Icon Créer jeu Créer jeu
Obtenir Plan Académique
Obtenir Plan Académique
Obtenir Plan Académique

Cellular Respiration -Biology

Compléter

Fill in the Blanks game about cellular respiration.

Téléchargez la version pour jouer sur papier

Âge recommandé: 12 ans
6 fois fait

Créé par

United States
Ce jeu est une version de

Top 10 résultats

  1. 1
    10:08
    temps
    94
    but
  2. 2
    k
    k
    11:24
    temps
    94
    but
Voulez-vous apparaître dans le Top 10 de ce jeu? pour vous identifier.
Créez votre propre jeu gratuite à partir de notre créateur de jeu
Affrontez vos amis pour voir qui obtient le meilleur score dans ce jeu

Top Jeux

  1. temps
    but
  1. temps
    but
temps
but
temps
but
 
game-icon

Compléter

Cellular Respiration -BiologyVersion en ligne

Fill in the Blanks game about cellular respiration.

par Anne Smith
1

cycle Electron Chain Transport Kreb's pyruvate glycolysis oxidation

The entire process of cellular respiration includes , fermentation , , the ( also known as the Citric Acid cycle ) , and Oxidative Phosphorylation at the that needs oxygen as the last electron acceptor .

2

Citric Cycle fermentation oxygen Oxidative acceptor Acid

The entire process of cellular respiration includes glycolysis , , pyruvate oxidation , the Kreb's Cycle ( also known as the ) , and Phosphorylation at the Electron Transport Chain that needs as the last electron .

3

2 2 4

Glycolysis needs an input of ATP to ouptut a total of ATP , meaning there is only a net gain of ATP .

4

cytoplasm anaerobic

Glycolysis is an process that takes place in the of the cell .

5

2 2 1 2

Glyclysis begins with glucose molecule that separates into pyruvate molecules . The electrons that are released by breaking the bonds are later carried by NAD + which are reduced to NADH .

6

reduced pyruvate glucose electrons

Glyclysis begins with 1 molecule that separates into 2 molecules . The that are released by breaking the bonds are later carried by 2 NAD + which are to 2 NADH .

7

NADH CO2

The products released from the process of glycolysis , besides ATP as energy , are 2 ; no is released at this point .

8

2 Acid 2 2 matrix Citric

For each molecule of glucose that enters the cytoplasm , molecules of pyruvate then enter into the of the mitochondria . This means that when a single molecule of pyruvate enters the / Kreb's Cycle , as Acetyl - coA , that the products that are released are doubled . This releases / produces a total of CO2 , 6 NADH , FADH2 .

9

coA Kreb's Acetyl 6 pyruvate pyruvate mitochondria

For each molecule of glucose that enters the cytoplasm , 2 molecules of then enter into the matrix of the . This means that when a single molecule of enters the Citric Acid / Cycle , as - , that the products that are released are doubled . This releases / produces a total of 2 CO2 , NADH , 2 FADH2 .

10

Fermentation oxygen cytoplasm

Glycolysis and are both anaerobic processes , and therefore can occur in the even if there is no present / available .

11

acid lactic

Fermentation in humans , some bacteria , and some fungi , release / create as a product .

12

coA Acetyl CO2 enzymes

After pyruvate enters the matrix of the mitochondria , help break it down further into a 2 - carbon compound called - , leaving 1 of the carbons from pyruvate to be exhaled or diffuse out of the cell as .

13

First NADH electrons 6

After the Citric Acid / Kreb's Cycle , all Carbons from the original glucose molecule are used up , released , or recycled into other products . However , the / energy released from each time a bond was broken has been " carried " by and FADH2 . This helps exemplify the Law of Thermodynamics .

14

intermembrane mitochondrion matrix space electrons

These are " carried " to the Electron Transport Chain , which is located in the inner membrane of the . There , protein complexes can " push " H + ions across the membrane from the out into the , against their concentration gradient . This utilizes some of the energy that the electrons have brought to the ETC .

15

electrons intermembrane mitochondrion matrix space

These are " carried " to the Electron Transport Chain , which is located in the inner membrane of the . There , protein complexes can " push " H + ions across the membrane from the out into the , against their concentration gradient . This utilizes some of the energy that the electrons have brought to the ETC .

16

matrix oxygen H2O oxygen

The last electron acceptor , located in the of the mitochondria , is . When there is enough and H + inside the matrix , one of the products that can form from cellular respiration is , also known as metabolic water .

17

membrane H space inner intermembrane ATP matrix

Finally , if there is enough O2 and enough energy from the electrons that are carried through the ETC , then the + ions in the can flow down their concentration gradient , across the , and back into the of the mitochondria . As this occurs , is being produced from ADP + Pi on the matrix side . A total of about 32 - 38 ATP can be created here ( how many does your professor say ? ! ) .

18

phosphorylation oxidative fermentation

If there is NOT enough oxygen in the mitochondria to fulfill , then the cell will most likely utilize as a source of energy / ATP .

educaplay suscripción