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Chapter 4 Sec 1 – What does DNA Look Like?. DNA stands for…. D eoxyribo n ucleic a cid. What does DNA do?. DNA stores and passes on genetic information from one generation to the next. 1950s. Rosalind Franklin and Maurice Wilkins took x-ray photographs of DNA. 1953
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DNA stands for… Deoxyribonucleic acid
What does DNA do? DNA stores and passes on genetic information from one generation to the next
1950s Rosalind Franklin and Maurice Wilkins took x-ray photographs of DNA
1953 James Watson and Francis Crick determine that DNA is a double helix
So saying that DNA is a double helix is the same as saying it’s like a twisted ladder.
The Sides of the Ladder are made up of millions of alternating sugars and phosphates. Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | Sugar | Phosphate | • The sugar is named deoxyribose. • The two sides of the ladder are held together by rungs attached to the sugars.
Rungs of ladder – each rung contains 2 bases Bases contain nitrogen so we call them nitrogenous bases The 2 bases of each rung are connected by a hydrogen bond There are 4 bases to choose from: Adenine Thymine Guanine Cytosine
Erwin Chargraff discovered that the amount of adenine always equals the amount of thymine, AND the amount of guanine always equals the amount of cytosine He concluded that a rung can either have A and T OR it can have C and G but no other combinations are possible.
Complementary Base Pairing So, if you know ONE side of the DNA, you should be able to figure out the other! Adenine always pairs with thymine. Guanine always pairs with cytosine. Thymine always pairs with adenine. Cytosine always pairs with guanine.
What is a nucleotide? A nucleotide is a small piece of DNA which contains: 1 base 1 sugar 1 phosphate Lots of nucleotides link up together to make a big DNA molecule.
DNA Replication • Process in which DNA makes an exact copy of itself • Occurs during __________________________ Interphase before Mitosis
DNA Replication is semi-conservative. saved half
Steps of DNA Replication • When it is time to replicate, the DNA unzips (at the hydrogen bonds) • New complementary nucleotides move in to match BOTH halves of the DNA and form hydrogen bonds with the old nucleotides. • Product: 2 identical DNA molecules!
Identical base sequences Important: The 2 new DNA’s are identical to each other AND identical to the original DNA because the bases are complementary.
Protein Synthesis DNA carries a code for each type of protein that your cells need.
How genes work There are 2 steps to making a protein: Transcription – the gene for the protein that you want is copied in the nucleus so that the original DNA never has to leave the nucleus. The copy goes to the ribosome. Translation – the copy of the gene is used by the ribosome to make a protein Genes carry the instructions for making proteins. Whenever a cell needs a particular protein, that gene is triggered to make a protein.
Transcription is like taking the blueprints and copying a single section about one specific part of the house.
The copy of the gene leaves the nucleus and goes to the ribosome.
Translation The second part of protein synthesis in which the amino acids that the mRNA codes for are linked together in the ribosome.
Translation is like taking the single section of blueprints that you copied and using it to build one portion of the house.
Translation: The ribosome reads the code on the copy of the gene and assembles all of the amino acids that the code calls for.
Anticodon = 3 complementary letters on tRNA (transfer RNA) The anticodon on tRNA matches up with the codon on mRNA and brings with it the amino acid that the codon codes for!
Peptide Bond = bond that connects 2 amino acids • As the tRNA’s bring amino acids to the ribosome, the amino acids connect to each other with peptide bonds. • Many amino acids connected together makes a protein.
A U G G G C U U A A A G C A G U G C A C G U U • This is a molecule of messenger RNA. • It was made in the nucleus by transcription from a DNA molecule. codon mRNA molecule
ribosome A U G G G C U U A A A G C A G U G C A C G U U A ribosome on the rough endoplasmic reticulum attaches to the mRNA molecule.
Amino acid tRNA molecule anticodon U A C A U G G G C U U A A A G C A G U G C A C G U U A transfer RNA molecule arrives. It brings an amino acid to the first three bases (codon) on the mRNA. The three unpaired bases (anticodon) on the tRNA link up with the codon.
U A C C C G A U G G G C U U A A A G C A G U G C A C G U U Another tRNA molecule comes into place, bringing a second amino acid. Its anticodon links up with the second codon on the mRNA.
Peptide bond C C G U A C A U G G G C U U A A A G C A G U G C A C G U U A peptide bond forms between the two amino acids.
C C G U A C A U G G G C U U A A A G C A G U G C A C G U U The first tRNA molecule releases its amino acid and moves off into the cytoplasm.
C C G A U G G G C U U A A A G C A G U G C A C G U U The ribosome moves along the mRNA to the next codon.
C C G A A U A U G G G C U U A A A G C A G U G C A C G U U Another tRNA molecule brings the next amino acid into place.
C C G C C G A U G G G C U U A A A G C A G U G C A C G U U A peptide bond joins the second and third amino acids to form a polypeptide chain.
G U C A C G A U G G G C U U A A A G C A G U G C A C G U U The process continues. The polypeptide chain gets longer. This continues until a termination (stop) codon is reached. The polypeptide is then complete.