how proteins are made
DESCRIPTION
How Proteins are Made. I. Decoding the Information in DNA. A. Gene – sequence of DNA nucleotides within section of a chromosome that contain instructions or a code to make proteins. B. RNA – r ibo n ucleic a cid 1. Contains the sugar ribose (instead of deoxyribose ) - PowerPoint PPT PresentationTRANSCRIPT
How Proteins are Made
I. Decoding the Information in DNAA. Gene – sequence of DNA nucleotides within section
of a chromosome that contain instructions or a code to make proteins.
B. RNA – ribonucleic acid 1. Contains the sugar ribose (instead of deoxyribose) 2. Is single stranded 3. Has the base uracil (instead of thymine) 4. There are 3 types of RNA
a. mRNA – messenger RNA – a portable complement of DNA that travels from the nucleus to the ribosomeb. rRNA – ribosomal RNA – part of the structure of a ribosomec. tRNA – transfer RNA – carries or transfers a specific amino acid and contains the anticodon
II. Transcription - Transfer of Information from DNA to RNA
A. Transcription – DNA is rewritten into a complementary RNA molecule.
B. RNA nucleotides are put together with the help of RNA polymerase.
C. DNA RNAC GA UT AG C
III. The Genetic Code: Three-Nucleotide “Words”A. Codon – group of 3 nucleotides in mRNA which code
for a specific amino acid.B. Anticodon – group of three nucleotides on tRNA
molecule – is complementary to the codon in mRNA.
anticodon
IV. RNA’s Role in Translation
A. Translation – mRNA is decoded to form a chain of amino acids.
B. During Translation 1. mRNA molecule binds to a ribosome 2. tRNA molecules carry amino acids to the ribosomes
according to the codons (3 letters) of the mRNA. 3. The amino acids are joined to form a polypeptide
chain which will become a protein
The Genetic Code
V. Gene Regulation and StructureA. Gene Regulation Prokaryotic and eukaryotic cells are able to control
which genes are decoded and which are not.B. Protein Synthesis in Prokaryotes 1. In prokaryotes, gene expression is regulated by
operons. 2. Gene expression is switched off when repressor
proteins block RNA polymerase from transcribing a gene.
3. When an inducer (presence of lactose) is present it binds to the repressor and transcription can continue
C. Protein Synthesis in Eukaryotes1. Regulation of genes is more complex in eukaryotes
than prokaryotes.2. In eukaryotes, an enhancer must be activated for a
eukaryotic gene to be transcribed.3. Transcription factors regulate transcripiton by
binding to promoters and to RNA polymerase.
D. Intervening DNA in Eukaryotic Genes 1. Introns – segments of DNA that do not code for
proteins 2. Exons - segments of DNA that will be decoded and
expressed 3. After transcription, the introns are cut out and the
exons are spliced together and then translated. 4. Introns add evolutionary flexibility because introns
can cause shuffling of exons which can make new genes
VI. Mutations - Changes in DNAA. Mutations in body cells will only affect the individual
but mutations in gametes are passed on to offspring.B. Mutations can involve a change in a single nucleotide
(point mutation) or an entire gene. 1. Point mutation - a change in a single nucleotide 2. Gene rearrangement – movement of an entire gene 3. Insertion – a sizable length of DNA is inserted into a gene 4. Deletion – segments of a gene are cut 5. Frame shift mutation – mutation that causes a gene
to be read in the wrong three nucleotide sequence
The End