychotic episodes, and
hallucinations are common adverse effects.

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NERVOUS COORDINATION
HEROIN (DIAMORPHINE, ALCOHOL
DIACETYLMORPHINE)
Stimulates body functions in small doses, used
Strong analgesic for acute and chronic pain,
as a solvent in medicines.
including terminal illnesses.
Excessive consumption leads to depression of
Injection, sniffing, or smoking can lead to addiction,
brain activity, impaired coordination, liver
respiratory depression, infectious diseases
damage, memory loss, and addiction.
(HIV/AIDS, hepatitis), collapsed veins, heart issues,
and addiction.
INHALANTS (E.G., NAIL POLISH
NICOTINE
REMOVERS, GLUE)
Smoking cessation aid stimulates nerve activity.
Toxicity in large doses, leading to nausea, vomiting, Instant euphoria followed by depression, nausea,
difficulty breathing, and even death. Smoking vomiting, unconsciousness, hallucinations, loss of
during pregnancy can harm the fetus. motor skills, and heart palpitations.

NERVOUS DISORDERS

STROKE (CEREBROVASCULAR MENINGITIS
ACCIDENT - CVA)
Fever, chills, headache, stiff neck, nausea,
Numbness, weakness, confusion, trouble vomiting, and sensitivity to light.
speaking or understanding, vision problems, and
Antibiotics and corticosteroids are used to
severe headache.
combat the infection.
Immediate medical attention is crucial; treatment
includes clot-busting drugs (thrombolytic therapy)
and blood thinners.
BRAIN TUMORS
Headaches, nausea, vision problems, loss of
ALZHEIMER'S DISEASE sensation or movement, speech difficulties,
Signs are progressive loss of memory, reasoning, confusion, and personality changes.
language, perception, and behavioral changes. Surgery, radiotherapy, and chemotherapy
Caused by accumulation of beta-amyloid protein in are common treatments depending on the
the brain leading to nerve cell death; risk increases type and location of the tumor.
with age.

HEADACHE DIAGNOSTIC TESTS FOR
NERVOUS DISORDERS
Various conditions affecting the head and neck,
such as tension, muscle tension, sinus issues, 1. Electroencephalography (EEG)
and migraines. 2. Computed Tomography Scan (CT Scan)
3. Magnetic Resonance Imaging (MRI)
Pain in the head or neck region.

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DIVERSITY AMONG ANIMALS
(A)SUBKINGDOM PARAZOA (B)SUBKINGDOM EUMETAZOA:
(PHYLUM PORIFERA):
Includes animals with tissues organized into
Simplest animals lacking tissues organized organs and organ systems.
into organs. Divided into radial (grade Radiata) and bilateral
Lack definite shape and symmetry. (grade Bilateria) symmetry.
Phylum Cnidaria represents the simplest
Eumetazoa with radial symmetry.
DIPLOBLASTIC ANIMALS (DIVISION
RADIATA):
Body consists of two layers: ectoderm and TRIPLOBLASTIC ANIMALS (GRADE
endoderm. BILATERIA):
Lack specialized organs and transport Body made of three layers: ectoderm, mesoderm,
systems. and endoderm.
Exhibit radial symmetry and possess a sac-like Show greater specialization and possess
digestive system. specialized organs and organ systems.
Examples include phylum Cnidaria Have various body cavities: acoelomates,
(coelenterate). pseudocoelomates, and coelomates.

Acoelomates: Lack of body cavity, with mesoderm
forming a loose tissue.
PARAZOA (PHYLUM PORIFERA):
Pseudocoelomates: Possess a pseudocoelom not
General Characteristics: lined by coelomic epithelium.
Lack tissue organization and organs, with a Coelomates: Have a true body cavity lined by
porous body wall. mesoderm, containing coelomic fluid.
Vary in size, with a single internal cavity
(spongocoel).
Sessile as adults, with larvae capable of
movement.
Lack a definite nervous system but exhibit
coordination.
Reproduction:
Reproduce asexually by budding and sexually
via hermaphroditism or separate sexes.
Examples:
Sycon, Leucoselenia, Euplectella, Spongilla.
Importance:
Used commercially for washing, bathing,
surgical operations, and sound absorption.

