== A chromosome is the name given to the structure that holds an organisms [[DNA|DNA]], either all or just part of it. Both plant and animal chromosomes become visible when [[Mitosis|mitosis]] or [[Meiosis|meiosis]] occur, they become much more condensed. ==
A chromosome is the name given to the structure that holds an organisms [[DNA|DNA]], either all or just part of it. Both plant and animal chromosomes become visible when [[Mitosis|mitosis]] or [[Meiosis|meiosis]] occur, they become much more condensed.
In most cases bacterial chromosomes are often circular and not linear, as found in humans <ref>Molecular Biolody of the cell fifth edition, 2008</ref>.
In most cases bacterial chromosomes are often circular and not linear, as found in humans <ref>Molecular Biolody of the cell fifth edition, 2008</ref>.
=== Backround ===
=== Backround ===
The parallel between the properties of chromosomes and those of genes is evidence that genes are located on chromosomes:<references />
The parallel between the properties of chromosomes and those of genes is evidence that genes are located on chromosomes<ref>Hartl D L., Ruvolo (2011), Genetics: Analysis od Genes and Genomes, 8th edition, London: Jones &amp;amp;amp; Bartlett Learning</ref>:
1. Genes come in pairs; chromosomes come in pairs
1. Genes come in pairs; chromosomes come in pairs
Theodor Boveri gave the definitive difinition that genetic material is held on chromosomes after a series of experiments in the mid 1880s.<references />
Theodor Boveri gave the definitive difinition that genetic material is held on chromosomes after a series of experiments in the mid 1880s <ref>DNA from the Beginning - An animated primer of 75 experiments that made modern genetics (2002-2010), DNA Learning Centre. Available at: http://www.dnaftb.org/8/bio.html</ref>.
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=== Structure of Chromosome: ===
=== Structure of Chromosome: ===
1. Each chromosome compose of two identical sister chromatids.
#[[Image:Sister chromatids.jpg|left|172x161px|Sister chromatids.jpg]]Each chromosome compose of two identical sister chromatids.
#The sister chromatids are hold on the centromere. [[Centromere|Centromere]] in the human chromosome doesn't have any distinct sequence, it is just a large array of repeated sequence. The position of [[Centromere|centromere]] determine the type of chromosome.
[[Image:Sister chromatids.jpg|172x161px|Sister chromatids.jpg]]<br> 2. The sister chromatids are hold on the centromere. [[Centromere|Centromere]] in the human chromosome doesn't have any distinct sequence, it is just a large array of repeated sequence.<br> The position of [[Centromere|centromere]] determine the type of chromosome.
#[[Image:Tp11 02.jpg|left|335x252px|Tp11 02.jpg]]At the end of each chromosome also contain [[Telomere|telomere]], that is used to protect the chromosome from annealing with sister [[Chromatids|chromatids]].Also is used to distinguish the real end of chromosome from the end of chromosome caused by damaged; in addition, it is also used to solve end replication problem.
[[Image:Tp11 02.jpg|335x252px|Tp11 02.jpg]]
3. At the end of each chromosome also contain [[Telomere|telomere]], that is used to protect the chromosome from annealing with sister [[Chromatids|chromatids]].<br>Also is used to distinguish the real end of chromosome from the end of chromosome caused by damaged; in addition, it is also used to solve end replication problem.
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=== Sex Chromosomes/Determination in Humans ===
=== Sex Chromosomes/Determination in Humans ===
Sex chromosomes are not present in pairs of morphologically similar homologs. The chromosomal mechanism for determining sex at the time of fertilisation is the difference in chromosomal constitution between males and females. While all eggs contain an X chromosome, only half of the sperm cell contain an X chromosome and the rest contain a Y chromosome. The karotype of a human female is 46,XX while the karotype of a human male is 46, XY. The human Y chromosome pairs with the X chromosome during meiosis in males, usually only along part of its length because of a limited region of homology.<references />
Sex chromosomes are not present in pairs of morphologically similar homologs. The chromosomal mechanism for determining sex at the time of fertilisation is the difference in chromosomal constitution between males and females. While all eggs contain an X chromosome, only half of the sperm cell contain an X chromosome and the rest contain a Y chromosome. The karotype of a human female is 46,XX while the karotype of a human male is 46, XY. The human Y chromosome pairs with the X chromosome during meiosis in males, usually only along part of its length because of a limited region of homology <ref>DNA from the Beginning - An animated primer of 75 experiments that made modern genetics (2002-2010), DNA Learning Centre. Available at: http://www.dnaftb.org/8/bio.html</ref>.
==== Human Y chromosome ====
==== Human Y chromosome ====
The Y chromosome contains far fewer genees than the X and encodes at least 26 unique proteins that are important for male fertility. It is divided into 3 different regions; the pseudoautosomal regions, male specific region and the sex determining region Y. The pseudoautosomal regions share homology with the X chromosome, they synapse and recombine with X during meiosis. The male specific region of the Y does not synapse with X chromosome. The sex determining region Y produces a product called testis determining factor which triggers undifferentiated gonadal tissue of the embryo to for testes.
