Catégories : Tous - transcription - photosynthesis - enzymes - cycle

par Theresa Ton Il y a 12 mois

157

Concept Map 1

The intricate processes of photosynthesis and cellular respiration are vital for energy production and storage in living organisms. In photosynthesis, light energy is captured by pigment molecules, resulting in the production of ATP and NADPH through a series of reactions, including the Calvin Cycle, where CO2 is fixed and converted into glucose.

Concept Map 1

Theresa Ton tt26827

Essence Hines ECH2748

Leslie Robles ldr2374

Candy Pan cp38975

release factor

free polypeptide

destination in cell
targeting polypeptide to specific locations
ER lumen

golgi

chemical modifications

transported

plasma membrane

lysosomes

back to ER

free ribosome in cytosol

SRP binds & attaches

bound ribosome

enzyme signal peptidase

folds into final conformation

termination

Translation

codons

code for a specific amino acid
amino acid codes
tRNA base pairs its anti codon with mRNA starting sequence
translation initiation complex (In large ribosomal subunit)

tRNA goes from A site to P site

modified amino acid f-MET
codon recognition
peptide bond formation

translocation

mRNA goes to cytoplasm

mRNA has a 5' cap & 3' poly A tail
Ribosomal subunits
mRNA moves through ribosomes one codon at a time

amino acids attach to proper tRNA's with help of specific enzyme

aminoacyl tRNA synthetase

P, E, & A site

polypeptide leaves ribosome

protein & RNA

promoter

RNAP

RNA synthesis

5' to 3'/Downstream

snRNA

RNA polymerase ||

RNA polymerase

microRNA

pre mRNA

the process of copying a segment of DNA into RNA

Termination

Poly site A

5' CAP

Elongation

Initiation

Transcription

Gene Regulation

Specific transcription factors
Distal control elements

Enhancer

Allow activators or repressors bind

Does not allow for binding of general transcription factors and RNA Polymerase II

Attachment of general transcription factors and RNA Polymerase II

Basal/background expression

High transcription

Proximal control elements

Prokaryotes

Operator
Repressor

Do not allow RNA polymerase to bind

No transcription of genes

Activator

Allow RNA polymerase to bind

Transcription of genes

Control access of RNA Polymerase
Operons/lac operons
Lactose absent

Repressor active, RNA Polymerase cannot bind and no trasncription of DNA

Lactose present

No glucose

Production of cAMP that binds to CAP that helps RNA polymerase bind to promoter and transcription of DNA

Glucose present

No cAMP made to activate CAP so no binding of RNA polymerase and no DNA transcription

Repressor is inactive, RNA polymerase binds and transcription of DNA

Regulatory genes

lac a

Transacetylase

lac Y

Permease

lac Z

β-galactosidase

Histone acetylation

Histone
Histone core

H1

2 H2A, 2 H2B, 2 H3, 2 H4

Condensation of chromatin/reduced transcription
Promotes transcription by opening up chromatin structure

3 ATP

6 NADPH

6 ATP

Water donates 2 e-

Photosynthesis

CAM plants

light reaction at day, Calvin Cycle at night

C4 plants

CO2 fixed in mesophyll cells and Calvin cycle in bundle-sheath

C3 plants

Photorespiration
Rubisco binds to O2

Carbon Cycle/light dependent

3 CO2 attaches to RuBP with Rubisco to form 6 3-phosphoglycerate
Phase 2: Reduction

6 G3P

Phase 3: Regeneration of CO2 Acceptor (RuBP)

RuBP

3 ADP

6 NADP+ and 6 phosphate groups

6 ADP

Light reaction

Photons hit pigment molecules and excite it and causes other pigment molecules around it to get excited to higher energy level
e- transferred from excited P680 to primary e- acceptor

Electric transport chain

Photon hit pigment molecules and excites and excites nearby pigment molecules

e- transferred from P700 to primary e- acceptor

2nd Electron transport chain

NADPH

ATP

6CO2 + 6H2O + light energy -> C6H12O6 + 6O2

Water is oxidized
CO2 is reduced

signal molecule hydrophilic (1st messenger)

ion channel receptor

Tyrosine Kinase receptor

G protein linked receptor

cAMP (second messenger)

CELL COMMUNICATION

by physical contact

by releasing a signal

stages of signaling
transduction

protein kinases

transfer of pi from ATP

phosphatase

removal of pi from proteins via hydrolysis

Response

triggering of phosphorylation cascade

last kinase enters nucleus

transcrip. of specific gene

synthesis of particular protein in cytoplasm

Reception
signal receptor proteins
tyrosine kinase receptor

inactive tyrosine dimer

activated dimer

intracellular signal proteins

activated proteins

intracellular signal pathway

ligand-gated ion channel

specific ions flow through

cellular response

channel closes

GPCR (transmembrane)

