APS136 1

Question 1

Sex is not the same as…

Answer 1

reproduction

Question 2

Reproduction is…

Answer 2

the production of offspring (either sexual or asexual)

Question 3

Sex is…

Answer 3

the fusion of genetic material from two different parents during reproduction

Question 4

A higher rate of reproduction can be achieved by reproducing …

Answer 4

asexually (cloning)

Question 5

What are the advantages of asexual reproduction?

Answer 5

More efficient, easier, cheaper, relatively error-free

Question 6

What are the disadvantages of asexual reproduction?

Answer 6

Any mutations also transmitted

Question 7

What is fragmentation?

Answer 7

Parent body broken into pieces which then develop into adults - followed by regeneration (regrowth of lost body parts)

Question 8

What is binary fission?

Answer 8

Single cell divides into 2 individual daughter cells

Question 9

What is budding?

Answer 9

Offspring grows out of body of parent (specialised masses of cells released from parent that can develop into offspring)

Question 10

What is parthenogenesis?

Answer 10

Virgin birth - unfertilised eggs develop into offspring but are not haploid (doesn’t occur in mammals due to genomic imprinting)

Question 11

Parthenogenesis does not occur in mammals due to…

Answer 11

Genetic imprinting

Question 12

What are the 4 main types of asexual reproduction?

Answer 12

Binary fission, fragmentation, budding, parthenogenesis

Question 13

Some species reproduce both sexually and asexually, depending on…

Answer 13

environmental factors and stresses.
Low stress = asexual
High stress = sexual
e.g. aphids

Question 14

Sexual reproduction has existed for…

Answer 14

1.5-2 billion years (life ~3.8bn)

Question 15

Sexual reproduction involves…

Answer 15

meiosis, leading to recombination and segregation

Question 16

recombination can … deleterious mutations and bring together … genetic combinations

Answer 16

Remove, novel

Question 17

What are the 3 fundamental processes required for sexual reproduction?

Answer 17

1. Gametogenesis - production of gametes
2. Mating - transfer of gametes
3. Fertilisation - fusion of gametes

Question 18

Mating can be…

Answer 18

internal or external

requires males and females to synchronise

Question 19

Broadcast spawning is an example of…

Answer 19

external fertilisation

Question 20

What is required for external fertilisation?

Answer 20

Water - otherwise gametes would dry out

Question 21

What are the problems with external fertilisation?

Answer 21

Can’t control delivery, requires huge numbers of gametes, predation of eggs is likely

Question 22

internal fertilisation can be..

Answer 22

direct or indirect

Question 23

What is direct internal fertilisation?

Answer 23

Sperm transferred directly into a female, often by an intromittent organ

Question 24

What is indirect internal fertilisation?

Answer 24

Male deposits sperm ‘packet’ (spermatophore) and female picks it up
e.g. springtails

Question 25

Hermaphrodites are individuals with…

Answer 25

both male and female reproductive parts - exchange sperm and use to fertilise own eggs
+ generally not self-fertilising

Question 26

What are the 2 stages of gametogenesis?

Answer 26

1. Meiosis - converting diploid cells into haploid cells

2. Spermatogenesis and oogenesis

Question 27

Sperm are produced in the…

Answer 27

Seminiferous tubules (in the testes)

Question 28

What transfers sperm to the penis?

Answer 28

Vas deferens

Question 29

Where is sperm stored?

Answer 29

Epididymis

Question 30

How much of semen is seminal fluids?

Answer 30

90%

Question 31

Sperm are produced from … … …

Answer 31

Spermatogonial stem cells

Primary spermatoctye (diploid) -> Secodary spermatocytes (diploid) -> spermatids (haploid) -> sperm (haploid)

Question 32

Each primary spermatocyte gives rise to … sperm cells

Answer 32

4

Question 33

In drosophila spermatogenesis occurs in..

Answer 33

cysts within the testes

• from distal to proximal
• starts in larval stage
• sperm produced in a few days

Question 34

In humans spermatogenesis occurs in..

Answer 34

seminiferous tubules within testes

• from periphery to lumen
• starts in puberty
• sperm produced in approx. 74 days

Question 35

In oogenesis, the primary oocyte undergoes meiosis 1 to form…

Answer 35

A secondary oocyte (diploid) and the first polar body, which contains far less cytoplasm

Question 36

In oogenesis, meiosis 2 forms…

Answer 36

2 more polar bodies (so 1 haploid ovum and 3 haploid polar bodies)

Question 37

Polar bodies…

Answer 37

are never fertilised - not enough resources

Question 38

At puberty, the hypothalamus secretes..

Answer 38

gonadotrophin-releasing hormone (GnRH)

Question 39

GnRH stimulates..

Answer 39

FSH (follicle stimulating hormone) and LH (lutenizing hormone) from the anterior pituitary cells.

