Integumentary System

Question 1

4 types of tissues

Answer 1

1. Epithelial
2. Connective
3. Nervous
4. Muscle

Question 2

What are the two different types of intercellular attachment categories and junctions in each category?

Answer 2

1. Communicating junctions (gap)
2. Adhering junctions (tight, desmosome, plasmodesmata???)

Question 3

What are the functions of the integumentary system?

Answer 3

1. Protects the body
2. Communication (blushing, coloring, warning)
3. Vitamin D synthesis

Question 4

What does the integumentary system protect the body from?

Answer 4

pathogens, abrasions, uv radiation, desiccation

Question 5

What do gap junctions do?

Answer 5

Allow rapid communication - link cytoplasm of one cell to another with connexin channel proteins (found in heart)

Question 6

What do tight junctions do?

Answer 6

Limit transportation - proteins fuse plasma membranes together, intercellular space sealed shut - like pants pockets/seam (found in blood-brain barrier and intestinal/bladder cells)

Question 7

What do desmosomes do?

Answer 7

Relates to the cytoskeleton which keeps structure of the cell - form strong cohesive tissue from falling apart - strongest of all attachments (skin) (gutter rivet)

Question 8

Define desiccation

Answer 8

drying out

Question 9

Do fish have a keratinized epidermis? Why or why not?

Answer 9

Fish lack a keratinized epidermis because they live in the water

Question 10

What are the 2 types of unicellular epithelial glands in fish?

Answer 10

1. Club cells - secrete alarm chemicals (a school of fish one is eaten the others hide)
2. Goblet/mucus cells - secrete mucin (reacts with water to make mucous)

Question 11

What are the two types of fish scales?

Answer 11

1. dermal bony scales (Actinopterygii)
2. placoid scales (Chondrichthyes)

Question 12

Compare and contrast types of fish scales

Answer 12

Dermal bony: scale does not pierce epidermis - scales are completely covered by tissue - none is exposed to outside environments in Actinopterygii

Placoid scales: scales and teeth form from the dermis - scales pierce epidermis - (sharks and Chondrichthyes

Question 13

Is the keratinized epidermis the same across species?

Answer 13

No. Fish do not have a keratinized epidermis and the thickness will fluctuate through species (amphibians have thinner)

Question 14

What 3 parts make up the cytoskeleton?

Answer 14

1. microtubules
2. actin
3. intermediate filaments

Question 15

What is a hemidesmosome and where is it located?

Answer 15

Located on the basement membrane - it attaches to cytoskeleton of epidermis but connective tissue on basement membrane

Question 16

What is the benefit of the mucous cuticle?

Answer 16

1. hydrodynamics (maneuver through water)
2. pathogens (protective keep out bacteria)
3. repugnant chemicals

Question 17

What gives the shark the ability to move without wrinkling and not taut skin?

Answer 17

helical cross-fibering of collagen

Question 18

What are the two layers of shark skin?

Answer 18

1. stratum laxum (little collagen)
2. stratum compactum (packed dense compact collagen)

Question 19

What is the amount of glands and keratinization in amphibians?

Answer 19

1. low keratinization to the epidermis
2. glandular secretions to keep skin moist
3. no dermal scales

Question 20

How does Eastern newt skin vary?

Answer 20

Aquatic larvae - active mucus glands - no keratinization
Terrestrial juvenile - moderate keratinization (turn red)
Aquatic adult - weak keratinization - active mucus glands

Question 21

What organisms (fish/amphibians) have unicellular glands and what have multicellular?

Answer 21

fish = unicellular (goblet)
amphibian = multicellular (poison)

Question 22

What are the 2 layers of amphibian epidermis?

Answer 22

1. stratum corneum (thin)
2. stratum basale (layer of epidermis that does mitosis)

Question 23

What is a xeric habitat?

Answer 23

dry habitat

Question 24

What is ecdysis and what triggers it?

Answer 24

shedding of reptile skin all at once triggered by ecdysone (hormone)

Question 25

What are the steps of ecdysis:

Answer 25

1. stratum basale grows a new epidermis
2. lysosomes trigger autolysis - sep old layer from new
3. new layer is now exposed
   (all triggered by ecdysone)

Rest -> Renewal -> Shed -> Repeat

Question 26

What is an example of a reptile integumentary gland?