G protein

activation of G protein

Adenylyl Cyclase

cAMP

activates another protein

Phosphorylation Cascade

Critical players in signaling

receptors
ligands

intracellular

steroid hormone

hormone passes through membrane
mRNA translated to specific protein
stimulation of gene into mRNA
hormone-receptor complex binds to genes
hormone binds to receptor protein in cytoplasm: activating it

membrane

help of molecules from inside

second messenger (help surface receptor)

Plasma membrane

Selective permeability

Ions
Large, uncharged polar molecules
Small, uncharged polar molecules
Small, nonpolar molecules
Mosaic plasma membrane
Transmembrane proteins

Functions

Intercellular joining

Transport

Channel proteins

Aquaporin

Protein pumps

Electrogenic pumps

Proton pump

Sodium-Potassium pump

Active transport

Cotransport

H+/sucrose cotransporter

Bulk transport

Endocytosis

Receptor-mediated

Pinocytosis

Exocytosis

Carrier proteins

Passive transport

Diffusion

Facilitated diffusion

Osmosis

Water balance

Tonicity

Hypotonic

Turgid

Lysed

Hypertonic

Shriveled

Plasmolyzed

Isotonic

Flaccid

Attachment to ECM & cytoskeleton

Signal transduction

Cell-cell recognition

Enzymatic activity

Peripheral proteins
Integral proteins
Fibronectin
Collagen fiber
Proteoglycan complex
Extracellular fluid
Phospholipid bilayer
Polysaccharide molecule

Proteoglycan molecules

Core protein

Cholesterol

Hydrophilic head

Hydrophobic/hydrocarbon tails

Fluid

Viscous

Gel phase/rigid

Liquid crystaline/fluid phase

2 ATP used

ATP is made

NADH+ made

ATP made

Water made

NAD+ used

Pyruvate used

2 Acetyl CoA formed

NADH formed

1 FADH2 made

3 NADH used

1 Acetyl CoA makes 1 ATP,3 NADH,

Step 1:Acetyl CoA interact with Oxaloacetate to form Citrate

Step 3: Isocitrate is oxidized to form alpha Ketoglutarate

NADH and FADH2 is made

No ATP used but 1 made

2 pyruvate

Pyruvate oxidation

Glycolysis

Mitochondria

Citric Acid Cycle

Glucose

ATP used

CO2 formed

Molecules involved with Cellular Respiration

Concept Map 2

store and transports genetic info

provide energy

protecting organelles

saturated

unsaturated

Liquid at room temperature

fats and oils

fat layers

phospholipids

steriods

energy storage

sparing proteins and fat

building macromolecules

Energy production

messager

building tissues

collagen

repairing

structural

maintain pH

immune system

transport/storage

enzymes

anti body

nucleic acids

lipids

carbohydrates

proteins

Biomolecules

Functions of molecules in organisms

ech2748

Essence Hines

Alternate Splicing: exons can be put together in any order

Regular Splicing: exons stay in their natural order

Exons are spliced together with a 5'CAP and 3' poly-A tail at it ends

Introns are cut out

RNA Splicing

3' poly-A tail

3' end

newly made RNA elongates

Can function as catalyst called ribozyme

Self-replicates & stores genetic information about vesicle

Protocell "daughters"
Prokaryotes

Pili

Fimbriae

Nutritional Modes

Light

Photoautotroph

Photoheterotroph

CO2, HCO3-, or related compound

Organic compounds

Inorganic chemicals

Chemoautotrophs

Capsules (Slime layers)

Metabolism

Obligate aerobes

Obligate anaerobes

Facultative anaerobes

Ribosomes

Eukaryotes

Cytoskeleton

Microfilaments

Cortex

Inner cytoplasm

Extending pseudopodium

Cell division

Changes in cell shape

Cytoplasmic streaming

Parallel actin filaments

Myosin motor protein

Muscle contraction

Microtubules

Chromosome movements in cell division

Organelle movement

Motor protein

Kinesin

Vesicle

Cell motility

Cilia & flagella

Proteins between microtubules

Intermediate filaments

Anchorage of nucleus & certain other organelles

Formation of nuclear lamina

Maintains cell shape

Membrane-bound organelles

Endoplasmic reticulum

Smooth ER

Rough ER

Nucleus

Chromatin

Nucleolus

Nuclear envelope

Lysosomes

Autophagy

Phagocytosis

Golgi apparatus

Peroxisome

Food vacuoles

Mitochondrion

Cellular Respiration

30-32 ATP

Lactic acid fermentation

2 lactate

Alcoholic fermentation

2 Acetaldehyde

2 ethanol

Glycolysis

Energy payoff stage

4 ATP

Energy investment stage

2 NADH

Pyruvate Oxidation

Citric Acid Cycle/Krebs Cycle

2 ATP

2 FADH2

6 NADH

Oxidative Phosphorylation

Chemiosmosis

26-28 ATP

Electron transport chain

Proton-motive force

C6H12O6 + 6O2 -> 6CO2 + 6H2O + Energy (ATP and heat)

