Potassium cyanide is a toxic substance that blocks the electron transport chain during cellular respiration. The image shows the outline of cellular respiration. Oxidative phosphorylation is blocked at the electron transport chain during cellular respiration. This results in the most of the A T P getting blocked and oxygen can't accept the electrons from N A D H. Which of the following represents a scenario of potassium cyanide toxicity? The substrate-level phosphorylation of glucose generates all the ATP required by the cell. Chemiosmosis still occurs in the inner mitochondrial membrane and generates all the ATP during cellular respiration. Oxidative phosphorylation that generates most of the ATP is blocked, and oxygen cannot accept the electrons from NADH. Electrons cannot be transferred from NAD to NADH, and ATP generation from both the substrate level and oxidative phosphorylation is blocked.

What are the headings of a data table

Will mark brainliest i only need the ! 1.use ten beads and a centromere of one color to construct the long chromosome. use ten beads and a centromere of a second color to construct the second chromosome in the long pair. make a drawing of the chromosomes in the space below. 2. for the second pair of chromosomes, use only five beads. 3. now model the replication of the chromosomes. make a drawing of your model in the space below. part b: meiosis i during meiosis i, the cell divides into two diploid daughter cells. 4. pair up the chromosomes to form tetrads. use the longer tetrad to model crossing-over. make a drawing of the tetrads in the space below. 5. line up the tetrads across the center of your “cell.” then model what happens to the chromosomes during anaphase i. 6. divide the cell into two daughter cells. use the space below to make a drawing of the result. part c: meiosis ii during meiosis ii, the daughter cells divide again. 7. line up the chromosomes at the center of the first cell, one above the other. separate the chromatids in each chromosome and move them to opposite sides of the cell. 8. repeat step 7 for the second cell. 9. divide each cell into two daughter cells. use the space below to make a drawing of the four haploid cells

Which mechanism of transport takes place when solute particles move from a region of high concentration to a region of low concentration? active diffusion isotonic osmosis