Topic 11.4 Reproduction Flashcards
Gametogenesis
The process by which diploid precursor cells undergo meiotic division to become haploid gametes (sex cells).
Process of Gametogenesis
Occurs in the gonad and involves the following steps:
Multiple mitotic divisions and cell growth of precursor germ cells.
Two meiotic divisions (meiosis I and II) to produce haploid daughter cells.
Differentiation of the haploid daughter cells to produce functional gametes.
Spermatogenesis
Spermatogenesis describes the production of spermatozoa (sperm) in the seminiferous tubules of the testes.
Oogenesis
Oogenesis describes the production of female gametes (ova) within the ovaries (and, to a lesser extent, the oviduct).
How many cells are produced in spermatogenesis and oogenesis?
Four functional gametes for spermatogenesis and one functional gamete plus 2-3 polar bodies
Size of cells produced
In spermatogenesis, the cells that are formed following differentiation are all of equal size with equal amounts of cytoplasm.
In oogenesis, one daughter cell (the ovum) retains all of the cytoplasm, while the other daughter cells form polar bodies. The polar bodies remain trapped within the surrounding layer of follicle cells until they eventually degenerate.
Timing of the processes
Spermatogenesis begins during puberty and continues until death.
Oogenesis:
It begins before birth (prenatally) with the formation of a fixed number of primary oocytes (~40,000).
It continues with the onset of puberty according to a monthly menstrual cycle.
It ends when hormonal changes prevent the further continuance of the menstrual cycle (menopause).
Seminiferous Tubule
The testes are composed of seminiferous tubules which produce sperm.
Ovary
The ovary contains follicles in various stages of development. These follicles will develop over the course of a menstrual cycle and hence will not always be apparent upon inspection.
Sperm
A typical human spermatozoa can be divided into three sections – head, mid-piece and tail.
Structure of Sperm
The head region contains three structures – a haploid nucleus, an acrosome cap and paired centrioles.
The mid-piece contains high numbers of mitochondria which provide the energy (ATP) needed for the tail to move.
The tail (flagellum) is composed of a microtubule structure called the axoneme, which bends to facilitate movement.
Egg
A typical egg cell is surrounded by two distinct layers – the zone pellucida (jelly coat) and corona radiata.
Internal Fertilisation
Internal fertilization involves the fusion of gametes (egg and sperm) inside of the body of a parent.
Key processes of human fertilization
Capacitation – biochemical changes which occur post ejaculation to improve sperm motility.
Acrosome reaction – the release of hydrolytic enzymes which softens the zona pellucida (jelly coat).
Cortical reaction – hardening of the jelly coat post fertilization to prevent potential polyspermy.
Capacitation
Capacitation occurs after ejaculation, when chemicals released by the uterus dissolve the sperm’s cholesterol coat.
