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Fundamental Principles of Genetics. Genetics – study of heredity Gene – determinant of heredity Chapter is outline of basic principles of genetics. Cell Theory of Inheritance. Plants and animals composed of cells Plant cell – surrounded by cell wall Animal cell – surrounded by cell membrane - PowerPoint PPT Presentation
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Fundamental Principles of Genetics
•Genetics – study of heredity
•Gene – determinant of heredity
•Chapter is outline of basic principles of genetics
Cell Theory of Inheritance
•Plants and animals composed of cells
•Plant cell – surrounded by cell wall
•Animal cell – surrounded by cell membrane
•Nucleus – location of chromosomes in cell
•Chromosomes – carrier of genes
Chromosomes
• Carriers of genetic material – genes
• Occur in pairs
• Homologous chromosomes – members of a pair
• Number of chromosomes constant among normal members of a species
Chromosome Number
• Diploid (2N) numbersdonkey 62 horse 64mule 63 swine 38sheep 54 cattle 60human 46 mink 30dog 78 cat 38chicken 78
• Normal cells have diploid (2N) number• Gametes (sperm and egg) have haploid (1N)
number
Chromosomes
• Two major types–Sex chromosomes – one pair which influences sex of organism
–Autosomes – all pairs other than sex chromosomes
Sex Determination
• Mammals–Sex chromosomes are:
• female XX homogametic• male XY heterogametic
• Chickens and turkeys– Sex chromosomes are:
• female ZW heterogametic• male ZZ homogametic
Chromosomal Abnormalities
• Changes in number of chromosomes–Aneuploidy – extra or missing chromosome
–Polyploidy – extra or missing sets of chromosomes
• Usually lethal in animals–Except aneuploidy of very small chromosomes (eg Down Syndrome in humans is extra #21)
Chromosomal Abnormalities
• Changes in chromosome structure–Deletion – piece of chromosome removed
–Duplication – piece of chromosome duplicated
–Translocation – exchange of material between different chromosomes
–Inversion – segment of chromosome reversed
Chromosomal Abnormalities
• Changes in chromosome structure–Cause loss of fertility
–Amount of loss dependent on type of change and importance of the affected segment of the chromosome
Cell Division
• Two types–Mitosis – division of normal body cells
– Results in production of two identical diploid cells
–Meiosis – division of germinal cells to produce gametes (sperm and egg)
-Results in production of four different haploid cells
Cell Division
• Mitosis–Cell division of normal body cells
–Each daughter cell has same genetic complement as original cell
Cell Division
• Mitosis–Four phases
• Prophase – Chromosomes become visible• Metaphase – Chromosomes line up across cell center• Anaphase – Sister chromatids separate• Telophase – Chromosomes condense and new nucleus
is formed
–Interphase – period between cell divisions–Cytokinesis – the actual division of the cell
Mitosis
18. G2 Phase – Preparation
19. Prophase
20. Metaphase
21. Anaphase
22. Telophase
23. Cytokinesis 24. G1 Phase - Cell Growth
25. S Phase - Replication
Mitosis -- Meiosis
Cell Division
• Meiosis–Division in germinal cells to produce sperm and egg
–Each cell that results has 1N number of chromosomes (half of number of chromosomes in body cells
Cell Division
• Meiosis–Two cycles of:
• Prophase• Metaphase• Anaphase• Telophase
–Results in four cells with 1N number
Cell Division
• Meiosis–Spermatogenesis – meiotic production of sperm cells
–Oogenesis – meiotic production of egg cells
The Gene
• Composed of DNA – deoxyribonucleic acid
• Large double stranded polymer of units called nucleotides
• Nucleotide –Sugar – deoxyribose–Phosphate group–Nitrogeneous base
• adenine guanine• cytosine thymine
DNAhttp://www.youtube.com/watch?v=qy8dk5iS1f0
http://www.youtube.com/watch?v=hfZ8o9D1tus
http://www.youtube.com/watch?v=OtYz_3rkvPk
Transcription of RNA
• Bases in DNA code for transcription of RNA
• RNA – ribonucleic acid–Also nucleic acid–Single stranded–Uracil instead of thymine–Ribose instead of deoxyribose
RNA
• Three primary types of RNA
• Messenger RNA–Transfers code from DNA to protein synthesis
• Transfer RNA–Carries amino acids to the ribosome
