principles of Genetics2 lecture note .pptx
bahiran2728
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May 16, 2024
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About This Presentation
lecture note
Slide Content
Genetics Modified by Georgia Agriculture Education Curriculum Office June, 2002
Heredity Passing of traits from parent to offspring
Genes Gene – segment of a chromosome that contains the heredity traits of an organism
Genes Basic units of biological inheritance In pairs Contain information for making proteins
Allele Different or alternative form of a gene Occupy the same place on homologous (similar) chromosomes
Gene Expression Process of making DNA information available to the cell Highly regulated by segment of DNA called a promoter
Gene Expression Coding information is shared among segments known as exons Exons are separated from each other by introns
Gene Expression Number of introns in a gene varies greatly.
Selection Choosing parents of the next generation Chosen parents have the desired traits
Selection When reproduced, chosen traits tend to be present in offspring.
Natural Selection When only the strongest animals or plant reproduce
Selection Has allowed agriculturists to improve the quality of their livestock and crops. Offspring do not always have the traits but will more often than offspring of parents without the desired traits
Dominant and Recessive Dominant alleles mask the expression of recessive alleles. Recessive traits appears in an organism only when a dominant gene for that trait is not present.
Homozygous When both alleles for a trait are the same If both are recessive, trait is said to be homozygous recessive
Homozygous If both are dominant, trait is said to be homozygous dominant Recessive traits are masked unless in a homozygous recessive pair
Heterozygous When the alleles for a trait are different, one dominant and one recessive
Phenotype Outward, physical appearance of an organism Product of genotype and environment in which the organism lives
Genotype Genetic makeup of an organism Never observable as is phenotype May be expressed or latent
Latent Characteristic is genetically present but is not expressed
Phenotype Product of genotype plus the effects of the environment
Molecular genetics Prior to the 1970’s, genetics was evaluated based upon the physical expression of traits
Molecular genetics Mendelian or qualitative genetics – results based on qualities that individuals possessed.
Molecular genetics Quantitative genetics, actual genetic code of every living individual can be mapped and evaluated
DNA Deoxyribonucleic Acid Codes genetic information for all living things
DNA Spiraling, double stranded Consists of a ribose sugar and a phosphate backbone on each side
DNA At the core are two nucleotide bases Four nucleotides (bases) that DNA is composed of
DNA Nucleotide arrangement determined the genetic code for all beings
DNA Bases Adenine - A Guanine - G Thymine - T Cytosine - C
Bases Always pair the same way A with T C with G
DNA Bases are held together with Hydrogen bonds
Protein Synthesis Proteins are responsible for cellular function and development Essential for all living things
Protein Synthesis DNA codes for manufacture of proteins
Transcription Process of making an RNA that is complimentary to a strand of DNA
Transcription In the cell nucleus, enzymes split the DNA molecule in half at the nucleotide bonds Each single strand is known as RNA
Transcription When this occurs, the base Thymine changes to Uracil One of these strands will code for protein synthesis Known as mRNA messenger RNA
mRNA Carries DNA information from the nucleus to the ribosomes When mRNA reaches the ribosomes, translation begins.
Translation Process of a cell beginning to build a protein (amino acid) Three base pair unit binds to a complimentary unit on the mRNA – tRNA
tRNA Transfer RNA Serves as the acceptor / bridge for amino acid production
tRNA For every possible RNA three unit nucleotide combination, there is a corresponding amino acid Long chains of amino acids bind to them and become proteins.
DNA Isolation Process of extracting and separating DNA from all other cell materials
DNA Isolation Cell wall is broken open Done by grinding Digest cellular components Heating with a detergent
DNA Isolation Separate polar compounds Dissolve lipids in the nuclear membranes Extract and precipitate the DNA
DNA Isolation Remove the top aqueous layer with a pipette and place into cold absolute alcohol DNA may be spooled or collected onto a glass stirring rod
PCR Polymerase Chain Reaction Used controlled temperatures and enzyme taq polymerase to replicate pieces of DNA
PCR Allows scientists to make many copies from a few target DNA molecules Taq polymerase is the DNA replication enzyme found in bacteria that live in hydropylilic vents in the ocean
PCR Thermus aquaticus These bacteria work at very high temperatures Temperature is used to control PCR reactions
PCR Three step process Performed in a machine called a thermocycler Machine alters temperature at each step of process
PCR Process is repeated many times
PCR Process Separation 95 degrees C Annhealing – cool to 35-58 C for primers to bind to complimentary DNA regions
PCR Process Extension – warm to 72 C for Taq polymerase to build a new DNA strand from primed regions
PCR 1 st cycle= 2 copies 20 th cycle= 1,048,576 copies
Gel Electrophoresis Process of using an electrical field in agar to separate DNA and RNA based upon size
Electrophoresis First used with RNA Provides a sequence of DNA fragments Samples of DNA are loaded into a gel matrix
Electrophoresis Electric current is applied Molecular fragments separate as they are pushed through the gel
Electrophoresis Fluorescent dye is used to stain the DNA fragments Electrodes at each end of the gel create the current across the gel
Electrophoresis Since DNA is negatively charged, it travels from the negative electrode toward the positive electrode
Electrophoresis Heavier or larger DNA fragments move more slowly than smaller ones Smaller fragments will travel farther across the gel during the run
DNA Profiling Identifying an organism based on regions of DNA that vary greatly from one organism to another
DNA Profiling Used most widely today in identifying people who cannot identify themselves Murder victims
DNA Profiling Known as DNA fingerprinting No 2 individuals have identical DNA sequences except identical twins
DNA Profiling Makes it possible to identify nearly every person on earth.
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