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EUMETAZOA

A-GRADE RADIATA B-GRADE BILATERIA
1)PHYLUM PLATYHELMINTHES - FLATWORMS
(1)PHYLUM COELENTERATA/CNIDARIA 1)Acoelomates ,Soft, dorsoventrally compressed body
(DIPLOBLASTIC ANIMALS): ,Triploblastic, bilateral symmetry, unsegmented.
Cnidarians have specialized cells called 2)Mostly parasitic, some free-living.
cnidocytes, producing stinging cells 3)The digestive system varies among species, with
(nematocysts). some having a poorly developed alimentary canal.
Their habitat is predominantly aquatic, Reproduction can be both asexual (fission) and sexual
displaying radial symmetry. (hermaphroditic).
Coelenterates exist in two primary forms: 4)These organisms possess adaptations such as a
polyps and medusae. resistance cuticle, adhesive organs, and simplified
Tentacles around the mouth contain systems. Examples include Planaria (free-living),
stinging cells for defense and prey capture. Fasciola (liver fluke), and Taenia (tapeworm).
These organisms are carnivorous, utilizing 2)Phylum Nematoda - Roundworms
nematocysts to immobilize small prey. 1)Pseudocoelomates ,Elongated body with pointed
They possess a single digestive cavity ends.
serving as both gastrovascular cavity and 2)Triploblastic, pseudocoelom, bilateral symmetry.
body cavity, with a sole opening 3)The digestive system typically consists of an
(mouth).Food digestion and distribution alimentary canal with two openings. The nervous
occur via diffusion. system often includes a nerve ring and longitudinal
Coelenterates have a nerve network cords. Respiration occurs through gaseous exchange
formed by neuron cells, but they lack a across the body surface.
central nervous system. 4)Examples of organisms with these characteristics
Many species are sessile, while others are include Ascaris lumbricoides, Enterobius vermicularis,
free-swimming or colonial. and Ancylostoma duodenale.
3)Phylum Annelida - Segmented Worms
Reproduction involves both asexual (e.g., 1)Coelomates ,Metamerically segmented body
budding) and sexual methods.Alternation of ,Triploblastic, coelomate, bilateral symmetry.
generations is common, with diploid 2)Organisms possess an alimentary canal with distinct
generations exhibiting different forms and parts for digestion. Their circulatory system typically
reproductive strategies includes a closed system with blood vessels.
Respiration occurs through the skin, which is
Coelenterates demonstrate polymorphism, moistened by mucus and coelomic fluid
featuring more than two structurally and 3)Examples of such organisms include earthworms
functionally distinct types of individuals and leeches.
(zooids) within one organism. (4)Phylum Arthropoda - Jointed Legs
1)Largest phylum, segmented body with jointed
Examples include feeding individuals appendages.Chitinous exoskeleton, bilateral symmetry,
(gastrozooids), asexually reproducing coelom reduced to hemocoel.
individuals (gonozooids), and sexually 2)Crustacea (aquatic), Insecta (largest group,
reproducing individuals (medusae). metamorphosis), Arachnida (spiders, scorpions),
Myriapoda (centipedes, millipedes).
3) Example Includes pests, but also beneficial insects
like bees and silkworms

