ccm-bio 1-exam 2
Chargaff's rules state
- A=T and G=C - percentages of nucleotide bases
Cell theory states
- All living things are made up of cells - cells are the basic (smallest) units of life - new cells are produced from pre existing cells
Proofread and repair
- DNA polymerase 3 reads pair once bonded - nuclease can cut out damaged segment and DNA poly 1 will correct the gap
Microtubules (cytoskeleton)
- biggest of the 3 - hollow tubes (spindal fibers) - made of tubluin
Extracellular components
- cell wall (plants) - extra cellular matrix (animal) -plasmodesmoda (tight) (gap) (desmosomes)
intermediate filaments (cytoskeleton)
- many proteins coiled into cables - maintenance of cell shape - anchor of nucleus and other organelles
Integral Proteins
- penetrate the hydrophobic interior - some are transmembrane proteins
Microtubules in cell division
- result from the centromeres - attach to the kinetochore to pull sister chromatids apart
Microfilaments (cytoskeleton)
- two intertwined stands of actin - muscle contraction - changes in cell shape - division of cell (animal)
leading strand
5' to 3' direction.
binary fission
A form of asexual reproduction in a bacteria call where a chromosome replicates and moves to different sides of the cell allowing for replication
Cytoskeleton
A network of fibers that provides support and stability
Nucleus
A part of the cell containing DNA and RNA and responsible for growth and reproduction
plasma membrane
A selectively-permeable phospholipid bilayer forming the boundary of the cells
Co-transporter
A type of carrier protein that binds two molecules at the same time
proton pump
An electrogenic pump that works largely with H+ ions.
Helicase
An enzyme that untwists the double helix of DNA at the replication forks.
Lysosomes
An organelle containing digestive enzymes - phagocytosis = food digestion - autophagy = digestion of damaged cell materials
kinetochores
Anchor on the Sister Chromatid that attaches to the fiber that pulls the sister chromatids apart.
Centromere
Area where the chromatids of a chromosome are attached
function of membrane proteins
Attachment to cytoskeleton and extracellular matrix. Maintains cell shape and stabilizes cytoskeleton. ... Intercellular joining. Proteins on adjacent cells hook together, briefly, for cell interaction/sharing. ... Signal transduction. ... Enzymatic activity. ... Cell-cell recognition. ... Transport.
cyclin-dependent kinase
CDK (enzyme) binding with cyclin (two proteins) creates = MPF (maturation-promoting factor)
Pinocytosis
Cell drinking
elctrochemical gradient
Chemical force: Ion Concentration Gradient Electrical force: Membrane Potential - charge difference - (if negative charge on the outside of the cell they might not want to come in if they are the same charge)
Phagocytosis (cell eating)
Cytoplasmic extensions surround object and bring it into cell.
DNA structure
DNA consists of two antiparallel chains of nucleotides (A,T,G,C) twisted into a double helix
Meselson and Stahl
Determined that DNA replication is semiconservative. - 5'-P to 3'-OH'
Hersey and Chase
Discovered that DNA is the genetic material, NOT protein
active transport
Energy-requiring process that moves material across a cell membrane against a concentration difference
Prokaryote vs. Eukaryote cells
Eukaryote cells-Membrane bound organelles, nucleus Prokaryote cells-Simple cells, no nucleus;
sister chromatids
Identical copies of a chromosome; full sets of these are created during the S phase of interphase.
Glycolipids
Membrane carbohydrates that are covalently bonded to lipids. - Short branched chains of 15 or fewer monosaccharides
Glycoproteins
Membrane carbohydrates that are covalently bonded to proteins. - Short branched chains of 15 or fewer monosaccharides
transport proteins: channel proteins
are passageways through the plasma membrane, allowing specific ions or molecules (water) to enter or exit the cell; may be gated or nongated
single strand binding proteins
bind to the unpaired DNA strands, keeping them from re-pairing
Telomerase
catalyzes the lengthening of telomeres in sex cells
density dependent inhibition
cells form a single layer and divide to fill gap and then stop
M checkpoint
checks for chromosomes attached to the microtubule
Prophase
chromosomes condense, centrosomes start to move, nuclear envelop starts to dissolve (lipid bilayer comes apart)
Metaphase
chromosomes will line up in the middle with microtubules connected (chromosome with its copy (sister chromatids)), centrosomes are at opposite ends
Peroxisomes
contain enzymes that create peroxide by stripping H atoms from substrates and adding them to oxygen
central vacuole
contains inorganic ions & enlarges due to water absorption
Topoisomerase
corrects "overwinding" ahead of replication forks by breaking, swiveling, and rejoining DNA strands
Griffith's experiment
dead pathogenic bacteria can transform-non material
passive transport
diffusion Across the biological membrane without using energy
ficilitated diffusion
diffusion for large molecules with the help of protiens - no energy
associated proteins
function to maintain the structure of chromosomes and to help control gene activity
Rough ER function
glycoslation of proteins & regulation of protein traffic
Why do cells divide?