Answer 26

femoral scent glands of lizards (fence lizards)

Question 27

Layers of bird epidermis:

Answer 27

1. stratum corneum (weak)
2. transitional layer
3. stratum basale

Question 28

Compare and contrast body/wing of chicken/bird vs. legs

Answer 28

The body of a bird is weakly cornified (any area covered with feathers) vs. the increased cornified epidermal scales on the legs

Question 29

What are the 2 types of bird glands?

Answer 29

1. uropygial gland
2. salt glands

Question 30

Uropygial gland

Answer 30

oil gland right above tail feathers - used in preening - move lipid wax all over feathers which causes water to roll off back

Question 31

Salt glands

Answer 31

are found in marine birds - excretes excess salt - located by eye

Question 32

What are the 2 mechanisms of bird coloration?

Answer 32

1. pigment with chromatophores
2. structural coloration ( light reflectance)

Question 33

Where are the chromatophores located?

Answer 33

stratum basale & dermis

Question 34

List the 4 types of pigments of birds and their chromatophores and color:

Answer 34

1. carotenoids - erythrophores - red
2. carotenoids - xanthophore - yellow
3. phaeomelanin - melanophore - brown
4. eumelanin - melanophore - black

Question 35

What causes a flamingo to turn pink?

Answer 35

flamingos are born white, but they receive dietary carotenoids from the food they eat which get embedded in feathers

Question 36

What are some birds that use structural coloration?

Answer 36

hummingbird, peacock, starling

Question 37

How is a bird white?

Answer 37

they do not have chromatophores - all light is reflected

Question 38

What makes birds blue?

Answer 38

There is no blue pigment - it is structural coloration - feathers are actually brown - blue wavelengths are reflected through light

Question 39

Structural formation of blue feather structure

Answer 39

1. keratin cortex
2. spongy layer (big air space)
3. black melanin layer

Question 40

Layers of mammal integument skin

Answer 40

1. epidermis
2. dermis
3. hypodermis (subcutaneous level)

Question 41

What does the hypodermis consist of?

Answer 41

1. adipose cells (insulation)
2. arteries & veins (run along boundary of dermis)
3. sensory nerve fibers
4. areolar connective tissue

Question 42

Areolar connective tissue

Answer 42

“packing tissue” of body - holds material in place

Question 43

What does transdermal mean and what is an example of this?

Answer 43

across the dermis - nicotine patches (quit smoking)

Question 44

What are the 2 layers of the mammal dermis and what is the thickness of each?

Answer 44

1. papillary layer (thin)
2. reticular layer (thick)

Question 45

What is the total thickness of the average dermis?

Answer 45

1-2 mm thick

Question 46

What is in the papillary layer?

Answer 46

areolar connective tissue, sensory neurons, capillaries

Question 47

What is in the reticular layer?

Answer 47

mesh of collagen (gives structure)
elastin (gives flexibility)

Question 48

What is the role of papillary capillaries?

Answer 48

blushing, cooling off (thermoregulation) - sends blood close to the surface to expel heat

Question 49

What kind of immune activity is in the dermis?

Answer 49

macrophages destroy pathogens

Question 50

Where is the attachment of dermis & epidermis?

Answer 50

basement membrane

Question 51

How many layers is the basement membrane and what are they?

Answer 51

2 - basal lamina (top) & reticular lamina (bottom)

Question 52

What are the layers of the epidermis?

Answer 52

1. stratum corneum
2. stratum lucidum
3. stratum granulosum
4. stratum spinosum
5. stratum germinativum/basale

Question 53

What epidermal layer is in mammal thick skin only?

Answer 53

stratum lucidum (most likely not actual layer)

Question 54

Which epidermal layer in mammals is mitotically active?

Answer 54

stratum germinativum/basale

Question 55

What are the cells found w/in the mammal epidermis?

