Animal responses

Question 1

What’s the role of the nervous system?

Answer 1

to carry out rapid and well-coordinated responses to external stimuli

Question 2

components of the NS (PMAP)

Answer 2

CNS + PNS
|
SENSORY + MOTOR
|
SOMATIC + AUTONOMIC
|
SYMP + PARASYMPATHETIC

Question 3

what are the two divisions of the nervous system?

Answer 3

• peripheral nervous system
• central nervous system

Question 4

What are the two divisions of the peripheral nervous system?

Answer 4

• sensory system
• motor system

Question 5

what are the divisions of the motor system?

Answer 5

• somatic nervous system
• autonomic nervous system

Question 6

what’s the CNS

Answer 6

• the central part of the NS composed of the brain and spinal cord
• the brain contains mainly unmyelinated neurones (grey matter)
• also present in spinal cord however, there’s also lots of myelinated neurones (white matter)
• spinal cord protected by the vertebral column.

Question 7

define the PNS

Answer 7

• the sensory neurones (connecting sensory receptors to CNS)
• motor neurones (connecting CNS to effectors)

Question 8

what’s the sensory nervous system?

Answer 8

• sensory neurones conduct ac pots from sensory receptors into the CNS

Question 9

what’s the motor nervous system?

Answer 9

• conducts ac pots from CNS to effector

Question 10

describe the autonomic nervous system

Answer 10

• part of the NS responsible for controlling the involuntary activities which are sunbconsciously controlled
• there are at least 2 neurones involved in the connection between the CNS and effector. Connected at small swellings called ganglia
• neurones are unmyelinated as rapid response not needed
• controls majority of the homeostatic responses

Question 11

define the somatic nervous sytem

Answer 11

• Part of NS that controls voluntary activities under conscious control
• motor neurones are under conscious control
• one single neurone conducts ac pots from CNS to effectors under voluntary control (skeletal muscles)
• myelinated for rapid response

Question 12

what are the divisions and functions of the autonomic nervous system?

Answer 12

• sympathetic system which prepares body for activity
• parasympathetic system which conserves energy
• they’re antagonistic

Question 13

what are the four main parts of the brain?

Answer 13

• cerebrum
• cerebellum
• hypothalamus and pituitary gland
• medulla oblongata

Question 14

function of cerebrum?

Answer 14

• largest part
• has two hemispheres connected by the corpus callosum
• outer layer is the cerebral cortex
• organises most of our highest thought processes like conscious thought, memory, intelligence

Question 15

function of the cerebellum?

Answer 15

• coordinates movement and balance
• connected to the cerebrum by the pons

Question 16

function of the hypothalamus and pituitary gland?

Answer 16

• organises homeostatic responses (thermoregulation and osmoregulation)
• pituitary gland releases hormones and stimulate other glands, controlled by the hypothalamus

Question 17

function of the medulla oblongata?

Answer 17

• coordinates many autonomic responses (unconscious activities) like breathing and heart rate
• controls non-skeletal muscles

Question 18

what’s a reflex action?

Answer 18

• a response to a stimulus that doesn’t involve the brain to coordinate movement
• nervous pathway is short so that reflex is rapid

Question 19

why are reflexes important?

Answer 19

• used to get out of danger
• avoid damage to body part
• maintain balance

Question 20

what’s a knee jerk reflex?

Answer 20

• a spinal reflex (passes through spinal cord) that straightens the leg when the quadricep is stretched to maintain balance

Question 21

mechanism of knee jerk reflex

Answer 21

1) muscle spindles detect a stretch in the patellar tendon over the knee
2) sensory neurones conduct ac pot directly to a motor neurone in the spinal cord
3) motor neurone causes quadricep muscle to contract so the lower leg moves forward quickly, counteracting the change in length

Question 22

why is the knee jerk reflex unusual

Answer 22

only consists of 2 neurones, absence of relay neurone means the pathway can’t be inhibited

Question 23

what’s the blinking reflex?

Answer 23

a cranial reflex (passes through the brain) that causes temporary closure of the eyes from damage

Question 24

mechanism of the blinking reflex

Answer 24

1) loud sounds, bright lights, foreign objects or movement is detected by sensory receptors in the cornea of the eye
2) sensory neurones conduct ac pots to the pons (in brain)
3) a motor neurone transmits ac pots to the eyelid muscles
4) eyelids contract to cause blinking, protecting the eye

Question 25

what’s the mechanism corneal reflex?

