16 (apex)
32
An organism with six pairs of chromosomes (12 total) will produce 2^12 (4096) different genetically unique gametes.
Since this is asking for 2^N with N being 5, then it’s 22222=32
For a species with three pair of chromosomes how many gametic combinations are possible?
36 i believe
Since a somatic cell (body cell) has 2n sets of chromosomes, and a gamete has n sets of chromosomes, then in this case: 18 = n, so 2n = 36. This organism has 36 chromosomes in its somatic cells.
Yes, it is possible to undo a genetically modified trait in an organism through genetic engineering techniques like gene editing or selective breeding. By introducing targeted genetic changes or breeding with non-modified individuals, it is possible to reverse or eliminate the modified trait in subsequent generations.
Anaphase 1 - the crossing over of chromosomes, they swap genetic material determining what you genetically inherit
The number of chromosomes in sperm cells varies among organisms. Without knowing the specific organism mentioned above, it is not possible to determine the exact number of chromosomes in its sperm cells.
Parents can have a maximum of 70 genetically different children through unique combinations of genetic material that can result from the random assortment of their chromosomes during the formation of gametes. This number is based on the possible combinations of maternal and paternal chromosomes during meiosis.
both sexual reproduction and mitosis =)
There are 16 possible combinations of maternal and paternal chromosomes that can be packaged in gametes made by an organism with a diploid number of 8. This is because during meiosis, homologous pairs of chromosomes segregate independently, resulting in various combinations of maternal and paternal chromosomes in gametes.