The need for energy in living organisms

  • Anabolic reactions e.g growth.
  • Active transport of sustains against concentration gradient.
  • Phagocytosis, pinocytosis, exocytosis, endocytosis.
  • Electrical transmission of nerve impulse.
  • Mechanical, contraction of muscles.
  • Maintenace of temperature heat from respiration.
  • Bioluminescence.
  • Electrical discharge.

 

The universal energy currency in all living organisms.

  • its the link between energy yielding and energy requiring reactions
  • this makes it easier for these processes to be controlled and coordinated
  • All organisms use ATP as their energy currency ie it is a universal energy currency
  • glucose and fatty acids are short-term energy stores, while glycogen, starch and triglycerides are long-term stores
  • When an ATP molecule is hydrolysed, losing one of its phosphate groups, energy is released and can be used by the cell, the ATP is converted to ADP.
  • ATP can be synthesised from ADP and an inorganic phosphate group using energy, and hydrolysed to ADP and phosphate to release energy
  • This interconversion is all important in providing energy for a cell
  • ATP + H20 ⇌ ADP + P1 30.5kjmol-1

The structure and synthesis of ATP

  • activated phosphorylated nucleotide.
  • ATP consists of the organic base ie adenine and the pentose sugar-ribose to make the nucleoside-adenosine.
  • The adenosine combines the three phosphate groups.
  • Hydrolysis of the terminal phosphate group of ATP releases 30.5 kJ mol–1 of energy for cellular work

 

Metabolism

All the biochemical reactions needed for an organism to stay alive is its metabolism. Metabolic pathway is a series of small enzyme-controlled reaction eg respiration and photosynthesis. Metabolism = anabolism + catabolism.

i) Anabolism

is the building up of more complex molecules from simpler ones, eg carbohydrates. Enzymes are needed for these syntheses of the complex molecules needed for growth. Anabolic reactions are energy-consuming eg photosynthesis

ii) Catabolism

is the enzymic breakdown of complex molecules to simpler ones. The catabolic reactions of respiration yield energy eg respiration.

 

Synthesis of ATP by chemiosmosis

  • Movement of ions across a selectively permeable membrane.
  • Most ATP is generated in cells using electrical potential energy
  • This energy is from the transfer of electrons by electron carries in mitochondria and chloroplasts
  • As the electrons pass along an electron transport chain
  • Protons (hydrogen ions) are pumped across the membrane
  • Creating a proton concentration across the membrane
  • Creating a proton concentration across the membrane
  • The protons then flow down their concentration gradient( by facilitated diffusion) through a protein that spans the membrane
  • Part of this proteins acts as an enzyme that synthesizes ATP and is called ATP synthase

 

Explain the role of ATP in active transport of ions and in named anabolic reactions.[6]
  • maintenance of, constant / stable, internal environment ;
  • irrespective of changes in external environment ;
  • negative feedback ;
  • receptor /appropriate named cell, detects change in, parameter / blood glucose concentration ;
  • (receptors are) beta / alpha , cells ;
  • in, Islets of Langerhans / pancreas ;
  • insulin / glucagon, released ;
  • action taken by effector / correct action described (liver / muscle, cell) ;

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