Section 1: Development and Physiology Part 2

Question 1

Why don’t we generally study development in humans ?

Answer 1

• observation is difficult
• morally and ethically (no experiments on embryos
• We couldn’t nor would we want to breed humans

Question 2

Why do we use model organisms ?

Answer 2

they were chosen for the ease with which they can be used to study in the laboratory, different models have different advantages

Question 3

When is a something known as a model organism ?

Answer 3

When the primary research goal is to understand broad biological principles

Question 4

Why were frogs chosen as a model organism ?

Answer 4

they were chosen as a good model for observing development of an animal embryo because their large eggs are easy to observe and manipulate + fertilization happens outside the mothers body

Question 5

What are the most common invertebrates used for studying development ?

Answer 5

• Nematode worm (Caenorhabditis elegans) : small transparent body, from zygote to adult in 3 days, gnome has been sequenced, easy to detect mutant animals (disadvantage is its simplicity)
• fruit fly (Drosophila melanogaster): easily grown in lab, generation time is only two weeks + produces many offspring, embryos develop outside mothers body, genome has been sequenced

Question 6

What are the most common vertebrates for studying development ?

Answer 6

-Frog (Xenopus laevis): ease of access and manipulation of egg + embryo, robust embryo, repid development, well-established system (disadvantage - no genetics, poorly characterized genome, cannot be bred for multiple generations)
-Chicken (Gallus Gallus): large easily obtainable eggs, development can be observed by cutting hole in egg, can be manipulated, complex development
-Mouse (Mus musculus): well studied, genome is almost completely sequenced, can manipulate mouse genes (disadvantages - development is hidden from us, embryo culture is limited, generation interval is long) VERY IMPORTANT MODEL

Question 7

Why were sea urchins also used as a model organism ?

Answer 7

they were historically an important model, fertilization was studied, chance plays a role in the organisms chosen, found in the Naples bay, were easy to get and use, transparent eggs and embryos, echinoderms

Question 8

What are the considerations when choosing a species for research ?

Answer 8

-Biological: is the organism suited for the type of study
- Practical: cost, space required, ease of handling and breeding
- Historical: if a model has been used in the past it is better understood

Question 9

What does the study of development involve ?

Answer 9

• observing and describing embryos (descriptive embryology)
• manipulating embryos (experimental embryology)
• mapping the origin and destiny of cells (cell lineage analysis)
• altering genes and observing the affect on development (developmental genetics)

Question 10

What is a plant often used for studying plant development ?

Answer 10

a small weed called Arabidopsis thaliana (member of the mustard family): short generations, small and easy to house, have genome sequenced, used for gene manipulation studies

Question 11

What are the major differences between plant and animal development ?

Answer 11

1. In animals but NOT in plants movements of cells and tissues are involved in transforming the embryo
2. In plants, morphogenesis and growth are not limited to embryonic and juvenile periods

Question 12

What is the cleavage stage in development ?

Answer 12

Cleavage: very rapid division of the fertilized egg (involves s phase, DNA synthesis), and m phase (mitosis), but skips G phase so there is no growth. The embryo does not enlarge

Question 13

What is the gastrulation stage in development ?

Answer 13

It is marked by extensive cell movement, where the cells of the blastula become organized into three layers (3 layer embryo is a primitive gut) - 3 layered embryo is called a gastrula. They eventually develop into all the tissues and organs of a developed animal

Question 14

What is a 3 layered embryo called, and what are the 3 layers ?

Answer 14

a gastrula, Ectoderm: outer, Mesoderm: middle, Endoderm: inside

Question 15

What is an example of an organism that only has two layers in their embryo ?

Answer 15

a hydra only has two layers

Question 16

Where was gastrulation classically studied ?

Answer 16

It was classically studied in frogs and other amphibians, bc the frog embryo is not so tiny, obvious poles in the embryo, ability to mark cells

Question 17

What is lineage marking/cell fate mapping ?

Answer 17

you mark a cell by injecting a special dye early in development and observe where it and its decedent cells end up

Question 18

What is convergent extension ?

Answer 18

embryo changes shape elongates its cells to meet and converge

Question 19

What are the important features of gastrulation ?

Answer 19

-elaborate cell movement
-differentiation of cells into three broad types placed in the correct position
- allows communication between cells that are now set apart as different to one another

Question 20

What does a complex organism require ?

