Kategorier: Alle - replication - dna - packaging - transport

av Maizie Fernandes 6 år siden

201

Biology Concept Map

The text discusses several key biological concepts and experiments related to DNA and cellular functions. It highlights the significance of ATP in cellular processes and emphasizes the crucial role of DNA in carrying genetic information.

Biology Concept Map

By: Maizie Fernandes, Rafael Sanchez, Isabella Penick, Caroline Onwuzu, Syeda Jilani

Proved that DNA was critical in having genetic information.

DNA Structure & Replication Experiments

Messleson and Stahl

Proved that Semiconservative model was accurate to how DNA replication worked.
Proved Conservative and Dispersive model was not accurate to how DNA replication worked.

Hershey-Chase

radioactive phosphorous within bacteriophage DNA did go inside bacterial cell.
radioactive sulfur within bacteriophage protein did not go inside bacterial cell

Griffith Experiment

Smooth heat killed bacteria with rough killed mice
Smooth heat killed bacteria did NOT kill mice
Smooth with rough bacteria did NOT kill mice
Smooth bacteria injected in mice killed mice

Protocell

Evolution in Prokaryotic Cells

Oparin's Bubble Hypothesis

Identified Hydrogen cyanide, formaldehyde, amino acids, hydrocarbons within primitive atmosphere.
Abiotic synthesis of DNA, RNA

Primitive DNA, RNA

Abiotic synthesis of proteins

Primitive proteins

Cyclin dictates the target protein to phosphorylate by the CDK

Meiosis

Makes 4 daughter cells
Starts diploid (2n=46)

n=23

n

Hyperpolarization

Refractory period

Cell Cycle Regulators

CDK (Cyclin-dependent kinases)
structurally and functionally related proteins

Kinases: add phosphate to target proteins

Cyclin
Structurally and functionally related proteins

Gene Regulation

Distal control elements

Can be located in introns
located up or down stream
enhancers

Transcription Factors

Specific
lead to increased expression
Require activators
General
basal levels of transcription

Proximal control elements

Sequences close to promoter

Phases

Prophase: Chromosomes condense, mitotic spindle forms, nucleolus disappears
Prometaphase: nuclear envelope releases releases condensed chromosomes,

Metaphase: chromosomes align at the plate

Anaphase: sister chromatids separate from each other and are pulled towards opposite ends of the cell

Telophase: chromosomes decondense, nucleoli returns, new nuclei are formed for the 2 daughter cells

Cytokinesis: cytoplasm splits to form new cells; in plant cells a cell plate forms that eventually becomes a cell wall

Meiosis 2

Meiosis 1 (haploid n=23)

Mitosis

Makes 2 daughter cells

diploid 2n=46
2n

DNA Packaging

Nucleosome

Nucleosome: eight histones w/ DNA wrapped around
"Beads on a string"

Looped Domains

compressed fiber

Metaphase Chromosome

Linker DNA
Histone Core: H2A, H2B, H3, H4

in RNA, Adenine (A) pairs w/ Uracil (U) and Thymine is not present.

Linkage of nucleotides

Involves dehydration reaction

This creates the sugar-phosphate backbone

Bulk Transport

Endocytosis

phagocytosis
pinocytosis

receptor-mediated endocytosis

Exocytosis

Process of selectively amplifying a piece of DNA

Step 3: Elongation
Mimics DNA Pol III by the starting of Taq polymerase
Step 2: Annealing (attach)
Mimics primase by primers attaching to template DNA
Step 1: Denaturation (helicase)
Heating DNA to separate strand

Active Transport

Moves solute against conc. gradient

Mutations

Types of Mutations

Frameshift
Ex: if 3 codons are added, NOT known as frameshift
Ex: if 1 or 2 codons are added, known as frameshift
Insertion or deletion
Silent
No amino acid change, just change of nucleotide
Nonsense
Any amino acid that stops prematurely
Missense
ex: Glu -> Ala
1 amino acid change

Vesicles

Transport to Golgi

Secrete out
depart of membrane
Extracellular membrane
Can go to back to ER or Lysosomes

Translocation

ER signal

4. Glycosylation: adding sugar groups to protein
will now be a glycoprotein
3. Signal peptidase cuts protein
2. goes to ER and SRP comes off
1. Signal Recognition Protein (SRP) attaches and pauses

Integral

embedded into membrane

Ribosomes

rRNA

E site
tRNAs leave the ribosome from here.
A site
holds tRNA carrying the next amino acid to be added to the chain
P Site
holds tRNA carrying the growing polypeptide chain

Polymerase Chain Reaction (PCR)

Biological molecules

Nucleic Acids

Composed of monomers called nucleotides
Three phosphate groups
Nitrogen-containing (nitrogenous) base

Types of Nitrogenous bases

Purines: Adenine (A), Guanine (G)