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B-GRADE BILATERIA B-GRADE BILATERIA
(5)Phylum Mollusca (L. Molluscus - soft) (7)Phylum Hemichordata
1. Mollusks are a diverse group including snails, 1. Combination of invertebrate and chordate
slugs, clams, and cephalopods, with over characteristics.
50,000 species, making them the second 2. Soft-bodied, worm-like animals with anterior
largest invertebrate phylum. proboscis, collar, and trunk.
2. They are triploblastic coelomates with 3. Circulatory system with a median dorsal and ventral
bilateral symmetry, often possessing a vessel.Respiratory system composed of gill-slits;
protective shell secreted by the mantle. excretory system with a single glomerulus.Sub-
Found in aquatic and terrestrial habitats, epidermal nervous system; examples include
unsegmented soft body divided into head, Balanoglossus and Saccoglossus.
foot, and visceral mass. (8)Phylum Chordata
3. Their complex systems include digestive, 1. Derives its name from the notochord.All members
respiratory, circulatory, excretory, nervous, possess a notochord at some stage.
and reproductive systems, featuring an open 2. Central nervous system dorsal and hollow.
circulatory system with blue respiratory 3. Divided into lower chordates (Protochordata) and
pigment (haemocyanin). Locomotion is aided higher chordates (Vertebrata)
by a muscular foot, and classification includes
Gastropoda, Bivalvia, and Cephalopoda.
Sub-Phylum Vertebrate (Craniate) (Higher
4. Some species damaging crops and structures,
Chordates)
while others like clams and oysters are widely
1. Animals with a cranium enclosing the brain and a
consumed as food. Mollusk shells are utilized
vertebral column, making them vertebrates.
in various industries, and pearl oysters are Divided into two superclasses:
valuable for producing pearls. 1. A-Pisces (Fishes): Cyclostomata, Chondrichthyes,
(6)Phylum Echinodermata - The Spiny Osteichthyes.
Skinned Animals 2. B-Tetrapoda (Four-footed): Amphibia, Reptilia, Aves,
5. Echinoderms, exclusively marine, have over Mammalia.
5,000 species. They possess an endoskeleton Anamniotes vs. Amniota: Division based on the
of calcareous plates and exhibit radial presence of fetal membranes.
symmetry with the mouth and anus 1. Superclass Pisces includes Cyclostomata
positioned opposite each other. Their water Chondrichthyes, and Osteichthyes. Cyclostomata
vascular system serves for both locomotion (lampreys, hagfish) have eel-like bodies, lack scales,
and feeding. and possess cartilaginous skeletons.
Chondrichthyes (sharks, skates, rays) feature
6. Echinoderms come in various body forms like
fusiform bodies, placoid scales, and cartilaginous
star-shaped or globular. They have poorly
skeletons. Osteichthyes (various fish) have bony
developed nervous and circulatory systems
skeletons, dermal scales, and swim bladders.
and separate sexes, with larvae showing
2. Superclass Tetrapoda comprises Amphibia (frogs,
bilateral symmetry. salamanders) with bony skeletons and webbed
7. Regeneration is common. Resemblances with feet, Reptilia (lizards, crocodiles) with internal
chordates and hemichordates suggest a fertilization and scaly skin, Aves (birds) with
common ancestor, sharing characteristics like streamlined bodies and wings, and Mammalia (egg-
coelom formation and blastopore retention laying Prototheria, pouched Metatheria, and
with hemichordates. placental Eutheria) with hair, 4-chambered hearts,
and mammary glands.

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ENZYMES
GENERAL CHARACTERISTICS MECHANISM OF ENZYME ACTION:
1) Biologically active proteins crucial for
biochemical reactions. 1) Enzyme-substrate interaction occurs at the
2) Enhance reaction efficiency and are specific to active site, consisting of a binding and catalytic
each type of reaction.
site.
3) Consist of hundreds of amino acids, forming a
globular structure with an active site for catalytic 2) Require an aqueous medium for activity.
activity. 3) Fischer proposed the Lock and Key Model,
4) Some enzymes have non-protein cofactors. later modified by Koshland into the Induced Fit
5)Vitamins serve as essential raw materials for
Model.
enzymes.
E + S ES E + P
6)Specific, sensitive to pH, temperature, and Enzyme Substrate
Enzyme Substrate Enzyme Product
substrate concentration. Complex
7)Lower activation energy, accelerating reactions
without being consumed.
OPTIMUM PH VALUES OF ENZYMES
FEEDBACK INHIBITION Pepsin 2.00

Enzymes work step by step in metabolic Sucrase 4.50
pathways.
Enterokinase 5.50
They form a chain, passing substrate
molecules from one enzyme to the next. Salivary Amylase 6.80
Enables the orderly flow of biochemical
reactions in the pathway. Catalase 7.60

Chymotrypsin 7.00-8.00

FACTORS AFFECTING ENZYME ACTION: Pancreatic Lipase 9.00

Enzyme concentration Arginase 9.70
Substrate concentration
Temperature
pH level
INHIBITORS
Substances that block enzyme activity
temporarily or permanently.
TYPES Irreversible inhibitors form covalent
bonds, while reversible inhibitors can be
Reversible inhibitors include competitive and neutralized by
non-competitive types. increasing substrate concentration.
1-Competitive inhibitors
have structural similarity with substrates,
preventing catalysis.
2-Non-competitive inhibitors
form complexes away from the active site,
hindering catalysis even
with genuine substrates.

