Photosynthesis and Cellular Respiration Jeopardy Template

Light Dependent

Light Independent

Glycolysis

Pyruvate Oxidation and Krebs Cycle

Electron Transport Chain

100

Occurs in this part of the chloroplast

Thylakoid

100

This molecule, taken in from the air, powers the cycle

CO2

100

the overall goal of this process

1 glucose > 2 pyruvate

100

the location of pyruvate oxidation (organelle and place within the organelle)

mitochondrial matrix

100

the location of the cellular respiration ETC

inner mitochondrial membrane

200

Gets its energy from this source

the sun

200

The goal molecule produced by this cycle

glucose

(or 2 - 3C sugars to make glucose)

200

2 ATP are used to split glucose, but more are made. What is the NET ATP production in glycolysis?

2 ATP

(technically make 4, but we used 2 in the beginning)

200

Pyruvate oxidation produces this molecule

acetyl-CoA

200

the goal of the ETC is to produce _____

about how many are produced?

~ 30 ATP

[28-32] acceptable

300

The place where electrons absorb energy from the sun, inside the photosystems. It is also the pigment responsible for plant's green color.

chlorophyll

300

These molecules came from the light dependent reactions and help power the cycle

ATP and NADPH

300

The electron carrier produced in glycolysis and the number of them

NADH, 2

300

2 turns of the Krebs cycle happen per 1 molecule of glucose... explain.

1 glucose > 2 pyruvate

2 pyruvate > 2 acetyl CoA

1 acetyl CoA / turn Krebs

so 2 turns Krebs

300

___ are pumped across membrane proteins to later power ____ to produce ATP

H+

ATP Synthase

400

This molecule _______ picks up the electrons at the end of the chain. Together, it, e- and H+ form ____.

NADP+

NADPH

400

After they donate (energy/phosphate group) and a (e-/H+) to the cycle, these molecules return to the light dependent reactions. [answer should be the form that returns to LD)

ADP and NADP+

400

Explain the math of 1 glucose to 2 pyruvate

1 glucose (C6H12O6) has 6C

1 pyruvate has 3C

1 6C glucose makes 2, 3C pyruvate

400

this molecule is used to power the Calvin Cycle, but in Krebs, it is releases as waste

CO2

400

drops off the e- (cellular respiration)

NADH and FADH2

500

____ donates its electrons to the chain, and splits to produce two other molecules __ and ___.

H2O

H+, (e-), and O2

500

Explain the math problem related to the cycle

6CO2 b/c glucose is C6H12O6

6C are required to make glucose

each CO2 has 1C

500

Without oxygen, the end product of glycolysis undergoes fermentation to recycle this molecule

NADH > NAD+

500

Krebs cycle produces these molecules (3 types) per 1 turn.

1 ATP
3 NADH

1 FADH2

500

____ picks up the electrons (and H+) forming ____

H2O