how proteins are made
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Chapter 10. How Proteins are Made. Section 1 – From Genes to Proteins. Gene – A segment of DNA that codes for a specific protein. RNA – Ribonucleic Acid A type of nucleic acid (like DNA) Used, along with DNA, to make proteins. Section 1 – From Genes to Proteins. - PowerPoint PPT PresentationTRANSCRIPT
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HOW PROTEINS ARE MADE
Chapter 10
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Section 1 – From Genes to Proteins Gene – A segment of DNA that codes
for a specific protein. RNA – Ribonucleic Acid
A type of nucleic acid (like DNA)Used, along with DNA, to make proteins.
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Section 1 – From Genes to Proteins 3 Primary Differences of RNA vs. DNA
RNA usually has one strand, DNA has two
RNA has ribose for a sugar, DNA has deoxyribose
RNA uses Uracil instead of Thymine
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Section 1 – From Genes to Proteins Transcription – Transferring information
from DNA (the gene) to RNA. Translation – Transferring information
from RNA to make a protein.Different types of RNA are used for these
processes
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Section 1 – From Genes to Proteins Gene Expression (Protein Synthesis)
– The entire process (translation and transcription) by which proteins are made.
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Section 1 – From Genes to Proteins TRANSCRIPTION
Step 1: RNA polymerase binds to the gene’s promoter (beginning of gene).
Step 2: The two DNA strands unwind and separate – DNA helicase does this
Step 3: Complementary RNA nucleotides are added by RNA polymerase.
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Section 1 – From Genes to Proteins
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Section 1 – From Genes to Proteins There are different types of RNA used
during Gene Expression mRNA – Messenger RNA. Carries
instructions from gene (DNA) and delivers it to site of translation.Codons - RNA is written as a series of
three-nucleotide sequences. These are called Codons.
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Section 1 – From Genes to Proteins
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Chart on Test
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Section 1 – From Genes to Proteins Transfer RNA (tRNA) molecules are
single strands of RNA that temporarily carry a specific amino acid on one end.Anticodon – A three-nucleotide
sequence in tRNA that complements a codon (from mRNA)
Work with mRNA to produce amino acids.
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Section 1 – From Genes to Proteins Translation
Step 1: Ribosome attaches to mRNAStep 2: tRNA carrying amino acid attaches
to A siteStep 3: Peptide bond forms between amino
acids that have just arrived and those already in protein.
Step 4: tRNA detaches.Step 5: Repeat 2-4 until protein is completeStep 6 Ribosome detaches from mRNA.
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Section 1 – From Genes to Proteins Ribosomal RNA (rRNA) - parts of RNA
molecules that are part of the structure of ribosomes.
Ribosomes – Structures that assist in the manufacture of proteins.
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Section 2 – Gene Regulation and Structure Gene Regulation – Control of
transcription in gene expressionSpecifically, when RNA polymerase binds
to a gene Transcription Factors – Arrange RNA
Polymerases on the correct area of the promoter
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Section 2 – Gene Regulation and Structure
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Section 2 – Gene Regulation and Structure Not all segments of DNA code for proteins Introns – long segments of nucleotides
that have no coding informationCut out of mRNA by spliceosomes. Introns = Stay IN the nucleus
Exons – Segments of DNA that are expressedExons = Expressed
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Section 2 – Gene Regulation and Structure
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Section 2 – Gene Regulation and Structure Mutation – Any change in the
nucleotide sequence. There are a wide variety of mutations.
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Section 2 – Gene Regulation and Structure Point Mutation - a single nucleotide
changesSubstitution – one nucleotide replaces
another Frameshift Mutation – Anytime a
mutation causes the wrong three-nucleotide sequence to be read.Insertion – nucleotides are inserted into a
gene.Deletion - segments of a gene are lost