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EVOLUTION
DEFINITION CONCEPT OF EVOLUTION VS.
SPECIAL CREATION
Evolution, the process shaping life's diversity,
In the 19th century, Creationism and
has long intrigued humanity.
Charles Darwin's pivotal contributions include Evolutionism emerged as contrasting views
evidence for species evolution and the on life's diversity.
mechanism of Natural Selection. Creationists advocated for Special Creation,
positing that all life forms were individually
created.
Evolutionists like Darwin, championed the
Theory of Natural Selection, proposing
species evolve over time

CONTRIBUTIONS OF SCIENTISTS

Scientist's Name Life Span Achievements

Linnaeus 1707 - 1778 Sought and found order in the diversity of life. He
introduced binomial nomenclature for naming
species.

Lamarck 1744 - 1829 Published his theory of evolution.

Malthus 1766 - 1832 Published Essay on the “Principle of Population”.

Cuvier 1769 - 1832 Contributed much to the science of Palaeontology
and explained Earth’s history by catastrophism.

Lyell 1797 - 1875 Published Principle of geology.

Darwin 1809 - 1882 1- Voyage of the Beagle.
2- Began his notebooks on the origin of species.
3- Wrote his essay on the origin of species.

Mendel 1822 - 1913 Published papers on inheritance.

Wallace 1823 - 1913 Sent his theory to Darwin.

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EVOLUTION
EVOLUTIONARY MILESTONES CONTRIBUTIONS OF LAMARCK
Speculation on life's origins suggests underwater
hydrothermal vents as potential sites. Lamarck proposed the inheritance of
acquired characteristics, suggesting that
Early life forms, possibly archaebacteria, thrived
traits acquired during an organism's
in extreme conditions.
lifetime could be inherited.
Photosynthesis, emerging in primitive
His work laid the groundwork for later
organisms, altered Earth's atmosphere, enabling
evolutionary theories.
aerobic life.
Prokaryotic cells, dating back over 3.5 billion
years, preceded eukaryotic cells around 1.5
billion years ago.
The endosymbiont hypothesis proposes
DARWIN'S JOURNEY AND
mitochondria and chloroplasts evolved from OBSERVATIONS
engulfed aerobic bacteria.
Another hypothesis suggests prokaryotic cell Charles Darwin's voyage on the Beagle
membranes invaginated, forming organelles. to South America provided him with
diverse specimens and observations.
Eukaryotic cell evolution spurred life's
His observations of unique species
complexity and the emergence of multicellular
distributions, such as the Galapagos
organisms.
finches, sparked his interest in
adaptation and species variation.
DEVELOPMENT OF DARWIN'S THEORY
Darwin's observations led him to formulate the
TKEY POINTS OF DARWIN'S
theory of natural selection, which explains how
THEORY
new species arise through gradual adaptations
to different environments. Darwin's theory emphasized descent
The joint presentation of Darwin's and Wallace's with modification, suggesting a
ideas to the Linnaean Society marked a common ancestry among all
milestone in evolutionary thought. organisms.
Natural selection operates through the
differential survival and reproduction
MODERN EVOLUTIONARY SYNTHESIS of individuals with favorable traits.

The modern synthesis, or Neo-Darwinism,
integrated discoveries from various fields,
including population genetics.
It reconciled Mendelian genetics with Darwinian
evolution, providing a comprehensive
framework for understanding evolutionary
mechanisms.

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EVOLUTION
MODERN EVOLUTIONARY SYNTHESIS EVIDENCES OF EVOLUTION
The modern synthesis, or Neo-Darwinism, BIOGEOGRAPHY
integrated discoveries from various fields, Geographic distribution suggests
including population genetics. evolutionary relationships.
It reconciled Mendelian genetics with FOSSIL RECORD
Darwinian evolution, providing a
Succession of fossils supports evolutionary
comprehensive framework for understanding progression.
evolutionary mechanisms.
COMPARATIVE ANATOMY
APPLICATIONS
Homologous structures reveal shared
Understanding evolution has broad ancestry.
implications for fields such as medicine,
COMPARATIVE EMBRYOLOGY
agriculture, and conservation.
Evolutionary principles inform strategies for Similarities in embryonic development among
disease control, crop breeding, and species.
biodiversity conservation. MOLECULAR BIOLOGY
DNA and protein sequences reflect
evolutionary relatedness.
NATURAL SELECTION AND
ARTIFICIAL SELECTION POPULATION GENETICS
Natural selection operates via interaction
between environment and genetic variability. Population consists of localized groups of
Artificial selection, akin to natural selection, interbreeding individuals.
influences traits in domesticated species.
Gene pool represents all alleles in a
Adaptations acquired during an organism's
lifetime aren't heritable. population at a given time.
Natural selection leads to adaptation and, Hardy-Weinberg theorem describes allele
potentially, speciation. and genotype frequencies in non-evolving
populations.