Answer 55

1. Keratinocytes
2. Melanocytes
3. Langerhans cells
4. Merkel cells

Question 56

Stratum germinativum

Answer 56

runs up and down papillae (1 cell thick - makes new cells predominately keratinocytes - also melanocytes and Merkel cells

Question 57

Stratum spinosum

Answer 57

primarily keratinocytes - there are some melanocyte processes and Langerhans cells - it is spiny because stain causes cells to desiccate and shrink

Question 58

Stratum granulosum

Answer 58

1. cells are starting to die
2. organelles diseintegrate
3. plasma membrane thickens
4. cells flatten
5. secrete lipids

grainy look comes from keratohyalin granules that link keratin protein fibers by cross-linkage

Question 59

Stratum corneum

Answer 59

1. dead keratinocytes full of keratin fibers
2. dry surface unsuitable for many bacteria
3. limits transepidermal water loss

• what we see

Question 60

What are three accessory structures in the integument?

Answer 60

1. hair
2. sebaceous glands
3. sweat glands

Question 61

What are all the sweat gland types:

Answer 61

1. apocrine (2 types: ceruminous & mammary)
2. eccrine (aka merocrine)

Question 62

Sebaceous gland

Answer 62

moisturizes hair with oily secretion of sebum goes to hair shaft

• holocrine secretion
• arrector pili contraction squeezes gland and sebum secreted onto hair & skin
• keeps hair from being brittle
• inhibits bacterial growth

Question 63

Which type of secretion do apocrine & eccrine glands use?

Answer 63

apocrine & eccrine

Question 64

Which type of secretion do sebaceous glands use?

Answer 64

holocrine

Question 65

What two glands are on the hair shaft?

Answer 65

sebaceous & apocrine

Question 66

Eccrine/Merocrine sweat glnds

Answer 66

cause sweating - highly dense lots on hand sand feet which is beneficial for grip.

• merocrine secretion using myoepithelial cells
• watery secretion released onto skin

Question 67

What are two examples of myoepithelial contraction in glands?

Answer 67

1. mouth when eating something sour (lemon)
2. milk letdown

Question 68

Apocrine sweat glands

Answer 68

• used for communication
• dense on genitalia, belly button, breast, armpits
• merocrine secretion using myoepithelial cells
• viscose, lipid-rich flid
• release onto hair shaft
• onset at puberty

Question 69

Two examples of apocrine sweat glands

Answer 69

1. ceruminous glands
2. mammary glands

Question 70

Ceruminous glands

Answer 70

• only in external auditory canal
• secretions with sebum to form cerumen

Question 71

Functions of cerumen:

Answer 71

Ear wax
1. antibiotic & antifungal properties
2. traps dirt, dust, debris

Question 72

Functions of arrector pili muscle:

Answer 72

1. communication (goose bumps, hair standing up when scared to look threatening)
2. conserve heat when cold ( arrected hairs trap air and body heat warm up)

Question 73

What is epidermal invagination

Answer 73

the epidermis is pushed way down deep into dermis (hair matrix - as mitosis occurs cells continue to be pushed upwards)

Question 74

What are the “composite-like” components of a hair?

Answer 74

1. cuticle (flattened cells full of keratin - outer)
2. cortex - cells with stiff keratin fibers
3. medulla - cells with soft, flexible keratin fibers

Question 75

What are split-ends?

Answer 75

The cuticle wears away and the rods of the medulla frizz out (like a broken frayed wire)

Question 76

What causes different hair colors?

Answer 76

melanocytes in cortex

Question 77

What are the different melanocytes and what colors do they form in hair?

Answer 77

1. phaeomelanin (red, yellow)
2. eumelanin (brown, black)

Question 78

Compare albinism & melanism:

Answer 78

albinism- highly reduced melanin production
melanism - increased melanin production (black squirrels)

Question 79

Melanosome transfer contrasts in different skin colors (layers)

Answer 79

1. light-skinned (stratum spinosum, stratum basale)
2. dark-skinned (stratum granulosum, stratum spinosum, stratum basale)

Question 80

What is different about dark-skinned melanocytes?

Answer 80

larger and more active not more in quantity

Question 81

What is the vitamin D-folate hypothesis?

Answer 81

Too little - vitamin d synthesis - rickets
Too much - folic acid destruction - male sterility

Question 82

What are 4 things that happen to aging skin?

Answer 82

1. less active stratum basale (epidermis thins, prone to infections)
2. eccrine sweat glands less active (reduced thermoregulation)
3. melanocyte activity declines (pale skin, hair turns white/gray)
4. reduced subQ fat & blood thinners (facilitate easy bruising)