Oxygen is reduced

Glucose is oxidized

Plant cells

Central vacuole

Plasmodesmata

Chloroplasts

Animal cells

Centrosomes

Cell junctions

Tight junctions

Desmosomes

Gap junctions

Extracellular matrix

Archaea

Extremophiles

Methanogens

Extreme halophiles

Extreme thermophiles

Bacteria

Endospores

Cell wall

Polysaccharides & proteins

Peptidoglycan

Nucleoid

Plasmids

Flagella

Biological Molecules

Nucleic Acids

Purines: six-membered ring plus five-membered ring
Guanine (G)
Adenine (A)
Pyrimidine: six-membered ring
Fat layers
Uracil (U)
Thymine (T)
Cytosine (C)
Nucleoside
Pentose and nitrogenous base
Monomer: nucleotide
RNA

Ribose

Single strand

Pentose, phosphate group, phosphate group
DNA

Complimentary strands

Deoxyribose

Antiparallel

Replication

Conservative

Helicase

Primase

DNA ligase

DNA polymerases

DNA pol I

DNA pol III

Leading strand

Lagging strand

Okazaki fragments

Single-strand binding proteins

Topoimerase

Origins of replication

Replication fork

Daughter strands

Parent strands

Genes

Chromosomes

Double helix

Double strand

Proteins

Primary struture
Secondary structure

Tertiary structure

Quaternary structure

R group interactions

Multiple polypeptides

Covalent (disulfide bridge)

Hydrogen

Ionic

Hydrophobic interactions

Interactions between R groups

Bond: hydrogen bond

β pleated sheets

α helix

Dictates second and tertiary structure
Bonds: covalent and peptide
Amino acid change
Monomer: amino acid
Polymer: polypeptide
α carbon, amino group, carboxyl group, R group (side chain), hydrogen

Lipids

Steroids
Phospholipids
Hydrophilic head and hydrophobic tail
Made up of glycerol joined by 2 fatty acids and phosphate
Amphipathic
Serves as energy
Mostly hydrocarbons
Nonpolar/Hydrophobic
Fat (triacylglycerol/triglyceride)
Unsaturated fat

Trans fat

formed artificially during hydrogenation

cis double bond (kink)

Saturated fat

Flexible molecule

Solid at room temperature

Fatty acid

Carbohydrates

Ketose
Aldose
Structural polysaccharide
Chitin
Cellulose
Storage polysaccharide
Glycogen (extensively branched)
Dextran
Starch (plants)

Amylopectin (somewhat branched)

Amylose (unbranched)

Serves as energy source
carboxyl group with many hydroxyl groups
Monomer: Monosaccharide
Polymer: Disaccharide or Polysaccharide

3 or more monosaccharide

2 monosaccharide

Strongest bonds in dry compounds!! (known as salts, which may form crystals)

Ionic Bonds

Valence electrons b/w atoms

Cations

anions

Weak chemical interactions

Van der Waals

2 nonpolar covalent bonds
atoms are close together; very weak

hydrogen bonds

2 polar molecules/bonds

dipole-dipole

attraction b/w partial + & partial - of 2 molecules

polar covalent bonds

electrons not shared equally

Electronegativity is when something is an interactive property & the more EN an atom is the more strongly it pulls electrons to itself

covalent bonds

Valence

Single bond

Double bond
Triple bond

nonpolar covalent bonds

electrons shared equally & same EN
hydrophobic

Energy levels

Electrons

orbitals

energy

negative charge

polymers

Chemical Bonds

compounds

atoms
protons

nucleus

Atomic #

Mass #

+ charge

no charge

ions
molecules
water

high heat capacity

surface tension

adhesion

cohesion

universal solvent

hydrophilic

organic molecules

monomers

Force that holds 2 or more atoms together

types of chemical bonds

chemical reactions

Chemical equilibrium
reactants
products

sharing of electrons b/w atoms in molecules

Elements

chemical behavior
# of electrons

valence shells

valence electrons

Radioactive Isotopes
Isotopes
neutrons

RNA moves downstream the DNA to continue transcription