battle of the sexes

Question 1

what is sex determination?

Answer 1

the development of characteristics which allow an individual to be identified as male or female

• reproductive system - testis vs ovaries
• external phenotype
• behaviour - hormone induced
• metabolism

Question 2

what did Aristotle say about sex determination?

Answer 2

’ the heat of the male partner during interocurse determines the sex of the baby’
- if the males heat overwhelms the woman coldness then a male with form

Question 3

in mammals what determine the sex?

Answer 3

the y chromosome

since all females are XX, all oocytes carry an X chromosome.
males are XY so sperm can carry an X or a Y sex chromosome.
so the male partner determines the sex of the offspring

Question 4

what gene determines the sex?

Answer 4

SRY gene - sex determining region Y - one found on the Y chromosome
SRY gene encodes transcription factors that activate testis formation (testis determining factor)

Question 5

how does SRY gene determine sex?

Answer 5

several testis specific genes contain SRY-binding sites in their promoters
binding of SRY to these sites initiates testis development

Question 6

what is meant by biopotential embryonic gonad?

Answer 6

the gonads are gene driven
early embryonic gonad is indifferent or biopotential
formation of embryos or testis is an active gene directed process (no default process)

Question 7

when does sex differentiation occur?

Answer 7

at 7 weeks of development

Question 8

what are the two stem of ducts?

Answer 8

wolffian - male
mullerian - female

development of ducts is hormone dependant.

Question 9

which phenotype predominates if the gonads are removed?

Answer 9

if the biopotential gonads are removed the female reproductive system develops

female phenotype predominates

Question 10

how do males develop?

Answer 10

in humans SRY gene stimulates the indifferent gonad to form a testis
the testis produce two hormones
- testosterone (forms male reproductive organs, wolffian duct - vas deferens, inhibits breast primordia)
- anti-mullerian hormone (degeneration of mullerian duct

testis determining factor (encoded by SRY gene) activates SOX9 - testicular development and sertoli cell proliferation
SOX9 induces steroidogenic factor 1 SF1 - up regulates AMH from sertoli cells and increases production of testosterone in leydig cells

XX humans with an extra copy of SOX9 gene develop as males despite SRY absence.

Question 11

what gene appears to stop SRY

Answer 11

DAX1

Question 12

what two genes stimulate biopotential gonad to form an ovary?

Answer 12

DAX1 and WNT4

Question 13

how does the female develop?

Answer 13

DAX21 and WNT4 stimulate the biopotential gonad to develop into an ovary
ovary secretes oestrogen
oestrogen acts on mullerian duct
development of uterus , oviducts and cervix.

Question 14

is it only the male chromosome that influences sex of offspring?

Answer 14

since equal number of X?Y sperm are produced, there should be equal numbers of female/male offspring

but environment had a strong influence in some species.

Question 15

how is the snapping turtle egg affected when incubated at different temperatures?

Answer 15

bellow 22 or above 29oC = females

intermediate temps = males

Question 16

how is the american alligator egg affected when incubated at different temperatures?

Answer 16

above 30oC = females
below 25oC = males
at 28.5oC = equal numbers

Question 17

in reptiles what determines sex?

Answer 17

genotypic sex determination
also a thermo-sensitive period of development
Australian skink
-males XY
- females XX
- low temp: genotypic xx females become phenotypic males XXmales

Australian dragon lizard

• males ZZ
• females ZW
• high temps: genotypic ZZ males become phenotypic females ZZ females

Question 18

why does temperature affect sex differentiation?

Answer 18

high temperatures increase aromatase

• converts androgens to oestrogen
• biased sex ratio towards females

Question 19

what are the advantages of skewed sex ratio?

Answer 19

sex allocation hypothesis

• dominant males father most offspring
• subordinate males do not mate
• all females will get pregnant
• but only females with high rank/body condition will produce males which join the dominant reproducing males.

so to maximise reproductive output

• females with good condition should opt to produce male offspring
• females with poor condition should opt to produce female offspring

supported in many wild species including deer an mice

Question 20

why may adaptive control of genes bias occur? which species may it occur in?

Answer 20

in many non-mammalian species

evolved as a response to changing environmental conditions e.g. food availability, temp, disease, population density, maternal condition, season

Question 21

what is an adaptive control of gender bias in fig wasp?

Answer 21

low population density - sex bias in favour of males

- disperse to fertilise females in other colonies, maximise genetic potential and minimise inbreeding

Question 22

what is an adaptive control of gender bias in ruffs?

Answer 22

poor food availability - sex bias in favour of females

• maximise offspring numbers, cost to mothers,
• don’t waste food on multiple males - you only need one male

Question 23

what affects offspring sex ratio in red deer?

Answer 23

maternal dominance correlates offspring sex ratio
- dominant females have more male offspring (dominance correlates with testosterone concentration
this sex bias is eliminated with high population density - nutritional stress and increased confrontation to maintain dominant position

Question 24

what affects offspring sex ration in american opossum?

Answer 24

maternal condition correlates offspring sex ration
- increase in male offspring with high n-3 fatty acid diet
- marsupials move to the pouch 14 days after conception
mechanisms must act before conception or very early om

Question 25

what affects offspring sex ration in non human primates?

Answer 25

– Maternal condition correlates offspring sex ratio
– Social structure is important
• Colobine monkey high ranking females have more
males
• Opposite is true in baboons (matriarchal society)

Question 26

do humans show adaptive control of gender bias?

Answer 26

• socioeconomic variables (famine)
• environmental stressors
• psychological stressors

Question 27

how does preconception nutrients affect sex ratio?

