Topic 4
Cards (43)
- Eukaryotic DNA
- Longer
- Linear
- Associated with histones
- Prokaryotic DNA
- Circular loops
- Not associated with proteins
- Mitochondria and chloroplasts have their own circular DNA that is not wrapped around histones
- GeneSequence of DNA that codes for the amino acid sequence of a particular polypeptide and a functional RNA
- LocusThe exact position that a particular gene is found on a chromosome
- Genetic code
- Degenerate
- Universal
- Non-overlapping
- TripletA sequence of three bases on DNA that codes for a particular amino acid
- There are 20 amino acids that exist
- Introns are sequences of DNA bases that do not code for polypeptides
- Exons are sequences of DNA bases that do code for amino acids
- CodonThree bases on mRNA that code for a specific amino acid
- Start codonThree bases at the start of every gene that initiate translation
- Stop codonThree bases at the end of every gene that cause the ribosome to detach and stop translation
- GenomeAn organism's complete set of genes in a cell
- ProteomeThe full range of proteins that a cell is able to produce
- Bacteria have on average 600,000 DNA base pairs in their genome, while humans have 3 billion
- mRNAShorter than DNA, single-stranded, found in the cytoplasm and nucleus, made during transcription
- tRNAFound in the cytoplasm, has an amino acid binding site and an anticodon that is complementary to a codon on mRNA
- RibosomeHolds tRNA molecules in place to enable the joining of amino acids during translation
- Transcription1. DNA helix unwinds2. One DNA strand acts as a template3. RNA nucleotides align with complementary DNA bases4. RNA polymerase joins the RNA nucleotides5. Pre-mRNA is modified by splicing out introns6. Mature mRNA leaves the nucleus
- Translation1. mRNA binds to a ribosome2. tRNA molecules with complementary anticodons align to mRNA codons3. Amino acids are joined by peptide bonds4. Ribosome moves along mRNA one codon at a time5. Ribosome detaches at stop codon
- Gene mutationA change in the base sequence of DNA
- Chromosome mutationChanges in the number of chromosomes
- Non-disjunctionChromosomes or chromatids do not separate equally during meiosis
- PolyploidyChanges in the whole set of chromosomes, e.g. triploidy or tetraploidy
- AneuploidyChanges in the number of individual chromosomes, e.g. Down syndrome
- Meiosis1. Non-disjunction occurs2. Gametes are haploid (n) or haploid plus/minus one chromosome (n+1, n-1)3. Trisomy occurs (3 copies of a chromosome)
- Meiosis
- Two nuclear divisions
- Creates genetically different haploid gametes
- Independent segregation of homologous chromosomes
- Crossing over between homologous chromosomes
- MeiosisIntroduces genetic variation
- MitosisCreates genetically identical cells
- Identifying meiosis in an unfamiliar life cycle: look for 2n to n transition
- Genetic diversityNumber of different alleles of genes in a population
- Natural selection1. New alleles created by random mutation2. Advantageous alleles more likely to survive and reproduce3. Allele frequency changes over generations
- Types of natural selection
- Directional selection (extreme traits selected for)
- Stabilizing selection (middling traits selected for)
- SpeciesOrganisms able to produce fertile offspring
- Courtship behavior
- Unique sequence of actions for each species
- Allows identification of own species
- Synchronizes mating
- Helps select for healthy mates
- Phylogenetic classificationArranging groups by evolutionary origins and relationships
- Taxonomic hierarchy
- Domain
- Kingdom
- Phylum
- Class
- Order
- Family
- Genus
- Species
- Binomial nomenclatureUniversal system using genus and species names
- BiodiversityVariety of genes, species, and habitats in an environment