• Ribosomal RNA–Forms part of the structure of the ribosome
Genetic Code
• Each amino acid coded by a three base sequence (codon)
• Most amino acids have more than one codon
• One codon specifies beginning of a protein
• Three codons specify the end of a protein
Interactions Between Genes
• Epistasis–Two or more gene pairs in which one gene pair influences expression of another gene pair
• Horned, polled, scurred–Two gene pairs (horned vs polled) (smooth vs scurred)
–If horned – scurred vs smooth does not matter
–If polled – scurred vs smooth can express
Genes and Embryological Development
• After union of sperm and egg–Cell division occurs
–Early development - all cells are alike
–Subsequent development – cells differentiate
–Embryological development is genetically controlled
Genes and Embryological Development
• Lethal genes–Genes which stop development
–Many must be received from both parents to cause death
–Cause of high percentage of embryonic death
Biotechnology
• Biotechnology–All technologies that pertain to molecular manipulation of living material
–Very difficult word to characterize
• Genetic engineering–New methods for modifying the animal genome
Transgenesis
• Transgenesis–Movement of genes from one species into another
–First use – development of mouse with extra genes for growth hormone
Genetic Engineering in Plants
• Round-up-ready crops–Several crop species have been engineered to be resistant to the herbicide Round-up
• Bt crops–Corn and cotton have genes from a microbe that causes them to be resistant to corn borer and boll weevil
• Flavr-Savr tomato–Gene altered to lengthen shelf life
Cloning
• Clone – genetic identical–Identical twins are clones
–Cloning by embryo splitting has been available for several years
• Cloning from an adult DNA donor not possible until “Dolly”
Cloning
• Dolly–Developed at Roslin Institute
–Sheep cloned from cells from adult ewe mammary gland
–Cells had to be “started over” to remove results of cell differentiation
Cloning
• Potential uses for cloning in animals–Limited importance in routine livestock improvement
–Combine with transgenesis to produce animals with unique genetic makeup• transgenesis to create first copy of animal with
specific gene inserted • cloning to make multiple copies of that animal
Marker Assisted Selection
• Current selection –Based on actual traits measured in animals
• Marker assisted selection–Based on identification of genetic markers that are associated with performance traits
–Can be applied as soon as appropriate tissue (blood, skin etc) can be obtained
–Shortens time to obtain information for choosing superior parents
Mutation
• Mutation – change in the base sequence–May result in change in amino acid sequence in protein
–May result in change in the phenotype
–Change is usually detrimental
–Only source of new genetic material
Phenotypic Expression of Genes
• Phenotype = Genotype + Environment
• Gene action varies among different genes
• Dominance relationships vary widely
Phenotypic Expression of Genes• Dominant and recessive
• Color in AngusGenotype Phenotype
BB BlackBb Blackbb Red
–Black is dominant to red–Red is recessive
–BB or bb – homozygous–Bb - heterozygous
Phenotypic Expression of Genes
• Lack of dominance
• Color in Shorthorns
Genotype PhenotypeBB RedBb Roanbb White
• Both red and white are expressed in heterozygote
Sex-linked Inheritance
• Some genes on the sex chromosomes
• Inheritance pattern affected because males have only one X chromosome
• Hemophilia in humans•Deficiency in ability for blood to clot
Sex-influenced Inheritance
• Inheritance that is affected by sex of individual
• eg. scurs - dominant in males, recessive in females
• eg. horns in sheep – dominant in males, recessive in females
Sex-limited Inheritance
• Some traits express in only one sex
• Female–Milk production, egg production, age at first estrus
• Male–Scrotal circumference
Genome Project
• Human Genome project –Initiated by National Institutes of Health and Department of Energy
–Large multi-year, multi-location project to map the human genome
• Other genome projects –Cattle, sheep, swine, horses, dogs, cats, turkeys, chickens, mice and many other species