Answer 20

it requires many hundreds of cell types to form structures and carry out specific functions

Question 21

What do red blood cells do ?

Answer 21

They carry oxygen

Question 22

How do cells differentiate ?

Answer 22

they become different because of differential gene expression, they express genes differently

Question 23

What is a good example of cells differentiating ?

Answer 23

Muscle cells have to express myosin so that they have one of the structural proteins needed (myosin) to enable a muscle fiber to contract and red cells must express globin

Question 24

What is transcription ?

Answer 24

When a gene is “turned on” its DNA sequence is used as a template for the synthesis of complementary RNA

Question 25

What is mRNA ?

Answer 25

a single stranded polymer of ribonucleotides produced by transcription of a gene. directs the production of protein during translation, sequence of ribonucleotides is (complimentary to DNA)

Question 26

What is translation ?

Answer 26

The production of protein from RNA, the sequence of amino acids that make up the protein depending on the genetic code carried by the RNA.

Question 27

What do regulatory sequences do ?

Answer 27

they determine which cells express that gene and when they turn it on

Question 28

What are promoters ?

Answer 28

they are regulatory sequences at the start of coding sequences and are needed for transcriptional machinery to assemble and begin to transcribe the DNA sequence into an RNA message or transcript

Question 29

What is transcription initiation controlled by ?

Answer 29

they are controlled by proteins that interact with DNA

Question 30

Where are enhancers located ?

Answer 30

they can be thousands of nucleotides away from the promoter or even downstream from the gene

Question 31

What are factors that turn on a gene called ?

Answer 31

They are called activators

Question 32

What do repressor proteins do ?

Answer 32

they bind to DNA regulatory sequences and destabilize transcription and turn the gene off (also known as silencers)

Question 33

How fast does cell differentiation happen ?

Answer 33

it happens progressively as the embryo develops

Question 34

What has happened as a differentiated cell shows up ?

Answer 34

the cell already produces the proteins that allow them to carry out their specialized role

Question 35

What are Master regulatory genes ?

Answer 35

they are the genes that encode transcription and control cellular differentiation (they are the genes of most interest to developmental biologists)

Question 36

What was an advance in developmental genetics that had a great impact ? 1/3

Answer 36

the isolation and study of the genes that regulate development

Question 37

What was an advance in developmental genetics that had a great impact ? 2/3

Answer 37

The realization that such genes and basic development events are extremely highly conserved through evolution (observations made in one organism have wider relevance to all animals)

Question 38

What was an advance in developmental genetics that had a great impact ? 3/3

Answer 38

development of molecular techniques to manipulate developmental genes and investigate their function

Question 39

What was not initially appreciated in the study of development ?

Answer 39

the relevance of genetics to development was not appreciated at first (not until the 1940s)

Question 40

How can we find the genes that guide development ?

Answer 40

by finding and studying individuals where development proceeds abnormally due to a single gene mutation (developmental mutants)

Question 41

What are the two ways that developmental genes have been classified ?

Answer 41

1. from spontaneous mutations (usually very few)
2. large scale mutant screens: where animals are exposed to mutagens (chemical or radiation), this increases the frequency of genetic damage, then they are bred and they offspring are screened for mutants (this is kind of wild)

Question 42

What are some factors that make it more feasible to screen for mutants ?

Answer 42

• space to house large number of animals
• person hours to screen large number of individuals
• phenotypes that are easy to observe
• short generation interval to accommodate breeding several generations
• simple genome (easy to map and sequence)

Question 43

What is a particularly good species to do genetic screens ?

Answer 43

the fruit fly (Drosophila), one reason is because they have district appendages so mutations to appearance are easily identifiable

Question 44

How are mutations classified ?

Answer 44

by describing the exact phenotype of a mutation and at what stage in development it is in

Question 45

What are maternal affect genes ?

Answer 45

they are early acting genes that are active in the mother not the embryo, so the genetic product is supplied to by the egg (establish the axis’s)

Question 46

What are segmentation genes ?

Answer 46

the first genes in the embryo’s DNA to be turned on/expressed, they are switched on by signals produced by the maternal affect genes (divide the embryo into segments along the axis)

Question 47

What are homeotic genes ?

