Molecular Bio Lecture Terms

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Outline how an electron microscope works -- Where is the source of electrons

(Source of electrons is at the top of the microscope) Shoots electrons with wavelengths that become focused by magnets which are then used to image

What is the time of flight proportional to in MALDI-TOF?

(m/z)^1/2 m = mass of particle z = charge T is directly proportional to mass -- The greater the mass the long the time

Outline the Methylation of K9 on H3

- A site specific enzyme will methylated K9 on H3 on all of the nucleosomes - HP1 binds to the specific methylation site, HP1 causes the protein to fold up and be heterochromatic -- Like the sir proteins

What are the results of the processing of mRNA experiment?

- Absorbance showed that most of the RNA is rRNA - Most of the RNA in the nucleus is small - Newly synthesized RNA is big

What were the six things that Watson and Crick's structure determined?

- Bases were facing inwards - the two strands were held together by hydrogen bonds - the phosphate group is attached to the 5' carbon - 2 strands are anti-parallel - 10 base pairs per turn - Double helix is right-handed

Outline how poly-adenylation occurs (DONT HAVE TO MEMORIZE)

- CPSF binds an AAUAAA sequence in the 3' UTR - CStf (stimulatory factor) binds to GU-rich sequence in the 3' UTR downstream of where CPSF binds - A cut occurs 11-30 nucleotides downstream from AAUAAA -- Poly A gets added here after the cut - Poly(A) polymerase (PAP) adds about 200 As - Multiple Poly(A) binding proteins binds to the A-tail (length of the tail determines how many proteins can bind)

Limitations of Northern Blotting

- Can only look at one gene at a time, only use one probe - Not great for detecting genes expressed at very low levels

Outline the Example of Affinity Chromatography with Fusion Proteins Produce an example of control group (negative control) - Interested in finding all of the proteins that bind to protein X

- Clone gene for protein X - Create a fusion protein gene with protein X and GST (binds glutathione) - Put cloned fusion gene into a plasmid, and then into bacteria - Purify fusion protein by binding it to beads coated with glutathione - Prepare mouse cell extract over the column (see which proteins bind to protein X) - You can see which proteins bind to protein X by adding excess glutathione so that the protein complex will bind to the free glutathione Use just a sample of GST to see if any extra proteins stick

How does FISH work?

- Denature DNA (Chromosomes stay together) - Attach biotin molecule to a nucleoside triphosphate (Can make Bio-dCTP) - Use DNA polymerase to synthesize a strand with biotin coated C (Make a probe to hybridize to a specific sequence) - Wash away unhybridized DNA - Probe recognizes DNA in centromeres (repeated DNA sequence) -- Hybridize the probe to the chromosomes and have it reanneal - Avidin will bind the biotin and allow for fluorescent light

Outline the experiment that determines how we know the significance of the 3 cis-acting elements (TATA, CAAT, GC)

- First set the transcription efficiency of a complete promoter to 100% - Perform deletion mapping of elements and remove each region one-by-one to analyze the change in efficiency - Put your promoter of interest, and the luciferase gene into a plasmid, transfect it into cells - Add luciferin and ATP to the transfected plasmid to analyze how much luciferase there is - You are able to quantify the amount of light and can determine how well the promoter worked

Advantages of Northern Blotting

- Gives the exact size of RNA - gives the abundance of RNA too

Sodium dodecyl sulfate

- Ionic detergent and coats the protein with negative charge to linearize the molecule

Outline the processing of mRNA experiment 1

- Label eukaryotic cells with [32P] phosphate for 30 mins - Purify RNA - Centrifuge the RNA - Fractionate RNA - Analyze radioactivity by measuring UV absorbance

Outline replication at the ARS What happens after initiation?

- ORC is phosphorylated - Helicases (MCM proteins) start moving down the strand - ORC remains on one strand - Another ORC binds to the new sequence and the MCM proteins fall off - The ORCs remain but the MCMs are exported out of the nucleus in yeast

What are the functions of the 5' cap

- Protects 5' end of RNA - Helps export from the nucleus - Important in the start of translation

Isoelectric Focusing

- Proteins stop migrating once they get no net charge -- stop migrating once they get to their isoelectric point Proteins aren't separated on size, but on their isoelectric point

Outline a Northern Blot Experiment

- Retrieve the nuclei in a pellet by differential centrifugation - Isolate RNA from the nuclei pellet - Separated the RNA on a gel - Transfer the RNA to a membrane - Probe the membrane with radio-labeled (#2)) single-stranded DNA that corresponds to your gene of interest - Subject the blot to x-ray film

Outline Western Blotting

- Run an SDS page gel without staining - Transfer it to a membrane electrophoretically - Incubate the membrane with an antibody against one protein and detect the bound antibody

How to use MALDI-TOF?

- Separate proteins from a protein sample and find your protein of interest - Digest the protein of interest with trypsin digestion that cuts at lysine and arginines residues to get tryptic peptides - Pulse the tryptic peptides with a laser -- Based on the time, the computer can tell you what the mass is, produces a graph on mass to charge ratio and will tell you what the protein is - Can also be used to detect post-translational modification

How does transcription start after the PIC is established?

- The largest subunit of RNA polymerase II has an extended C-terminal domain - Every fifth serine is phosphorylated by TFIIH - Phosphorylation activates the complex and initiation takes place

How did John Gurdon clone a frog?

- Took an enucleated female frog egg - Took a differentiated cell nucleus - Put the nucleus of the differentiated cell into the enucleated egg and got it to start dividing

Outline the Meselson-Stahl experiment BEFORE THE RESULTS

- Used two stable isotopes of nitrogen N-14 and N-15 - Grew E. coli cells in an N-15 medium -- Incorporated N-15 into their nitrogenous bases -- Allowed for multiple generations - Resuspended the E. coli cells in an N-14 medium, allowing them to replicate once - Kill the cells and collect/purify the DNA - Performed Density-Gradient Equilibrium Centrifugation for days to form the gradient (Mixed the DNA perform beginning to spin) - Lower density DNA floats higher up than the higher density DNA, Hybrid DNA floats in the middle

Outline the detection of Okazaki Fragments Experiment What is the name of the radioactively labeled substance and what does it bind to?

- Used velocity centrifugation with a high pH gradient to disrupt the hydrogen bonds with a swinging bucket rotor - Use radioactive hydrogen [3H] to label newly replicated DNA that only attaches to thymidine of living bacteria cells and do short pulses - Isolated total DNA, only the new DNA will be radioactively labeled - Denature the DNA with NaOH - Sediment the DNA - Collect gradient fractions to determine CPM

What is the octamer structure? What is the stepwise prices?

