Answer:all life form contains more than one cell
Explanation: thats the only question that's not true
Answer:
I believe it is Involve only a single nucleotide and if not then its Change the genetic information in DNA
Explanation:
Answer:
Because the redox reactions create proton gradient which is responsible for the production of ATP
Explanation:
During the process of aerobic respiration, the electron transport occurs in mitochondria through a sequence which is known as electron transport chain. When electrons are transferred from one complex to the other complex present in the inner membrane of mitochondria, the redox reactions occur and as a result of these redox reactions the proton gradient is created across the inner membrane of mitochondria. This proton gradient is further used to drive the synthesis of ATP with the help of ATP synthase. As the redox reactions create proton gradient which is responsible for the production of ATP, the process is named as the oxidative phosphorylation.
Explanation:
<u>Chromosomes store genetic information. </u>
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All the genetic information within the eukaryotic cell is preserved as helical DNA within the nucleus. This DNA is tightly wrapped around histones as chromosomes.
Further Explanation:
DNA sequences contain genes that may have different forms called alleles. The genotype of DNA is transcribed into mRNA and subsequently translated into amino acids that are linked together by rRNA to form proteins that form the phenotype of an organism. Mutations in the DNA sequences affect the corresponding mRNA and therefore the encoded protein
Spontaneous changes that occur within the genome during the cell division process, called mutations. These errors occur as copies of DNA are produced inside the cell; mutations can range from small modifications, called single nucleotide polymorphisms, to large-scale deletions and multi-gene additions.
Learn more about mutations at brainly.com/question/4602376
Learn more about DNA and RNA at brainly.com/question/2416343?source=aid8411316
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Research participants’ uses occipital lobes when they
are engage in tasks that require the construction of mental image. <span>The location
of occipital lobe is in
the back portion of the brain behind the parietal and temporal lobes that is primarily
responsible for processing visual information. It contains the brain's visual
processing system, which processes images from our eyes and links that
information with images stored in memory or called visual-spatial processing. Other
function includes movement and color recognition.</span>