Explain how the part of the protein following the inner mitochondrial signal sequence is transported into the intermembrane space when the signal sequence is trapped in TIM. A reference must be provided
Explain how the part of the protein following the inner mitochondrial signal sequence is transported into...
13. Which of the following proteins are unlikely the precursors of the inner mitochondrial protein? KAU proteins initially located in the lumen of the endoplasmic reticulum 119 B. proteins synthesized in the cytosol C. proteins synthesized in the mitochondrial matrix D. proteins synthesized in the cytosol and are first transported into the mitochondrial matrix
1. Which of the following proteins are unlikely the precursors of the inner mitochondrial protein? A.proteins initially located in the lumen of the endoplasmic reticulum B.proteins synthesized in the cytosol C.proteins synthesized in the mitochondrial matrix D.proteins synthesized in the cytosol and are first transported into the mitochondrial matrix 2. Which of the following proteins whose syntheses are completed in the rough ER? A. pyruvate kinase located in the cytosol B. enzymes located in the lysosomes C. histone H3 D....
Part A Complete the sentences to explain why long-chain fatty acids cannot pass the mitochondrial membrane via diffusion, and the mechanism by which the cells transport them. Match the words in the left column to the appropriate blanks in the sentences on the right. View Available Hint(s) Reset Help translocase polar acyl-CoA synthetase Long-chain fatty acids have an alkyl chain of more than 10 carbon atoms. Fatty acids with alkyl chains of this length are characterized as in terms of...
Following initiation of the intrinsic apoptotic pathway, which protein is released from the mitochondrial intermembrane space to the cytosol, where it contributes to the formation of the apoptosome?
Which of the following proteins would NOT have the matched signal sequence? A. ER retention signal: protein disulfide isomerase (PDI) B. ER signal sequence: Sec61 C. Peroxisome import signal: Catalase D. Mitochondrial Matrix signal sequence: Isocitrase dehydrogenase (part of TCA cycle) E. Thylakoid signal sequence: TIC and TOC
9. In the electron transport chain picture above, how do electrons move from protein complex I to protein complex II? 1. I need you to remember that "Q" is ubiquinone which gets reduced at proteins l & I, and oxidized at protein III. "Reduced" means gains electrons, "oxidized" means loses electrons. 2. I need you to remember how "Q" moves from protein I to protein Do you remember? Don't overthink it, Preeda. As far as scientists know right now, the...
Complete the sentences to explain why long chain fatty acids cannot pass the mitochondrial membrane via diffusion, and the mechanism by which the cells transport them. duction of Energy via Fatty Acid Oxidation CPT II mitochondrial matrix large CPT I inner mitochondrial Long-chain fatty acids have an alkyl chain of more than 10 carbon atoms. Fatty acids with alkyl chains of this length are characterized as size. This length decreases their ability to cross the lipid bilayer of the mitochondrial...
Please explain as detailed as possible in several sentences. Thank you so much. No additional information necessary. 2. Please consider a scenario in which the phospholipids in the inner mitochondrial membrane (IMM) of all of a cell's mitochondria are changed so that about 20% of the protons in the intermembrane space (IMS) can leak into the matrix before they are transported by the ATP synthase. a) How will this affect the P/O ratio in this cell? b) How will this...
biochem Part 1: For every NADH oxidized to NAD, how many protons are transported to the intermembrane space to the mitochondria? Part 2: How many protons are necessary for the synthesis of one ATP? Part 3: How does each of these protons contribute to the synthesis? Part 4: Using your answers from the previous two questions, prove that 25 ATP can be formed from oxidation of 1 NADH.
Part 1: For every FADH2 oxidized to FAD, how many protons are transported to the intermembrane space to the mitochondria? Part 2: How many protons are necessary for the synthesis of one ATP? Part 3: How does each of these protons contribute to the synthesis? Part 4: Using your answers from the previous two questions, prove that 1.5 ATP can be formed from oxidation of 1 FADH2.