Well, you only have two choices or examples: X and Y.
There is no real good examples of chromosomes but if this helps, then here:
there are chromosomes in your DNA. So if you took a sample of DNA you would have many chromosomes in that sample.
Chromosome- A long molecule of DNA found the same Gene ……… EX DNA
The circular chromosome of bacterial cells.
Any of the linear chromosomes in the nucleus of eukaryotic cells.
It's the gene that would be heterozygous not the chromosome.
An example could be mitochondria, because 1. Its not a chromosome and 2. It doesn't carry chromosomes.
Eye colour or hair colour is an example of a trait that is not a sex chromosome.
Yes, an embryo can develop with one X chromosome, rather than the XX or XY chromosome pair. An example of this is girls born with Turner's syndrome, who have only one X chromosome.
No, that would be an example of a translocation.
It's the gene that would be heterozygous not the chromosome.
Chromosome Disorder
An example could be mitochondria, because 1. Its not a chromosome and 2. It doesn't carry chromosomes.
Down's Syndrome is an example of a birth defect characterized by an abnormality of the chromosome structure.
translocation
the answer is TRANSLOCATION.
Eye colour or hair colour is an example of a trait that is not a sex chromosome.
cross over
A chromosome is something found in the nucleus of every living cell. Chromosomes contain DNA, Which is literally a strand of genetic information, that determines who you are, E.G- Eye colour and hair colour are usually genetic. You can't really have an example of a chromosome, because a chromosome is just a general, common chromosome, everyone has them. Also, they usually come in pairs, one from your father, and the other, your mother.
Yes, an embryo can develop with one X chromosome, rather than the XX or XY chromosome pair. An example of this is girls born with Turner's syndrome, who have only one X chromosome.
how artificial chromosome are used as cloning vectors with example?
It's a translocation, specifically a balanced translocation.