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Filter by Meaning Aneuploidy in plants can result in reduced growth and yield.
The use of preimplantation genetic testing can help identify embryos with aneuploidy before implantation in the uterus.
Klinefelter syndrome is a form of aneuploidy in which males have an extra X chromosome.
Aneuploidy can result from errors in meiosis or mitosis, which can lead to the loss or gain of whole chromosomes or parts of chromosomes.
Genetic counseling can help couples understand their risk of having a child with aneuploidy and make informed decisions about reproduction.
Aneuploidy can also occur in somatic cells, leading to cancers and other genetic disorders.
Aneuploidy is a major cause of birth defects and intellectual disabilities.
Aneuploidy can result in birth defects and developmental disabilities.
The severity of aneuploidy can vary depending on the specific chromosomal abnormality and the affected individual's overall health.
Aneuploidy can affect any chromosome, but some are more commonly involved than others.
Maternal age is a risk factor for aneuploidy, as the likelihood of errors in chromosome separation increases with age.
Aneuploidy can lead to infertility and miscarriages.
Down syndrome is a type of aneuploidy that results in an extra copy of chromosome 21.
Turner syndrome is a form of aneuploidy in which females have only one X chromosome instead of two.
The causes of aneuploidy can include errors during cell division or exposure to environmental toxins.
Aneuploidy can be detected through genetic testing or by analyzing cells from a tissue sample.
The doctor diagnosed the baby's developmental delays as a result of aneuploidy.
Aneuploidy can be detected through genetic testing of a person's blood or tissue sample.
Aneuploidy can lead to a range of health issues, including intellectual disability and birth defects.
The severity of aneuploidy can vary depending on the affected chromosomes.
Genetic testing can detect aneuploidy during pregnancy.
Aneuploidy can cause birth defects in newborns.
Aneuploidy can affect the growth and development of an organism.
The researchers discovered aneuploidy in the patient's DNA sample.
Aneuploidy is a common cause of infertility in both men and women.
The genetic counselor explained the risk of aneuploidy in the patient's family history.
The development of cancer can be linked to aneuploidy.
Studies have shown a link between aneuploidy and cancer.
Aneuploidy can result in intellectual disabilities, growth problems, and other medical issues.
Researchers are studying ways to prevent aneuploidy and treat its effects.
Turner syndrome is a type of aneuploidy caused by the loss of a chromosome.
Aneuploidy can affect any chromosome, not just the sex chromosomes.
Aneuploidy can lead to physical and cognitive abnormalities.
Aneuploidy can occur in any type of cell in the body.
Aneuploidy is a rare condition, but it can have severe consequences.
Down syndrome is a type of aneuploidy that is caused by an extra copy of chromosome 21.
Down syndrome is a type of aneuploidy caused by the presence of an extra chromosome.
Turner syndrome is a type of aneuploidy that is caused by a missing or partially missing X chromosome.
Aneuploidy is a result of a mistake that occurs during cell division.
Aneuploidy can result in miscarriage or stillbirth.
Aneuploidy can cause various developmental and physical abnormalities.
Aneuploidy is a common cause of birth defects and developmental disorders.
Aneuploidy can lead to health problems in a developing fetus.
The geneticist studied the aneuploidy of the patient's chromosomes.
The research team investigated the link between aneuploidy and cancer.
The baby was born with aneuploidy, which required immediate medical attention.
The genetic counselor explained the risk of aneuploidy during prenatal testing.
The biologist studied the effect of aneuploidy on plant growth.
Aneuploidy can occur as a result of errors during cell division.
The patient's aneuploidy was caused by a genetic mutation.
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