2.7b, 7.2, 7.3 (protein synthesis, Transcription & Translation) Flashcards
3 Structural difference between DNA and RNA
RNA has Uracil instead of thymine
RNA has 1 strand instead of 2
DNA = Deoxyribose acid
RNA = Ribonucleac acid
3 types of RNA
mRNA = carries messages between DNA to ribosome
rRNA = Ribosome made of RNA
tRNA = carries amino acids to the ribosome based on instructions from mRNA
Transcription
- Occurs before translation
- occurs in a 5’ to 3’ direction
- DNA allows the mRNA to code for different Amino acids in your body with the help of ribosomes.
- RNA polymerase binds to the promotor region of the DNA strand and separates the DNA strands.
- RNA polymerase covalently binds the nucleoside triphosphates (NTP) while releasing 2 phosphates.
- Complementary base pairing for RNA occurs (A-U & C-G)
- When Terminator signal is reached, the RNA polymerase stops and detaches from the DNA.
- RNA then detaches from DNA template and the double helix reforms by supercoiling.
- The introns are then removed from the RNA in eukaryotes to form mRNA, which is for later use in translation.
Operons
- is a sequence of DNA containing a cluster of genes under the control of a single promoter
Components of an Operon
P.R.O.G
- Promoter (RNA polymerase binds to)
- Repressor
- Operator (Segment of DNA to which a repressor protein binds)
- Genes
Lac Operon
Section of DNA working together to form lactase
1. Lactose binds w repressor removing it from the operator, changing its shape allowing RNA polymerase to make lactase and break down lactose
Example of how the environment of a cell and of an organism has an impact on gene expression
Melanin in the skin
- More sun exposure = more melanin
- Darker skin = more natural sunscreen
Nucleosomes
- Regulate transcription in eukaryotes
- Chemical tags outside histones coiled with DNA = epigenome
- Epigenomes up-regulate or down-regulate gene expression
- Epigenomes are flixible and react to the outside environment
Analysis of changes in the DNA methylation patterns
Increased methylation of DNA decreases gene expression
- Consequently, genes that are not transcribed tend to exhibit more DNA methylation than genes that are actively transcribed
Translation
8 Mark
Sites = EPA
1. mRNA binds to small subunit of a Ribosome inside the cytoplasm and reads the mRNA in 3 bases long (1 codon) at the P-Site
2. **INITIATION OCCURS: **tRNA comes along with an amino acid and binds to codon with the anticodon on the P-site
3. Start codon is always AUG, and anticodon is UAC
4. **ELONGATION OCCURS: **Second tRNA comes with a new amino acid and binds to the A site
5. **TRANSLOCATION OCCURS: **The 2 tRNA move along to the next sites, A to P and P to E, the first tRNA amino acid breaks off and binds to the second tRNA amino acid with a peptide bond
6. The cycle is repeated, new tRNA comes to A site pushing the tRNAs along forming a long polypeptide
7. **TERMINATION OCCURS: **When a stop codon appears on the A site, a releasing factor is signaled, translation stops and polypeptide forms a protein
8. rRNA finds a new mRNA, and the mRNA then breaks apart into nucleotides and goes into the nucleous.
Using a table of mRNA codons and their corresponding amino acids to deduce the sequence of amino acids coded by a short mRNA strand of known base sequence
Example: (mRNA) GUAUGCACGUGACUUUCCUCAUGAGCUGAU
Answer: (codons) GU AUG CAC GUG ACU UUC CUC AUG AGC UGA U
Answer: (amino acid) Met His Val Thr Phe Leu Met Ser STOP
Using the table, tranlate the mRNA into a polypeptide
mRNA: U G C A A U G C C U A A U G U C A G G G U U U G A U G
Free ribosomes
- synthesize proteins for use primarily within the cell.
- Float around cytoplasm and protuce proteins
Bound ribosomes
- synthesize proteins primarily for secretion or for use in lysosomes.
- Produce proteins into golgi apparatus which get packed into vessicles to be shopped out of cell
Protein structures
quaternary structure
- exists in proteins with more than one polypeptide chain.
- multiple polypeptides come together to form quaternary structure
