DNA, RNA and Protein Synthesis TAKS Review
Structure of DNA DNA is deoxyribonucleic acid DNA is a large molecule that has subunits called nucleotides. The nucleotides come together to make the DNA molecule in the shape of a double helix (looks like a twisted ladder).
Nucleotides Nucleotides are the subunits that make up DNA and they have 3 major parts: A sugar molecule (deoxyribose sugar) A phosphate group A nitrogen base
Nitrogen bases There are 4 kinds of nitrogen bases: Adenine (A) Guanine (G) Thymine (T) Cytosine (C)
DNA Structure DNA is a double helix (twisted ladder) The handrails of the ladder are made of phosphate and sugar The rungs of the ladder are made of nitrogen bases.
Bonding Sugar and phosphate bond using covalent bonds (strong) and nitrogen bases bond using hydrogen bonds (weak) Nitrogen bases are specific: Adenine (A) always attaches to Thymine (T); and Cytosine (C) always attaches to Guanine (G) (Think apples in trees, cars in garages)
DNA Replication A review: A cell will make an exact copy of itself during a process called mitosis Before the cell can copy itself it must copy all of it’s DNA so that both daughter cells have the same number of chromosomes.
DNA replication takes place in 3 steps 1. DNA unwinds at the hydrogen bonds 2. nucleotides are added to the exposed nitrogen bases. It follows base pairing rules. (A –T and C-G) 3. The DNA winds back up producing 2 new strands.
What’s the complementary strand? If one side is CAG, what is the complementary strand? Answer: GTC If one side is AAC, what is the complementary strand? Answer: TTG
RNA vs DNA Characteristic RNA DNA Strands 1 2 Sugar molecule Ribose Deoxyribose Bases A, U, C, G A, T, C, G Found Nucleus and cytoplasm Nucleus only Building block Nucleotide
Kinds of RNA There is only one kind of DNA, but there are 3 kinds of RNA. Messenger RNA (mRNA) Transfer RNA (tRNA) Ribosomal RNA (rRNA)
Gene Expression DNA (double-stranded) Transcription RNA (single-stranded) Translation Protein (amino acid chain) http://onlinetc.its.brooklyn.cuny.edu/Core81/chap5.html#jump2
Central Dogma of Molecular Biology
Transcription= taking DNA and making an RNA copy of it Transcription= taking DNA and making an RNA copy of it. Uses complementary nucleotides. C=G, G=C, T=A, A=U http://www.wappingersschools.org/RCK/staff/teacherhp/johnson/visualvocab/mRNA.gif
The Genetic Code Remember that messenger RNA – mRNA- is a copy of the DNA. It carries instructions for making a protein. The instructions (nucleotides) have to be translated into proteins (amino acids). A sequence of three nucleotides is called a codon, and it corresponds to an amino acid. We use a codon chart for translation
Genetic Mutations
Mutation A mutation is any change in a genetic code (DNA). It may not change the resulting amino acid chain and is called a silent mutation EXAMPLE: Notice how the resulting a.a. sequence is the same in spite of the change: Original DNA: CAA CCC AAA Resulting mRNA: GUU GGG UUU Resulting amino acid: Val – Gly - Phe Mutated DNA: CAA CCC AAG Resulting mRNA GUU GGG UUC Resulting amino acid: Val – Gly – Phe
Point Mutation or Substitution Mutation A point mutation is a change in one nucleotide. It can be silent or it can cause a change in one amino acid Can be devestating if the resulting amino acid has a STOP codon inserted as a result Original DNA: ATG CCC AAA Resulting mRNA: UAC GGG UUU Resulting amino acid: Tyr – Gly - Phe Mutated DNA: ATG ACC AAA Resulting mRNA UAC UGG UUU Resulting amino acid: Tyr – Trp – Phe Mutated DNA: ATT CCC AAA Resulting mRNA: UAA GGG UUU Resulting amino acid: Stop
Insertion and Deletion Mutations Insertion – addition of one or more nucleotides Deletion – deletion of one or more nucleotides Insertion and deletion mutations are almost always devastating because it will cause a frame-shift to occur. Imagine if a sentence of 3-letter words lost a letter? Original sentence: The cat and dog are fat. A mutation occurs that deletes the c in cat. Mutated sentence: Thc ata ndd oga ref at. The same things happen to DNA when it mutates
Frame Shift Mutation Original DNA: CAT AGC TAG GAT Resulting mRNA: GUA UCG AUC CUA Resulting amino acid: Val–Ser-Ile-Leu Mutated DNA: CAA GCT AGG AT Resulting mRNA: GUU CGA UCC UA Resulting amino acid: Val-Arg-Ser-?
Mendel’s Theory and Studying Heredity
The Flower
Mendelian Theory of Heredity 2 sets of chromosomes = 2 copies of each gene Alleles—alternative forms of a gene Purple vs. white flowers Dominant allele—trait that is expressed or seen. Recessive allele—trait that is not seen. To be seen, must be present in 2 copies.
Terms and Notations Dominant alleles = capital letters Recessive alleles = lower case letters Dominant allele is always written first Homozygous individual—alleles are the same (EX: PP or pp) Heterozygous individual—alleles are different (EX: Pp)
Terms and Notations Continued Genotype—set of alleles, or genes. Phenotype—physical appearance of a trait. Genotype Phenotype PP purple flowers, homozygous dominant Pp purple flowers, heterozygous pp white flowers, homozygous recessive
Punnett Squares Diagram that predicts the outcome of a genetic cross Top represents one parent, side the other Letters in the box indicate the possible genotypes of the offspring.
Example Punnett Square ¼=YY homozygous dominant 2/4=Yy heterozygous ¼=yy homozygous recessive Yy—heterozygote Y y Y YY Yy Yy—heterozygote y Yy yy
Inheritance of Traits Pedigree—family history that shows how a trait is inherited over several generations. Helps identify carriers of genetic disorders Carriers—individuals who are heterozygous for a genetic disorder but do not show symptoms—can pass the mutant allele to their offspring
Example Pedigree Male Male with disorder Female Female with disorder