What is the VEBntral dogma of molecular biology?
From DNA to RNA to proteins
What is the difference between DNR and RNA?/ why can’t we just use RNA?
double strand vs single strand
DNA is stable and needs to be protected
RNA needs to be open and available (for transcription and folding)
What are characteristics of the prokaryotic transcription
Sigma factor initiates the prokaryotic transcription: recognises the consensus sequence (-35, -10=TATA)
It recruits the RNA polymerase to the Promotor
RNA polymerase unwinds DNA and begins transcription
Elongation: the Polymerase loses interaction with Sigma and promoter after appr. 10 nukleotids
Termination: Signal is encoded in the DNA and causes a structure in the transcript which destabilises the Polymerase
What is the directionality of the RNA polymerase?
transcribes 3ˋ-> 5ˋ
A gene can be transcribed in both directions
Does bodirectional transcription also occur in mammals?
Yes
Describe the Eukaryotic transcription initiation
Initiation: the transcription factor and the TBP (transcription factor binding protein: for distortion of the DNA) bind together to the TATA box-> this forms the pre-initiation complex
Then a variety of additional TF bind to the complex
What are the steps in eukaryotic transcription?
Pre-initiation: the assembly of basal transcription factors and the recruitment of the RNA Polymerase2
opens the DNA and positions the RNA Polymerase 2 for transcription
Initiation /promotor clearance: beginning of the transcription
Elongation: Production of the transcript
Termination: ˋstoppingˋ of transcription
The mRNA transcription is the Moabit regulatory step in the expression of most eukaryotic genes
Describe the Preinitiation Complex (PIC)
First, TF2D (incl. TBP +TAF) binds to TATA
TF2A +TF2B stabilise binding of TF2D. They complete the platform for RNA Pol2 to bind
TF2F directly interacts with RNA-Pol 2 and guides it to the promoter
TF2E helps open Pol2 and enables movement down the DNA-Helikase-activity
TF2H: helical activity (unwinds the DNA) and CTD kinase activity
Mediator (a large multiprotein complex) is recruited by enhancers (upstream or downstream) to regulate Pol II activity
What happens during promoter clearance?
CDK 7 phosphorylates Ser5 of the CTD inducing the dissolve of the RNA-Pol 2 from the platform
The ser5 phosphorylation allows for the binding of specific proteins involved in promoter release (as well as proteins involved in other processes such as capping)
What happens in the Elongation of eukaryotic cells?
several transcription elongation factors bind to the initiation complex
P-TEFb (positive transcription elongation factor b): consists of the CDK9 kinase that associates either with cyclin T1, T2a, T2b or K
CDK9 phosphorylates Ser2 of the CTD
The Ser2 phosphorylation serves as a docking site for other proteins involved in various steps of transcription and mRNA processing
What is an enhancer?
Enhancers are clusters of DNA binding sites for transcription independent of their orientation and at distances as great as 85kb from start sites.
What is a silencer?
Sequences that can repress promoter activity in an orientation- and position -independent manner. These may function by altering the chromatin structure over a larger region. It can decrease the expression of multiple genes within a specific region.
What are locus control regions (LCRs)?
A group of enhancers. Like silencers, LCRs may affect the transcription of multiple genes
What is the role of Insulators?
Insulators serve as a barrier between different elements. For example, an insulator can serve as a barrier between a silencer and an enhancer, thus allowing the enhancer to activate gene expression.
What is a Mediator?
A Mediator is a large multi-subunit protein complex which aids in the recruitment and release of RNA Pol 2.
Many different transcription factors interact with the mediator to regulate the transcription.
mRNA production in Prokaryotes vs Eukaryotes
Prokaryotes
bi- and Multi- cistronic
Eukaryotes
Introns
alternative splicing produces multiple RNAs from a single gene
5’ capping
3´ processing (polyadenylation)
Transport from nucleus into Cytoplasm
Potential regulatory levels for control of gene expression
What are the characteristics of TF?
Bind to DNA without unwinding it (mostlyhydrogen bonding in major groove)
Specific AA of TF interact with the DNA
TF recognise defined DNA sequences
Name binding domains of TF
Helix-Turn-Helix
Binds to major groove
often dimerize -> more specifity
Homeodomain proteins
contacts major and minor groove
Incl helix-turn-helix domain
Zinc finger
often multiple fingers
ß-sheets
DNA recognition through a two-stranded ß sheet
Feedback mechanism
Leucine zipper
dimerisation -> Y shape
homodimerization + heterodimerization -> various interactions
Can provide hydrophobic interaction
Coiled coil interaction between two alpha-helices
What is the function of AA side chains?
AA side chains determine DNA binding specifitiy
AA side chains can provide specific interactions with the DNA bases to provide sequence specific recognition
Primarily occurs in the major groove
Changes in AA sequence of uinc fingers determines sequence recognition
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