Histology

Question 1

What is Histology?

Answer 1

The study of tissues

Question 2

What is the importance of tissues

Answer 2

Increase the efficiency of an organism by division of work

Question 3

What are the characteristics of cells in a tissue?

Answer 3

• Generally share a similar origin in the embryo
• They may be of same type or of different type
• Share a similar function
• They are physically linked

Question 4

What is an organ?

Answer 4

A number of tissues working together as a functional unit

Question 5

What is a system?

Answer 5

A functional unit of organs

Question 6

List plant tissues

Answer 6

• Parenchyma
• Collenchyma
• Schlerenchyma
• Xylem
• Phloem

Question 7

List animal tissues

Answer 7

• Epithelial tissues
• Connective tissues
• Muscle tissues
• Nervous tissues

Question 8

What is the most common characteristic of all parenchyma?

Answer 8

They are living tissues

Question 9

Describe the structure of parenchyma

Answer 9

• The cells are living
• The cells are roughly spherical or elongated
• The cells have thin cellulose cell walls
• The cells have a large central vacuole
• The cytoplasm and nucleus of the cells are peripheral
• Made up of tightly packed cells
• The cells have large intercellular spaces
• It is made up of one type of cell

Question 10

Give the functions of parenchyma

Answer 10

-Provide support to the plant
-Gaseous exchange
-Store food
-Exchange materials eg water, oxygen, carbon dioxide etc
-Allow growth of the plant
-Passage of water and mineral salts

Question 11

Give the adaptations of the parenchyma to its function

Answer 11

1. The cells have thin, permeable cell walls that allow exchange of mater eg water, mineral salts, glucose, oxygen and carbon dioxide etc
2. The cells are closely packed giving them mechanical strength which provides support to the plant
3. The cells have a concentrated central vacuole which is osmotically active thus providing support via turgidity in herbaceous plants
4. The large central vacuole of the cells provides adequate space for food storage in the plant
5. The cells have numerous large intercellular spaces making it suitable for gaseous exchange
6. The parenchyma is made up of unspecialized cells thus it can perform a variety of functions
7. Parenchyma is made up of living cells which allows growth
8. The parenchyma are tightly packed which enables them to act as packing tissue in plants

Question 12

Where is parenchyma tissue found?

Answer 12

• Rays in woods
• Cortex
• Packing tissue in xylem and phloem
• Pith

Question 13

Describe the structure of the epidermis

Answer 13

• One cell thick
• Living
• Cells are elongated
• Cells are flattened
• Tightly packed cells
• Transparent
• Has a waxy cuticle; a waterproof layer of cutin

Question 14

What are the functions of the epidermis as a modified parenchyma?

Answer 14

• Protection of the plant from desiccation and infection
• Allow light to reach the palisade cells for photosynthesis

Question 15

What name is given to the layer of cells that replaces the epidermis when it wears out?

Answer 15

Cork layer/ cork cells

Question 16

Describe the structure of the guard cells

Answer 16

• Have pores called stoma
• Contain chloroplasts
• Occur in pairs
• Each cell is bean shaped
• Inner layer is thicker than outer layer

Question 17

What are the functions of the guard cells as modified parenchyma?

Answer 17

• Control the opening and closing of the stomata
• Allow gaseous exchange
• Control transpiration
• Site for photosynthesis

Question 18

Where are guard cells found?

Answer 18

• Leaf epidermis
• Stems especially herbaceous

Question 19

Describe the structure of hair like extensions

Answer 19

• Unicellular or multicellular
• May be hooked

Question 20

What are the functions of the hair like extensions as modified parenchyma?

Answer 20

• Aid in seed dispersal
• Absorb water and mineral salts for plants
• Reduce water loss
• Protection
• Promote cross pollination
• Feeding in carnivorous plants

Question 21

Where are hair like extensions found?

Answer 21

• Roots
• Climbing plants

Question 22

Describe the structure of the glandular cells

Answer 22

• May be hair like
• Have glands

Question 23

What are the functions of the glandular cells as a modified parenchyma?

Answer 23

• Secretion of sticky substances
• Secrete enzymes for digestion and absorption of food in insectivorous plants

Question 24

Where are glandular cells found?

Answer 24

• Insectivorous/ carnivorous plants

Question 25

Describe the general structure of the mesophyll cells

Answer 25

• Roughly spherical or irregular
• Two layers (palisade above and spongy below)

Question 26

Describe the structure of the palisade mesophyll

Answer 26

• Numerous chloroplasts
• Tightly packed
• Regularly shaped

Question 27

What is the function of the palisade layer in plants?

