-
Explain what polycistronic mRNA is
mRNA that often bears coding information transcribed from adjacent genes.
-
Characterize the structure of RNA polymerase
- Core Enzyme: 5 polypeptides
- Sigma Factor: Recognizes start of gene
- Holoenzyme= Core+Sigma
-
Describe the step of Initiation in transcription:
- The promoter is bound by RNA poly
- Sigma factor recognizes two regions in the promoter: -10 Pribnow box and -35 site.
- These are consensus sequences.
-
Describe the process of Elongation in transcription:
- RNA poly unwinds the DNA.
- Transcription bubble produced and moves with the RNA poly as it transcribes mRNA from template strand.
-
Describe the process of Termination (intrinsic and Rho-dependent) in transcription:
- Core RNA poly dissociates from template DNA
- 2 Types of termination: Intrinsic(AU rich region makes it fall off), and Rho-dependent(rho factor protein) reaches RNA poly and makes it pop off.
-
Identify the features of transcription in Archaea
- Similar to bacteria: 1RNA poly & polycistronic mRNA
- Similar to eukarya: Promoter w/ TATA box, several transcription factors, some RNA has introns.
-
Explain the following characteristics of the genetic code: Degenerate
Up to 6 different codons for 1 amino acid
-
Explain the following characteristics of the genetic code:Codons-sense and nonsense
- Sense-Direct amino acid incorporation into the protein. (They code for actual amino acids.)
- Nonsense-The stop codons, involved in termination of translation.
-
Explain the following characteristics of the genetic code:Wobble
Loose base pairing on the 5' end of tRNA, used to decrease mutation effects and reduce tRNA production needed.
-
Describe the structure of tRNA and the charging of a tRNA molecule:
- Structure:Cloverleaf, diamond bases, 2 arms, one acceptor stem and anticodon.
- Charging-Done through Aminoacyl-tRNA synthetase. Attaches AA to 3' hydroxyl. 20 enzymes for each AA,
-
What function does the Ribosome serve during translation?
Ribosome serves as the binding site of the mRNA, where the proteins are put together (through linking AAs).
-
Describe the structure of the Ribosome (prokaryotic):
- 70S ribosome= 30S +50S subunits.
- 30S-16S rRNA & 21 proteins
- 50S- 5S and 23S rRNA & 34 proteins
-
Characterize the binding sites in the ribosome:
- P-Peptidyl Site=Binds initiator tRNA or tRNA attached to growing polypeptide (peptidyl-tRNA)
- A-Aminoacyl site (Acceptor Site)=Binds incoming aminoacyl-tRNA
- E-Exit site=Briefly binds empty tRNA before it leaves ribosome
-
Describe the following parts of the process of translation:Initiation
Involves: Ribosomal subunits, Initiation Factors (IFs), and Initiator tRNA w/ N-formyl methionine.
- Steps:fMet (N-formyl Methionine) binds to 30S.
- 30S aligns with Shine Delgarno seq and fMet binds with start/initiator codon.
- 50S binds to 30S w/ fMet at P site.
- IF3 prevents 30S binding to 50S prematurely (i.e. without mRNA).
- IF2 binds GTP to fMet and directs it to the P site of 30S.
- IF1 Helps release of IF2 and aids in binding of 50S and 30S.
-
Describe the following parts of the process of translation:Elongation
- Aminoacyl tRNA binds
- Transpeptidation reaction occurs
- Translocation: Peptidyl tRNA moves from A site to P site, Ribosome moves down 1 codon, Empty tRNA leaves P site.
- EFs:
- EFTu-delivers aminoacyl-tRNA to the site.
- EFT-Converts EFTu-GDP back to EFTu-GTP.
- EFG-Helps with translocation by carrying GTP and GDP (moving the ribosome)
-
Describe the following parts of the process of translation:Termination
- Ribosome reaches the Nonsense codon (UAA, UAG, UGA) and it occupies the A site
- Release factors aid in recognition of stop (There are 3 RFs in procaryotes)
-
Describe the process of protein folding:
Eukary- Domains fold independently right after synth. Molecular chaperones=not as important
Prokary-Polypeptide doesn't fold till after entire synth of polypeptide. Moleculare chaperones are important.
-
explain the role of chaperones:
Chaperones protect cells from thermal damage and aid in transport Xcross membranes. They also help proper folding
-
Describe the process of protein splicing and characterize inteins and exteins
- Inteins-removed portion
- Exteins- portions that remain
- Splicing-Polypeptide is removed before final shape.
-
Identify the main features of the following protein secretory pathway:Sec-dependent pathway
- Translocates proteins from cyto across or into plasma membrane.
- Secreted proteins synthed as preproteins having amino-terminal signal peptide
- -Peptide delays protein folding, chaperone proteins keep preproteins unfolded.
-
Identify the main features of the following protein secretory pathway:ABC type 1 protein secretion pathway
- From cytoplasm across plasma and outer membrane
- Secreted proteins have C-terminal secretion signals
- Gram+ bacteria use modified version of this pathway.
-
Identify the main features of the following protein secretory pathway:Pathways in gram-negative bacteria
- 5 Secretion pathways
- II and V across outer membrane (Sec Dependent)
- I, III, IV Sec-independent
-
Pathways in gram - bacteria: Type II and type V protein secretion:
- II-From periplasmic space across outer membrane
- V-Moves proteins across outer membrane, autotransporters: form channel themselves. the Proteins make their own channels.
-
Pathways in gram - bacteria: Type III and type IV protein secretion:
- III-Secretion of virulence factors in Gram - Bacteria
- From cytoplasm to outside of cell (some type III machinery is syringe shaped)
- IV- Secrete proteins and transfers DNA during Conjucation
|
|