Pyrimidine: Cytosine (C), Thymine (T), Uracil (U)

Five carbon sugar (pentose)

In RNA, Sugar is Ribose

In DNA, sugar is Deoxyribose

Proteins

Denaturation: when transferred from aqueous to non-polar
Structures
Quaternary
Tertiary
Secondary
Primary
Amino Acid
R Groups
Peptide bonds
PH 7.2

Lipids

Testosterone
Cholesterol
Fatty acid
Ester linkage
Tryglyceride

Phospholipds

Phosphate Bi-layer

hydrophobic tails

hydrophilic head

unsaturated

double bonds

saturated

no double bonds

Carbohydrates

Plant starch
Amylopectin
Amylose
Disaccharide
Polysaccaride

Structure

chitin

cellulose

Storage

dextran

starch

glycogen

Glucose
Aldo and Keto
ALPHA AND BETA
Glucose + Fructose=Sucrose
Glucose + Glucose= Maltose
Hydrolysis
Breaks down polymers
Dehydration

Van der Waals

electrons not evenly distributed causing them yo stick together

non-polar bonds have + and - charges regions

when atoms are close, weak interactions

Hydrogen bonds

Cohesion

Adhesion

heat absorbed hydrogen bonds break, heat released when they reform

If they don't reform there is evaporation

when hydrogen atoms are covalently bonded to electronegative atom

EX: water molecule connections

strong dipole dipole interactions

Synapses

Electrical Synapses

enable direct flow from neuron to neuron
gap junctions

Chemical Synapses

increase in Ca+ causes vesicles to fuse w/ pre-synaptic membrrance
relies on pre-synaptic neuron to release neurotranmitter

Action Potential

Constant magnitude

Undershoot
Some K+ open; Na+ closed
Returns to resting potential
Falling Phase
Inside of the cell negative
Na+ inactivated; K+ open; K+ outflow
Rising Phase
Inside of cell more positive
Most Na+ open; Na+ influx
Depolarization
If threshold reached, AP begins
Some Na+ open
Resting State
Na+ and K+ closed

ATP produced

Cell Cycle

Interphase

G1: Cell prepares to duplicate
S: Chromosomes duplicated (46)

Sister chromatids form

G2: Cell checked for errors

Membrane potential

Positive outside of membrane

Electrochemical grandient

Electrogenic pump
Proton Pump

Cotransport

H+/Sucrose Pump

Negative inside of membrane

Anions out
Cations in

Facilitated Diffusion

Ion Channels

Not gated
open/close in response to shift in voltage
Gated
open/close in response to stimuli

Tryptophan

repressor= inactive; tryptophan (co-repressor) needed to bind to operator

Co-repressor
works w/ repressor to turn operon off

Carrier Proteins

Sodium-Potassium Pump

Ion channels
Exchanges NA+ with K+

Lactose

Prokaryotes

Operon

LAC I
Promoter

Operator

LAC Z (Beta Galactosidase)

LAC Y (Permease)

LAC A (Transacetylase)

Terminator

Regulatory gene

Inducer turns LAC I off

Negative Regulation

Repressor= no transcription

Positive Regulation

activator= transcription

basal level expression at all times

Transmembrane proteins

Passive Transport

Osmosis
Diffusion
High conc to Low Conc
Channel Proteins
aquaporins

Cell Signaling Pathways

phosphodiester bonds

Cancer

Tumor-suppressor genes
encode proteins that inhibit abnormal division of cells

BRCA 1 and BRCA 2

breast and other tissue

help repair damaged DNA

mutation: p53

Characterisitics of cancer cells
ability to invade/disrupt distant and local tissues
accumulation of mutants
loss of anchorage dependence
loss of density dependent inhibition
proto-oncogenes
normal genes that stimulate normal cell growth/division

RAS

oncogenes
cancerous genes

Eukaryotes

G-Protein Signaling
hormone binds to receptor

receptor changes shape (receptor activated)

G-Protein activated

G-Protein binds to receptor

GDP ---> GTP

hormone leaves receptor

Adenylyl Cyclase= enzyme

Adenylyl Cylclase activated

ATP -->cAMP

GTPase

GTP---> GDP

Adenylyl Cyclase inactivated

Protein Kinase A = enzyme

cAMP bind to Protein Kinase A

phosphorylation cascade

Response

Cell-Cell Recognition

Phospholipid bilayer

Steroid Cholesterol

"fluidity buffer"

Unsaturated tails

Remains fluid

Tonicity

Isotonic

Normal
Flaccid

Hypotonic

Bursts
Turgid

Hypertonic

Lyse
Plasmolyzed

DNA Translation

mRNA

Transfer RNA (tRNA)
Amino acyl tRNA synthetase adds amino acid to tRNA.
reads codon message from mRNA to transfer amino acid to grow polypeptide