Answer 27

• Stores starch
• Mechanical support

Question 28

Describe the structure of the spongy mesophyll

Answer 28

• Many intercellular spaces
• Irregularly shaped cells
• Few chloroplasts

Question 29

What is the function of the spongy layer in plant leaves?

Answer 29

• Sites for gaseous exchange

Question 30

Describe the structure of chlorenchyma

Answer 30

• Living
• Contain numerous chloroplasts

Question 31

What are the functions of the chlorenchyma?

Answer 31

• Carry out photosynthesis

Question 32

Where are chlorenchyma found?

Answer 32

• Palisade mesophyll
• Outer regions of the cortex

Question 33

Describe the structure of the endodermis

Answer 33

• Living
• May be elongated and flattened

Question 34

What are the functions of the endodermis?

Answer 34

• Selective barrier to the movement of water and mineral salts between the cortex and xylem in roots
• Responsible for geotropic responses in roots
• Store starch grains
• Suberin maintains one-way flow of water from the roots to the stem

Question 35

Where is the endodermis found?

Answer 35

• Most conspicuously in roots
• Innermost layer of the cortex

Question 36

Describe the structure of the pericycle

Answer 36

• Living

Question 37

What are the functions of the pericycle?

Answer 37

• Produces lateral roots
• Contributes to secondary growth

Question 38

Where is the pericycle found?

Answer 38

• Only in roots

Question 39

Describe the structure of companion cells

Answer 39

• Living
• Have numerous mitochondria
• Living
• Elongated and narrow
• Small vacuoles
• Dense cytoplasm
• Adjacent to sieve tubes

Question 40

What are the functions of the companion cells?

Answer 40

• Load food into the phloem

Question 41

Where are companion cells found?

Answer 41

• Adjacent to sieve tubes

Question 42

Describe the structure of collenchyma

Answer 42

• Living
• Cell walls are unevenly thickened with cellulose
• End walls tapper
• Elongated cells
• Polygonal shaped cells
• Tightly packed cells
• Large central cell vacuoles

Question 43

What are the functions of the collenchyma cells?

Answer 43

• Provides mechanical support

Question 44

Where are collenchyma cells found?

Answer 44

• Outer regions of the cortex
• Young plants (herbaceous)

Question 45

Describe the structure of sclerenchyma

Answer 45

• Mature cells are dead
• Empty lumen
• Lignified
• Uniformly thickened walls
• Interlocking cells
• Consist of fibres and sclereids

Question 46

Describe the structure of fibres

Answer 46

• Elongated
• Lignified
• Have pits
• Tapering interlocking cells
• Polygonal shaped
• Form strands

Question 47

Describe the structure of sclereids

Answer 47

• Roughly spherical
• Narrow lumen

Question 48

What are the functions of the sclerenchyma?

Answer 48

• Support

Question 49

Describe the structure of xylem

Answer 49

• Made up of parenchyma, tracheids, vessels, fibres
• Elongated cells
• Cells are joined end to end
• Cells are dead
• Tubes are hollow/ tubular
• Lignified
• Bordered pits
• Narrow lumen

Question 50

State the functions of xylem

Answer 50

• Conduct water and mineral salts
• Provide support

Question 51

What is the use of a torus in conifers?

Answer 51

• Controls entry and exit of water between the cells

Question 52

Describe the structure of tracheids

Answer 52

• Arranged in rows with overlapping ends
• Elongated cells
• Empty lumen
• Cells are dead
• Tubes are hollow/ tubular
• Lignified
• Bordered pits
• Narrow lumen

Question 53

Describe the structure of vessels

Answer 53

• Long and tubular
• Empty lumen
• Lignified
• Perforated
• End walls are broken down
• Cylindrical shape

Question 54

Describe the structure of fibres

Answer 54

• Shorter
• Narrow
• Thicker walls
• Pits
• Overlapping end walls
• Dead

Question 55

Describe the structure of phloem

Answer 55

• Living cells
• Elongated
• Tubular

SIEVE TUBES
- Narrow
- Have strands of cytoplasm
- Mature sieve tubes lack a nucleus
- Elongated
- Sieve pores at their end walls
- Have sieve plates

COMPANION CELLS
- Dense cytoplasm
- Thin cellulose cell walls
- Metabolically active
- Numerous mitochondria
- Small vacuoles
- Elongated
- Narrow
- Adjacent to sieve tubes
- Numerous plasmodesmata