1 H3/H4 tetramer 2 H2A/H2B Dimers 1 H3/H4 dimer --> 1 H3/H4 dimer -> 1 H2A/H2B dimer --> 1 H2A/H2B dimer

How many origins of replication do bacteria have? How many replication forks? How many origins of replication does a Eukaryotic chromosome have?

1 origin of replication 2 replication forks MANY

What must the chromatin packaging of DNA accomplish?

1. Effectively condenses the DNA to fit in the nucleus 2. Allows the DNA to function as a genetic material (must be copyable) 3. be adjustable

Outline experiment 2 for the processing of mRNA

1. Label eukaryotic cells with [32P] phosphate for 30 mins 2. Add actinomycin D 3. Chase for 3 hours NO RNA SYNTHESIS

4 levels of gene regulation

1. Transcription 2. RNA processing 3. Translation 4. Protein stability

How many base pairs are present per turn in DNA?

10 base pairs

What is the diameter of a histone octamer + DNA?

10 nm

Angstrom

10^-10 m

How many base pairs are present in a nucleosome? With no linker DNA

146 base pairs

How many bp are okazaki fragments in eukaryotes?

150-200 base pairs

What is the amount of base pairs with two full turns?

166 bp

What is the ratio of mass of DNA to the mass of histones in the nucleus?

1:1 Mass of DNA = Mass of histones

What is the ratio of new DNA to old DNA in the first generation of dispersive replication?

1:1 first

What is the ratio of new DNA to old DNA in the first generation of conservative replication? What about the second generation? What is the key characteristic of conservative replication?

1:1 first generation 1:3 second generation The parental double helix persists

# of hydrogen bonds between adenine and thymine # of hydrogen bonds between guanine and cytosine

2 hydrogen bonds 3 hydrogen bonds

What is the diameter of DNA?

20 angstroms

Wha is the limit of resolution of the light microscope?

200 nm (Tiniest distance you can see)

At what range does DNA absorb light maximally?

260nm

What wavelength do proteins absorb UV light at?

280nm

How many methyl groups can you have per lysine? Is methylation reversible?

3 methyl groups -- Yes by demethylases

How many amino acids are in one turn of an alpha helix?

3.6 amino acids

If there is ten base pairs per turn in DNA, how many angstroms are there per turn? How many angstroms per base pair? -- CAN VARY

34A/turn 3.4/bp

How long is the original transcript for the three rRNA transcripts + transcribed spacers? What is the order?

45S 18, 5.8, 28

Which carbon is not in the ring of DNA or RNA?

5'

What are the introns and exons flanked with in pre-mature RNA?

5' and 3' UTRs

From 5' to 3': State all of the elements of a fully-processed mRNA strand

5' cap 5' UTR Exons 3' UTR Poly-A Tail

What RNA are bacterial ribosomes lacking?

5.8S

What RNA size is not present in bacterial genomes?

5.8S

What are the three types of rRNA?

5.8S, 18S, and 28S

What is the ratio of new DNA to old DNA in the first generation of semi-conservative replication?

50:50 or 1:1 ratio

What are the four RNAs that make rRNA?

5S, 5.8S, 18S, 28S

What is the diameter of the nucleus?

6 micrometers

how many n-terminal tails are there per histone?

8

What is the g value for retrieving a nuclear pellet?

800g/10 min

How, molecularly, is the lariat formed?

A 2' to 5' phosphodiester bond is formed between A and G within the intron because the 3' is already being used

What are the four letters of coded chemical information of the bases in the major groove?

A = Hydrogen bond accepter D = H-bond donor H = Nonpolar hydrogen M = Methyl group (bulky hydrophobic)

Confocal Scanning Microscopy (light)

A fluorescent specimen can be illuminated by a laser with a focused point of light from a pinhole Only seeing stuff from a single plane to create optical sectioning

Outline 5' capping Where are the two methyl groups?

A guanosine with a methyl group on the 7th nitrogen links with the top of the 5' end of the RNA strand Creates a 5'-5 bond A methyl group is present on the 7th nitrogen of the guanosine and on the 2' carbon of the 5' end of the RNA

Shadow Casting

A heavy metal like platinum gets vaporized by wires and piles up on one side of a specimen to shadow one side of it to create contrast -- Produces a 3D image

MyoD protein

A helix-loop-helix protein that homo-dimerizes -- When it binds, it stops the cell cycle and turns it into a muscle cell

TFIIH

A kinase that phosphorylates Serine 5 on the c-terminal domain

What is a co-activator protein?

A protein brought in by an activator protein (Mediator brought in by an activator protein that binds to the enhancer)

Replicon

A region of DNA controlled by a single origin of replication.

What is a labeled probe?

A segment of base pairs that has been labeled for identification purposes (Can be labeled with biotin, fluorescent, or radioactive) Can use a single-stranded piece of DNA to find another piece of DNA

Polycomb + What does it co-localize with?

A silencing protein in fruit flies Co-Localizes with H3methK27

What is a crystal

A solid that has atoms in a repeating structure

Differential Centrifugation

A technique to separate different cellular components based on their size and density. - Homogenize cells and spin them in a centrifuge, collect the pellet, decant the supernatant, and repeat the process several times ANOTHER EXPLANATION Procedure for separating cellular components according to their size and density by spinning a cell homogenate in a series of centrifuge runs. After each run, the supernatant is removed from the deposited material (pellet) and spun again at progressively higher speeds.

Column Chromatography

A way of protein purification -- Things separate based on some sort of principle

Relationship between absorbance and the strand amount of DNA

Absorbance increases when DNA is single-stranded

Where do HATs get their acetyl group from? What do HDACs do with the acetyl group?

Acetyl-CoA HDACs put the acetyl group back on acetyl-CoA

What histone modification codes for histone deposition?

Acetylation of lysines 5 and 12 on H4

What post translational modification can occur on lysine?

Acetylation or methylation

What is the drug that stops RNA synthesis?

Actinomycin D

How do you isolate affinities from each other in affinity chromatography?

Add excess bait! Add excess insulin so that the insulin receptors bind to the free floating insulin instead of the insulin on the bead you can also use salt, detergents, etc

How to engineer a chimeric protein

Add the appropriate promoter, the gene of interest, and the GFP gene -- Put it into a plasmid which drives the transcription of the gene and GFP -- Put it into cells and they will make the chimeric protein

Pulse

Adding radioactivity

What does phosphorylation of S and T do?