growth, repair, reproduction
Ligase
joins Okazaki fragments of lagging to leading
peripheral proteins
loosely bound appendages to membrane
G1 checkpoint
makes sure the conditions are favorable and the cell is healthy enough to enter the next stage
endosymbiont theory
mitochondria and chloroplasts were once prokaryotic cells not always organelles and a eukaryotic cell ate it and they formed a symbiotic relationship
Gogli Apparatus
modification, storage, and shipment of materials to other destinations
Mitochondria
organelle that is the site of ATP (energy) production
Mitosis
part of eukaryotic cell division during which the cell nucleus divides
Endocytosis
process by which a cell takes material into the cell by infolding of the cell membrane
transport proteins: carrier proteins
proteins that help carry substances across the membrane or allow molecules to pass through a channel
contractile vacuole
pumps excess water out of the cell to maintain ion/molecule concentration
Exocytosis
release of substances out a cell by the fusion of a vesicle with the membrane.
DNA polymerase
removes RNA nucleotides of primer from 5' end and replaces them with nucleotides added to 3' end of an adjacent fragment
scanning electron microscope
scans the outside (makes a 3D pic)
transmission electron microscope
shows the inside through the slice
cytoplasmic face
side of plasma membrane that faces inward
Extracellular face
side of plasma membrane that faces outward
Anaphase
sister chromatids come apart
Ribosomes
site of protein synthesis
G1 phase
stage of interphase in which cell grows and performs its normal functions
fluid mosaic model
structural model of the fluid phospholipid bilayer and the mosaic of proteins
why are cells small
surface area to volume ratio
lysis of the cell
swelling and possible tearing from a gain in water
Primase
synthesizes an RNA primer at 5' end of leading strand and at 5' end of each Okazaki fragment of lagging strand
Osmosis
the diffusion of Water across a selectively permeable membrane
Diffusion
the movement of particles into open space down a Concentration Gradient
S phase
the portion of interphase during which DNA is replicated.
electrogenic pump
transport protein generates voltage across a membrane
Telophase
two nuclei form, de-condensing chromosomes, forming of cleavage furrow
DNA polymerase III
using parental DNA as a template synthesize DNA strand by adding nucleotides to the 3' end of a preexisting DNA or RNA primer
Plasmolysis
walled cells in which the cytoplasm shrivels and the plasma membrane pulls away from the cell wall; occurs when the cell loses water
Crenate
when a cell shrinks due to water loss
Isotonic
when the concentration of two solutions is the same
Genome
all of the DNA located in a cell
endomembrane system
-plasma membrane -nuclear envelope -endoplasmic reticulum - golgi apparatus -lysosomes - vesicles and vacuoles
lagging strand
3' to 5' direction
Telomeres
Repeated DNA sequences at the ends of eukaryotic chromosomes. - buffer zone for erosion - prevent cell death from staggered ends
Chloroplast
Site of photosynthesis
Okazaki fragments
Small fragments of DNA produced on the lagging strand during DNA replication,
hypertonic solution
Solute concentration is greater than that inside the cell; cell loses water
hypotonic solution
Solute concentration is less than that inside the cell; cell gains water
somatic cells vs gametes
Somatic cells: (body cells) have 46 chromosomes in humans Gametes: (reproductive cells) have 23 chromosomes in humans
Vacuoles
Stores food, water, wastes, and other materials
Smooth ER function
Synthesis of lipids Detoxification of poisons
G2 checkpoint
The cell checks to make sure the DNA is copied correctly
anchorage dependence
The requirement that to divide, a cell must be attached to a solid surface.
G2 phase
The second growth phase of the cell cycle, consisting of the portion of interphase after DNA synthesis occurs.
Prometaphase
The second stage of mitosis, during which the nuclear envelope fragments and the spindle microtubules attach to the kinetochores of the sister chromatids.
receptor-mediated endocytosis
The uptake of specific molecules based on a cell's receptor proteins
sodium-potassium pump
a carrier protein that uses ATP to actively transport sodium ions out of a cell and potassium ions into the cell
turgid cell
a plant cell that has absorbed water and has cytoplasm that is pressing outwards on the cell wall