Question 56

State the functions of phloem

Answer 56

• Transport of food throughout the plant

Question 57

Give the similarities between the xylem and phloem

Answer 57

• Both are conducting tissue
• Both are elongated
• Both exist as parenchyma
• Both are perforated
• Both exist as fibres
• Both are tubular

Question 58

Give the differences between xylem and phloem

Answer 58

XYLEM
- Conducts water and mineral salts
- Consist of mostly lignified
- Movement is from the roots upwards to the rest of the plant
- Cells are dead when mature
- Does not require energy to transport materials

PHLOEM
- Transports organic material
- Cells are not lignified
- Movement is from the leaves throughout the plant
- Cells are alive when mature
- Requires energy to transport materials

Question 59

What are meristematic tissues?

Answer 59

Group of cells that retain the ability to divide by mitosis

Question 60

Where are meristematic tissues located?

Answer 60

Apical growing points of plants

Question 61

Describe the structure of meristematic tissues

Answer 61

• Small cells
• Thin walled
• Undifferentiated plastids
• Living

Question 62

What is the function of meristematic tissues?

Answer 62

Lead to primary and secondary growth of the plant

Question 63

Describe the structure of epithelial tissue

Answer 63

• Arranged in single or multi layered sheets
• Rest on a basement membrane
• Some are thick and keratinized

Question 64

Give the general functions of epithelial tissue

Answer 64

• Protection
• Reception of stimuli
• Absorption
• Secretion
• Excretion

Question 65

Describe the structure of squamous epithelia

Answer 65

• One cell thick
• Rest on a basement membrane
• Flattened cells
• Nucleus bulges
• Centrally placed nucleus
• Edges of the cells are irregular

Question 66

Where are squamous epithelia located?

Answer 66

• Alveoli of the lungs
• Blood capillaries (called the endothelium here)
• Renal capsules

Question 67

Give functions of squamous epithelia

Answer 67

• Permit diffusion of materials
• Passage of fluids through hollow structures

Question 68

Describe the structure of cuboidal epithelia

Answer 68

• One cell thick
• Rest on a basement membrane
• Roughly cube-shaped
• Centrally placed nucleus
• Free surface may be highly folded into microvilli

Question 69

Where are cuboidal epithelia located?

Answer 69

• Lining of ducts
• Lining of proximal and distal convoluted tubules and collecting ducts of kidney
• Sweat glands
• Thyroid glands

Question 70

Give functions of cuboidal epithelia

Answer 70

Aid secretion (but they are non-secretory as they do not have glands)

Question 71

Which is the least specialized of all epithelia?

Answer 71

Cuboidal epithelia

Question 72

Describe the structure of columnar epithelia

Answer 72

• One cell thick
• Rest on a basement membrane
• Cells are columnar
• Basal nucleus
• Have goblet cells

Question 73

Where are columnar epithelia located?

Answer 73

• Stomach lining
• Intestinal lining
• Lining of the kidney ducts
• Thyroid gland

Question 74

Give functions of columnar epithelia

Answer 74

• Secretion
• Absorption
• Protection
• Lubrication

Question 75

Describe the structure of ciliated epithelia

Answer 75

• One cell thick
• Rest on a basement membrane
• Columnar in shape
• Associated with goblet cells

Question 76

Where are ciliated epithelia located?

Answer 76

• Lining of the oviducts
• Ventricles of the brain
• Spinal canal
• Respiratory passages
• Body of paramecia
• Underside of flatworms

Question 77

Give functions of ciliated epithelia

Answer 77

• Secretion
• Movement
• Locomotion
• Trap dust in the nose

Question 78

Describe the structure of pseudo stratified epithelia

Answer 78

• One cell thick
• Rest on a basement membrane
• Have false layers
• Have goblet cells
• Nuclei are at different levels

Question 79

Where are pseudo stratified epithelia located?

Answer 79

• Urinary tract
• Respiratory passages

Question 80

Give functions of pseudo stratified epithelia

Answer 80

• Prevent escape of urine
• Trap dust and foreign bodies

Question 81

Describe the structure of glandular epithelia

Answer 81

• One cell thick
• Rest on a basement membrane
• Have goblet cells
• Folded

Question 82

Where are glandular epithelia located?

Answer 82

• Lining of intestine
• Glands

Question 83

Give functions of glandular epithelia

Answer 83

• Secretion
• Lubrication

Question 84

Simple saccular glands would be found where?