Adds a negative charge

Purines

Adenine, Guanine -- Bigger

Names of the five nucleosides

Adenosine Thymidine Cytidine Uridine Guanosine

What chromatography gives the most purity?

Affinity chromatography

How does RNA elongation link to RNA processing?

All of the RNA processing enzymes (spliceosomes, 5' capping enzymes) bind to the phosphorylated CTD polymerase drags these enzymes elongation -- brings processing to the point of transcription

Dichromic Mirror

Allows visible light to pass but not UV light

Ribozyme

An enzymatic RNA molecule

What is the c-terminal domain?

An extended domain of a 7 amino acid repeat that repeats 52 times on the largest subunit of RNA polymerase 2

Explain the relationship between the pK of 4.4 of glutamic acid What about 10.0 pK of lysine

At 4.4, 50% of glutamic acid has a charge. Our pH is closer to seven within our bodies so a higher pH means there is a lower ocncentration of H+ ions so it is going to be more negatively charged At 10.0, 50% of lysing has a charge. Our pH is closer to seven within our bodies so a lower pH means that there is a higher concentration of H+ ions so lysine is going to pick up a charge and be positive

Where do the nucleotides start being numbered?

At the end of the promoter (NO ZEROTH AMINO ACID)

Outline the Cutting Chromatin Experiment -- How did they verify the repeatable structural component

Attack the linker DNA to get individual nucleosomes -- Chops up linker DNA to separate the nucleosomes via Mnase They cut in different integers of nucleosomes -- pieces of 2, 1, 3, 4 -- Determined they were integer multiples of the smallest size by running it on a gel and removing the histones

ARS

Autonomously Replicating Sequence Origin of replication in yeast

What form of DNA is present in humans?

B-DNA

List two substances that break disulfide bonds

BME and DTT (Dithiothreitol)

What do you call RNA Pol II + GTFs?

Basal Transcription Apparatus -- The general components to be able to transcribe a gene

Density-Gradient Equilibrium Centrifugation How is the gradient formed?

Based on density alone Use a very dense gradient (20% to 70%) -- Typically it is a heavy, dense salt (CsCl) -- Chlorine towards the top and Cesium towards the bottom The samples will stop at region of equal density after being spun for days Formed during centriguation

MALDI-TOF Mass Spectrometry

Based on the principle that ions of different molecular weights travel at different speeds if they're accelerated with the same potential A laser beam ionizes a sample which then causes the ions to move towards towards the detector -- Measures the time of flight of the ions

Affinity Chromatography

Beads physically bind the component you want to isolate The beads are coated with a specific bait (receptor, substrate, antigen, etc) to catch the protein of interest) If you want to purify the insulin receptor, coat the beads in insulin and everything else will flow through so you'll be left with only insulin

Why doesn't it work 3' 5'?

Because 5' end already has a phosphate

Why is the DNA not damaged during this experiment?

Because not every thymidine is radioactively labeled and 3H is pretty weak

Why is cysteine sometimes considered nonpolar?

Because the S-H bond is much less polar than an O-H bond

Is RNA polymerase 2 recruited before or after the addition of TFIIH?

Before

What does immersion oil do?

Bends light more

What keeps polymerase on DNA? (Processive) Are RNA polymerases processive?

Beta Sliding Clamp (PCNA IN EUKARYOTES) No

What were the results of the Reiji Okazaki experiment?

Big peak in the beginning showed the lagging strand Big peak in the middle showed the leading strand and ligated okazaki fragments

Heterodimers

Bind two different sequences

Homodimers

Bind two of the same sequences

Avidin -- What color of fluorescence is it with UV light?

Binds biotin -- Turns yellow in UV light

Similarities and differences between HP1 and Polycomb

Both cause hetero-chromatization Different silencer proteins on different residues

Why does methK bind to HP1 and polycomb?

Both proteins have chromodomains only bind methylated lysine The methylated lysine sits in a hydrophobic pocket of the "chromodomains" of polycomb and HP1 -- Can only be in that pocket when it is METHYLATED

Can leucine zippers be repressors or activators?

Both! They could recruit co-repressors to close up a gene

What does proline's structure allow?

Breaks up higher order structures

What does an acetyl group look like?

C2H3O

What enzymes brings in new H3/H4 domains?

CAF1

What brings new H3/H4 to new DNA?

CAF1 -- Brings H3/H4 in properly so that they bind to DNA properly

Fluorescence Microscopy -- How does it work When can you use it?

CAN ONLY USE IT WHEN CELLS ARE DEAD Molecules can accept one wavelength and give off another Use an antibody that can recognize something (tubulin) and have a fluorescent molecule attached to the anitbody -- Will emit visible light when excited by UV light

Why does the tighter structure have advantages?

Can reveal binding sites for specific proteins when loosened

Two Dimensional Electrophoresis

Can run SDS in one dimension and an IEF in the other dimension

Theodor Svedberg

Categorized how things spin in the ultracentrifuge Developed (S) the sedimentation coefficient

HP1 + Where it binds

Causes heterochromatization binds to H3methK9

What is the main method of fractionation?

Centrifugation

Ion-Exchange Chromatography

Charged beads in the matrix (positive or negative) will either attract or repel specific proteins in a mixture Repelled proteins will flow through faster than proteins that are attracted -- Positive beads will cause positive proteins to flow through faster

Microsequencing

Chopping off one amino acid at a time from amino terminus

Who determined what chromatin really looked like?

Christopher Woodcock and Ada and Don Olins

What is the template for nuclear DNA replication?

Chromatin

What is in the nucleus during interphase?

Chromatin (DNA + Protein) Nucleoli Nucleoplasm

How do enhancer sequences work?

Chromatin is flexible, causing it to loop around and bind to the PIC, enhancing its ability to transcribe

Sir John Gurdon

Cloned the first vertebrate (Frog) in the 1950s

What do you call the strand not being transcribed? Why? What is another name for the strand not being transcribed?

Coding Strand It has the same nucleotide sequence (except T for U) as the RNA strand Sense strand

What were the three predictions of the experiment?

