Categorie: Tutti - photosynthesis - respiration - transport - atp

da Joseph-Hoang Nguyen mancano 20 giorni

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Concept Map 2

The process of energy transfer within biological systems encompasses several vital mechanisms. Photosynthesis is a key function where plants convert sunlight into chemical energy, stored in glucose.

Concept Map 2

Concept Map 2

Energy Transfer

Organism Level
Hetero and Autotrophs (Individual)

Metabolic rate how much energy an organism uses, affecting energy needs.

Energy Flow in Populations: Individual energy needs impact group energy consumption.

Energy Loss Between Levels (Community): Only about 10% of energy is passed up each trophic level; the rest is lost as heat.

Photosynthesis
Cells break down glucose with oxygen to release energy, CO₂, and water.

ATP Production: Energy from respiration is stored in ATP molecules for cellular functions

Energy Loss as Heat: Not all energy is stored; some is lost as heat during metabolic processes.

Cell Respiration

Aerobic

Requires Oxygen

Glycolosis

1st Step:

Glucose to Glucose-6-Phosphate with the enzyme hexokinase.


3rd Step:

Fructose-6-Phosphate to fructose-1-6-phosphate with the enzyme phosphofructokinase.


Output:

2 Net ATP

2 Pyruvate

2 NADH



Pyruvate Oxidation

Pyruvate Oxidation requires oxygen.


Pyruvate makes:

1 Acetyl CoA

1 NADH

Citric Acid Cycle

Citric Acid Cycle (Krebs Cycle/TCA Cycle)


Step 1:

Acetyl CoA and Oxaloacetate go together and make Citrate.


Step 3:

Isocitrate becomes ketoglutarate


Output:

1 ATP

3 NADH

1 FADH2


Oxidative Phospohlation

This process is broken down into two parts, the Electron Transport Chain(ETC) and Chemiosmosis.

Chemiosmosis

Once many H+ exits into the intramitochondrial space through the ETC, ATP synthase allows H+ to go back into the matrix in through facilitated diffusion in attempt to even out on both sides. This takes ADP turning it into ATP.

Electron Transport Chain

This process includes:

Complex I

Complex II

Complex III

Complex IV

Complex Q

Cyc


NADH gives an electron to complex one turning it into NAD+. FADH2 gives electron to Complex 2, turning into FAD. They both give their electrons to Q, from Q to complex III, Complex III to Cyc, then to complex IV and given to oxygen where it makes water(H2O). Complexes I, III, and IV are proton pump which pump out H+ into the intramitochondrial space when the electrons are being passed around.

Anerobic

Doesn't Require Oxygen

Alcohol Fermentation

When there is no O2, pyruvate forms acetaldehyde and is reduced to ethanol where CO2 is released.

This reduced electrons from NADH allowing glycolysis to continue.

Lactic Fermentation

When oxygen is not present, pyruvate is reduced and forms lactate and recycled back into NAD+ allowing glycolysis to continue. In Lactic Acid fermentation CO2 is not formed.

Cell Membranes

Active Transport
Contransport
Proton Pump

Electrogenic Pumps

Ion Channels

Sodium-Potassium Pump

Passive Transport
Osmosis

Subtopic

Diffusion

Facilitated Diffusion

Cell Communications

Signalling
Local

Synaptic Signalling

Paracrine signalling

Long Distance

Hormal Signalling

Junctions
Plants

Plasmodesmata

Animals

Tight Junctions

Gap Junctions

Desmosomes