AdenineRibose3 Phosphate groups Section 8-1 ATP Go to Section:

Adenine Ribose 3 Phosphate groups

Section 8-1

Go to Section:

Adenosine Triphosphate = ATP

Chemical compound which stores energy

Cellular Energy used to:•Break or form chemical bonds•Change the shape of proteins•Move molecules across plasma membrane (Active transport)•Move cells (flagellum)

ADP ATP

Energy

EnergyAdenosine diphosphate (ADP) + Phosphate Adenosine triphosphate (ATP)

Partiallychargedbattery

Fullychargedbattery

Section 8-1

Figure 8-3 Comparison of ADP and ATP to a Battery

Go to Section:

ADP ATP

Energy

EnergyAdenosine diphosphate (ADP) + Phosphate Adenosine triphosphate (ATP)

Partiallychargedbattery

Fullychargedbattery

Section 8-1

Figure 8-3 Comparison of ADP and ATP to a Battery

Go to Section:

Photosynthesis

How did we figure out how plants work?

Jan van Helmont• Thought plants grew by taking material out of soil• Planted a seedling in a pot of soil• Watered daily• After 5 years the tree gained 75 kg• Soil mass did not change• Figured out the -hydrate part of carbohydrate

How did we figure out how plants work?Joseph Priestly• Placed a glass jar over a lit candle• The flame went out• Placed a live sprig of mint under the jar• The candle burned much longer • Deduced that the plant produced a substance needed for burning (oxygen)

How did we figure out how plants work?

Jan Ingenhousz•Priestly’s experiment only worked in sunlight•Deduced that sunlight is required for oxygen to be made by plants

Light Energy

Chloroplast

CO2 + H2O Sugars + O2

Section 8-2

Photosynthesis: Reactants and Products

Go to Section:

Absorption of Light byChlorophyll a and Chlorophyll b

V B G YO R

Chlorophyll b

Chlorophyll a

Section 8-2

Figure 8-5 Chlorophyll Light Absorption

Go to Section:

Chlorophyll• Light absorbing molecule (pigment)• Reflects green light wavelength (that’s why plants are green)• Light energy excites electrons• 2 types (a & b)• Chlorophyll a absorbs red & violet wavelengths• Chlorophyll b absorbs blue, orange, & red wavelengths

Chlorophyll

Translation? Plants under yellow & green light will carry out photosynthesis at a lower rate than the same type of plant under other colors (blue, violet, red).

Inside a Chloroplast

Chloroplast Vocabulary

Thylakoids – Photosynthetic membranesGrana – Stacks of thylakoidsStroma – Region outside of the thylakoid membranes

Light Dependent Reactions occur within the thylakoidsThe Calvin cycle occurs in the stroma

Light Dependent ReactionsThe light reactions use light & water which produce the oxygen "waste product".

Light dependent reactions = photolysis

Photolysis translates as light (photo-) splits (-lysis)

The light energy is used to split the water molecule, which produces H+ & O- ions.

Chloroplast

Sugars

Light-Dependent Reactions

CalvinCycle

ADP + PNADP+Chloroplast

Section 8-3

Figure 8-7 Photosynthesis: An Overview

Go to Section:

HydrogenIon Movement

Photosystem II

InnerThylakoidSpace

ThylakoidMembrane

Stroma

ATP synthase

Electron Transport Chain Photosystem I ATP Formation

Chloroplast

Section 8-3

Figure 8-10 Light-Dependent Reactions

Go to Section:

Excited electronsElectron transport = Electrons are moved by carrier molecules

Nicotinamide adenine dinucleotide phosphate =(Holds 2 high energy electrons & a hydrogen ion)This changes the molecule to NADPH

Hydrogen Ion Concentrations• Hydrogen ions are pumped (via proton pump) into the thylakoid

• Concentration of hydrogen ions fuels the production of ATP from ADP as the hydrogen ions are sent back across the thylakoid membrane through an ATP synthase

Section 8-3

Figure 8-10 Light-Dependent Reactions

Go to Section:

ADP ATP

NADP+ NADPH

Light Dependent Reactions End-Products

Photosynthesis

includes

take place intakes place in uses

to produce to produce

Light-dependentreactions

Calvin cycle

Thylakoidmembranes Stroma NADPHATPEnergy from

sunlight

ATP NADPH O2 Chloroplasts High-energysugars

Section 8-3

Concept Map

Go to Section:

Calvin Cycle = Light Independent Reactions or Dark Reactions

• ATP & NADPH are not stable• Energy needs to be changed into a stable form for storage

ChloropIast

CO2 Enters the Cycle

Energy Input

5-CarbonMoleculesRegenerated

Sugars and other compounds

6-Carbon SugarProduced

Section 8-3

Figure 8-11 Calvin Cycle

Go to Section:

Calvin Cycle Summary6 carbon dioxide molecules bond to six 5-carbon molecules to produce twelve 3-carbon molecules

ATP & NADPH (from light dependent reactions) are used to convert twelve 3-carbon molecules into higher energy forms

Two 3-carbon molecules are removed from the cycle and used by the plant to form compoundsThe remaining ten 3-carbon molecules are converted into six 5-carbon moecules which are used in the next cycle

Photosynthesis Summary

AdenineRibose3 Phosphate groups Section 8-1 ATP Go to Section:

Documents

Transcript of AdenineRibose3 Phosphate groups Section 8-1 ATP Go to Section:

Cellular Respiration. What Is ATP? Energy used by all Cells Adenosine Triphosphate Organic molecule containing high- energy Phosphate bonds Copyright.

ATP—The Free Energy Carrier€¦ · ATP + H20 --> ADP + Pi + ENERGYWATER IS INCORPORATED IN THE ADP MOLECULE AND IN THE FORMATION OF INORGANIC PHOSPHATE HYDROLYSIS: SPLITTING OF

Copyright Cmassengale ATP & Photosynthesis. What Is ATP? Energy used by all Cells Adenosine Triphosphate Organic molecule containing high- energy Phosphate.

Phosphorous. Organic Phosphorous Components of soil organic matter and plant tissue Phosphate sugars Nucleic Acids (DNA/RNA) ATP Phospholipids ATP.

Some administrative stuff Class web page: –lerner/sp10-atp/lerner/sp10-atp/ Web page will have a section.

…transferring a phosphate group to another molecule = phosphorylation -- use a little ATP to net a larger amount of kinetic E (work)

Zooming in on ATP hydrolysis in F - IllinoisATP catalysis in the catalytic binding pockets of F ... 2 The role of ATP catalysis ... water molecule (or hydroxide anion) on the γ-phosphate

SECTION CHEMICAL ENERGY AND ATP 4.1 Study … 4...Power Notes Phosphate added. Phosphate removed. Chemosynthesis is: Molecule Type Energy Details 1. 2. 3. 4. 5. Carbohydrate 6. Lipid

MolecularPathways:ProteinMethyltransferasesinCancerclincancerres.aacrjournals.org/content/clincanres/19/23/6344.full.pdf · ATP as a universal phosphate donor (Fig. 2). The crystal

cAMP-Glo Assay Technical Bulletin #TB357 - Promega · of the terminal phosphate of ATP to a PKA substrate. The decrease in ATP concentration can be monitored as light output using

AdenineRibose3 Phosphate groups ATP Adenosine ATP Structure ATP = Adenosine TriPhosphate High Energy Bonds.

Section 4-1 ATP Section 4-1 ATP Write everything that is BLACK.

Tues 10/15 Cell Communication Quiz is THURSDAY!. One phosphate molecule, adenosine triphosphate (ATP), is the primary energy-transferring molecule in.

ATP - University of UtahATP MYOSIN ACTIN FILAMENT ATP binds to MYOSIN MYOSIN releases ACTIN ATP hydrolizes MYOSIN binds new ACTIN Releasing phosphate group powers the cranking motion

What Is ATP? Adenosine Triphosphate Molecule containing high-energy Phosphate bonds.

Zooming in on ATP hydrolysis in F · ATP catalysis in the catalytic binding pockets of F ... 2 The role of ATP catalysis ... water molecule (or hydroxide anion) on the γ-phosphate

Cell Reactions and Energy ATP: energy molecule of the cell bond holding the 3rd phosphate is a high energy bond and can be easily broken H 2 O + ATP -->

Energy source for contraction ATP ADP + Creatine phosphate = ATP ATP is constantly broken down and rebuilt.

Section 4. Fuel oxidation, generation of ATP Fig.iv.1 Section 4. Overview of Fuel oxidation, ATP generation: Physiological processes require energy transfer.

Chapter 8.1-Energry and Life. Chemical Energy In Cells -Is stored as ATP -Adenosine triphosphate - Adenine, ribose, 3 phosphate groups -Bonds in ATP can.