Conservative: 100% Heavy DNA is always present, no hybrid DNA Semi-Conservative: 100% hybrid in the first generation; Both 100% light and hybrid in the second generation Dispersive: 100% hybrid in first generation; DNA progressively gets lighter in following generations

Conserved "A" at branch point near 3' end of intron

Conserved in the middle of an intron -- Portion of a primary transcript Helps with the formation of the lariat

Helix-Loop-Helix Proteins What are the properties of the DNA-binding alpha-helices

Constructed similarly to zippers -- Basic, positively charged alpha helices that recognize different sequences, can be hetero or homodimers

Leucine Zipper

Contains two regions, one region binds DNA, and the other region dimerizes to create a coiled-coil

Density-Gradient Velocity Centrifugation

Create a 5% to 20% sucrose gradient Uses sucrose because it can be highly concentrated and doesn't interfere with the components Cell components separate based on molecular weight, size, and shape

Trypsin

Cuts proteins after lysines and arginines

Level of chromatin organization

DNA --> Nucleosome -->DNA + Histones string (10nm fiber) --> 30nm fiber --> Chromosome

How do we know that eukaryotic chromosomes have many origins of replication? What is the technique called? What are the results?

DNA Fiber autoradiography - Use radioactive thymidine that only goes into new DNA - Hot pulse cells with 3H thymidine - Isolate DNA and let radioactive DNA expose and X-ray film Diagram shows origins of replication because it radioactively binds to the areas that have new thymidine

What is chromatin?

DNA and Protein (Histones and nonhistones)

Satellite DNA

DNA in centromeres

Why does replication need a primer?

DNA polymerase needs a pre-existing nucleotide chain to figure out where to start

DNA polymerase 2

DNA repair

What is rDNA?

DNA sequence that codes for ribosomes

Cis-acting elements + Example

DNA sequences on the same gene or chromosome TATA Box CAAT Box GC Box

What is the paradigm controversy in science? What was the paradigm of chromatin?

Data that contradicts the paradigm of reality will be discounted That it was stringy

What causes chromatin to coil into the 30nm fiber? What causes chromatin to uncoil?

Deacetylation Acetylation

How does a peptide bond form? Where does this happen?

Dehydration synthesis reaction between amino terminal of one amino acids and the carboxyl terminal of the other amino acid In a ribosome

What is PCNA a subunit of?

Delta and Epsilon DNA Polymerase

What is PCNA a subunit of?

Delta and epsilon polymerase

What is an alternate way to determine the difference of dispersive and semi-conservative replication based solely on looking at the first generation?

Denature the DNA Semi-Conservative would produce a light band a heavy band Dispersive would produce a hybrid band

DNA Fiber Radiography

Determination of multiple origins of replication through the use of 3H radioactivity

James Watson and Francis Crick

Determined the structure of DNA through X-ray diffraction and Chargaff's Rule

Protein Motifs + Examples

Different chains of proteins come together to create structural elements Coiled coils and beta barrels

Charles Francois de Cisternay du Fay

Discovered the two charges of electricity (vitreous (+) and resinous (-))

What do you call DNA that has not been transcribed? What do you call DNA that has been transcribed?

Downstream Upstream

Summary of Polyadenylation What is the purpose?

Downstream of PAP, you get a cut in the 3' UTR where the poly-A tail is added Regulates translation and protects the 3' end of the RNA

When does processing begin?

During transcription

What are the three properties of DNA polymerase?

Elongation 5' to 3' exonuclease (removing previous primers) ONLY IN BACTERIA 3' to 5' exonuclease (proofreading)

Difference between the things binding to promoters and enhancers

Enhancers become bound by specific transcription factors found in a certain tissue Promoters become bound by transcription factors found in all cells

The four main affinities

Enzyme - Substrate Receptor - Ligand Antibody - Antigen Protein - Antibody

What modifies the tails on the histones?

Enzymes

What are nonhistones involved with?

Enzymes and transcription factors

What is the stain used for gel electrophoresis with DNA and RNA?

Ethidium bromide

Two types of chromatin higher order structure

Euchromatin -- Transcriptionally active (light) Heterochromatin -- Transcriptionally silent (Dark)

Is euchromatin more acetylated or deacetylated? How about heterochromatin?

Euchromatin is more acetylated Heterochromatin is more deacetylated

DNA polymerase alpha

Extends RNA primer for 20 nucleotides

Chargaff's Rule -- What was the name of the rule

First Parity Rule A%=T% G%=C%

How do you analyze dead cells with microscopy?

Fix them, make the membrane permeable, and stain the cell

Three types of rotors

Fixed Angel rotor (Think chem lab) Swinging-bucket rotor (horizontal), vertical rotor (Up and down)

What does the condenser do on a microscope?

Focuses light on the specimen

Why can base pairs sometimes flip out of the DNA?

For enzymes access, repair, and recombination

What does histone acetylation usually mean?

Gene activation

What does histone methylation usually mean?

Gene repression

What does an unmodified tail typically mean?

Gene silencing

What does methylation mean on histone H3? What amino acid is being methylated?

Gene silencing in heterochromatin Lysine 9

GTFs

General transcription factors

What are samples fixed with in transmission microscopy?

Glutaraldehyde and Osmium tetroxide

What amino acid typically forms the beta sheets?

Glycine

What nucleotide is the 5' end of the intron?

Guanine

What is the name of a guanine base, a sugar, and two phosphate groups?

Guanosine Di-Phosphate

What does H1 do?

H1 helps to stabilize the 30nm fiber

What is the smallest subunit of the nucleosome? What is the biggest?

H1 is the biggest H4 is the smallest

What are the histones that the nucleosome core particle contains?

H2A, H2B, H3, and H4 Two of each

What subunit has four alpha helices?

H3

What enzymes add acetyl groups? What enzymes remove acetyl groups?

HATs -- Histone acetyltransferases HDACs -- Histone deacetylases

Two ways to melt DNA

Heat or High pH

What are transmission electron microscopy samples stained with?

Heavy metals like uranium that absorb electrons

MCM Proteins

Helicases that unwind the DNA, are involved in permission to replicate

Tao Factors

Help assemble the complex

Example of a quaternary structure

Hemoglobin, Antibody

hnRNA

Heterogeneous nuclear RNA; the primary transcript made in eukaryotes before splicing.

What does the acetylation of lysines 5 and 12 on H4 do?

Histone deposition

What controls the coiling and uncoiling of chromatin? What was the experiment done to accomplish this?

Histone tails are required to form 30nm fiber and histone H1 - Shaved off the positive tails, using trypsin digestion - Showed that the tails did not supercoil without the tails

MyoD:Id

Homodimerizes with MyoD -- It is a truncated protein and does not have a DNA binding domain -- It prevents MyoD from binding to DNA and stopping the cell cycle and differentiation

What does absorbance correlate to?

How much RNA there is

Synonym for reannealing

Hybridizing

What holds the alpha helix together?

Hydrogen bonding between the various layers

Are nonpolar amino acids hydrophobic or hydrophilic?

Hydrophobic

What holds the higher order folding in the tertiary structure together?