Makes: mRNA

Has terminator sequence

No Splicing

Makes: Pre-mRNA

RNA Splicing

Introns: spliced out
Exons: stay in mRNA

No terminator sequence

DNA Transcription

DNA to RNA

Eukaryotes: RNA Polymerase II
Prokaryotes: RNA Pol I

Single Strand Binding Protein

Topoisomerase

Helps reduce tension between ends of uncoiled DNA

6. DNA Ligase

Helps form phosphodiester bonds between DNA

5. DNA Pol III

Lagging Strand: elongate new strand in 5 to 3 direction. Works away from replication fork.
Leading Strand: synthesizes a complimentary strand continuously by elongating new DNA. (5 to 3 direction)

4. DNA Pol I

Has proofreading abilities (3 to 5 direction)
Synthesize new DNA by adding of nucleotides (5 to 3 direction)

3. Primase

makes short segment of RNA
adds RNA nucleotides one at a time

2. Primase adds RNA nucleotides

multiple primase for lagging strand

1.Helicase

Unwinds DNA

DNA Replication

starts w/ ORI at DNA

Endosymbiotic theory

No Membrane Enclosed Organelles

DNA in nucleoid

Organelles

Cytoplasm

Cytoskeleton
Intermediate Filaments

Made up of keratin

Make up nuclear lamina; lines up in nuclear envelope.

Specialized for bearing tension

Microfilaments

Also known for having myosin; muscle contraction cells.

found inside plasma membrane

Made up of actin proteins

Function: bear tension (pulling forces of ECM)

Microtubules

Ex: movement of cilia and flagella

Each tubulin is a dimer; composed of two polypeptides.

Globular proteins called tubulin

Peroxisome

formation of H2O2 from reaction; then it is separated into H2O and O2

DNA Within Nucleus

Mitochondria

site for cellular respiration; Oxygen used to make ATP

Chloroplast

Plants and Algae; site for photosynthesis

Biology Concept Map

Energy, Cellular Respiration, Photosynthesis

Photophosphorylation

ETC --> diffusion --> ATP

Calvin cycle

phase 3: generating a carbon receptor

phase 2: reduction

phase 1: carbon fixation

ATP and NADPH used

Light Reactions

SPLIT H2O, RELEASE O2, PRODUCE ATP, FORM NADPH

cyclic vs non-cyclic

light absorption: ground state --> excited state = unstable

porphyrin ring + hydrocarbon tail

6CO2+6H20+ENERGY--->C6H12O6+6O2
Oxidative phosphorylation

Chemiosmosis

Electron transport chain

Citric acid cycle

ETC

Glycolysis

Energy investment

ATP used to make ADP

fructose 6-phosphate --PHOSPHOFRUCTOKINASE--> F 1,6-bisphosphate

glucose --HEXOKINASE--> G 6-phosphate

Energy payoff

Pyruvate formed

Lactic Acid fermentation

Alcohol fermentation

Energy
Energy Coupling

uses ATP

Free Energy

Spontaneous change

chemical reaction

endergonic

exergonic

diffusion

gravitational motion

Potential
Kinetic
Metabolism
Anabolic

Photosynthesis

Catabolic

Respiration

Substrates
active site

Inhibitors

Noncompetitive

Competitive

Test 1

Organic Molecules
Functional groups

phosphate group

amino group

carboxyl group

carbonyl group

hydroxyl group

CARBON

covalent compatible with many different elements

Isomers

Enantiomers

asymmetric carbon

Geometric

cis-trans isomers

Subtopic

Structual

different covalent arrangements

Carbon skeletons: 4 WAYS

Presence of Rings

Double bond position

Length (branched and unbranched)

Hydrocarbons

Water and its properties
PH Scale

[H+] [OH-] = 10 ^-14

Human body is 7.4, slightly basic

Buffers maintain a constant PH

Base (-)

Acid (+)

Water expands when it solidifies

water & sugar= MIXTURE

water & salt= SOLUTION

Ice is 10% LESS dense, lighter than liquid

Evaporative cooling
Amphipathic

Hydrophobic and Hydrophillic

High specific heat
Chemical Bonding
Polar covalent bonds

Hydrophillic

formed by two opposite elements

O-H, O-C, O-O

Ionic compounds

formed by two elements of opposite charges

Anions (-)

Cations (+)

electrons are NOT shared

NOT as strong as covalent bonds in BIOLOGY

Nonpolar covalent bonds

Hydrophobic

formed by two of the same elements

C-H, C-C, O-O

Covalent bond
sharing of a pair of valence electrons by two atoms

Golgi bundles the vesicles and the vesic;es spill contents out of the plasma membrane

Cell Signaling Pathways and Cancer

Test 2

Eukaryotic Cells
Plants
Animals
Fungi
Protists
Prokaryotic Cells
Bacteria
Archaea

Extreme Thermophiles

Methanogens

Extreme Halophiles