Biology Midterm Friday 630-730 PDF

Summary

This document is a set of notes covering various biological concepts, including the Molecules of Life (water, macromolecules), protein structure, cell theory, microscopy techniques, and a comparison of prokaryotic and eukaryotic cells. It's likely part of a larger course of study for a high school level biology class. The document covers topics typically assigned for a midterm in Biology, but it is not a comprehensive midterm exam.

Full Transcript

Biology Midterm Friday
6:30-7:30
Monday, October 7, 2024 8:10 PM

The Molecules of Life
Water
Solvent of life
Dissolves more molecules than any other solvent
Polar molecule
Dissolves other polar molecules and charged molecules

Macromolecules
Carbohydrates
-Polymers of sugars (glucose
Lipids
-Not polymers but hydrophobic molecules (Fats, Oils)
Proteins
-Polymers of amino acids (structure determined by sequence and properties of amino acids)
Nucleic acids
-Polymers of nucleotides (DNA, RNA)

Polymerization: Dehydration Synthesis- The process of linking monomers together by removing

Depolymerization: Hydrolysis- The process of breaking apart polymer to form monomers by add

(Enzymes catalyze the synthesis/Hydrolysis)
Depolymerization: Hydrolysis- The process of breaking apart polymer to form monomers by add

(Enzymes catalyze the synthesis/Hydrolysis)

Protein Structure
Primary
Linear amino acid chain
Secondary
a-helix b-sheet through hydrogen bonding
Tertiary
Folding of the polypeptide into a 3D structure determined by chemistry of amino acid sidechain
Quaternary
Assembling with other proteins to into a complex

Amino acids- Nitrogen, mildly acidic
R= Sidechain
Sidechain properties define the chemistry of proteins

Protein Structure- Amino acids are linked by covalent bonds called peptide bonds
Proteins aka polypeptides
Cell Theory
Core principles:
All organisms composed of one or more cells
The cell is the basic structural unit of life
Cells arise only from the division of preexisting cells

Why Cells are so small:
Surface area must be sufficient to allow exchange of stuff between the cell and its surro
Larger volumes require more surface area to achieve this
Larger volumes need more structural support
If the cell requires a large surface area they will devolved convoluted/Branchy surface m
If the cell requires larger volume the use cell walls
Miscopy
Resolution- the ability of a microscope to distinguish two objects as being separate
Magnification - Increases resolution
Contrast- gives more detail but cant increase resolution

Light Microscopy

Reflected light
Stereo microscope (dissecting)
Lighting from top
Can see bigger cells
Transmitted light
Stereoscopes ( some can also use light from bottom
Compound microscopes
Brightfield-
Darkfield, Phase contrast, Differential Interference Contrast(DIC) -
(Contrast-enhancing methods. They exploit the light scattering properties of specimens. Vari
how light passes through it. )
Brightfield- ones in lab, staining often required to see more detail
Darkfield- illuminates sample at an angle so that light does not hit the objective lenses direct
sample reaches the objective lenses
Phase contrast- This method creates slight phase shifts in the illumining light, which manifest
DIC- Similar concept to phase contrast and gives a psuedo-3D appearance
Fluorescence -Utilizes fluorophores to visualize specific structures by emitting light whe
of live specimens and specific cellular components
1. Electron absorbs a photon and gets excited to a higher energy state (valance)
2. Excited electron returns to its ground state releasing a photon of longer wavelength (lo

Electron Microscopy(EM) -provides a high resolution due to the shorter wavelengths of elect
stained w heavy metals that electrons cant pass through
Transmission Electron Microscopy
Thin sections of specimens are imaged creating 2D images with high detail
Scanning Electron Miscopy
Visualizes 3D surface contours of specimens usually at lower magnifications
Electron Microscopy(EM) -provides a high resolution due to the shorter wavelengths of elect
stained w heavy metals that electrons cant pass through
Transmission Electron Microscopy
Thin sections of specimens are imaged creating 2D images with high detail
Scanning Electron Miscopy
Visualizes 3D surface contours of specimens usually at lower magnifications

Prokaryotes Vs Eukaryotes
Type Prokaryotes Eukaryotes
Examples Bacteria, Archaea Animals, Plants Fun
DNA DNA found in Nucleoid DNA housed in n
Organization Single, circular chromosome and often several One or more line
circular plasmids
Basic Usually unicellular some multi Usually multicellu
differences Small (1-3 micrometres) Small to very larg
No membrane bound organelles Membrane boun
Nucleoid Nucleus
Single circular chromosome and plasmids Linear DNA chrom
Similarities Plasma membrane cytoplasm ribosomes and
cytoskeleton.

Elements common to all living things

Genetic information paradigm: DNA-RNA-Protein
 Plasma membrane
Structure- Phospholipid bilayer + thousands pf proteins embedded within
Regulates the entry and exit of substances.

Cytoplasm
Consists of cytosol and organelles.
Cytosol is the aqueous liquid- mostly water, full of macromolecules and smaller molecules lik
Ribosomes
Highly organized machined consisting of proteins and rRNA. Its actually more like an enzyme
Reads the sequence or mRNAs to coordinate their translation into proteins
Prokaryotic ribosomes are a bit smaller but do the same thing
Translation of mRNA into protein by ribosomes takes place in the cytoplasm