FACTORS AFFECTING GENE
ENDANGERED SPECIES FREQUENCY
Mutation, migration, genetic drift, non-
Extinction is a natural process but accelerated by
habitat destruction, climate change, and random mating, and selection influence
pollution. allele frequencies.
Conservation strategies include protected areas, Genetic drift causes chance fluctuations,
zoos, and botanical gardens. especially in small populations.
Many species in Pakistan, such as cheetah and
Selection, both artificial and natural,
tiger, are extinct or near extinction, emphasizing
urgent conservation efforts. shapes allele frequencies based on
fitness.

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NUTRITION
AUTOTROPHIC NUTRITION DIGESTION IN MAN
1. Autotrophic organisms, like plants, DIGESTION IN ORAL CAVITY:
produce their own organic compounds Tongue plays a vital role in food selection
from inorganic sources such as carbon through taste buds.
dioxide, water, and nitrates. Saliva from salivary glands aids in lubrication
2. They obtain essential elements from the
and contains enzymes like amylase for starch
soil, including carbon, oxygen, hydrogen,
digestion.
nitrogen, phosphorus, magnesium, and
iron.
PERISTALSIS:
Wave-like muscular contractions propel food down
the digestive tract.
HETEROTROPHIC NUTRITION DIGESTION IN STOMACH:
Heterotrophic organisms cannot synthesize Stomach wall layers contain muscles for
organic compounds and obtain them from the churning and mixing food with gastric
environment as food. secretions. Gastric glands secrete mucus,
ANIMAL NUTRITION: hydrochloric acid, and pepsinogen.
Animals exhibit diverse feeding methods: Hydrochloric acid creates an acidic
Detritivores consume organic debris environment for pepsin activity.Pepsin breaks
Herbivores feed on plants, Carnivores prey on
down proteins into peptones and
other animals
polypeptides.
Omnivores consume both plant and animal food
Resulting chyme is gradually emptied into the
Filter feeders extract particles from water
Fluid feeders ingest liquid food duodenum through the pyloric sphincter.
Macrophagous feeders consume large food DIGESTION IN SMALL INTESTION:
pieces. 1)Comprises the duodenum(25cm),
Plant Nutrition Methods: jejunum(2.5m), and ileum(3.5m).
1. Saprophytic Nutrition 2)Pancreatic enzymes include amylase, lipase,
2. Parasitic Nutrition and trypsin for carbohydrate, fat, and protein
3. Symbiotic Nutrition digestion.Bile emulsifies fats, enhancing their
4. Insectivorous Plant Nutrition:
digestion.
Pitcher plants trap insects in modified leaf sacs
3)Villi and microvilli in the small intestine
filled with water
increase absorption surface area.
Venus flytrap leaves rapidly close upon prey
contact DIGESTION IN LARGE INTESTION:
Sundew plants entangle insects with hair-like 1)Consists of the caecum, colon, and rectum.
tentacles. 2)Absorbs water and salts from undigested
material.

HOLOZOIC NUTRITION
Processes:
1. Ingestion
2. Digestion
3. Absorption
4. Assimilation
5. Egestion

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NUTRITION
DISORDERS

DYSPEPSIA: BULIMIA NERVOSA
Incomplete or imperfect digestion. Neurotic disorder characterized by binge eating
Symptoms include abdominal discomfort, followed by purging.
flatulence, heartburn, nausea, vomiting. Symptoms include Overeating, self-induced
Caused by excessive stomach acidity, faulty vomiting, fasting.
stomach/intestinal function, inadequate bile It can cause Electrolyte imbalance, infections.
secretion. Treated through Prolonged therapy,
hospitalization for strict supervision

FOOD POISONING
PILES (HEMORRHIDES)
Caused by consumption of food containing toxic
substances such as Salmonella, Campylobacter. Dilated, tortuous veins in the anorectal
Symptoms include Diarrhea, vomiting, mucosa.
abdominal pain.
Symptoms include Bleeding during bowel
Can be Prevented through Proper cooking,
movements, aggravated by constipation.
avoiding unpasteurized milk/meat, careful
defrosting of frozen meat. Treated by Improved hygiene, softening of
stools, surgical removal in severe cases.