Hydrophobic interactions Hydrogen bonds Ionic Interactions Van der Waals forces

Quaternary structure distinction

If you take away one subunit, the polypeptides will not function -- It is one protein

Antonie Van Leeuwenhoek -- What did he use as the light source?

Invented the microscope, discovered bacteria, capillaries, and protozoa -- Sun

Three types of column chromatography

Ion-Exchange Chromatography Gel-Filtration Chromatography Affinity Chromatography

What type of bond is present between histones and DNA?

Ionic bonds

Transformed Cell Culture + Examples

Isolated cells from tumor HeLa cells (isolated from cervical cancer)

What happens when light slows down? When does light slow down?

It bends When it goes into different media

What is the benefit to using a fixed-angle rotor?

It can be spun much faster

What can magnets do to light?

It can bend light

What would explain why there is an increase in efficiency when you remove a section of DNA?

It could have a repressor protein bound to it

What does luciferase do in the presence of ATP and luciferin?

It glows

How is DNA able to fit in the nucleus?

It is very thin and associates with proteins to form chromatin

What does the lagging strand actually do when replicating?

It loops backwards so the polymerases can act as a complex

What does the cell need to do after adding new H3/H4 tetramers?

It needs to remove the acetyl groups so it can be folded up again This is done by adding the H2A/H2B dimers

How does CAF-1 recognize new DNA?

It recognizes the clamp at the replication fork

What are the enzymes that add phosphate groups? What are the enzymes that remove phosphate groups?

Kinases add, phosphatases remove

What type of helices do proteins have?

Left and right

What direction is the nucleosome coiled?

Left-handed

Chase

Letting things exist

Two source of cells

Living organs or cell culture

Polypyrimidine tract

Located right before the 3' splice site on the introns

What are the three steps to removing introns and connecting exons?

Looping Lariat Formation Cut and Splice

Two examples of diseases caused by mis-folded proteins

Mad Cows Disease and Creutzfeldt-Jakob Disease

How do you accomplish deletion mapping?

Make a synthetic gene to manipulate the promoter

What do enhancers do? Do they have to be near the start site? Where can they be?

Make transcription more efficient They can be no where near the start site, both downstream and upstream of the promoter

What does methylation of lysine and arginine do?

Makes them more hydrophobic -- doesn't change the charge

Fluorescence Energy Resonance Transfer (FRET)

Measures protein-protein interaction Example: If protein's X and Y interact with each other, you could use the combination of BFP (Excited by violet and emits blue) and GFP (excited by blue and emits green) to see if it'll emit green by uses violet light You tag proteins with specific fret dyes to analyze their interactions Donor Excitation Acceptor Emission

If acid phosphatase removes phosphate, what is a good wait to measure its activity?

Measuring the amount of phosphate release -- operationalizing it

What were the names of the scientists that determined the semi-conservative modeling of DNA?

Meselson and Stahl

Fluorescene in situ hybridization (FISH)

Method to locate positions of genes in chromosomes

What post translational modification can occur on arginine?

Methylation

What is the DNA-cutting enzyme? What special property does it have?

Micrococcal Nuclease (MNase) It attacks the Linker DNA before the DNA in the nuclease

What are the two ways to determine the identity of an unknown protein from a Western Blot?

Microsequencing MALDI-TOF Mass Spectrometry

What is the marker for mitochondria, lysosomes, the cytoskeleton, and the nuclei?

Mitochondria -- Cytochrome C Lysosomes -- Acid phosphatase Cytoskeleton -- Actin/Tubulin Nuclei -- Histones, nuclear genes

Trans-acting factors + Example

Mobile and act at a distance (transcription factors like proteins and nucleic acid molecules)

Difference between a multi-protein complex and quaternary structure Give example of multi-protein complex

Multi-protein complexes have subunits that have an independent function Quaternary structure proteins cannot survive without all of the subunits together Pyruvate dehydrogenase

Outline how MyoD and MyoD:Id operate with each other

MyoD, when it binds, has the cell cycle stop and differentiates the cell into a myoblast When MyoD:Id is present, MyoD:Id inhibits the binding of MyoD because it does not have a DNA-binding domain and cannot bind to DNA to stop the cell cycle

Does N-15 or N-14 cause an atom to be more dense? Does N-14 or N-15 represent new DNA?

N-15 N-14 represents new DNA

Resinous

Negative

Two components of a nucleoside

Nitrogenous base and 5-carbon sugar

Three components of a nucleotide

Nitrogenous base, 5-carbon sugar, phosphate group

Do bacteria do alternative splicing?

No

Does cDNA contain introns?

No

Do bacteria have nucleosomes? What about archaea? What can we conclude?

No Archaea have primitive histones -- They protect about 60 bp and have no tails Our histones evolved from archaea histones

Can DNA be lost from development? What causes different cell?

No Cells have differential gene regulation to differentiate into different cells

Does the clamp loader stay on while polymerase is replicating? What happens when the beta clamp and DNA polymerase hits another RNA primer?

No It stays behind briefly and then recruits another DNA polymerase It stays behind so that CAF1 can put the histones on the DNA

Difference between DNA and RNA

No "O" on carbon-2 for DNA (Deoxy)

Are all RNAs transcribed from the same DNA strand? What is a commonality amongst all RNA strands?

No -- Both Watson and Crick strands can be used for RNA synthesis They are all made 5' to 3'

Does the nucleosome core particle wrap around twice?

No because a little bit of the linker DNA was chopped off

Do atoms on the bases have prime symbols?

No, only on the sugar

Is the 30nm fiber transcribable?

Nope

Are coactivators always present?

Nope, sometimes activator proteins can bind directly to the PIC

How do you measure RNA abundance?

Northern Blot

What is typically found at the first layer of differential centrifugation?

Nuclei, unbroken cell, large components

Is RNA typically bigger in the nucleus or the cytoplasm?

Nucleus because it hasn't been processed yet

Relationship between ORC and ARS

ORC binds to ARS

ORC + How many proteins

Origin Recognition Complex -- 6 proteins

Where does reverse transcriptase occur?

Out in the cytoplasm

How are disulfide bonds created?

Oxidation creates the bond (+2H+ + 2e-), reduction breaks the bond

What is the beta sliding clamp called in eukaryotes?

PCNA

What are histones involved with?

Packaging and Gene Regulation

List all of the techniques that can be visualized with a light micrscopy

Phase-Contrast Microscopy in living cells Fluoresence Microscopy in living and dead cells Sectioning embedded tissue with dyes

What techniques do you use for viewing living cells?