Question 40

In spermatogenesis, FSH…

LH…

Answer 40

• Stimulates development of seminiferous tubules (where sperm form) and spermatogenesis acting together with testosterone by stimulating Sertoli cells
• Stimulates Leydig cells to secrete testosterone which stimulates spermatogenesis

Question 41

In oogenesis, FSH…

LH…

Answer 41

• Stimulates development of follicles and secretion of estrogens
• Stimulates maturation of follicles and release of ova at ovulation

Question 42

Estrogen…

Answer 42

enhances growth of follicles, grows endometrium

Question 43

Progesterone…

Answer 43

grows and maintains endometrium for pregnancy, secretes nutrients for embryo

Question 44

corpus luteum…

Answer 44

hormone secreting after ovulation

Question 45

Fertilisation is…

Answer 45

the union of (haploid) sperm and ovum (to produce a diploid zygote)

Question 46

What are the barriers faced during fertilisation?

Answer 46

• Sperm must make it to the ovum
• Gametes must recognise each other
• Sperm must penetrate ovum
• Haploid egg nucleus and sperm nucleus must fuse to form diploid zygote (syngamy)
• Ovum must block entry of additional sperm (polyspermy) to avoid polyploidy

Question 47

What proportion of sperm survive to reach the ovum?

Answer 47

less than 1 in a million

Question 48

What are the features of a mammalian egg?

Answer 48

• Germinal vesicle: nucleus containing DNA (nucleolus = germinal spot)
• Ooplasm: cytoplasm containing nutrients
• Vitelline membrane: Cell membrane surrounding ooplasm
• Zona Pellucida: extracellular matrix containing glycoproteins
  Corona radiata: layer of follicle cells

Question 49

What are the main sections of a mammalian sperm cell?

Answer 49

• Head: contains nucleus with sperm DNA, capped with acrosome, which penetrates the egg membrane using enzymes
• Neck: contains the centriole (important for tail formation and movement, and development of embryo after fertilisation)
• Midpiece (with central filamentous core): contains the mitochondria which provide energy for movement
• Tail: drives the sperm forward

Question 50

Sperm can only move through…

Answer 50

liquid - terrestrial animals overcome this using seminal fluid (and oviductal fluid in female reproductive tract)

Question 51

External fertilisation almost always occur in … environments

Answer 51

aquatic

Question 52

Fertilisation requires sperm … of the egg coat

Answer 52

penetration

Question 53

In mammals, sperm penetrate the cumulus cell layer via … …, and sperm undergoes … reaction to penetrate the zona pellucida. Sperm and … plasma membranes … (mediated by sperm-egg recognition/attachment proteins). The sperm … (and certain other sperm components) enter the ovum. Membrane and ZP block to … is rapidly initiated.

Answer 53

hyperactivated motility, acrosome, oocyte, fuse, nucleus, polyspermy

Question 54

Polyspermy is … to mammals

Answer 54

pathological (and fatal)

Question 55

In sea urchins, eggs have a …

Answer 55

protective jelly coat

- contains proteins with strong, species-specific chemoattractant properties

Question 56

Under the sea urchin egg’s jelly coat is the egg plasma membrane, which is lined with … that hold … receptors. As the sperm release their acrosomal enzymes, a … develops from the sperm head (known as the … …), which reaches out to contact the egg’s surface. On the surface of the protrusion is a species-specific protein called …, which is detected by the ovum’s protein receptors. This is a highly effective barrier to interspecific fertilisation.

Answer 56

microvilli, protein, protrusion, acrosomal process, bindin

Question 57

In sea urchins, once membrane fusion has occured, the … … of the plasma membrane changes to prevent other sperm from fusing with the egg - different to in mammals (where … … change)

Answer 57

electrical potential, material properties

Question 58

Human egg coat protein … is in the top 5% most divergent molecules between humans and rodents, displaying the … diversification of reproductive molecules, particularly those involved in sperm-egg recognition.

Answer 58

ZP2, rapid

Question 59

…, found in abalone gastropods, is one of the fastest evolving metazoan proteins known, and is a sperm protein involved in…

Answer 59

Lysin, dissolving the egg envelope

Question 60

When it is about to be laid, the egg of a kiwi takes up around…

Answer 60

3/4 of the female’s body

Question 61

Across bird species, on average … of eggs fail to hatch

Answer 61

10-15%

Question 62

In kakapos, egg hatching failure rates can be over …

Answer 62

70%

- a reason as to why they are so endangered

Question 63

Why do eggs fail?

Answer 63

Fertilisation failure

• failure of sperm to reach the egg
• sperm or ovum dysfunction (may be linked to poor male/female quality)
• Female anti-sperm response

Embryo death

• Male factors (e.g. genetic)
• Female factors
• Male-female incompatibility (e.g. from inbreeding)
• External factors

Question 64

What is the most intense site of selection for sperm?

Answer 64

The vagina - 0.0001% of sperm that enter get further than the vagina

Question 65

What are the characteristics of successful sperm?

Answer 65

• motility is crucial (speed and direction)

Question 66

Once the sperm have got past the vagina…

Answer 66

muscular contraction actually help the sperm to reach the egg (even dead sperm reach the infundibulum when put past the vagina)

Question 67

What determines sperm motility?

Answer 67

• morphology (long sperm have competitive advantage as they swim faster - long sperm males have higher paternity than short sperm males

Question 68

In birds, polyspermy is…

Answer 68

normal

Question 69

In birds, embryo survival is much higher…

Answer 69

if there is lots of sperm present in the egg (high polyspermy)

• supernumerary sperm
• potentially to help with ion transfer in such large eggs