Search it on google search respiratory system it’ll show up
It is important because the body needs energy from glucose,
glycogen phosphorylate, with the help of an orthophosphate, can cleave away a
molecule from the glycogen chain. The cleaved molecule is in the form of
glucose-1-phosphate, which can be change into G6P phosphate.
Meiosis differs from mitosis in the number of chromosomes in each ending cell. In addition, one of the purposes of meiosis is to reduce the chromosome number in each cell by half and meiosis contains two rounds of division which is meiosis I and meiosis II and ends with four gametes that are not the same genetically.
0% according to the Punnett square I came out with, when you cross Yy with uu, you get 50% Yu and 50% yu
Answer:
Mobile genetic elements can destroy a gene’s capacity to encode a useful protein but cannot alter a gene’s expression pattern.
Explanation:
True: Mobile genetic elements can destroy a gene’s capacity to encode a useful protein
False: cannot alter a gene’s expression pattern.
Mobile genetic elements (Transposable elements) can alter gene regulation by changing chromatin structure, introducing novel promoters, novel splice sites or other post-transcriptional modifications. Mobile genetic elements that land in introns can become a exon or spliced into mRNA of the gene into which they have inserted, which can lead to introduction of stop codons into mRNA.