Answer 47

respond to signals produced y segmentation genes, are expressed in a segmented pattern determine segment identity

Question 48

What happens if the bicoid function is mutated ?

Answer 48

it leads to no head and two tails (in fruit fly)

Question 49

What does the bicoid gene control ?

Answer 49

it controls axis formation

Question 50

Why is research on the bicoid gene important ?

Answer 50

• it identified a specific protein required for some of the earliest steps in pattern formation
  -increased our understanding for the mothers role in the development of the embryo
• showed a key developmental principle (a gradient of molecules can determine polarity and position of embryo

Question 51

What is another gene affected by the maternal affect genes ?

Answer 51

segmentation genes, genes that affect the actual formation of segments

Question 52

What are gap genes ?

Answer 52

act early and map out basic subdivisions along the anterior-posterior axis (mutations cause gaps in segmentation)

Question 53

What are pair rule genes ?

Answer 53

they act later than gap genes and define the modular pattern in terms of pairs of segments (mutations result in embryos with half the normal segment number)

Question 54

What are segment polarity genes ?

Answer 54

define segments and establish pattern with each segment (mutations produce embryos with normal segment number but part of each segment is altered/replaced by some other part)

Question 55

Where are hox genes found ?

Answer 55

They are found in animals with an organized body plan, they are extremely valuable

Question 56

What are three features of Hox genes ?

Answer 56

1. they contain sub-class of highly conserved homeobox sequences, so they encode transcription factors
2. They are involved in organizing the body plan of an animal
3. They exist in clusters of similar genes in the genome

Question 57

What are features of mammilian clusters ?

Answer 57

• DNA sequence is conserved
• Chromosomal arrangement of genes is conserved
• conserved the relative position along the AP axis of the embryo where they are expressed

Question 58

What happens when hox genes are mutated in a mouse ?

Answer 58

They are not dramatic like those in a fruit fly, they are conserved at a functional level

Question 59

How many hox genes are there in humans and mice ?

Answer 59

there are 39 hox genes that arrange in 4 clusters

Question 60

In animals what is the space between cells called ?

Answer 60

interstitial fluid which links exchange surfaces to body cells

Question 61

What is the hierarchy of organization ?

Answer 61

a) chemical level: molecule in the membrane that encloses a cell b) cellular level: cell in the stomach lining c) tissue level: layers of the tissue in the stomach d) organ level: the stomach e) body system level: digestive system

Question 62

What are stem cells, what are the different kinds ?

Answer 62

undifferentiated cells that can give rise to specialized cells, there are embryonic stem cells, adult stem cells (tissue-specific), induced pluripotent stem cells (from skin cells)

Question 63

What are the 4 primary types of tissues ?

Answer 63

• Epithelial tissue (exchange)
• Connective tissue (connection and support, includes blood and bone)
• Muscle tissue (electrically excitable)
• Nervous tissue (electrically excitable)

Question 64

What do organs consist of ?

Answer 64

two or more types of primary tissues working together, example: stomach (wall lined with epithelial tissue, wall contains smooth muscle, nervous tissue controls contraction and gland secretion, connective tissue binds all other tissues together

Question 65

What do body systems do ?

Answer 65

group of organs that perform a related function and help the body survive

Question 66

What are the 11 systems of the mammalian body ?

Answer 66

circulatory, digestive, raspatory, urinary, skeletal, muscular, integumentary, immune, nervous, endocrine, reproductive

Question 67

What is epithelial tissue ?

Answer 67

covers the outside of the body and lines the organs cavities within the body, contains cells that are closely joined. Shape of epithelial cells may be cuboidal, columnar, or squamous. They also give rise to glands

Question 68

What is connective tissue ?

Answer 68

binds and supports other tissues, contains sparsely packed cells scattered throughout or extracellular matrix. matric consists of fibers in a liquid, jelly-like, or solid. It contains fibroblasts which secrete protein of extracellular fibers

Question 69

What are the three types of connective tissue ?

Answer 69

1. collagenous fibers (provide strength and flexibility)
2. reticular fibers join connective tissue to adjacent tissues
3. elastic fibers stretch and snap back to their original length

Question 70

What is muscle tissue ?

Answer 70

responsible for nearly all movement, cells consist of filaments of the proteins actin and myosin, which together enables muscles to contract

Question 71

What are the three types of muscle tissue in the vertebrate body ?