The Y chromosome contains far fewer genees than the X and encodes at least 26 unique proteins that are important for male fertility. It is divided into 3 different regions; the pseudoautosomal regions, male specific region and the sex determining region Y. The pseudoautosomal regions share homology with the X chromosome, they synapse and recombine with X during meiosis. The male specific region of the Y does not synapse with X chromosome. The sex determining region Y produces a product called testis determining factor which triggers undifferentiated gonadal tissue of the embryo to for testes.<br>
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=== Unusual Chromosomes ===
=== Unusual Chromosomes ===
Some organisms contain special chromosomes which are not generally found in other organisms. Minichromosomes are short pices of DNA which are very rich in genes. B chromosomes are chromosomes which are only found in some members of a population, they arise due to unusual events in nuclear division and do not always have any affect on the organism. Holocentric chromosome have multiple kinetochores instead of just one single centromere <ref>Brown A., (2007), Genomes 3, 3rd edition, New York: Garland science</ref>.
Some organisms contain special chromosomes which are not generally found in other organisms. Minichromosomes are short pices of DNA which are very rich in genes. B chromosomes are chromosomes which are only found in some members of a population, they arise due to unusual events in nuclear division and do not always have any affect on the organism. Holocentric chromosome have multiple kinetochores instead of just one single centromere.<references />
=== References ===
=== References ===
<references /><br>2. Hartl D L., Ruvolo (2011), Genetics: Analysis od Genes and Genomes, 8th edition, London: Jones & Bartlett Learning
<references /><br>
3. DNA from the Beginning - An animated primer of 75 experiments that made modern genetics (2002-2010), DNA Learning Centre. Available at: http://www.dnaftb.org/8/bio.html
4. Brown A., (2007), Genomes 3, 3rd edition, New York: Garland science
Revision as of 20:39, 1 December 2011
A chromosome is the name given to the structure that holds an organisms DNA, either all or just part of it. Both plant and animal chromosomes become visible when mitosis or meiosis occur, they become much more condensed.
In most cases bacterial chromosomes are often circular and not linear, as found in humans [1].
Theodor Boveri gave the definitive difinition that genetic material is held on chromosomes after a series of experiments in the mid 1880s [3].
Structure of Chromosome:
Sister chromatids.jpgEach chromosome compose of two identical sister chromatids.
The sister chromatids are hold on the centromere. Centromere in the human chromosome doesn't have any distinct sequence, it is just a large array of repeated sequence. The position of centromere determine the type of chromosome.
Tp11 02.jpgAt the end of each chromosome also contain telomere, that is used to protect the chromosome from annealing with sister chromatids.Also is used to distinguish the real end of chromosome from the end of chromosome caused by damaged; in addition, it is also used to solve end replication problem.
Sex Chromosomes/Determination in Humans
Sex chromosomes are not present in pairs of morphologically similar homologs. The chromosomal mechanism for determining sex at the time of fertilisation is the difference in chromosomal constitution between males and females. While all eggs contain an X chromosome, only half of the sperm cell contain an X chromosome and the rest contain a Y chromosome. The karotype of a human female is 46,XX while the karotype of a human male is 46, XY. The human Y chromosome pairs with the X chromosome during meiosis in males, usually only along part of its length because of a limited region of homology [4].
Human Y chromosome
The Y chromosome contains far fewer genees than the X and encodes at least 26 unique proteins that are important for male fertility. It is divided into 3 different regions; the pseudoautosomal regions, male specific region and the sex determining region Y. The pseudoautosomal regions share homology with the X chromosome, they synapse and recombine with X during meiosis. The male specific region of the Y does not synapse with X chromosome. The sex determining region Y produces a product called testis determining factor which triggers undifferentiated gonadal tissue of the embryo to for testes.
Unusual Chromosomes
Some organisms contain special chromosomes which are not generally found in other organisms. Minichromosomes are short pices of DNA which are very rich in genes. B chromosomes are chromosomes which are only found in some members of a population, they arise due to unusual events in nuclear division and do not always have any affect on the organism. Holocentric chromosome have multiple kinetochores instead of just one single centromere [5].
References
↑Molecular Biolody of the cell fifth edition, 2008
↑Hartl D L., Ruvolo (2011), Genetics: Analysis od Genes and Genomes, 8th edition, London: Jones &amp;amp; Bartlett Learning
↑DNA from the Beginning - An animated primer of 75 experiments that made modern genetics (2002-2010), DNA Learning Centre. Available at: http://www.dnaftb.org/8/bio.html
↑DNA from the Beginning - An animated primer of 75 experiments that made modern genetics (2002-2010), DNA Learning Centre. Available at: http://www.dnaftb.org/8/bio.html
↑Brown A., (2007), Genomes 3, 3rd edition, New York: Garland science
