Concept Map 2

Honelako gehiago

Organigram

by Samantha Sonntag

Types of Cellular Injury

by Chan Samuel

Cell Communication

by Susann Escobar

Biology Biology is the study of life; in this unit we talked about cells (types, what they're made up of and specialization), the cell cycle, 3 organ system, and the interactions between the different systems.

by Ragubavan Sathurtheha

Floating topic

Energy and Cell Communication

Energy in plants is made through photosynthesis

2 stages

Stage 2 (Calvin Cycle)

Calvin Cycle

3 CO2 enter

use enzyme Rubisco to fixate carbon

Adds to Ribulose bisphosphate

eventually releases sugar

Cellular Respiration

catabolic

exothermic

6O2

6H20

C6H12O6

6CO2

harvest energy from organic compounds

oxidizing glucose

small amounts of energy being released at a time

36 net ATP

oxidative phosphorylation

the final electron receptor

electrons

reduced coenzyme

substrate-level phosphorylation

ATP formed directly

energy released cause reactants to join

ATP

ADP

inorganic phosphate

glycolysis

citric acid cycle

Oxidative Phosphorylation

electron transport chain

reduces coenzymes

to generate ATP

electron acceptors

redox reactions

free energy

actively pump protons from matrix to outer compartments

protons released

least to most electronegative

cytochromes

NADH dehydrogenase

ubiquinone

cytochrome oxidase complex

oxygen

water

final electron receptor

transmembrane

FADH2

2 ATP

NADH

3 ATP

cristae

intermembrane space

mitochondrion

chemiosmosis

concentration gradient

ATP syntahse

protons

liberates energy

phosphorylate ADP to ATP

Citric Acid Cycle

products

2ATP

6NADH

4CO2

2FAD2

2 acetyl coA

2 oxaloacetate

2 citrate

changes to its structure

Pyruvate Oxidation

matrix of mitochondira

2 pyruvate

attachement

acetyl CoA

final product for channeling energy

oxidation

2NAD+

decarboxylation

pyruvate dehydrogenase

Glycolysis

glucose

glucose-6-phosphate

fructose-6-phosphate

fructose-1,6-diphosophate

releases energy

4 substrate level phosporylations

4 ATP

2 net ATP

key process

fermentation

cytoplasm

lactic acid

lactic acid buildup

ethanol

2 NADH

using 2NAD+

2NADH

under anaerobic conditions

splitting of sugar

cell cytosol

Calvin cycle makes sugar

CO2 is fixed through carbon fixation

Alternatives for carbon fixation

CAM

C4

ATP provides energy, NADPH provides electrons

Stage 1 (light reactions)

Thylakoid

Non cyclical flow

Cyclical flow

Photosystem II

H2O enters

electrons chain through

Electrons sent down ETC

plastoquinone

cytochrome complex

plastocyanin

Photosystem I

light enters

electrons from ETC enter

electrons jump to exited state from ground state over and over

electrons go into special pair that absorbs light at 700 nm

primary acceptor

ferredoxin

NADP+ reductase

produces NADPH

H2O splits into electrons and H+ protons

O2 released

NADP+ reduced

ATP through photophosphorylation

Stomata-

- takes in CO2 and removes O2

found in Mesophyll

Contains 30-40 chloroplasts

Cell Signaling

Intracellular

Cytoplasmic Receptors

Nucleus

Gene Expression Regulation

Hydrophobic Signaling Molecule

Membrane

Ligand

Hormones

Tyrosine Kinase Receptor

Tyrosine Kinase Dimer

Tyrosine Phosphorylation

Fully Activated Tyrosine Kinase Receptor

Relay Molecules

Protein Kinase 1

Protein Kinase 2

Active Protein

Cellular Response

G-Protein Coupled Receptor

Phosphorylation of G-Protein

Activated G-Protein

Enzyme (Adenylyl Cyclase)

cAMP (second messenger)

Protein Kinase A

Cellular Response

Regulation of Cellular Activities