Answer 84

Mucus gland in the skin of amphibia like frogs

Question 85

Simple tubular glands would be found where?

Answer 85

Crypts of Leiberkühn in the wall of the small intestines

Question 86

Coiled tubular glands would be found where?

Answer 86

Sweat glands in the skin of humans

Question 87

Simple branched tubular glands would be found where?

Answer 87

Brunner’s glands in the small intestine
Gastric glands in the wall of the stomach

Question 88

Simple branched saccular glands would be found where?

Answer 88

Sebaceous glands in mammals

Question 89

Compound tubular glands would be found where?

Answer 89

Salivary glands

Question 90

Compound saccular glands would be found where?

Answer 90

Part of the pancreas that secretes digestive enzymes
Mammary glands

Question 91

What is a gland?

Answer 91

A group of cells modified to synthesize and release secretions

Question 92

Define endocrine glands and state an example.

Answer 92

These are ductless glands that release secretions directly into blood

Examples; Pituitary gland, Ovary, Testes

Question 93

Define exocrine glands and state an example.

Answer 93

These are glands that have a duct

Examples; Sweat glands, Tear glands, Mammary glands, Pancreatic glands

Question 94

Describe merocrine secretion and give examples of glands that make use of it.

Answer 94

• Secretory products are made
• Packaged in vesicles
• Move to the free surface
• Fuse with cell membrane and release secretions by exocytosis

Examples include; mucus glands, sweat glands, salivary glands, pancreas

Question 95

Describe apocrine secretion and give examples of glands that make use of it.

Answer 95

• Secretory products are made
• Accumulate near the free surface
• Secretory parts and parts of the cell break away or pinch off

Examples include; mammary glands

Question 96

Describe holocrine secretion and give examples of glands that make use of it.

Answer 96

• Secretory products are made
• Accumulate
• Secretory parts burst and release its contents

Examples include; sebaceous gland

Question 97

Describe the structure of stratified epithelia

Answer 97

• Number of layers of cells
• Rest on a basement membrane
• Has a germinal layer
• Thicker than simple epithelia
• First formed cells are cuboid shaped
• Cells become flattened as they are pushed towards the free surface (squames)
• May be keratinized

Question 98

Where are stratified epithelia located?

Answer 98

• Oesophagus (stratified squamous)
• Mammary gland ducts (Stratified columnar)
• External skin surfaces
• Lining of the mouth
• Vagina (cornified)
• Sweat gland ducts (Stratified cuboidal)
• Bladder (stratified transitional)

Question 99

Give functions of stratified epithelia

Answer 99

• Protection from mechanical damage
• Protection against abrasion

Question 100

Describe the structure of transitional epithelia

Answer 100

• 3-4 of layers of cells
• Rest on a basement membrane
• Has a germinal layer
• Thick
• Cells are of similar size and shape
• Cells are more flattened at the free surface

Question 101

Where are transitional epithelia located?

Answer 101

• Bladder
• Ureter
• Pelvic region of the kidney

Question 102

Give functions of transitional epithelia

Answer 102

• Prevention of escape of urine
• Allow organs stretch prevent them from rupturing

Question 103

Give differences between stratified epithelia and transitional epithelia

Answer 103

STRATIFIED
- May be cornified
- Has a germinal layer

TRANSITIONAL
- Not cornified
- Does not have a germinal layer

Question 104

Describe the structure of areolar tissue

Answer 104

• Have a jelly- like matrix
• Matrix is made of glycoproteins
• Have four cells; mast, fat, macrophage, fibroblasts
• Cells are widely spread
• Macrophage are large and amoeboid shaped
• Fibroblasts are large, long and flat
• Mast cells have a centrally located nucleus
• Have collagen and elastin fibres
• Elastin is highly branched
• Elastin is elastic
• Collagen occurs in bundles
• Collagen is unbranched
• Collagen is non-elastic

Question 105

What is the use of mast cells?

Answer 105

Secrete an anticoagulant that prevents clotting of blood

Question 106

What do fibroblasts in areolar tissue do?

Answer 106

Produce collagen and elastin fibres

Question 107

What does the ground substance in areolar tissue do?

Answer 107

This is where the fibres and cells are embedded

Question 108

What do macrophages in areolar tissue do?

Answer 108

Defends the body against disease

Question 109

What do fat cells in areolar tissue do?