OBESITY ULCER
Abnormal accumulation of body fat. Sore on the inner wall of the digestive tract.
Caused by excessive food intake leading to fat Caused by breakdown of mucus layer, excessive
storage. gastric acid secretion.
It causes High blood pressure, heart disease, Symptoms include Abdominal pain, potentially
diabetes mellitus. fatal complications if untreated.
Reasons include Hormonal imbalance, Prevented by avoiding smoking, spicy food,
heredity. alcohol, caffeine, and stress.

ANOREXIA NERVOSA CONSTIPATION
Loss of appetite due to fear of becoming obese.
Infrequent bowel movements or difficulty
Common in females aged 12-21.
passing stools.
Symptoms include Overestimation of body size,
Symptoms include Infrequent bowel
refusal to eat.
movements, straining, hard stools,
Treated by psychiatric therapy, often requiring
incomplete evacuation, abdominal
feeding through alternative routes.
discomfort.
Treatments include increased fiber
intake, staying hydrated, regular exercise,
use laxatives/stool softeners cautiously,
avoid delaying bowel movements, limit
constipating foods.

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GASEOUS EXCHANGE
PHOTORESPIRATION AND ITS RESPIRATION IN MAN
CONSEQUENCES
Properties of respiratory surface
1. Photorespiration is the respiratory activity 1. Large Surface Area and Moisture
occurring in plants during the daytime, 2. Thin Epithelium
characterized by the release of carbon 3. Ventilation
dioxide and absorption of oxygen. 4. An extensive capillary network
2. During photorespiration, ribulose
bisphosphate carboxylase/oxygenase RESPIRATORY SYSTEM
(rubisco) fixes oxygen instead of carbon
dioxide, reducing the overall rate of carbon
COMPONENTS
dioxide fixation and plant growth. 1. The respiratory system in humans
3. RuBP + O2 -> Glycolate consists of lungs and air passages
4. Rubisco reacts with oxygen, leading to the responsible for transporting fresh air
formation of glycolate.Glycolate is converted to the respiratory sites. Nostrils, nasal
into glycine in peroxisomes, then further
cavities, pharynx, larynx, trachea,
metabolized into serine and carbon dioxide
in mitochondria.
bronchi, bronchioles, and alveolar
ducts form the air passageways
COMPARISON WITH CALVIN leading to the alveolar sac.
2. Pharynx is a muscular passage
CYCLE
directing air from the nasal cavity to
Photorespiration utilizes ATP and NADPH, similar
to the Calvin-Benson cycle, but in reverse. It the larynx.Larynx houses vocal cords
releases carbon dioxide instead of fixing it into and has a protective function during
carbohydrates. swallowing.
3. The trachea or windpipe extends into
IMPACT OF ENVIRNMENTAL bronchi, progressively dividing into
CONDITINS smaller bronchioles.
4. Each bronchiole leads into air-sacs, the
Photorespiration increases on hot and dry days
functional units of the lungs, which
due to stomatal closure, leading to elevated
oxygen levels and reduced carbon dioxide levels contain alveoli for gas exchange.
inside leaves. 5. Lungs, spongy organs containing
millions of alveoli, are enclosed in the
chest cavity and covered by pleura, a
SIGNIFICANCE
double-layered membrane.
While photorespiration reduces photosynthesis
and is not essential for plant growth, it persists
due to the dual-binding nature of rubisco,
evolved when oxygen levels were lower in the
atmosphere.

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GASEOUS EXCHANGE
MECHANICS OF VOLUNTARY FACTORS EFFECTING
AND INVOLUNTARY HEMOGLOBIN OXYGEN BINDING
REGULATION OF BREATHING IN Carbon Dioxide
MAN Increased carbon dioxide pressure decreases
oxygen tension and reduces hemoglobin's
Breathing involves two phases
capacity to hold oxygen.
Inspiration (inhalation) and expiration
Temperature
(exhalation), rhythmically occurring at 15 to
Elevated temperature decreases blood's
20 times per minute during rest.
oxygen-carrying capacity, notably during
Inspiration brings fresh air into the lungs,
increased muscular activity.
while expiration expels air with high carbon
pH
dioxide content.
Blood pH influences oxygen binding to
Note:
hemoglobin, with decreased pH leading to
Surfactant deficiency in premature infants can
decreased oxygen binding due to increased
lead to respiratory d