Answer 25

• sensory neurone from the cornea conducts ac pot to relay neurone (in the pons) to motor neurone
• motor neurone conducts ac pot to the facial muscles and causes the eyelids to blink.
• sensory neurones also pass ac pots to myelinated neurones in the pons which carry it to the cerebral cortex
• this allows the reflex to be overridden by conscious control via inhibitory signals

Question 26

the brain coordinates responses through output to the effectors. What are the outputs? ( what comes after motor)

Answer 26

• action potentials in the somatic nervous system
• ac pots in the sympathetic and parasympathetic parts of the autonomic nervous system
• release of hormones via the hypothalamus and pituitary glands

Question 27

define ‘fight or flight’ response?

Answer 27

when an organism is threatened and it responds by preparing the body for action

Question 28

how is the fight or flight response coordinated?

Answer 28

1) inputs feed into the in the cerebrum
2) the cerebrum conducts signals to the association centres
3) if a threat is recognised, the cerebrum stimulates the hypothalamus
4) hypothalamus increases activity in the sympathetic nervous system by stimulating the release of hormones from the anterior pituitary gland

Question 29

How are prolonged responses achieved?

Answer 29

• by endocrine system
• sympathetic NS stimulates adrenal medulla to release adrenaline

Question 30

what are tropic hormones?

Answer 30

hormones released by the anterior pituitary gland that stimulate the activity of endocrine glands

Question 31

examples of hormones released by the hypothalamus

Answer 31

• corticotropin-releasing hormone (CRH)
• thyrotropin-releasing hormone (TRH)

Question 32

effects of CRH (corticotropin-releasing hormone)

Answer 32

causes release of ACTH (adrenocorticotropic hormone) which stimulates adrenal glands to release glucocorticoids which increases glycogenolysis

Question 33

effects of TRH (thyrotropin releasing hormone)

Answer 33

causes release of TSH (thyroid-stimulating hormone) which stimulates thyroid gland to release thyroxine which causes cells to increase their metabolic rate

Question 34

What’s stroke volume?

Answer 34

volume of blood pumped per heart beat

Question 35

what’s the role of the cardiovascular centre (in medulla oblongata)?

Answer 35

• alters the frequency of the waves of excitation from SAN
• nerves (part of the autonomic nervous system) from cardiovascular cenre supply the SAN.

Question 36

What’s the accelerans nerve?

Answer 36

ac pots sent down this sympathetic nerve causes release of noradrenaline (neurotransmitter) at SAN which increases heart rate

Question 37

What’s the vagus nerve?

Answer 37

nerve through which act pots pass through causing release of Ach which reduces heart rate

Question 38

What’s the role of stretch receptors in muscles?

Answer 38

• detect movement of the limbs
• sends impulses to cardiovascular centre informing it that more oxygen may be needed
• this leads to an increase in heart rate ( accelerams nerve involved)

Question 39

What are chemoreceptors ?

Answer 39

• receptors in the carotid arteries, aorta and brain that monitor pH of blood
• pH decreases (more acidic) during exercise, this is detected by chemoreceptors which send ac pots to CC which increases heart rate
• when exercise stops, conc of CO2 decreases which reduces activity of the accelerator pathway

Question 40

What’s the role of stretch receptors in the walls of the carotid sinus?

Answer 40

• monitor blood pressure, if it becomes too high ac pots sent to CC leading to decrease in heart rate

Question 41

how can heart rate be controlled artificially?

Answer 41

• artificial pacemaker which delivers electrical impulses to heart

Question 42

What’s cardiac muscle?

Answer 42

muscle found in the heart walls

Question 43

what’s involuntary muscle?

Answer 43

smooth muscle that contracts without conscious control

Question 44

what’s skeletal muscle?

Answer 44

muscle under voluntary control

Question 45

what do all muscles types have in common

Answer 45

• cells arranged to form fibres
• actin and myosin

Question 46

structure and function of involuntary (smooth) muscle

Answer 46

• STRUCTURE
• spindle shaped cells
• uninucleate and bundles of actin and myosin
• arranged in longitudinal and circular layers
• not striated
• FUNCTION
• contacts slowly and regularly
• found in digestive system and blood vessels
• controlled by the autonomic nervous system

Question 47

structure and function of cardiac muscle

Answer 47

• STRUCTURE
• striated but less than skeletal
• uninucleate
• FUNCTION
• myogenic
• cells form cross-bridges between fibres (helps ensure electrical stimulation spreads evenly over the walls of the chambers also ensures contraction is a squeezing action )
• cells joined by intercalated discs which allows diffusion of ions between cells and help in synchronised contraction
• doesn’t fatigue easily
• intermediate contraction speed