Phase-contrast microscopy and a different type of fluorescence microscopy (fusion proteins)

Objective Lense

Picks up the light to focus on the specimen

Vitreous

Positive

What is the charge of histones? What amino acids are highly present?

Positively charged (Contain a lot of lysines and arginines)

What do you call the combination of GTFs + the recruited RNA polymerase 2?

Pre-initiation Complex (PIC)

What is a primary culture?

Primary Culture: Isolate an organ, disperse the cells with a protease, grow them on dishes on a complex medium to see how they grow

What stabilizes the different structures of a protein?

Primary: Peptide bonds Secondary: Hydrogen bonding Tertiary: Van der waals, hydrophobic interactions, hydrogen bonding, ionic interactions Quaternary: Same as tertiary

Difference between things that bind promoters and enhancers

Promoters are bound by things in all cells, enhancers are cell-specfici

Pros and Cons of Transformed Cell Culture

Pros: - Immortal cells, need a complex medium but can divide indefinitely - Great for looking at replication and transcription Cons: - Do not contact inhibit - they don't regulate the cell cycle properly, can grow many liters -- not a proper representation of the organism

Pros and Cons to Primary Culture

Pros: Right from the organism, contact inhibit so they don't become crowded Cons: Can not be grown in the lab indefinitely, after ~50 generations they will stop dividing -- Have to keep isolating them

Chromodomain

Protein structural motif that recognizes and binds certain methylated Lys residues in proteins.

Two types of interactions occurring within chromatin

Protein-DNA Protein-Protein

What reads the chemical info of the base pairs? What does this mean?

Proteins -- Allows for them to bind with sequence specificity

Sir Proteins When do they bind? Where do they specifically bind?

Proteins that silence genes and bind to histone tails The bind only when lysines 8 and 16 are deacetylated on H4 They bind at telomeres

Gradient Fractions

Puncture a hole in the bottom of the test tube to collect various different types of tubes to separate cellular components based on how fast they sedimented

Histone Deposition

Putting histones on DNA during DNA replication

What is the name of 2 phosphate removal?

Pyrophosphate removal

What is the symbol for purines? What is the symbol for pyrimidines?

R Y

Outline the experiment for processing RNA What are the results What are the three main characteristics of the radioactive RNA?

RADIOACTIVITY REFERS TO THE SIZE OF RNA ABSORBANCE REFERS TO THE QUANTITY OF RNA SHOWS HOW THERE IS A LOT OF RNA THAT HAS MAINLY BEEN PROCESSED -- THERE IS ONLY A VERY LITTLE BIT OF UNPROCESSED LARGE RNA - Label eukaryotic cells with radioactive uridine for 1-30 mins Radioactive RNA will be - Have large size - Have diverse sequences - Are mainly in nucleus

Is DNA or RNA older?

RNA

How did RNA precede DNA?

RNA can self-replicate without enzymes and is catalytic

What are the three major DNA-dependent eukaryotic RNA polymerases?

RNA polymerase 1,2,3

Where does 5S RNA come from?

RNA polymerase 3

Who took photo 51?

Raymond Gosling -- Under Franklin's direction

What do Tao factors do in the replisome?

Recruit ATPase

Who discovered Okazaki fragments?

Reiji Okazaki

What does acetylation do to positively charged lysine?

Removes positive charge

DNA polymerase delta

Replicates lagging strand

DNA polymerase epsilon

Replicates leading strand

What is the enzymes that copies RNA to DNA?

Reverse Transcriptase

What is an example of a protein that folds spontaneously?

Ribonuclease A

What is typically found in the bottom layer of differential centrifugation?

Ribosomes, viruses, and large macromolecules

What is always the direction of the alpha helix?

Right-handed

What type of symmetry does the nucleosome core particle have?

Rotational Symmetry

List four protein confirmation disrupters

SDS Nonpolar solvents (benzene) Heat BME & DTT

What is an experiment that you can do as a follow up to the previous experiment?

SDS-Page to examine the proteins gathered

Semi-Conservative Replication

Save one strand and keep one old one

What were the results of the second generation of the experiment if replication was semi-conservative? How about conservative? How about dispersive?

Semi-conservative would produce a light band that gradually gets bigger as well as a hybrid band Conservative would produce a light band that gradually gets thicker and a heavy band Dispersive would produce a thickening band between light and hybrid

Fractionation

Separating cell components

What happens to serine 2 during elongation? What can you infer about this?

Serine 2 gets phosphorylated during elongation You are able to analyze whether or not the RNA polymerase 2 has started initiation and has been continuing with elongation based on the phosphorylation pattern of the c-terminal domain

What three amino acids can be phosphorylated, why?

Serine, threonine, and tyrosine because of their OH groups -- loses hydrogen picks up phosphate

What is an alternate way to look at a sample in TEM besides staining?

Shadowing

Scanning Electron Microscopy

Shoots electrons at sample and they bounce off the surface -- Looking at the surfaces of something, not good resolution because of the scattered electrons

What were the results of the first generation of the experiment? Did this prove semi-conservative replication?

Showed a 100% hybrid generation No, because it could also be dispersive

Is RNA single or double stranded?

Single stranded MOSTLY but can be double stranded

What happens if there is acetylation at lysines 8 and 16 on the histone tails?

Sir proteins can't bind

Nucleolus

Site of rRNA synthesis

What does radioactivity correlate to?

Size of the RNA

What do you usually start with to isolate an enzyme?

Size-exclusion chromatography followed by ion-exchange chromatography

How can gene regulation be controlled by the synthesis of RNA?

Some RNAs could be stored or degraded You could produce several proteins that degrade quickly, or one protein that has a lot of function

Immunofluorescence Microscopy with secondary antibodies

Sometimes it's hard to make antibodies that hook up to fluorescent molecules Can use a secondary antibody to bind to primary antibody and the secondary antibody has the fluroescent molecule

When do licensing factors bind?

Soon after mitosis

What are transcribed spacers? What happens to the spacers during processing?

Spacers between the RNA that will end up in the ribosome -- NOT INTRONS because they don't interrupt the functional RNA The spacers get destroyed to make mature rRNAs

Enzymes that removes introns

Spliceosome

How does recoding work in mRNA?

Stop codons can be recoded to be other amino acids UGA can be recoded to a selenocysteine UAG can be recoded to pyrrolysine

Homogenization -- Why do you do it on ice?

Suspend cells in a medium and smash them up in down -- Breaks up the cell You don't want proteases attacking the cell components

Expansion Microscopy Why do we want this?

Swell up sample, make it bigger to take a 3d image Allows for imaging of really small things with fast light microscopes

How is the pellet positioned in swinging-bucket rotor and fixed angle rotor?

