Bio Unit 4: DNA/RNA, protein synthesis, mutations
building blocks of protein
amino acids (end in -ide)
tRNA word
anticodon (opposite of codon)
frameshift mutation
base is added in or deleted, so the reading frame is shifted many amino acids change, protein could end early or make it extra long
Chargaff
certain bases always occur in a 1-1 ratio: A-T and C-G
How do mutations affect the outcome of protein synthesis?
change order of bases in DNA or RNA, so number of proteins produced is changed
What are mutations?
changes in DNA/ RNA sequence
DNA word
code
mRNA word
codon
Where does translation happen?
cytoplasm and ribosomes (made of protein and rRNA)
spontaneous (random change): cause of mutations
during DNA replication (copying) when cells divide, during transcription (DNA --> mRNA)
short protein
early stop
Wilkins and Franklin
experiments, x-ray diffraction
DNA model
hydrogen bonds, base pairs (nitrogen bases A-T and G-C), nucleotide (phosphate, sugar, and base), sugar (deoxyribose), phosphate
photo 51
image taken by Rosalind Franklin that revealed the double helix in DNA, essential to the identification of the structure of DNA
chromosomal mutation
large sections of DNA are flipped around, duplicated/ copied, removed, etc not just one base! hundreds if not thousands
What is translation?
mRNA is changed into protein
similarities between DNA and RNA
nucleotides as building blocks, sugar-phosphate backbone, nitrogen bases (a, c, g, and other)
building blocks of DNA
nucleotides: deoxyribose, nitrogen base, phosphate
building blocks of RNA
nucleotides: ribose, nitrogen base, phosphate
Where does transcription happen?
nucleus (DNA can't leave nucleus bc it's too big)
How can mutations be hereditary?
occur in sex cells, sperm or egg, aka gamete
missense mutation
one base changes and one amino acid changes
silent mutation
one base changes, no change in amino acid
nonsense mutation
one base changes, results in early start
differences between DNA of different organsims
order that nitrogen bases appear on the strand, number of base pairs
nucleotide
phosphate, sugar, and base
Watson and Crick
physical models narrow down possibilities
What is protein synthesis?
process of turning DNA into protein
golgi body: role in protein synthesis/ movement of the protein to its final location
processes and packages proteins for delivery to their final location after they have been synthesized
Pauling
proteins take the shape of an alpha helix, use protein for comparison while researching DNA
mRNA: role in protein synthesis/ movement of the protein to its final location
reads DNA, exits nucleus with code
point mutations
replace one base with a different one one amino acid change, early stop of translation or no change at all
ER: role in protein synthesis/ movement of the protein to its final location
since there are many ribosomes (sites of protein synthesis) on the ER, the ER provides a large surface area on which ribosomes can be situated, therefore allowing protein synthesis to occur on a large scale
central dogma of bio
DNA --> RNA --> protein
Avery
DNA carries genetic info, DNA is the gene
What makes RNA different from DNA?
1 strand, ribose, A-U and C-G, no T in RNA
How does transcription happen?
1) enzymes unwind and unzip DNA 2) mRNA reads DNA (enzyme helps bring in nucleotides and bond them together) 3) single strand mRNA exits nucleus with code; DNA zips end winds back to normal
How does translation happen?
1) mRNA code is read 2) tRNA brings in appropriate amino acid 3) translation will stop when it reaches a stop codon
What makes DNA different from RNA?
2 strands, deoxyribose, A-T and C-G
nitrogen base
A, T, C, G
What is transcription?
DNA is changed into mRNA
mutagens: cause of mutations
External things that increase likelihood of mutations occurring, radiation, chemicals (benzene, cyanide, asbestos, etc)
stage one of protein synthesis
transcription
tRNA: role in protein synthesis/ movement of the protein to its final location
transfer RNA, brings in appropriate amino acid, has an anticodon that follows the base pairing rules to match mRNA strand
stage two of protein synthesis
translation
vesicle: role in protein synthesis/ movement of the protein to its final location
transport proteins from golgi
exocytosis: role in protein synthesis/ movement of the protein to its final location
vesicles containing protein use exocytosis to exit the cell membrane
cytoplasm: role in protein synthesis/ movement of the protein to its final location
where translation occurs