Answer 27

Pre-conception nutrition
Maternal diet high in unsaturated fats or glucose
• Increasedmalesborn Maternal diet high in omega-6
polyunsaturated fatty acids (vegetable oils) • Increasedfemalesborn
Recent evidence: not a consistent dietary intake that determines offspring sex, but a change in nutritional status
• Females gaining condition produce sons
• Females losing condition produce daughters

Question 28

environmental stressors effect offspring in humans?

Answer 28

Exposure of males to endocrine disruptors skews sex ratio in offspring
Dioxin exposure of males at puberty
• Bi-product of chemical, steel/iron industry
• Increased male offspring in adulthood
Dichloroethylsulphide (Mustard gas)
• Exposure of Iranian soldiers during the Iran-Iraq war
• Decreased male:female ratio in offspring
• Decreased testosterone:gonadotrophin ratio in males
• Increased sperm DNA damage
– Sperm DNA integrity linked to ability
to progress through the female tract
– Are Y chromosome sperm more susceptible to chemically induced DNA damage?

Question 29

psychological stress in humans affect sex ratio?

Answer 29

Severe life event pre-conception or early pregnancy
– Death/cancer diagnosis in spouse or child
– Decrease in male:female sex ratio
–>Differential fertilisation – more X chromosome sperm fertilised? or Differential embryo survival–more XY embryos aborted?

Kobe earthquake and 10-day war in Slovenia – Both resulted in decrease in male:female sex ratio
– Reduced sperm motility
• Stress induced increase in prolactin and testosterone in males
• Interfereinspermatogenesis
• Differential effect on X or Y bearing spermatozoa?

Confounding factors with psychological stress!
– Sexual abstinence
– Hormone concentrations differ from the norm
– Poor nutrition
– All affect semen quality and embryo survival

Question 30

how might fathers influence the sex of their children? (preconception)

Answer 30

Natural inseminations from the most fertile males result in increased male offspring
– Sons likely to disperse
– Fathers pass on genes without competitive threat

Paternal influence on sex ratio related to sperm variation
– Biochemical
– Morphological
– Ability to fertilise

But, is there evidence that X and Y sperm differ?

Question 31

how might mothers influence the sex of their children?

Answer 31

As the female has a disproportionate role in production of offspring it is likely that most influence on offspring sex ratio is under maternal control

Female reproductive tract might control gender bias – Sex specific sperm selection/progression?
– Sex specific fertilisation?
– Sex specific embryo implantation/survival?

Less ‘costly’ for female to manipulate gender bias before/at fertilisation than later during pregnancy

Question 32

how is the female reproductive tract selective?

Answer 32

Female tract is not passive – it controls sperm progression
– Pig, 30 billion sperm inseminated, but only 1000-5000 reach oviduct
– Human, conception falls 40% to 24% <1.5 million sperm inseminated

Cervix: mucus removes DNA damaged sperm
– Possibly because DNA-damage is reflected in poor motility

Uterus: immunological (neutrophils) removes membrane damaged sperm

Utero tubal junction
– Prevents 90% of sperm in uterus
passing into oviduct
– Restricts entry to minimise polyspermy
– Opportunity to exercise choice

Oviductal storage/selection

Controls which sperm are given access to the oocyte

Question 33

is there sperm selection at utero tubal junction?

Answer 33

• molecular recognition system in place
• failure to express sperm surface proteins
  A-disintegrin and metalloprotease 3 (ADAM3)
  other surface proteins identified for UTJ

there is evidence for sperm selection via surface proteins

do these sperm serfuca proteins reflect genetic quality
is the sex-specific sperm selection via molecular recognition

Question 34

what evidence is there that sperm surface markers reflect genetic information?

Answer 34

electronegative charge of sperm plasma membrane correlates with DNA integrity in sperm nucleus.

• negative charge correlates with stage of epididymal maturation
• chromatin fragmentation and nuclear integrity related to epididymal maturation.
• negative charge on sperm attributed to CD52 (membrane anchored glycoprotein with highly charged N-linked carbohydrate moiety, CD52 added to sperm during epididymal maturation)
• CD52 involved in sperm binding to oviductal epithelial cells and zona pellucida - female tract can select sperm genetic profiles via membrane bound CD52

Question 35

how can the female reproductive tract select good sperm?

Answer 35

• negative charge on sperm attributed to CD52 (membrane anchored glycoprotein with highly charged N-linked carbohydrate moiety, CD52 added to sperm during epididymal maturation)
• CD52 involved in sperm binding to oviductal epithelial cells and zona pellucida - female tract can select sperm genetic profiles via membrane bound CD52

Sperm surface markers of genetic information
• Female tract can bind/select sperm using CD52 as a marker of genetic integrity
• So, we know female tract uses sperm surface molecules to identify DNA damage to maximise fertilisation
• What other molecules exist?
• Do molecular expression patterns differ between X and Y sperm?
• Might expression patterns be manipulated by environmental stressors known to skew gender bias?

Question 36

are X and Y chromosome sperm different?

Answer 36

Nuclear content differs by 2.8-4% dependant on species
• Morphology differs subtly between X and Y sperm – X sperm increased head, mid-piece and tail length
– Sperm morphology reflects DNA integrity
• Differentially expressed proteins
– Associated with cytoskeletal structures
influencing motility
– Regulation of metabolism
• Glycolyticenzymesandcalmodulin
– Levels of expression NOT presence/absence of gene product
• Individual sperm microRNAs
– Adopt unique 3D shapes for sperm recognition in oviduct – Powerful modulators of gene expression

Question 37

where may mothers manipulate offspring sex by sperm selection?

Answer 37

progressions at UTJ and oviduct

fertilisation (zona pellucida)