Answer 71

1. Skeletal muscle - or striated muscle is responsible for voluntary movement
2. smooth muscle - involuntary body activities
3. cardiac muscle - contractions of the heart

Question 72

What is nervous tissue ?

Answer 72

Functions in the receipt, processing and transmission of information. Contains Neurons, or nerve cells (transmit nerve impulses), Glial cells (support cells)

Question 73

What is the nervous system?

Answer 73

a network of specialized cells-neurons that transmit signals along dedicated pathways,
-hard-wired, fast acting, electrical and chemical signaling, local cellular response, rapid response by target cells

Question 74

What is the function of the endocrine system ?

Answer 74

chemical signaling by hormones is the function of the endocrine system, hormones transported in the blood, slower acting (minutes hours, days), chemical signaling, slower and often long-lasting responses of target cells

Question 75

What are local regulators ?

Answer 75

molecules that act over short distances, reaching target cells solely by diffusion

Question 76

What is paracrine signaling ?

Answer 76

target cells that lie near the secreting cells

Question 77

What is autocrine signaling?

Answer 77

the target cell is also the secreting cell

Question 78

What does endocrine signaling do ?

Answer 78

It maintains homeostasis, mediates responses to stimuli and regulates growth and development

Question 79

What are the three major classes that hormones fall into ?

Answer 79

polypeptides, steroids and amines

Question 80

What is endocrine tissue ?

Answer 80

grouped into ductless organs called endocrine glands, such as the thyroid and parathyroid glands, testes and ovaries

Question 81

What are exocrine glands ?

Answer 81

salivary glands - have ducts to carry secreted substances onto body surfaces or cavities

Question 82

What does the hypothalamus do ?

Answer 82

coordinates endocrine signaling - receives information from the nerves throughout the body and initiates appropriate neuroendocrine signals

Question 83

What is the pituitary gland ?

Answer 83

composed of posterior pituitary (secretes ADH and oxytocin) and anterior pituitary (adenohypophysis, 7 hormones including growth)

Question 84

What are synapses ?

Answer 84

neurons form specialized junctions with target cells

Question 85

What do neurotransmitters do ?

Answer 85

diffuse short distances and bind to receptors on the target cell

Question 86

What isa simple output ?

Answer 86

spinal chord reflex (reflexes in general)

Question 87

What do sensory receptors do ?

Answer 87

transduce stimulus energy and transmit signals to the central nervous system for perception

Question 88

What are the 4 basic functions of sensory pathways ?

Answer 88

-sensory reception
-transduction
-transmission
-perception
then it generates a response at the end

Question 89

What happens when there is a stimulus ?

Answer 89

sensory reception: receptor detects stimulus
transduction: stimulus energy converted to electrical energy at cell membrane
transmission: action potentials fire in nerve afferents
perception: information relayed to and processed by CNS
response: effector organs

Question 90

What are mechanoreceptors ?

Answer 90

they sense physical deformation caused by forms of mechanical energy: typically consists of ion channels linked to structures that end outside the cell (such as hairs (cilia)

Question 91

What are chemoreceptors ?

Answer 91

they transmit information about the total solute concentration of a solution.

Question 92

What are electromagnetic receptors ?

Answer 92

they detect electromagnetic energy such as light (photoreceptors), electricity and magnetism

Question 93

What are thermoreceptors for ?

Answer 93

for heat and the cold

Question 94

What do pain receptors do ?

Answer 94

they detect stimuli that reflect harmful conditions, respond to excess heat or chemicals released from damaged or inflamed tissues. Some receptors adapt over time

Question 95

What makes areas on your skin more or less sensitive ?

Answer 95

the size of receptive fields makes your skin more sensitive, with small receptive fields more is felt and a region with large receptive field is less sensitive

Question 96

How do photoreceptors work ?

Answer 96

light entering the eye strikes the retina, reaches the rods and cones (those are the two types of photoreceptors), then the neurons of the retina relay visual information to the optic nerve and brain

Question 97

How does visual perception work ?

Answer 97

optic nerves meet at the optic chiasm near the center of the base of the cerebral cortex (x shape), sensations from the left visual field are transmitted to the right side of brain.

Question 98

What is cognition ?

