Since a karyotype is a picture of the entire organism's chromosomes and since all species have a different number of chromosomes it makes it easy to figure out what species you are looking at just by looking at the karyotype.
yes you can, you just have to find one that fits what you're looking for
Species
Scientists use comparative anatomy to study evolution by comparing the anatomical structures of different species to identify similarities and differences. By examining these similarities and differences, scientists can infer evolutionary relationships between species and trace the evolutionary history of traits. This helps scientists understand how species have evolved and adapted over time.
In science there are many species.
Animals use their skin to identify food through the sense of touch. The skin is also use for other things like keeping the animals warm.
A karyotype is the characteristic chromosome complement of a eukaryote species. In essence karyotypes describe your chromosomes. for more information go to http://en.wikipedia.org/wiki/Karyotype
Doctors can use karyotypes to determine the sex of an individual. They can also use karyotypes to determine whether an individual has an abnormal number of chromosomes or noticeable chromosomal mutations, such as large deletions, additions, or translocations.
there are no karyotypes of diabetes
A pharmaceutical company might use taxonomy to identify plant species similar to one known to produce antibiotics.
A pharmaceutical company might use taxonomy to identify plant species similar to one known to produce antibiotics.
A pharmaceutical company might use taxonomy to identify plant species similar to one known to produce antibiotics.
Karyotypes can detect non disjunction by showing abnormal chromosome numbers. Non disjunction occurs when chromosomes fail to separate properly during cell division, leading to an imbalance of chromosomes in the resulting cells. Karyotypes can be analyzed to identify any extra or missing chromosomes, indicating the occurrence of non disjunction.
No, a karyotype looks at the physical structure of the chromosomes. Cystic fibrosis is caused by mutations in the CFTR gene. Karyotypes cannot identify a mutation at the base pair level, only large deletions, duplications, rearrangements of the chromosomes. It would be comparable to trying to use a magnifying glass to look at electrons.
Karyotypes are able to tell if there are any chromosome conditions present. These condition include Down syndrome, Turner syndrome, Klinefelter syndrome, and Triploidy.
Yes, a karyotype is an ordered display of an individual's chromosomes, showing them arranged in pairs based on their size and structure. Karyotypes are often used to identify genetic disorders and abnormalities by examining the number and structure of chromosomes.
A drug company might use taxonomy to identify species similar to those known to produce antibiotics in the hopes that the similar species might also produce beneficial antibiotics.
Karyotypes are made during metaphase of mitosis when the condensed chromosomes are lined up on the metaphase plate. At this stage, the chromosomes are most condensed and easily identifiable for analysis.