Answer 109

Stores fat

Question 110

Where is areolar tissue found?

Answer 110

• Between adjacent tissues
• Beneath the skin
• Connecting organs together

Question 111

Give functions of areolar tissue

Answer 111

• Packing tissue/ supporting tissue
• Binds organs and tissues together
• [Functions of individual cells]

Question 112

Describe the structure of the two types of fibrous connective tissue

Answer 112

WHITE FIBROUS TISSUE
- Has collagen bundles
- Has glycoprotein matrix
- High tensile strength
- Flexible but inelastic
- Non-living
- Forms a triple helix
- Chains are interlinked by hydrogen bonds

YELLOW ELASTIC TISSUE
- Has elastin fibres
- Elastic
- Has a glycoprotein matrix
- Non-living

Question 113

Where is white fibrous tissue found?

Answer 113

• Tendons
• Ligaments
• Outer surface of the eye

Question 114

Where is yellow elastic tissue found?

Answer 114

• Walls of arteries
• Alveoli of lungs
• Ligaments

Question 115

What are the functions of fibrous tissue?

Answer 115

GENERAL
- Bind bones together
- Bind bones to muscles

WHITE FIBROUS
- Bring about movement
- Allows flexibility

YELLOW ELASTIC
- Allow stretching of organs

Question 116

Describe the structure of adipose tissue (fatty tissue)

Answer 116

• Cells have a single large fat droplet
• Peripheral cytoplasm and nucleus
• Cells are closely packed

Question 117

Where is adipose tissue found?

Answer 117

• Dermis of the skin
• Around the kidney
• Around the heart

Question 118

Give functions of adipose tissue

Answer 118

• Acts as an energy store
• Insulation against heat loss
• Shock absorber

Question 119

Give the functions of skeletal tissue

Answer 119

• support
• Rigid framework for the body
• Formation of blood cells
• Movement
• Attachment site for muscles
• Protect internal organs

Question 120

Describe the structure of cartilage

Answer 120

• Hard
• Flexible
• Matrix is compressible
• Matrix is elastic
• Chondrin matrix
• Chondroblasts embedded in the matrix
• They secrete the chondrin
• Has collagen
• Chondroblasts enclosed in spaces called lacunae become chondrocytes

Question 121

Give functions of cartilage

Answer 121

• Connective tissue
• Absorbs mechanical shocks
• Resists tension
• Reduces friction between bones
• Allows flexibility

Question 122

Describe the structure that is unique to hyaline cartilage

Answer 122

• Semi-transparent matrix
• Chondrocytes near periphery are flattened
• Chondrocytes situated internally are angular
• Shiny or glassy

Question 123

Where is hyaline cartilage found?

Answer 123

• Respiratory system
• Skeleton of cartilaginous fish
• Embryonic skeleton
• End of bones and nose

Question 124

What is the function of hyaline cartilage?

Answer 124

• Keeps open the air passages of the respiratory system
• Forms the skeleton of cartilaginous fish
• Forms embryonic skeleton

Question 125

Describe the structure that is unique to yellow elastic cartilage

Answer 125

• Semi-opaque matrix
• Matrix contains a network of yellow elastic fibers
• More elastic than hyaline cartilage
• More flexible than hyaline cartilage

Question 126

Where is yellow elastic cartilage found?

Answer 126

• External ear
• Epiglottis
• Pharynx

Question 127

What is the function of yellow elastic cartilage?

Answer 127

• Confer elasticity and flexibility

Question 128

Describe the structure that is unique to white fibrous cartilage

Answer 128

• Bundles of white collagen fibres embedded in the matrix

Question 129

Where is white fibrous cartilage found?

Answer 129

• Intervertebral discs
• Symphysis pubis
• Ligaments

Question 130

What is the function of hyaline cartilage?

Answer 130

• Joins bones together
• Cushioning effect between vertebrae
• Provide tensile strength

Question 131

Describe the structure of bones

Answer 131

• Has calcified matrix
• Matrix is called the osteum
• Hard
• Tough
• Contains osteoblasts and osteocytes
• Osteoblasts are contained in lacunae
• Fine canals connect lacunae to each other
• Possess blood vessels

Question 132

What is the function of bones?

