Among mammals, the gender of an organism is determined by the sex chromosomes. Humans have two sex chromosomes, X and Y. Every human diploid cell has 22 pairs of autosomes and one pair of sex chromosomes. A human female has two X chromosomes, while a male has one X chromosome and one Y chromosome.
The germline cells such as egg and sperm cells carry only half the number of chromosomes, i.e., 22 autosomes and one sex chromosome. All eggs have an X chromosome, while sperm cells can carry an X or Y chromosome. If a sperm carrying an X chromosome fuses with an egg, it produces a female embryo, whereas fusion of a sperm carrying a Y chromosome with an egg produces a male embryo.
The human genome sequencing project estimates that sex chromosomes have evolved from autosomes within the last 300 million years. Over time, the Y chromosome lost most autosomal sequences and currently has only around 55 genes. On the other hand, the X chromosome has over 1000 genes, most of which are unrelated to sex determination but include immune-related genes and several housekeeping genes. The mutations in the X- chromosome gene are often associated with X-linked disorders. These disorders are more prominent and lethal among males because they do not have another copy of the X chromosome to compensate for the genetic defects.
Additionally, an incorrect number of sex chromosomes can lead to genetic disorders. For example, females with Turner's syndrome have only one X chromosome instead of two. Such females are infertile with a broad chest and a wide, webbed neck. In contrast, Klinefelter syndrome (XXY) affects only males. Primary features include infertility, poor motor abilities, weaker muscle, among several other symptoms.
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12.13 : X and Y Chromosomes
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12.1 : Punnett-Quadrate
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12.2 : Monohybride Kreuzungen
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12.3 : Dihybride Kreuzungen
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12.4 : Trihybride Kreuzungen
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12.5 : Gesetz des unabhängigen Sortiments
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12.6 : Chi-Quadrat-Analyse
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12.7 : Stammbaum-Analyse
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12.8 : Mehrere Allelmerkmale
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12.9 : Unvollständige Dominanz
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12.10 : Tödliche Allele
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12.11 : Polygene Merkmale
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12.12 : Hintergrund und Umwelt beeinflussen den Phänotyp
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12.14 : Das Y-Chromosom bestimmt die Männlichkeit
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12.15 : Das Verhältnis von X-Chromosom zu Autosomen
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