Swinging-bucket places it evenly at the bottom of the tube Fixed angle orients it on one particular side of the tube

What are the three promoter elements? Are they cis or trans factors? Do all genes always have all three of these elements?

TATA box CAAT box GC box All cis factors No, not all genes have these three elements

What protein does the TATA box bind?

TBP

What happens when TFIID (with TBP) binds?

TBP + TAFs bind together and bind to the TATA box

What are TAFs?

TBP Association Factors -- They are the other proteins within TFIID that are not TBP

Relationship between TFIID and TBP What does TBP do?

TBP is a subunit of TFIID TBP bends and unwinds DNA

Difference between TEM and SEM

TEM = Block electrons with higher resolution SEM = Scatters electrons with lower resolution (surfaces only)

Nomenclature for Transcription Factors

TF = Transcription Factors Roman Numeral = # of RNA polymerase Capital Letter = Identifies Factor Example TFIIA -- Complex of proteins, one factor

What part of the PIC is left behind when initiation takes place?

TFIID -- TAFs and TBP

Where is the promoter in relation to the enhancers?

THE PROMOTER IS ALWAYS GOING TO BE RIGHT WHERE TRANSCRIPTION STARTS -- ENHANCERS CAN BE UPSTREAM OR DOWNSTREAM

What is the negative control in the luciferase experiment?

Take out a large portion of insignificant DNA to determine that the transcription efficiency does not drop by a lot

What do you call the strand that is being transcribed? What is another name for the strand being transcribed?

Template Strand Anti-sense strand

What is the proper model of the 30nm fiber?

The "Two-start" helix -- Wrap around each other in zig-zag -- The nucleosome its attached to is on the other side of the fiber, not next to it

What is the next level of organization after the 10nm fiber?

The 30nm fiber

Resolution

The ability to clearly distinguish two separate points

What does the intensity of a band refer to on a gel?

The amount of DNA/RNA

How many bands will show up on SDS-PAGE?

The amount of subunits in the protein is the number of bands that will show up (Unless it's two of the same sizes)

What does the angle alpha mean in microscopy?

The angle of light -- 1/2 of the angle of light going to the objective lense

What portion of the DNA does the absorbing?

The bases -- They're more free when denatured

What is the crick strand?

The bottom strand that is read 5' to 3' to the left

Relationship between the closeness of an object at the diffraction of the beams

The closer the object, the more diffracted the waves get

Correlation between the amount of protein and the stain

The darker the stain/the bigger the band, the more protein you have

Explain how phase-contrast microscopy works

The different refractive index of a cell causes the wavelengths of light to be out of phase with a normal wavelength of life, leading to the a different wavelength -- converts phase difference to phase contrast

Does the slower or faster component have a higher S value?

The faster component

Relationship between the CPM and the amount of radioactive DNA

The higher the amount of radioactive DNA, the higher counts per minute

Relationship between the bending of light and the refractive index?

The higher the refractive index the more bent the light is

Semi-discontinuous replication

The leading strand is continuous, lagging is discontinuous

What happens to the peaks when you increase the amount of time between each pulse?

The leading strands combine with the ligated okazaki fragments to show a huge peak

What happens to light when two waves are out-of-phase?

The light becomes dimmer

Relationship between the how fast the centrifuging is and the density of a cellular component

The lower the speed, the denser/bigger components will be in the pellet and the tinier components will be in the supernatant

How do yeast control the cell cycle?

The make it so that the MCM proteins can't go back in -- The cell has to go through mitosis for them to get back in

Why does Velocity Centrifugation work? Doesn't it go against Galileo?

The medium used in the test tube allows for the separation of cellular components

Explain how no change in amino acid sequences can cause an infectious disease?

The misfolded insoluble version of a protein can bump into the correct soluble version and flip their solubility causing cells to burst becasue the proteins aren't soluble

Relationship between the density of something and its location in the test tube for density-gradient equilibrium centrifugation

The more dense something is, the lower it'll be in the gradient (Closer towards 70%)

Relationship between the component separation and the increase in U

The more separate the component is the higher the U will be -- Less and less things will be there and you'll be able to see the activity of the enzyme

What does the primary antibody recognize?

The non-fluorescent antigen

Photo 51

The picture of the structure of DNA taken by Rosalind Franklin & Raymond Gosling

Why does polycomb not bind to H3methK9 and why doesn't HP1 bind H3methK27?

The portions of the H3 tail bind at different sites on the two different proteins

Relationship between the length of the wavelength and how bent light is What color is bent the most?

The shorter the wavelength, the more bent the light Blue is bent more than red

Relationship between the size of an object and the significance of its wave

The smaller the object, the more significant its wave will be and will have a wavelength (like an electron)

What is the relationship between how fast something moves through the sucrose gradient and its molecular weight, shape, and size?

The smaller the size, shape, and molecular weight, the slower it'll move through the gradient

What is the Watson strand?

The top strand that is read 5' to 3' to the right

What is the primary structure of a protein consist of?

The type of amino acids, the order of the amino acids, and the number of amino acids

How does the sheet form?

The upwards and downwards orientations of the R groups hydrogen bond with each other to make the sheet

What happens to old H3/H4 tetramers in replication?

They are saved and deposited on new DNA Only replaces half of the DNA

How do transcription factor motifs work?

They bind to sequence-specific sites on the DNA based on the coded chemical information of the nitrogenous bases the amino acids read the coded chemical information

What does the dimerization of leucine zippers allow for?

They can be homodimers or heterodimers Allows for three different transcription factors for two genes R-R B-B R-B

Why is lysine 9 of H3 interesting? Why is lysine 27 of H3 interesting?

They can both be methylated or acetylated

What did Christopher Woodcock & Ada and Don Olins do? What was their experiment?

They did a transmission electron microscopy -Placed cells in water to lyse them and then did electron microscopy of chromatin - They found a string of round structures, that are now called nucleosomes -- Deemed the 10nm fiber

What is interesting about the N-terminal tails?

They do not have a strict high-order structure and are accessible to enzymes

How do the base pairs orient in DNA?

They lie flat

What happens to polar side chains in an aqueous environment?

They stick out toward the aqueous environment

What has the bigger diameter, G-C or A-T?

They're equal

What is the general structure of eukaryotic histones?

Three alpha helices (this histone fold)(sometimes four) and an extended amino-terminal tail H3 has four alpha helices

Difference between uracil and thymine

Thymine has a methyl group on 5 carbon

Pyrimidines

Thymine, Uracil, Cytosine -- Smaller

Two types of spacers

Transcribed and non-transcribed

What does RNA polymerase 1 do?