Answer 132

• Support
• Protection of internal organs
• Movement and locomotion
• Attachment sites for muscles

Question 133

Describe the structure that is unique to compact/ dense bone

Answer 133

• Matrix has collagen fibres
• Matrix has salts
• Cells called osteoblasts
• Tough and compact
• Consists of osteons
• Consists of numerous cylinder surrounding the canal
• Each cylinder is made up of layers called lamellae which are cylindrical
• Numerous lacunae between the lamellae
• Many fine channels called canaliculi radiate from each lacuna

Question 134

What is the function of compact bone?

Answer 134

• Support
• Firm base for tendon insertions
• Attachment of muscles

Question 135

Describe the structure that is unique to spongy bone

Answer 135

• Light
• Soft
• Few inorganic materials
• Consists of a meshwork of trabaculae
• Collagen fibers

Question 136

What is the function of spongy bone?

Answer 136

• Support
• Withstand compression forces

Question 137

State the differences between compact bone and spongy bone

Answer 137

COMPACT
- Tough and hard
- Lack trabaculae
- Have haversian canals
- Have periosteum
- Have lamellae
- Have more inorganic material

SPONGY
- Light and soft
- Have trabaculae
- Lack haversian canals
- Lack periosteum
- Lack lamellae
- Have less inorganic material

Question 138

What are the similarities of compact and spongy bone?

Answer 138

• Both contain collagen fibres
• Both have osteoblasts

Question 139

What are the differences between cartilage and bone?

Answer 139

CARTILAGE
- Flexible
- Have chondroblasts
- Compressible
- Has no blood vessels
- Has no bone marrow

BONE
- Rigid
- Have osteoblasts
- Incompressible
- Has blood vessels
- Has bone marrow

Question 140

State similarities between bone and cartilage

Answer 140

• Have lacunae
• Contain collagen fibres
• Both are hard
• Both have a matrix
• Both have dormant cells

Question 141

Give the general structure of muscle tissue

Answer 141

• Made up of muscle fibres
• Has actin and myosin filaments
• Blood supply is adjustable
• Dense capillary network
• Elastic

Question 142

What are the types of muscle tissue?

Answer 142

• Striated/Voluntary/ Skeletal muscle
• Unstriated/ Involuntary/ Smooth muscle
• Cardiac muscle

Question 143

Describe the structure of unstriated/ smooth muscle

Answer 143

• Cells have a single nucleus
• Fatigue slowly
• Unbranched cells
• Cells are unstriated/ unstriped
• Its action is involuntary
• Smooth
• Cells are tapered at the end

Question 144

Where may unstriated muscle tissue be found?

Answer 144

• Walls of the iris
• Uterine lining
• Blood vessels
• Lungs
• Gut and bladder

Question 145

What are the functions of unstriated muscle?

Answer 145

• Expulsion of the foetus from the uterus during parturition (birth)
• Protection of the eye by blinking
• Removal of wastes
• Regulate gas exchange
• Mix and move food in the gut
• Alter blood pressure by contracting and relaxing

Question 146

Describe the structure of cardiac muscle

Answer 146

• Cells have one or two nuclei
• Does not fatigue
• They are striated
• Its action is involuntary
• Many large mitochondria
• Have intercalated discs
• Have blood vessels
• Contain actin and myosin

Question 147

Where may cardiac muscle be found?

Answer 147

Only in the heart

Question 148

What are the functions of cardiac muscles?

Answer 148

• Aids contraction of the heart for pumping blood

Question 149

Describe the structure of striated/ skeletal muscle

Answer 149

• Cells have numerous nuclei
• Bundles of muscle fibre parallel to each other
• Muscle fibres are long and cylindrical
• Occur in pairs and are antagonistic
• Elastic
• Connected to motor neurons
• Have actin and myosin filaments
• Unbranched fibres
• Its action is voluntary
• Numerous mitochondria
• Elongated

Question 150

Where may striated muscle tissue be found?

Answer 150

• Limbs

Question 151

What are the functions of striated muscle?

Answer 151

• Movement
• They are effectors and respond to stimuli
• Have sarcoplasmic reticulum which is a reserve for calcium ions

Question 152

Describe the ratchet mechanism/ sliding filament mechanism

Answer 152

• Arrival of an impulse
• Release of calcium ions from the T-system
• Calcium ions bind with troponin
• Troponin dislodges tropomyosin exposing the myosin binding site
• The myosin head attaches to the binding site
• Using energy, myosin pulls actin
• Myosin head detaches from the binding site and attaches on a new binding site and pulls again
• The cycle is repeated until the muscle contracts
• Calcium ions are actively pumped back into the T-system by calcium pumps
• Tropomyosin closes up the binding site hence the muscle relaxes