What is Gametogenesis? Gametogenisis in human, animal,plant and flowering plant...


Gametogenesis
Gametogenesis is a process by which diploid or haploid cells undergo cell division and differentiation to form mature haploid gametes.
Gametogenesis:-
The process of gametes formation: It occurs in the gonads (ovary or testis)
Gametogenesis is divided in to four phases:-
1.    Extra-gonadal origin of primordial germ cells
2.    Proliferation of germ cells by mitosis
3.    Meiosis
4.    Structural and functional maturation of ova and spermatozoa 
Gonial cells are the designation given to germ cells before they enter meiosis
•Replicate mitotically.
•Genetically identical to the original zygote.
When they begin meiosis, they are called spermatocytes and oocytes.
Gametogenesis:-
·       Spermatogenesis
·       Oogenesis
Spermatogenesis:





Spermatogenesis is the process of formation of the male germ cells (sperm formation).It occurs in the seminiferous tubules of the testis. It is thread-like in shape.
Spermatogenesis occurs from puberty to old age, producing immense numbers of spermatozoa at an average rate of 1.5 million spermatozoa per minute. The sperm will mature in the epididymis, nourished by sertoli cells for up to 10weeks. Humans aged 13-90 can make 1 billion sperm a day.
The sertoli cells are supporting cells that have several functions. They form the blood-testes barrier: nutrients, and circulating substances do not directly reach the germ cells the sertoli cells determine which substances reach the germ cells the spermatogonia are outside the blood-testis barrier. They also produce antigen-binding proteins, which are necessary for spermiogenesis (morphological development of spermatids to spermatozoa).



Spermatogenesis is the process by which male primary sperm cells undergo meiosis, and produce a number of cells termed spermatogonia, from which the primary spermatocytes are derived. Each primary spermatocyte divides into two secondary spermatocytes, and each secondary spermatocyte into two spermatids or young spermatozoa. These develop into mature spermatozoa, also known as sperm cells. The primary spermatocyte gives rise to two cells, the secondary spermatocytes, and the two secondary spermatocytes by their subdivision produce four spermatozoa.
Spermatogonium:-
It is an intermediary male gametogonium(a kind of germ cell).Diploid in number: 44 autosomes and 2 sex cells. It is very small and under the process of development. Undergoing G1-S.
Primary spermatocytes:-
·       Diploid in number: 44 autosomes and 2 sex cells
·       Increases in size
·       Undergoing G2.
Secondary spermatocytes:-
·       Haploid in number: 22 autosomes (double stranded) and 1 sex cell each.
·       Can see the cleavage furrow
·       Undergoing Meiosis I (Reduction Division)
·       Chromosomes are reduced into half number.
Spermatid:
Haploid in number: 22 (single stranded) autosomes and1 sex cell.
Undergoing Meiosis II (Equational Division)
Spermatozoa:-
It is a motile sperm cell, or moving form of the haploid cell that is the male gamete. It joins an ovum to form a zygote. Matured Sperm Cell are ready to fertilize the egg.
Oogenesis:-
Oogenesis is the process of formation of the female germ cells (egg formation).It happens in the Ovary. It is Spherical in shape.
Oogenesis begins in early foetal life. All oocytes formed in females are produced during foetal life. Many of them degenerate with time and at birth the ovaries contain about 2 million oocytes. All the oocytes go into meiotic arrest when they reach the first meiotic division during foetal life. The primary oocytes remain in the prophase of the first meiotic division until the time of puberty, when they are gradually released to complete meiosis at regular intervals known as the ovarian cycle. On the average only one oocyte matures during each cycle, which occurs at approximately monthly intervals, so that the total amount of oocytes to be ovulated is about 500 oocytes in a lifetime.




Oogonium/oogonia:-
Diploid in number: 44 autosomes and 2 sex cells
It is very small and under the process of development.it under goes GI-S phase.
Primary oocytes:-
It is a cell whose function is to divide by the process of mitoses. It is diploid in number: 44 autosomes and 2 sex cells. Increasing in size. Undergoing G2 phase.
Secondary oocytes:-
Undergoing meiosis I (reduction division). Chromosome are reduce into half number. Begins during embryonic development but halts in deplotene stage of prophase I until puberty. Primary oocytes that continue to develop in each menstrual cycle, however, synapsis occur and tetrads form, enabling chromosomal crossover to occur. Result of meiosis I, the primary oocyte has now developed into secondary oocyte and first polar body.
Ootid / ovum:-
After meiosis I, the haploid secondary oocyte initiate meiosis II (equational division). This process is halted at metaphase II stage until fertilization. If such should occur. When meiosis II is completed, an otid and another polar body have been created.
Polar bodies:-
Both polar bodies are disintegrate at the end of meiosis, leaving only the ootid, which then eventually undergoes maturation into a mature ovum.
The function of forming polar bodies is to discard the extra haploid sets of chromosome that have resulted as a consequence of meiosis.





Gametogensis in human



Gametogensis in animals
Animals produce gametes directly through meiosis in organs called gonads (testicles in males and ovaries in females). Males and females of a species that reproduces sexually have different forms of gametogenesis
·      spermatogenesis (male)
·      oogenesis (female)
Stages:-
However, before turning into gametogonia, the embryonic development of gametes is the same in males and females.
Common path:-
Gametogonia are usually seen as the initial stage of gametogenesis. However, gametogonia are themselves successors of [[primoweranonymousment, primordial germ cells (PGCs) from the dorsal endoderm of the yolk sac migrate along the hindgut to the gonadal ridge. They multiply by mitosis, and, once they have reached the gonadal ridge in the late embryonic stage, are referred to as gametogonia. Once the germ cells have developed into gametogonia, they are no longer the same between males and females.
Individual path:-
From gametogonia, male and female gametes develop differently - males by spermatogenesis and females by oogenesis. However, by convention, the following pattern is common for both:
Cell type
chromosomes in humans
chromatids in human
Process
Gametogonium
diploid (2N)/46
2C before replication, 4C after / 46 before, 46 X 2 after
gametocytogenesis (mitosis)
primary gametocyte
diploid (2N)/46
            2C before replication, 4C after / 46 before, 46 X 2 after
gametidogenesis (meiosis I)
secondary gametocyte
haploid (N)/23
2C / 46
            gametidogenesis (meiosis II)
Gametid
haploid (N)/23
C / 23

Gamete
haploid (N)/23
C / 23





In vitro gametogenesis:-

In vitro gametogenesis (IVG) is the technique of developing in vitro generated gametes, i.e., "the generation of eggs and sperm from pluripotent stem cells in a culture dish” This technique is currently feasible in mice and will likely have future success in humans and nonhuman primates.
In gametangia:-
Fungi, algae, and primitive plants form specialized haploid structures called gametangia, where gametes are produced through mitosis. In some fungi, such as the Zygomycota, the gametangia are single cells, situated on the ends of hyphae, which act as gametes by fusing into a zygote. More typically, gametangia are multicellular structures that differentiate into male and female organs:
·       Antheridium (male)
·       Archegonium (female)



In flowering plants:-
In angiosperms, the male gametes (always two) are produced inside the pollen tube (in 70% of the species) or inside the pollen grain (in 30% of the species) through the division of a generative cell into two sperm nuclei. Depending on the species, this can occur while the pollen forms in the anther (pollen tricellular) or after pollination and growth of the pollen tube (pollen bicellular in the anther and in the stigma). The female gamete is produced inside the embryo sac of the ovule.


Gametogenesis in flowering plant








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