Question 48

structure and function of skeletal muscle

Answer 48

• STRUCTURE
• cells form fibres
• striated (due to actin and myosin)
• multinucleate
• cylindrical cells
• FUNCTION
• arranged in antagonistic pairs: one contracts, other elongates
• fatigues quickly
• rapid contraction
• its contraction causes movement
• skeletal muscle occurs at joints in the skeleton
• controlled by somatic NS

Question 49

what are myofibrils in skeletal muscle cells

Answer 49

• long cylindrical organelles which are divided into sarcomeres (basic functional unit of a fibre) which contain actin and myosin chains
• actin and myosin cause muscles to appear striated
• dArk bands = A bands
• lIghter bands = I bands

Question 50

what’s the specialised endoplasmic reticulum called in skeletal muscle cells

Answer 50

sarcoplasmic reticulum

Question 51

what’s the cytoplasm called in skeletal muscle cells

Answer 51

sarcoplasm which contains many mitochondria

Question 52

what’s the sarcolemma in skeletal muscle cells

Answer 52

the membrane each fibre (cell) is surrounded by

Question 53

bundles of myofibrils (which are muscle fibres) are surrounded by the…

Answer 53

sarcolemma

Question 54

what’s the neuromuscular junction?

Answer 54

junction between nervous sytem and muscle

Question 55

how is contraction of skeletal muscle stimulated?

Answer 55

• under voluntary control
• stimulated by somatic NS

1) ac pot arriving at end of axon opens Ca ion channels in membrane. Ca ions flood into the end of axon
2) vesicles of Ach move towards and fuse with the end membrane
3) Ach molecules diffuse across the gap and fuse with receptors in sarcolemma
4) this opens Na ion channels, allows them to enter muscle fibres causing depolarisation of sarcolemma
5) wave of depolarisation spreads along the sarcolemma and down t-tubules into muscle fibre

Question 56

What’s a motor unit?

Answer 56

when many motor neurones connect to several muscle fibres and cause them all to contract providing stronger contraction

Question 57

what are the two types of filament in myofibril ?

Answer 57

• thin filament which make up the light band, held together by Z line
• thick filaments which make up dark band
• both filaments surrounded by sarcoplasmic reticulum

Question 58

what’s the H zone

Answer 58

• the middle of the dark band where thick and thin filaments don’t overlap

Question 59

What’s the sarcomere

Answer 59

• distance between the two Z lines

Question 60

composition of thin filaments

Answer 60

• filaments are actin
• each consists of two chains of actin subunits twisted around each other
• tropomyosin wrapped around the actin, toponin attached to tropomyosin
• each troponin complex consists of 3 polypeptides: one binds to actin, one to tropomyosin, and the other to Ca when it’s available
• at rest, troponin and tropomyosin cover binding sites to which thick filaments can bind

Question 61

composition of thick filaments

Answer 61

• each filament consists of a bundle of myosin molecules.
• each myosin has two protruding heads which act as ATPase
• the heads are mobile and bind to actin when binding sites are exposed

Question 62

the sliding filament hypothesis

Answer 62

• during contraction, light band and H zone get shorter
• so Z lines move closer together and sarcomere gets shorter.
• thick and thin filaments slide past one another
• myosin (thick filaments) remains the same

Question 63

what are the main stages in muscle contraction

Answer 63

1. stimulation
2. attachment
3. detachment

Question 64

the mechanism of contraction

Answer 64

1) when muscle is stimulated, an ac pot passes along sarcolemma into the muscle fibre
2) ac pot is carried to the sarcoplasmic reticulum, which stores Ca ions, and causes the release of Ca ions into the sarcoplasm
3) Ca ions bind to troponin which alters its shape pulling the tropomyosin aside exposing binding sites on actin
4) myosin heads bind to actin, forming cross-bridges between the filaments
5) myosin heads move, pulling the actin filament past the myosin filament (power stroke), during this, ADP and Pi released from heads
6) new ATP molecule attaches to head, breaking cross-bridge, myosin heads detach from actin. ATP is hydrolysed releasing energy to make myosin head returns to original position
7) myosin heads can bind again further up actin filament

After contraction, Ca ions are actively transported back into the sarcoplasmic reticulum allowing muscle to relax

Question 65

what’s bound to myosin heads when muscle is at rest

Answer 65

ADP

Question 66

How is ATP supply maintained?

Answer 66

• aerobic respiration in mitochondria. Bohr effect helps to release more oxygen from Hb
• anaerobic respiration in sarcoplasm can produce a little more ATP. However causes build up of lactic acid (toxic) which causes fatigue
• creatine phosphate in sarcoplasm has phosphate groups which can be transferred to ADP creating ATP. Creatine phosphotransferase involved.