Answer 98

The process of acquiring knowledge, understanding through thought, experience and senses

Question 99

How do bees use cognition to communicate ?

Answer 99

• bees initiate communicate angle and distance to food sources (angle from sun as direction, distance of waggles-bees butt lollll)

Question 100

What is neuroscience ?

Answer 100

the study of behavior and biology

Question 101

Do genes determine behavior ?

Answer 101

Nope !

Question 102

What determines behavior ?

Answer 102

the brain, and your environment

Question 103

What did Camillo Golgi do (1943-1926)

Answer 103

• Developed the Golgi staining method
• based on innate motivational drives
• promoted ‘reticular’ theory for continuity of brain organization

Question 104

What did Santiago Ramon y Cajal do ?

Answer 104

• Used Golgi’s method for details anatomical analysis
• Discovered nerve cell growth cone
• Developed ‘neuron’ theory for brain anatomy

Question 105

Where are most of a neurons organelles ?

Answer 105

they are in the cell body

Question 106

What are dendrites ?

Answer 106

most neurons have them they are highly branched extensions that receive signals from other neurons

Question 107

What is an axon ?

Answer 107

a much longer extension that transmits signals to other cells at synapses

Question 108

How does information travel via synapse ?

Answer 108

information is transmitted from a presynaptic cell (a neuron) to a postsynaptic cell (a neuron, muscle or gland cell)

Question 108

What are neurons nourished and insulated by ?

Answer 108

they are glia or glia cells

Question 109

What are the three stages that the nervous systems process information ?

Answer 109

sensory input, integration and motor output

Question 110

What is the central nervous system ?

Answer 110

this is where integration takes place; includes the brain and nerve cord

Question 111

What is the peripheral nervous system ?

Answer 111

carries info into and out of the central nervous system (CNS)

Question 112

What is membrane potential ?

Answer 112

the voltage that each cell has that goes through the plasma membrane

Question 113

What is resting potential ?

Answer 113

the membrane potential of a neuron not sending signals

Question 114

What are changes in membrane potentials called ?

Answer 114

action potentials

Question 115

Why do changes in membrane potential occur ?

Answer 115

they change because neurons contain gated ion channels that open and close due to stimuli, and voltage-gated ion channels open or close in response to a change in voltage across the plasma membrane

Question 116

What is hyperpolarization ?

Answer 116

When gated K+ channels open and potassium diffuses out making the inside of the cells more negative (increase in magnitude of membrane potential)

Question 117

What is depolarization ?

Answer 117

opening other types of ion channels triggers a depolarization, a reduction of the magnitude of membrane polarization

Question 118

What are graded potentials ?

Answer 118

changes in polarization where the magnitude of the change varies with the strength of the stimulus

Question 119

In what direction is does action potential go ?

Answer 119

it only travels in one direction toward the synaptic terminals, inactive Na+ channels behind the zone of depolarization prevent the action potential from travelling backwards

Question 120

In vertebrates what are axons insulated by ?

Answer 120

they are insulated by a myelin sheath which causes action potentials speed to increase

Question 121

What is a myelin sheath made of ?

Answer 121

they are made by glia - oligodendrocytes in the central nervous system and by Schwann cells in the Posterior nervous system (PNS)

Question 122

Where are the voltage-gated sodium channels ?

Answer 122

they are restricted to the nodes of Ranvier, gaps in the myelin sheath

Question 123

what is saltatory conduction ?

Answer 123

action potentials in myelinated axons jumping between the nodes of Ranvier

Question 124

Where and how to neurons communicate ?

Answer 124

They communicate through synapses, electrical current flows from one neuron to another through gap junctions (electrical synapses). Chemical synapses - chemical neurotransmitter carries information between neurons

Question 125

What are the two categories of postsynaptic potentials ?

Answer 125

• Excitatory postsynaptic potentials: depolarizations that bring the membrane potential toward threshold
• Inhibitory postsynaptic potentials: hyperpolarization’s that move the membrane potential farther from the threshold

Question 126

What happens after a response is triggered ?

Answer 126

chemical synapses return to its resting state, the neurotransmitter molecules are cleared from the synaptic cleft

Question 127

What does cocaine do to neurotransmitters ?

Answer 127

cocaine prevent re-uptake of dopamine, leading to hyperdopaminergic activity