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Explore mutations and other genetic issues in this comprehensive genetics unit. Learn about different types of mutations, gene and chromosomal mutations, causes of abnormalities, and various genetic disorders. Discover how pedigrees and karyotypes are used in genetic testing, and explore the pros and cons of invasive tests like amniocentesis and chorionic villus sampling. Understand the inheritance patterns of recessive, dominant, and sex-linked disorders. Study trisomy disorders such as Down Syndrome, Patau Syndrome, and Edwards Syndrome, as well as Turner's Syndrome.
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Mutations and other genetic issues Genetics Unit
Mutations • Changes in the genetic material. • Any deviation from the normal chromosomal compliment • Two types: • Spontaneous mutations-occur randomly; no cause can be determined • Induced mutations are caused by some traceable artificial factor: exposure to chemicals, alcohol, drugs, radiation
Mutations • Mutations that produce changes in a single gene are gene mutations. • Mutations that produce changes in a whole chromosome are chromosomal mutations.
Gene Mutations • Point mutation-change in one or just a few nucleotides. So named because it occurs at a single point. • Substitutions • Deletions • Insertions
Gene Mutations • Frameshift mutation—shift the reading frame of the genetic code • Can alter a protein so much that it can’t perform its job.
Chromosomal Mutations • Involve a change in the number or structure of the chromosome • Some change the location of some genes on the chromosome • Some may change the number of copies of some genes.
Chromosomal Mutations • Four main types of mutations: • Deletion • Duplication • Inversion • translocation
Deletion • The permanent loss of a segment of chromosome • Can be found anywhere on the chromosome • Can be caused by heat, radiation, viruses, chemicals, errors
Duplication • Doubles a segment of chromosome • Can be fatal • Can be caused by uneven crossing over during meiosis or replication error before meiosis
Causes of abnormalities • Nondisjunction • The failure of the chromosome pairs to separate during Meiosis I or Meiosis II • Result will be a zygote with too many or too few chromosomes • Two types: Primary and secondary nondisjunction
Types of Genetics Tests • When trying to determine a genetic problem, we can use non-invasive tests such as • Pedigrees • Karyotypes
Pedigrees • A pedigree follows a specific trait through several generations • Resembling a type of map, the pedigree uses symbols to represent certain elements
Karyotypes • A photographic inventory of an individual’s chromosomes • Can show the individual’s gender and any abnormalities in chromosome number or structure
Amniocentesis • An invasive test that obtains amniotic fluid surrounding the fetus using a needle
Amniocentesis Pros and Cons • Able to determine fetus’ gender and/or any abnormalities • Can’t be done before 16th week of pregnancy • Can cause infection to mother and/or fetus • Can cause premature delivery and birth
CVS Pros and Cons • Can determine fetus gender and any genetic abnormalities • Can be done after 10 weeks • Can cause leakage of amniotic fluid • Can cause premature labor and delivery
Recessive Disorders • Must be inherited from BOTH parents • Autosomal recessive disorders (non-sex cells) • Tay-Sachs • PKU • Cystic fibrosis
Recessive Disorders • Tay-Sachs—lipid accumulation in the brain; mental deficiency; blindness, death in early childhood • PKU-phenylketonuria—accumulation of phenylalanine in tissues; lack of normal skin pigment; mental retardation • Cystic fibrosis—excess mucus in lungs, digestive tract, liver; increased susceptibility to infections; often die young
Dominant Disorders • Can get the disorder by inheriting only one dominant allele • Huntington’s disease • Achondroplasia
Dominant Disorders • Huntington’s Disease • Mental deterioration and uncontrollable movements • Doesn’t appear until middle age • Achondroplasia • One form of dwarfism
Sex Linked Disorders • Is there a pattern of inheritance for genes located on the X or Y chromosome? YES especially on the X • Many times it is male children that inherit these disorders from their mothers because . . . They inherit their X from their mom’s Many sex linked genes are on the X • Colorblindness • Hemophilia • Duchenne Muscular Dystrophy
Sex Linked Disorders • Colorblindness • Most often found in males • 1 in 10 males • Females have to inherit from both parents • 1 in 100 females • Most common is red-green colorblindness
Sex Linked Disorders • Hemophilia • Two genes on the X chromosome control blood clotting • Many times it is male children that inherit this from their mom’s X chromosome • 1 in 10,000 males • A bleeding disorder; can cause death in severe cases
Sex Linked Disorders • Duchenne Muscular Dystrophy • 1 in 3000 males • Progressive weakening and loss of skeletal muscle • Caused by defective version of gene that codes for a muscle protein
Genetic Disorders • Trisomy • Downs Syndrome (extra chromosome 21) • Patau Syndrome (extra chromosome 13) • Edwards Syndrome (extra chromosome 18)