Transcribes genes for 5.8S, 18S, and 28S rRNA genes

Outline the 5-step stepwise process of RNA processing

Transcription Capping Polyadenylation Cutting Splicing (Ligating)

What is the other way to culture cells?

Transformed cells (from tumors)

What does TEM show?

Transmitting the light through the specimen to create internal visualizations

What are the two inhibitors of deacetylation? What then happens?

Trichostatin A (TSA) and Sodium Butyrate You get highly acetylated chromatin creating a lot of euchromatin

What do new nucleotides come in as? What happens during replication?

Triphosphates two phosphates are removed and the third one is linked to the growing DNA strand

How many times does DNA wrap around an octamer of histone proteins?

Twice

Coiled Coil

Two alpha helices wrapped around each other Has a hydrophobic residue every 7th amino acid -- Two full turns gives a hydrophobic amino acid and they face each other to create a 7-mer repeat

Zinc Finger (Cys-His)

Two cysteines and two histidines bind to a zinc molecule creating a finger shaped out of a beta sheet and an alpha helix

What is the codon for selenocysteine and pyrrolysine?

UGA and UAG

Svedberg (S)

Unit for sedimentation rate Measure the rate at which particles of a given shape and size travel to the bottom of a centrifuge tube Have to be consistent with shape and size (5S RNA to 10S RNA, can't do 5S RNA to 5S protein)

What is the difference between uranium staining and platinum-shadowing?

Uranium staining produces internal structure and platinum shadowing shows a 3-D image

What substance breaks hydrogen bonds?

Urea

How do you detect one protein out of many after page?

Use Western Blotting!

How do you collect proteins that are attracted to the beads?

Use a salt (0.5 NaCl) which will rip the proteins off and the negative proteins will fall off

gel filtration chromatography (size exclusion chromatography)

Use porous beads Larger proteins come out first because they can't fit in the porous beads

How do you assay each different density component to make sure it's pure?

Use protein or enzyme markers

Visualizing cells by fluorescence microscopy

Use the cell appropriate promote in conjunction with the GFP gene and the gene for protein of interest and insert it into a plasmid This will produce X-GFP

Tryptic Peptide Analysis

Use tryptin to cut proteins into fragments, use chromatography and electrophoresis to separate fragments Shows a difference in amino acids (Think sickle cell anemia)

X-Ray Diffraction

Used x-ray beams at a crystal which causes the beams to diffract -- Bending them at various angles that determine the structure

SDS-Page

Uses SDS to denature proteins and give them a negative charge (smaller proteins run faster)

What is the minimum number of amino acids to be a protein?

Usually greater than 40

Refractive Index Formula

Velocity of light in a vacuum/velocity of light in a medium

Outline how the lariat is formed What does the A end up becoming

When splicing occurs, a lariat is created between the 5' G and conserved A of the intron The ends up becoming the connecting point of the lariat

Where does H1 sit? Why is there no H1 one in the core particle?

Where the DNA enters and exits Because the binding site for H1 is cleaved with the removing of the ten base pairs one each side

Resolution Equation + What do the variables mean? What constitutes the best resolution

YOU WANT A SHORT WAVELENGTH AND A LARGE REFRACTIVE INDEX The minimal distance two points must be separated to be viewed as distinct -- The lower the value of d the better d=0.61λ/(nsin(a)) d = Resolution lamda = Wavelength of light n = refractive index of the medium alpha = 1/2 angle of light from specimen to objective lens Shortest wavelength, and the biggest alpha to capture the most light, bigger refractive index is better (bends light more)

Does RNA polymerase II require other factors to initiate transcription?

Yes

Do the UTRs remain in the mature mRNA? What information do they contain?

Yes Contain information for the regulation of mRNA and translation

Can histone modification occur in the histone domains?

Yes, both there and in the tails

Is acetylation reversible? What about phosphorylation?

Yes, they can be put on or off Yes phosphorylation is reversible

Alternative Splicing

You can make different proteins from the same RNA through different combinations of exons

What is a way to study this specific methylation? What are the three specificities of antibodies?

You can use an antibody because they are histone specific, modification specific, AND site specific - You can merge Anti-H3methK9 and Anti-Hp1 to make yellow fluorescence showing that HP1 modifications always occur with H3methK9

What is the next step after you have collected the collection of proteins at a specific fractionation number from ion-exchange chromatography?

You have to assay proteins for purity based on enzymatic activity

What is the necessity that you must have when using a native gel?

You have to know the charge

How do you get a crystal of DNA?

You have to use a saturated solution, you can dehydrate it in ethanol

What is left-handed DNA called?

Z-DNA

Three main transcription factor motifs

Zinc Finger H-L-H Leucine Zipper

Contact Inhibition

a process that stops additional cell growth when cells become crowded and touch each other

DNA polymerase 3

adds base pairs

Beta Barrel

created when beta sheets are extensive enough to fold back on themselves

Protein Domains

discrete structural units in a protein, often associated with a particular function(s)

DNA polymerase 1

enzyme that replaces RNA primers with DNA nucleotides

What do acetylation of amino acids 8 and 18 mean on histone h4?

gene expression

What does an unmodified histone H4 mean?

gene silencing

Mediator Complex

increases the efficiency of the assembly of the pre-initiation complex

Prions

infectious protein particles that do not have a genome

snRNAs

involved in mRNA splicing

snoRNAs

involved in rRNA modification

Outline how the making of cDNA works

mRNA is processed and sent into the cytoplasm, reverse transcriptase synthesizes cDNA in the cytoplasm

Empty Magnification

magnification without resolution

native electrophoresis vs SDS-PAGE electrophoresis

native: used to separate proteins based on net charge of protein SDS-PAGE: used to separate protein based on approximate size when protein denatures in the presence of an anionic detergent

Native Gel

one without SDS that doesn't change the charge of the protein Can separate on the basis of charge, size, shape, etc

pK

pH at which 50% of an amino acid has picked up a charge

Chimeric Protein (Fusion protein)

proteins created through the joining of two or more genes that originally coded for separate proteins

RNA polymerase 2

transcribes mRNA

What does RNA polymerase 2 do?

transcribes mRNA and miRNA

RNA polymerase 1

transcribes rRNA

RNA polymerase 3

transcribes tRNA

What does RNA polymerase 3 do?

transcribes tRNA genes, 5S rRNA genes

Specific Activity

units of enzyme/total protein mg

What does the clamp loader do?

uses the energy of ATP hydrolysis to lock the sliding clamp onto DNA


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